/** Sessions managment - you'll find things here which you wouldn't expect * @file */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #ifdef HAVE_STDINT_H #include #endif #include #include #include #include "elinks.h" #include "bfu/dialog.h" #include "bookmarks/bookmarks.h" #include "cache/cache.h" #include "config/home.h" #include "config/options.h" #include "dialogs/menu.h" #include "dialogs/status.h" #include "document/document.h" #include "document/html/frames.h" #include "document/html/iframes.h" #include "document/refresh.h" #include "document/renderer.h" #include "document/view.h" #include "globhist/globhist.h" #include "intl/libintl.h" #include "main/event.h" #include "main/object.h" #include "main/timer.h" #include "network/connection.h" #include "network/state.h" #include "osdep/newwin.h" #include "protocol/http/blacklist.h" #include "protocol/protocol.h" #include "protocol/uri.h" #ifdef CONFIG_SCRIPTING_SPIDERMONKEY # include "scripting/smjs/smjs.h" #endif #include "session/download.h" #include "session/history.h" #include "session/location.h" #include "session/session.h" #include "session/task.h" #include "terminal/tab.h" #include "terminal/terminal.h" #include "terminal/window.h" #include "util/conv.h" #include "util/error.h" #include "util/memlist.h" #include "util/memory.h" #include "util/string.h" #include "util/time.h" #include "viewer/text/draw.h" #include "viewer/text/form.h" #include "viewer/text/link.h" #include "viewer/text/view.h" #include "viewer/text/search.h" struct file_to_load { LIST_HEAD(struct file_to_load); struct session *ses; unsigned int req_sent:1; int pri; struct cache_entry *cached; char *target_frame; struct uri *uri; struct download download; }; /** This structure and related functions are used to maintain information * for instances opened in new windows. We store all related session info like * URI and base session to clone from so that when the new instance connects * we can look up this information. In case of failure the session information * has a timeout */ struct session_info { LIST_HEAD(struct session_info); int id; timer_id_T timer; struct session *ses; struct uri *uri; struct uri *referrer; enum task_type task; cache_mode_T cache_mode; }; #define file_to_load_is_active(ftl) ((ftl)->req_sent && is_in_progress_state((ftl)->download.state)) INIT_LIST_OF(struct session, sessions); remote_session_flags_T remote_session_flags; static struct file_to_load *request_additional_file(struct session *, const char *, struct uri *, int); static window_handler_T tabwin_func; static INIT_LIST_OF(struct session_info, session_info); static int session_info_id = 1; static struct session_info * get_session_info(int id) { struct session_info *info; foreach (info, session_info) { struct session *ses; if (info->id != id) continue; /* Make sure the info->ses session is still with us. */ foreach (ses, sessions) if (ses == info->ses) return info; info->ses = NULL; return info; } return NULL; } static void done_session_info(struct session_info *info) { del_from_list(info); kill_timer(&info->timer); if (info->uri) done_uri(info->uri); if (info->referrer) done_uri(info->referrer); mem_free(info); } void done_saved_session_info(void) { while (!list_empty(session_info)) done_session_info((struct session_info *)session_info.next); } /** Timer callback for session_info.timer. As explained in install_timer(), * this function must erase the expired timer ID from all variables. */ static void session_info_timeout(int id) { struct session_info *info = get_session_info(id); if (!info) return; info->timer = TIMER_ID_UNDEF; /* The expired timer ID has now been erased. */ done_session_info(info); } int add_session_info(struct session *ses, struct uri *uri, struct uri *referrer, cache_mode_T cache_mode, enum task_type task) { struct session_info *info = (struct session_info *)mem_calloc(1, sizeof(*info)); if (!info) return -1; info->id = session_info_id++; /* I don't know what a reasonable start up time for a new instance is * but it won't hurt to have a few seconds atleast. --jonas */ install_timer(&info->timer, (milliseconds_T) 10000, (void (*)(void *)) session_info_timeout, (void *) (intptr_t) info->id); info->ses = ses; info->task = task; info->cache_mode = cache_mode; if (uri) info->uri = get_uri_reference(uri); if (referrer) info->referrer = get_uri_reference(referrer); add_to_list(session_info, info); return info->id; } static struct session * init_saved_session(struct terminal *term, int id) { struct session_info *info = get_session_info(id); struct session *ses; if (!info) return NULL; ses = init_session(info->ses, term, info->uri, 0); if (!ses) { done_session_info(info); return ses; } /* Only do the ses_goto()-thing for target=_blank. */ if (info->uri && info->task != TASK_NONE) { /* The init_session() call would have started the download but * not with the requested cache mode etc. so interrupt that * download . */ abort_loading(ses, 1); ses->reloadlevel = info->cache_mode; set_session_referrer(ses, info->referrer); ses_goto(ses, info->uri, NULL, NULL, info->cache_mode, info->task, 0); } done_session_info(info); return ses; } static struct session * get_master_session(void) { struct session *ses; foreach (ses, sessions) if (ses->tab->term->master) { struct window *current_tab = get_current_tab(ses->tab->term); return (struct session *)(current_tab ? current_tab->data : NULL); } return NULL; } /** @relates session */ struct download * get_current_download(struct session *ses) { struct download *download = NULL; if (!ses) return NULL; if (ses->task.type) download = &ses->loading; else if (have_location(ses)) download = &cur_loc(ses)->download; if (download && is_in_state(download->state, S_OK)) { struct file_to_load *ftl; foreach (ftl, ses->more_files) if (file_to_load_is_active(ftl)) return &ftl->download; } /* Note that @download isn't necessarily NULL here, * if @ses->more_files is empty. -- Miciah */ return download; } static void done_retry_connection_without_verification(void *data) { struct delayed_open *deo = (struct delayed_open *)data; if (deo) { done_uri(deo->uri); mem_free(deo); } } static void retry_connection_without_verification(void *data) { struct delayed_open *deo = (struct delayed_open *)data; if (deo) { if (deo->uri->hostlen) { add_blacklist_entry(deo->uri, SERVER_BLACKLIST_NO_CERT_VERIFY); } goto_uri(deo->ses, deo->uri); done_uri(deo->uri); mem_free(deo); } } void print_error_dialog(struct session *ses, struct connection_state state, struct uri *uri, connection_priority_T priority) { struct string msg; char *uristring; /* Don't show error dialogs for missing CSS stylesheets */ if (priority == PRI_CSS || !init_string(&msg)) return; uristring = uri ? get_uri_string(uri, URI_PUBLIC) : NULL; if (uristring) { #ifdef CONFIG_UTF8 if (ses->tab->term->utf8_cp) decode_uri(uristring); else #endif /* CONFIG_UTF8 */ decode_uri_for_display(uristring); add_format_to_string(&msg, _("Unable to retrieve %s", ses->tab->term), uristring); mem_free(uristring); add_to_string(&msg, ":\n\n"); } add_to_string(&msg, get_state_message(state, ses->tab->term)); if (!uri || (uri->protocol != PROTOCOL_HTTPS && uri->protocol != PROTOCOL_GEMINI)) { info_box(ses->tab->term, MSGBOX_FREE_TEXT, N_("Error"), ALIGN_CENTER, msg.source); } else { struct delayed_open *deo = (struct delayed_open *)mem_calloc(1, sizeof(*deo)); if (!deo) return; add_to_string(&msg, "\n\n"); add_to_string(&msg, N_("Retry without verification?")); deo->ses = ses; deo->uri = get_uri_reference(uri); msg_box(ses->tab->term, NULL, MSGBOX_FREE_TEXT, N_("Error"), ALIGN_CENTER, msg.source, deo, 2, MSG_BOX_BUTTON(N_("~Yes"), retry_connection_without_verification, B_ENTER), MSG_BOX_BUTTON(N_("~No"), done_retry_connection_without_verification, B_ESC)); } /* TODO: retry */ } static void abort_files_load(struct session *ses, int interrupt) { while (1) { struct file_to_load *ftl; int more = 0; foreach (ftl, ses->more_files) { if (!file_to_load_is_active(ftl)) continue; more = 1; cancel_download(&ftl->download, interrupt); } if (!more) break; }; } void free_files(struct session *ses) { struct file_to_load *ftl; abort_files_load(ses, 0); foreach (ftl, ses->more_files) { if (ftl->cached) object_unlock(ftl->cached); if (ftl->uri) done_uri(ftl->uri); mem_free_if(ftl->target_frame); } free_list(ses->more_files); } static void request_frameset(struct session *, struct frameset_desc *, int); static void request_frame(struct session *ses, char *name, struct uri *uri, int depth) { struct location *loc = cur_loc(ses); struct frame *frame; assertm(have_location(ses), "request_frame: no location"); if_assert_failed return; foreach (frame, loc->frames) { struct document_view *doc_view; if (c_strcasecmp(frame->name, name)) continue; foreach (doc_view, ses->scrn_frames) { if (doc_view->vs == &frame->vs && doc_view->document->frame_desc) { request_frameset(ses, doc_view->document->frame_desc, depth); return; } } request_additional_file(ses, name, frame->vs.uri, PRI_FRAME); return; } frame = (struct frame *)mem_calloc(1, sizeof(*frame)); if (!frame) return; frame->name = stracpy(name); if (!frame->name) { mem_free(frame); return; } init_vs(&frame->vs, uri, -1); add_to_list(loc->frames, frame); request_additional_file(ses, name, frame->vs.uri, PRI_FRAME); } static void request_iframe(struct session *ses, char *name, struct uri *uri, int depth) { struct location *loc = cur_loc(ses); struct frame *iframe; assertm(have_location(ses), "request_frame: no location"); if_assert_failed return; foreach (iframe, loc->iframes) { if (c_strcasecmp(iframe->name, name)) continue; request_additional_file(ses, name, iframe->vs.uri, PRI_IFRAME); return; } iframe = (struct frame *)mem_calloc(1, sizeof(*iframe)); if (!iframe) return; iframe->name = stracpy(name); if (!iframe->name) { mem_free(iframe); return; } init_vs(&iframe->vs, uri, -1); add_to_list(loc->iframes, iframe); request_additional_file(ses, name, iframe->vs.uri, PRI_IFRAME); } static void request_frameset(struct session *ses, struct frameset_desc *frameset_desc, int depth) { int i; if (depth > HTML_MAX_FRAME_DEPTH) return; depth++; /* Inheritation counter (recursion brake ;) */ for (i = 0; i < frameset_desc->n; i++) { struct frame_desc *frame_desc = &frameset_desc->frame_desc[i]; if (frame_desc->subframe) { request_frameset(ses, frame_desc->subframe, depth); } else if (frame_desc->name && frame_desc->uri) { request_frame(ses, frame_desc->name, frame_desc->uri, depth); } } } static void request_iframes(struct session *ses, struct iframeset_desc *iframeset_desc, int depth) { int i; if (depth > HTML_MAX_FRAME_DEPTH) return; depth++; /* Inheritation counter (recursion brake ;) */ for (i = 0; i < iframeset_desc->n; i++) { struct iframe_desc *iframe_desc = &iframeset_desc->iframe_desc[i]; if (iframe_desc->uri) { request_iframe(ses, iframe_desc->name, iframe_desc->uri, depth); } } } #ifdef CONFIG_CSS static inline void load_css_imports(struct session *ses, struct document_view *doc_view) { struct document *document = doc_view->document; struct uri *uri; int index; if (!document) return; foreach_uri (uri, index, &document->css_imports) { request_additional_file(ses, "", uri, PRI_CSS); } } #else #define load_css_imports(ses, doc_view) #endif #ifdef CONFIG_ECMASCRIPT static inline void load_ecmascript_imports(struct session *ses, struct document_view *doc_view) { struct document *document = doc_view->document; struct uri *uri; int index; if (!document) return; foreach_uri (uri, index, &document->ecmascript_imports) { request_additional_file(ses, "", uri, /* XXX */ PRI_CSS); } } #else #define load_ecmascript_imports(ses, doc_view) #endif static void load_iframes(struct session *ses, struct document_view *doc_view) { struct document *document = doc_view->document; if (!document || !document->iframe_desc) return; request_iframes(ses, document->iframe_desc, 0); } NONSTATIC_INLINE void load_frames(struct session *ses, struct document_view *doc_view) { struct document *document = doc_view->document; if (!document || !document->frame_desc) return; request_frameset(ses, document->frame_desc, 0); foreach (doc_view, ses->scrn_frames) { load_css_imports(ses, doc_view); load_ecmascript_imports(ses, doc_view); } } /** Timer callback for session.display_timer. As explained in install_timer(), * this function must erase the expired timer ID from all variables. */ void display_timer(struct session *ses) { timeval_T start, stop, duration; milliseconds_T t; timeval_now(&start); draw_formatted(ses, 3); timeval_now(&stop); timeval_sub(&duration, &start, &stop); t = mult_ms(timeval_to_milliseconds(&duration), DISPLAY_TIME); if (t < DISPLAY_TIME_MIN) t = DISPLAY_TIME_MIN; install_timer(&ses->display_timer, t, (void (*)(void *)) display_timer, ses); /* The expired timer ID has now been erased. */ load_frames(ses, ses->doc_view); load_css_imports(ses, ses->doc_view); load_ecmascript_imports(ses, ses->doc_view); load_iframes(ses, ses->doc_view); process_file_requests(ses); } struct questions_entry { LIST_HEAD(struct questions_entry); void (*callback)(struct session *, void *); void *data; }; INIT_LIST_OF(struct questions_entry, questions_queue); void check_questions_queue(struct session *ses) { while (!list_empty(questions_queue)) { struct questions_entry *q = (struct questions_entry *)questions_queue.next; q->callback(ses, q->data); del_from_list(q); mem_free(q); } } void add_questions_entry(void (*callback)(struct session *, void *), void *data) { struct questions_entry *q = (struct questions_entry *)mem_alloc(sizeof(*q)); if (!q) return; q->callback = callback; q->data = data; add_to_list(questions_queue, q); } #ifdef CONFIG_SCRIPTING void maybe_pre_format_html(struct cache_entry *cached, struct session *ses) { struct fragment *fragment; static int pre_format_html_event = EVENT_NONE; if (!cached || cached->preformatted) return; /* The script called from here may indirectly call * garbage_collection(). If the refcount of the cache entry * were 0, it could then be freed, and the * cached->preformatted assignment at the end of this function * would crash. Normally, the document has a reference to the * cache entry, and that suffices. However, if the cache * entry was loaded to satisfy e.g. USEMAP="imgmap.html#map", * then cached->object.refcount == 0 here, and must be * incremented. * * cached->object.refcount == 0 is safe while the cache entry * is being loaded, because garbage_collection() calls * is_entry_used(), which checks whether any connection is * using the cache entry. But loading has ended before this * point. */ object_lock(cached); fragment = get_cache_fragment(cached); if (!fragment) goto unlock_and_return; /* We cannot do anything if the data are fragmented. */ if (!list_is_singleton(cached->frag)) goto unlock_and_return; set_event_id(pre_format_html_event, "pre-format-html"); trigger_event(pre_format_html_event, ses, cached); /* XXX: Keep this after the trigger_event, because hooks might call * normalize_cache_entry()! */ cached->preformatted = 1; unlock_and_return: object_unlock(cached); } #endif static int check_incomplete_redirects(struct cache_entry *cached) { assert(cached); cached = follow_cached_redirects(cached); if (cached && !cached->redirect) { /* XXX: This is not quite true, but does that difference * matter here? */ return cached->incomplete; } return 0; } int session_is_loading(struct session *ses) { struct download *download = get_current_download(ses); if (!download) return 0; if (!is_in_result_state(download->state)) return 1; /* The validness of download->cached (especially the download struct in * ses->loading) is hard to maintain so check before using it. * Related to bug 559. */ if (download->cached && cache_entry_is_valid(download->cached) && check_incomplete_redirects(download->cached)) return 1; return 0; } #ifdef CONFIG_ECMASCRIPT void doc_rerender_after_document_update(struct session *ses) { /** This is really not nice. But that's the way ** how to display the final Javascript render ** taken from toggle_plain_html(ses, ses->doc_view, 0); ** This is toggled */ assert(ses && ses->doc_view && ses->tab && ses->tab->term); if_assert_failed { return; } if (ses->doc_view->document->ecmascript_counter > 0) { if (ses->doc_view->vs) { draw_formatted(ses, 3); //DBG("REDRAWING..."); } } } #endif void doc_loading_callback(struct download *download, struct session *ses) { int submit = 0; if (is_in_result_state(download->state)) { #ifdef CONFIG_SCRIPTING maybe_pre_format_html(download->cached, ses); #endif kill_timer(&ses->display_timer); draw_formatted(ses, 1); #ifdef CONFIG_ECMASCRIPT /* This is implemented to rerender the document * in case it was modified by document.replace * or document write */ doc_rerender_after_document_update(ses); #endif if (get_cmd_opt_bool("auto-submit")) { if (!list_empty(ses->doc_view->document->forms)) { get_cmd_opt_bool("auto-submit") = 0; submit = 1; } } load_frames(ses, ses->doc_view); load_css_imports(ses, ses->doc_view); load_ecmascript_imports(ses, ses->doc_view); process_file_requests(ses); start_document_refreshes(ses); if (!is_in_state(download->state, S_OK)) { print_error_dialog(ses, download->state, ses->doc_view->document->uri, download->pri); } } else if (is_in_transfering_state(download->state) && ses->display_timer == TIMER_ID_UNDEF) { display_timer(ses); } check_questions_queue(ses); print_screen_status(ses); #ifdef CONFIG_GLOBHIST if (download->pri != PRI_CSS) { char *title = ses->doc_view->document->title; struct uri *uri; if (download->conn) uri = download->conn->proxied_uri; else if (download->cached) uri = download->cached->uri; else uri = NULL; if (uri) add_global_history_item(struri(uri), title, time(NULL)); } #endif if (submit) auto_submit_form(ses); } static void file_loading_callback(struct download *download, struct file_to_load *ftl) { if (ftl->download.cached && ftl->cached != ftl->download.cached) { if (ftl->cached) object_unlock(ftl->cached); ftl->cached = ftl->download.cached; object_lock(ftl->cached); } /* FIXME: We need to do content-type check here! However, we won't * handle properly the "Choose action" dialog now :(. */ if (ftl->cached && !ftl->cached->redirect_get && download->pri != PRI_CSS) { struct session *ses = ftl->ses; struct uri *loading_uri = ses->loading_uri; char *target_frame = null_or_stracpy(ses->task.target.frame); ses->loading_uri = ftl->uri; mem_free_set(&ses->task.target.frame, null_or_stracpy(ftl->target_frame)); setup_download_handler(ses, &ftl->download, ftl->cached, 1 + (download->pri == PRI_IFRAME)); ses->loading_uri = loading_uri; mem_free_set(&ses->task.target.frame, target_frame); } doc_loading_callback(download, ftl->ses); } static struct file_to_load * request_additional_file(struct session *ses, const char *name, struct uri *uri, int pri) { struct file_to_load *ftl; if (uri->protocol == PROTOCOL_UNKNOWN) { return NULL; } /* XXX: We cannot run the external handler here, because * request_additional_file() is called many times for a single URL * (normally the foreach() right below catches them all). Anyway, * having would be just weird, wouldn't it? * --pasky */ if (get_protocol_external_handler(ses->tab->term, uri)) { return NULL; } foreach (ftl, ses->more_files) { if (compare_uri(ftl->uri, uri, URI_BASE)) { if (ftl->pri > pri) { ftl->pri = pri; move_download(&ftl->download, &ftl->download, pri); } return NULL; } } ftl = (struct file_to_load *)mem_calloc(1, sizeof(*ftl)); if (!ftl) return NULL; ftl->uri = get_uri_reference(uri); ftl->target_frame = stracpy(name); ftl->download.callback = (download_callback_T *) file_loading_callback; ftl->download.data = ftl; ftl->pri = pri; ftl->ses = ses; add_to_list(ses->more_files, ftl); return ftl; } static void load_additional_file(struct file_to_load *ftl, cache_mode_T cache_mode) { struct document_view *doc_view = current_frame(ftl->ses); struct uri *referrer = doc_view && doc_view->document ? doc_view->document->uri : NULL; load_uri(ftl->uri, referrer, &ftl->download, ftl->pri, cache_mode, -1); } void process_file_requests(struct session *ses) { if (ses->status.processing_file_requests) return; ses->status.processing_file_requests = 1; while (1) { struct file_to_load *ftl; int more = 0; foreach (ftl, ses->more_files) { if (ftl->req_sent) continue; ftl->req_sent = 1; load_additional_file(ftl, CACHE_MODE_NORMAL); more = 1; } if (!more) break; }; ses->status.processing_file_requests = 0; } static void dialog_goto_url_open(void *data) { dialog_goto_url((struct session *) data, NULL); } /** @returns 0 if the first session was not properly initialized and * setup_session() should be called on the session as well. */ static int setup_first_session(struct session *ses, struct uri *uri) { /* [gettext_accelerator_context(setup_first_session)] */ struct terminal *term = ses->tab->term; if (!*get_opt_str("protocol.http.user_agent", NULL)) { info_box(term, 0, N_("Warning"), ALIGN_CENTER, N_("You have an empty string in protocol.http.user_agent - " "this was a default value in the past, substituted by " "default ELinks User-Agent string. However, currently " "this means that NO User-Agent HEADER " "WILL BE SENT AT ALL - if this is really what you want, " "set its value to \" \", otherwise please delete the line " "with this setting from your configuration file (if you " "have no idea what I'm talking about, just do this), so " "that the correct default setting will be used. Apologies for " "any inconvience caused.")); } if (!get_opt_bool("config.saving_style_w", NULL)) { struct option *opt = get_opt_rec(config_options, "config.saving_style_w"); opt->value.number = 1; option_changed(ses, opt); if (get_opt_int("config.saving_style", NULL) != 3) { info_box(term, 0, N_("Warning"), ALIGN_CENTER, N_("You have option config.saving_style set to " "a de facto obsolete value. The configuration " "saving algorithms of ELinks were changed from " "the last time you upgraded ELinks. Now, only " "those options which you actually changed are " "saved to the configuration file, instead of " "all the options. This simplifies our " "situation greatly when we see that some option " "has an inappropriate default value or we need to " "change the semantics of some option in a subtle way. " "Thus, we recommend you change the value of " "config.saving_style option to 3 in order to get " "the \"right\" behaviour. Apologies for any " "inconvience caused.")); } } if (first_use) { /* Only open the goto URL dialog if no URI was passed on the * command line. */ void (*handler)(void *) = uri ? NULL : dialog_goto_url_open; first_use = 0; msg_box(term, NULL, 0, N_("Welcome"), ALIGN_CENTER, N_("Welcome to ELinks!\n\n" "Press ESC for menu. Documentation is available in " "Help menu."), ses, 1, MSG_BOX_BUTTON(N_("~OK"), (void (*)(void *))handler, B_ENTER | B_ESC)); /* If there is no URI the goto dialog will pop up so there is * no need to call setup_session(). */ if (!uri) return 1; #ifdef CONFIG_BOOKMARKS } else if (!uri && get_opt_bool("ui.sessions.auto_restore", NULL)) { char *folder; /* UTF-8 */ folder = get_auto_save_bookmark_foldername_utf8(); if (folder) { open_bookmark_folder(ses, folder); mem_free(folder); } return 1; #endif } /* If there's a URI to load we have to call */ return 0; } /** First load the current URI of the base session. In most cases it will just * be fetched from the cache so that the new tab will not appear ``empty' while * loading the real URI or showing the goto URL dialog. */ static void setup_session(struct session *ses, struct uri *uri, struct session *base) { if (base && !get_opt_bool("document.browse.search.reset", NULL)) { ses->search_word = null_or_stracpy(base->search_word); } if (base && have_location(base)) { ses_load(ses, get_uri_reference(cur_loc(base)->vs.uri), NULL, NULL, CACHE_MODE_ALWAYS, TASK_FORWARD); if (ses->doc_view && ses->doc_view->vs && base->doc_view && base->doc_view->vs) { struct view_state *vs = ses->doc_view->vs; destroy_vs(vs, 1); copy_vs(vs, base->doc_view->vs); ses->doc_view->vs = vs; } } if (uri) { goto_uri(ses, uri); } else if (!goto_url_home(ses)) { if (get_opt_bool("ui.startup_goto_dialog", NULL)) { dialog_goto_url_open(ses); } } } /** @relates session */ struct session * init_session(struct session *base_session, struct terminal *term, struct uri *uri, int in_background) { struct session *ses = (struct session *)mem_calloc(1, sizeof(*ses)); if (!ses) return NULL; ses->tab = init_tab(term, ses, tabwin_func); if (!ses->tab) { mem_free(ses); return NULL; } ses->option = copy_option(config_options, CO_SHALLOW | CO_NO_LISTBOX_ITEM); create_history(&ses->history); init_list(ses->scrn_frames); init_list(ses->scrn_iframes); init_list(ses->more_files); init_list(ses->type_queries); ses->task.type = TASK_NONE; ses->display_timer = TIMER_ID_UNDEF; #ifdef CONFIG_LEDS init_led_panel(&ses->status.leds); ses->status.ssl_led = register_led(ses, 0); ses->status.insert_mode_led = register_led(ses, 1); ses->status.ecmascript_led = register_led(ses, 2); ses->status.popup_led = register_led(ses, 3); ses->status.download_led = register_led(ses, 5); #endif ses->status.force_show_status_bar = -1; ses->status.force_show_title_bar = -1; add_to_list(sessions, ses); /* Update the status -- most importantly the info about whether to the * show the title, tab and status bar -- _before_ loading the URI so * the document cache is not filled with useless documents if the * content is already cached. * * For big document it also reduces memory usage quite a bit because * (atleast that is my interpretation --jonas) the old document will * have a chance to be released before rendering a new one. A few * numbers when opening a new tab while viewing debians package list * for unstable: * * 9307 jonas 15 0 34252 30m 5088 S 0.0 12.2 0:03.63 elinks-old * 9305 jonas 15 0 17060 13m 5088 S 0.0 5.5 0:02.07 elinks-new */ update_status(); /* Check if the newly inserted session is the only in the list and do * the special setup for the first session, */ if (!list_is_singleton(sessions) || !setup_first_session(ses, uri)) { setup_session(ses, uri, base_session); } if (!in_background) switch_to_tab(term, get_tab_number(ses->tab), -1); if (!term->main_menu) activate_bfu_technology(ses, -1); return ses; } static void init_remote_session(struct session *ses, remote_session_flags_T *remote_ptr, struct uri *uri) { remote_session_flags_T remote = *remote_ptr; if (remote & SES_REMOTE_CURRENT_TAB) { goto_uri(ses, uri); /* Mask out the current tab flag */ *remote_ptr = remote & ~SES_REMOTE_CURRENT_TAB; /* Remote session was masked out. Open all following URIs in * new tabs, */ if (!*remote_ptr) *remote_ptr = SES_REMOTE_NEW_TAB; } else if (remote & SES_REMOTE_NEW_TAB) { /* FIXME: This is not perfect. Doing multiple -remote * with no URLs will make the goto dialogs * inaccessible. Maybe we should not support this kind * of thing or make the window focus detecting code * more intelligent. --jonas */ open_uri_in_new_tab(ses, uri, 0, 0); if (remote & SES_REMOTE_PROMPT_URL) { dialog_goto_url_open(ses); } } else if (remote & SES_REMOTE_NEW_WINDOW) { /* FIXME: It is quite rude because we just take the first * possibility and should maybe make it possible to specify * new-screen etc via -remote "openURL(..., new-*)" --jonas */ if (!can_open_in_new(ses->tab->term)) return; open_uri_in_new_window(ses, uri, NULL, ses->tab->term->environment, CACHE_MODE_NORMAL, TASK_NONE); } else if (remote & SES_REMOTE_ADD_BOOKMARK) { #ifdef CONFIG_BOOKMARKS int uri_cp; if (!uri) return; /** @todo Bug 1066: What is the encoding of struri()? * This code currently assumes the system charset. * It might be best to keep URIs in plain ASCII and * then have a function that reversibly converts them * to IRIs for display in a given encoding. */ uri_cp = get_cp_index("System"); add_bookmark_cp(NULL, 1, uri_cp, struri(uri), struri(uri)); #endif } else if (remote & SES_REMOTE_INFO_BOX) { char *text; if (!uri) return; text = memacpy(uri->data, uri->datalen); if (!text) return; info_box(ses->tab->term, MSGBOX_FREE_TEXT, N_("Error"), ALIGN_CENTER, text); } else if (remote & SES_REMOTE_PROMPT_URL) { dialog_goto_url_open(ses); } else if (remote & SES_REMOTE_RELOAD) { reload(ses, CACHE_MODE_FORCE_RELOAD); } else if (remote & SES_REMOTE_SEARCH) { if (!uri) return; if (strncmp(uri->string, "search:", sizeof("search:") - 1)) { info_box(ses->tab->term, MSGBOX_FREE_TEXT, N_("Incorrect search uri"), ALIGN_CENTER, uri->string); return; } search_for(ses, uri->data); } } struct string * encode_session_info(struct string *info, LIST_OF(struct string_list_item) *url_list) { struct string_list_item *url; if (!init_string(info)) return NULL; foreach (url, *url_list) { struct string *str = &url->string; add_bytes_to_string(info, str->source, str->length + 1); } return info; } /** Older elinks versions (up to and including 0.9.1) sends no magic variable and if * this is detected we fallback to the old session info format. For this format * the magic member of terminal_info hold the length of the URI string. The * old format is handled by the default label in the switch. * * The new session info format supports extraction of multiple URIS from the * terminal_info data member. The magic variable controls how to interpret * the fields: * * - INTERLINK_NORMAL_MAGIC means use the terminal_info session_info * variable as an id for a saved session. * * - INTERLINK_REMOTE_MAGIC means use the terminal_info session_info * variable as the remote session flags. */ int decode_session_info(struct terminal *term, struct terminal_info *info) { int len = info->length; struct session *base_session = NULL; remote_session_flags_T remote = 0; char *str; switch (info->magic) { case INTERLINK_NORMAL_MAGIC: /* Lookup if there are any saved sessions that should be * resumed using the session_info as an id. The id is derived * from the value of -base-session command line option in the * connecting instance. * * At the moment it is only used when opening instances in new * window to figure out how to initialize it when the new * instance connects to the master. * * We don't need to handle it for the old format since new * instances connecting this way will always be of the same * origin as the master. */ if (init_saved_session(term, info->session_info)) return 1; break; case INTERLINK_REMOTE_MAGIC: /* This could mean some fatal bug but I am unsure if we can * actually assert it since people could pour all kinds of crap * down the socket. */ if (!info->session_info) { INTERNAL("Remote magic with no remote flags"); return 0; } remote = info->session_info; /* If processing session info from a -remote instance we want * to hook up with the master so we can handle request for * stuff in current tab. */ base_session = (struct session *)(get_master_session() ?: sessions.next); if (!base_session) { return 0; } break; default: /* The old format calculates the session_info and magic members * as part of the data that should be decoded so we have to * substract it to get the size of the actual URI data. */ len -= sizeof(info->session_info) + sizeof(info->magic); /* Extract URI containing @magic bytes */ if (info->magic <= 0 || info->magic > len) len = 0; else len = info->magic; } if (len <= 0) { if (!remote) return !!init_session(base_session, term, NULL, 0); /* Even though there are no URIs we still have to * handle remote stuff. */ init_remote_session(base_session, &remote, NULL); return 0; } str = info->data; /* Extract multiple (possible) NUL terminated URIs */ while (len > 0) { char *end = (char *)memchr(str, 0, len); int urilength = end ? end - str : len; struct uri *uri = NULL; char *uristring = memacpy(str, urilength); if (uristring) { uri = get_hooked_uri(uristring, base_session, term->cwd); mem_free(uristring); } len -= urilength + 1; str += urilength + 1; if (remote) { if (!uri) continue; init_remote_session(base_session, &remote, uri); } else { int backgrounded = !list_empty(term->windows); int bad_url = !uri; struct session *ses; static char about_blank[] = "about:blank"; if (!uri) uri = get_uri(about_blank, URI_NONE); ses = init_session(base_session, term, uri, backgrounded); if (!ses) { /* End loop if initialization fails */ len = 0; } else if (bad_url) { print_error_dialog(ses, connection_state(S_BAD_URL), NULL, PRI_MAIN); } } if (uri) done_uri(uri); } /* If we only initialized remote sessions or didn't manage to add any * new tabs return zero so the terminal will be destroyed ASAP. */ return remote ? 0 : !list_empty(term->windows); } void abort_loading(struct session *ses, int interrupt) { if (have_location(ses)) { struct location *loc = cur_loc(ses); cancel_download(&loc->download, interrupt); abort_files_load(ses, interrupt); } abort_preloading(ses, interrupt); } static void destroy_session(struct session *ses) { struct document_view *doc_view; assert(ses); if_assert_failed return; #ifdef CONFIG_SCRIPTING_SPIDERMONKEY smjs_detach_session_object(ses); #endif destroy_downloads(ses); abort_loading(ses, 0); free_files(ses); if (ses->doc_view) { detach_formatted(ses->doc_view); mem_free(ses->doc_view); } foreach (doc_view, ses->scrn_frames) detach_formatted(doc_view); free_list(ses->scrn_frames); foreach (doc_view, ses->scrn_iframes) detach_formatted(doc_view); free_list(ses->scrn_iframes); destroy_history(&ses->history); set_session_referrer(ses, NULL); if (ses->loading_uri) done_uri(ses->loading_uri); kill_timer(&ses->display_timer); while (!list_empty(ses->type_queries)) done_type_query((struct type_query *)ses->type_queries.next); if (ses->download_uri) done_uri(ses->download_uri); mem_free_if(ses->search_word); mem_free_if(ses->last_search_word); mem_free_if(ses->status.last_title); mem_free_if(ses->status.window_status); if (ses->option) { delete_option(ses->option); ses->option = NULL; } del_from_list(ses); } void reload(struct session *ses, cache_mode_T cache_mode) { reload_frame(ses, NULL, cache_mode); } void reload_frame(struct session *ses, char *name, cache_mode_T cache_mode) { abort_loading(ses, 0); if (cache_mode == CACHE_MODE_INCREMENT) { cache_mode = CACHE_MODE_NEVER; if (ses->reloadlevel < CACHE_MODE_NEVER) cache_mode = ++ses->reloadlevel; } else { ses->reloadlevel = cache_mode; } if (have_location(ses)) { struct location *loc = cur_loc(ses); struct file_to_load *ftl; #ifdef CONFIG_ECMASCRIPT loc->vs.ecmascript_fragile = 1; #endif /* FIXME: When reloading use loading_callback and set up a * session task so that the reloading will work even when the * reloaded document contains redirects. This is needed atleast * when reloading HTTP auth document after the user has entered * credentials. */ loc->download.data = ses; loc->download.callback = (download_callback_T *) doc_loading_callback; mem_free_set(&ses->task.target.frame, null_or_stracpy(name)); load_uri(loc->vs.uri, ses->referrer, &loc->download, PRI_MAIN, cache_mode, -1); foreach (ftl, ses->more_files) { if (file_to_load_is_active(ftl)) continue; ftl->download.data = ftl; ftl->download.callback = (download_callback_T *) file_loading_callback; load_additional_file(ftl, cache_mode); } } } struct frame * ses_find_frame(struct session *ses, const char *name) { struct location *loc = cur_loc(ses); struct frame *frame; assertm(have_location(ses), "ses_request_frame: no location yet"); if_assert_failed return NULL; foreachback (frame, loc->frames) if (!c_strcasecmp(frame->name, name)) return frame; return NULL; } struct frame * ses_find_iframe(struct session *ses, char *name) { struct location *loc = cur_loc(ses); struct frame *iframe; assertm(have_location(ses), "ses_request_frame: no location yet"); if_assert_failed return NULL; foreachback (iframe, loc->iframes) if (!c_strcasecmp(iframe->name, name)) return iframe; return NULL; } void set_session_referrer(struct session *ses, struct uri *referrer) { if (ses->referrer) done_uri(ses->referrer); ses->referrer = referrer ? get_uri_reference(referrer) : NULL; } static void tabwin_func(struct window *tab, struct term_event *ev) { struct session *ses = (struct session *)tab->data; switch (ev->ev) { case EVENT_ABORT: if (ses) destroy_session(ses); if (!list_empty(sessions)) update_status(); break; case EVENT_INIT: case EVENT_RESIZE: tab->resize = 1; /* fall-through */ case EVENT_REDRAW: if (!ses || ses->tab != get_current_tab(ses->tab->term)) break; draw_formatted(ses, tab->resize); if (tab->resize) { load_frames(ses, ses->doc_view); process_file_requests(ses); tab->resize = 0; } print_screen_status(ses); break; case EVENT_KBD: case EVENT_MOUSE: if (!ses) break; /* This check is related to bug 296 */ assert(ses->tab == get_current_tab(ses->tab->term)); send_event(ses, ev); break; } } /** * Gets the url being viewed by this session. Writes it into @a str. * A maximum of @a str_size bytes (including null) will be written. * @relates session */ char * get_current_url(struct session *ses, char *str, size_t str_size) { struct uri *uri; int length; assert(str && str_size > 0); uri = have_location(ses) ? cur_loc(ses)->vs.uri : ses->loading_uri; /* Not looking or loading anything */ if (!uri) return NULL; /* Ensure that the url size is not greater than str_size. * We can't just happily strncpy(str, here, str_size) * because we have to stop at POST_CHAR, not only at NULL. */ length = int_min(get_real_uri_length(uri), str_size - 1); return safe_strncpy(str, struri(uri), length + 1); } /** * Gets the title of the page being viewed by this session. Writes it into * @a str. A maximum of @a str_size bytes (including null) will be written. * @relates session */ char * get_current_title(struct session *ses, char *str, size_t str_size) { struct document_view *doc_view = current_frame(ses); assert(str && str_size > 0); /* Ensure that the title is defined */ /* TODO: Try globhist --jonas */ if (doc_view && doc_view->document->title) return safe_strncpy(str, doc_view->document->title, str_size); return NULL; } /** * Gets the url of the link currently selected. Writes it into @a str. * A maximum of @a str_size bytes (including null) will be written. * @relates session */ char * get_current_link_url(struct session *ses, char *str, size_t str_size) { struct link *link = get_current_session_link(ses); assert(str && str_size > 0); if (!link) return NULL; return safe_strncpy(str, link->where ? link->where : link->where_img, str_size); } /** get_current_link_name: returns the name of the current link * (the text between @ and @), @a str is a preallocated string, * @a str_size includes the null char. * @relates session */ char * get_current_link_name(struct session *ses, char *str, size_t str_size) { struct link *link = get_current_session_link(ses); char *where, *name = NULL; assert(str && str_size > 0); if (!link) return NULL; where = link->where ? link->where : link->where_img; #ifdef CONFIG_GLOBHIST { struct global_history_item *item; item = get_global_history_item(where); if (item) name = item->title; } #endif if (!name) name = get_link_name(link); if (!name) name = where; return safe_strncpy(str, name, str_size); } struct link * get_current_link_in_view(struct document_view *doc_view) { struct link *link = get_current_link(doc_view); return link && !link_is_form(link) ? link : NULL; } /** @relates session */ struct link * get_current_session_link(struct session *ses) { return get_current_link_in_view(current_frame(ses)); } /** @relates session */ int eat_kbd_repeat_count(struct session *ses) { int count = ses->kbdprefix.repeat_count; set_kbd_repeat_count(ses, 0); /* Clear status bar when prefix is eaten (bug 930) */ print_screen_status(ses); return count; } /** @relates session */ int set_kbd_repeat_count(struct session *ses, int new_count) { int old_count = ses->kbdprefix.repeat_count; if (new_count == old_count) return old_count; ses->kbdprefix.repeat_count = new_count; /* Update the status bar. */ print_screen_status(ses); /* Clear the old link highlighting. */ draw_formatted(ses, 0); if (new_count != 0) { struct document_view *doc_view = current_frame(ses); highlight_links_with_prefixes_that_start_with_n(ses->tab->term, doc_view, new_count); } return new_count; } char * get_ui_clipboard_file(void) { return get_opt_str("ui.clipboard_file", NULL); }