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chromium / chromium / src.git / f072d2ce55ac96dda187eb2240f56bbfaa93fb4b / . / chrome / browser / navigation_controller.cc
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// Copyright (c) 2006-2008 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "chrome/browser/navigation_controller.h"
#include "base/command_line.h"
#include "base/file_util.h"
#include "base/logging.h"
#include "base/string_util.h"
#include "chrome/common/navigation_types.h"
#include "chrome/common/resource_bundle.h"
#include "chrome/common/scoped_vector.h"
#include "chrome/browser/browser_process.h"
#include "chrome/browser/dom_ui/dom_ui_host.h"
#include "chrome/browser/navigation_entry.h"
#include "chrome/browser/profile.h"
#include "chrome/browser/repost_form_warning_dialog.h"
#include "chrome/browser/site_instance.h"
#include "chrome/browser/tab_contents.h"
#include "chrome/browser/tab_contents_delegate.h"
#include "chrome/common/chrome_switches.h"
#include "net/base/net_util.h"
#include "webkit/glue/webkit_glue.h"
namespace {
// Invoked when entries have been pruned, or removed. For example, if the
// current entries are [google, digg, yahoo], with the current entry google,
// and the user types in cnet, then digg and yahoo are pruned.
void NotifyPrunedEntries(NavigationController* nav_controller,
bool from_front,
int count) {
NavigationController::PrunedDetails details;
details.from_front = from_front;
details.count = count;
NotificationService::current()->Notify(
NOTIFY_NAV_LIST_PRUNED,
Source<NavigationController>(nav_controller),
Details<NavigationController::PrunedDetails>(&details));
}
// Ensure the given NavigationEntry has a valid state, so that WebKit does not
// get confused if we navigate back to it.
//
// An empty state is treated as a new navigation by WebKit, which would mean
// losing the navigation entries and generating a new navigation entry after
// this one. We don't want that. To avoid this we create a valid state which
// WebKit will not treat as a new navigation.
void SetContentStateIfEmpty(NavigationEntry* entry) {
if (entry->content_state().empty() &&
(entry->tab_type() == TAB_CONTENTS_WEB ||
entry->tab_type() == TAB_CONTENTS_NEW_TAB_UI ||
entry->tab_type() == TAB_CONTENTS_ABOUT_UI ||
entry->tab_type() == TAB_CONTENTS_HTML_DIALOG)) {
entry->set_content_state(
webkit_glue::CreateHistoryStateForURL(entry->url()));
}
}
// Configure all the NavigationEntries in entries for restore. This resets
// the transition type to reload and makes sure the content state isn't empty.
void ConfigureEntriesForRestore(
std::vector<linked_ptr<NavigationEntry> >* entries) {
for (size_t i = 0; i < entries->size(); ++i) {
// Use a transition type of reload so that we don't incorrectly increase
// the typed count.
(*entries)[i]->set_transition_type(PageTransition::RELOAD);
(*entries)[i]->set_restored(true);
// NOTE(darin): This code is only needed for backwards compat.
SetContentStateIfEmpty((*entries)[i].get());
}
}
// See NavigationController::IsURLInPageNavigation for how this works and why.
bool AreURLsInPageNavigation(const GURL& existing_url, const GURL& new_url) {
if (existing_url == new_url || !new_url.has_ref())
return false;
url_canon::Replacements<char> replacements;
replacements.ClearRef();
return existing_url.ReplaceComponents(replacements) ==
new_url.ReplaceComponents(replacements);
}
} // namespace
// TabContentsCollector ---------------------------------------------------
// We never destroy a TabContents synchronously because there are some
// complex code path that cause the current TabContents to be in the call
// stack. So instead, we use a TabContentsCollector which either destroys
// the TabContents or does nothing if it has been cancelled.
class TabContentsCollector : public Task {
public:
TabContentsCollector(NavigationController* target,
TabContentsType target_type)
: target_(target),
target_type_(target_type) {
}
void Cancel() {
target_ = NULL;
}
virtual void Run() {
if (target_) {
// Note: this will cancel this task as a side effect so target_ is
// now null.
TabContents* tc = target_->GetTabContents(target_type_);
tc->Destroy();
}
}
private:
// The NavigationController we are acting on.
NavigationController* target_;
// The TabContentsType that needs to be collected.
TabContentsType target_type_;
DISALLOW_EVIL_CONSTRUCTORS(TabContentsCollector);
};
// NavigationController ---------------------------------------------------
// static
size_t NavigationController::max_entry_count_ = 50;
// static
bool NavigationController::check_for_repost_ = true;
// Creates a new NavigationEntry for each TabNavigation in navigations, adding
// the NavigationEntry to entries. This is used during session restore.
static void CreateNavigationEntriesFromTabNavigations(
const std::vector<TabNavigation>& navigations,
std::vector<linked_ptr<NavigationEntry> >* entries) {
// Create a NavigationEntry for each of the navigations.
for (std::vector<TabNavigation>::const_iterator i =
navigations.begin(); i != navigations.end(); ++i) {
const TabNavigation& navigation = *i;
GURL real_url = navigation.url;
TabContentsType type = TabContents::TypeForURL(&real_url);
DCHECK(type != TAB_CONTENTS_UNKNOWN_TYPE);
NavigationEntry* entry = new NavigationEntry(
type,
NULL, // The site instance for restored tabs is sent on naviagion
// (WebContents::GetSiteInstanceForEntry).
static_cast<int>(i - navigations.begin()),
real_url,
navigation.title,
// Use a transition type of reload so that we don't incorrectly
// increase the typed count.
PageTransition::RELOAD);
entry->set_display_url(navigation.url);
entry->set_content_state(navigation.state);
entry->set_has_post_data(
navigation.type_mask & TabNavigation::HAS_POST_DATA);
entries->push_back(linked_ptr<NavigationEntry>(entry));
}
}
NavigationController::NavigationController(TabContents* contents,
Profile* profile)
: profile_(profile),
pending_entry_(NULL),
last_committed_entry_index_(-1),
pending_entry_index_(-1),
active_contents_(contents),
max_restored_page_id_(-1),
ssl_manager_(this, NULL),
needs_reload_(false),
load_pending_entry_when_active_(false) {
if (contents)
RegisterTabContents(contents);
DCHECK(profile_);
}
NavigationController::NavigationController(
Profile* profile,
const std::vector<TabNavigation>& navigations,
int selected_navigation,
HWND parent)
: profile_(profile),
pending_entry_(NULL),
last_committed_entry_index_(-1),
pending_entry_index_(-1),
active_contents_(NULL),
max_restored_page_id_(-1),
ssl_manager_(this, NULL),
needs_reload_(true),
load_pending_entry_when_active_(false) {
DCHECK(profile_);
DCHECK(selected_navigation >= 0 &&
selected_navigation < static_cast<int>(navigations.size()));
// Populate entries_ from the supplied TabNavigations.
CreateNavigationEntriesFromTabNavigations(navigations, &entries_);
// And finish the restore.
FinishRestore(parent, selected_navigation);
}
NavigationController::~NavigationController() {
DCHECK(tab_contents_map_.empty());
DCHECK(tab_contents_collector_map_.empty());
DiscardPendingEntryInternal();
NotificationService::current()->Notify(NOTIFY_TAB_CLOSED,
Source<NavigationController>(this),
NotificationService::NoDetails());
}
TabContents* NavigationController::GetTabContents(TabContentsType t) {
// Make sure the TabContents is no longer scheduled for collection.
CancelTabContentsCollection(t);
return tab_contents_map_[t];
}
void NavigationController::Reload() {
DiscardPendingEntryInternal();
int current_index = GetCurrentEntryIndex();
if (check_for_repost_ && current_index != -1 &&
GetEntryAtIndex(current_index)->has_post_data() &&
active_contents_->AsWebContents() &&
!active_contents_->AsWebContents()->showing_repost_interstitial()) {
// The user is asking to reload a page with POST data and we're not showing
// the POST interstitial. Prompt to make sure they really want to do this.
// If they do, RepostFormWarningDialog calls us back with
// ReloadDontCheckForRepost.
active_contents_->Activate();
RepostFormWarningDialog::RunRepostFormWarningDialog(this);
} else {
// Base the navigation on where we are now...
int current_index = GetCurrentEntryIndex();
// If we are no where, then we can't reload. TODO(darin): We should add a
// CanReload method.
if (current_index == -1)
return;
DiscardPendingEntryInternal();
pending_entry_index_ = current_index;
entries_[pending_entry_index_]->set_transition_type(PageTransition::RELOAD);
NavigateToPendingEntry(true);
}
}
NavigationEntry* NavigationController::GetEntryWithPageID(
TabContentsType type, SiteInstance* instance, int32 page_id) const {
int index = GetEntryIndexWithPageID(type, instance, page_id);
return (index != -1) ? entries_[index].get() : NULL;
}
void NavigationController::LoadEntry(NavigationEntry* entry) {
// When navigating to a new page, we don't know for sure if we will actually
// end up leaving the current page. The new page load could for example
// result in a download or a 'no content' response (e.g., a mailto: URL).
DiscardPendingEntryInternal();
pending_entry_ = entry;
NotificationService::current()->Notify(
NOTIFY_NAV_ENTRY_PENDING,
Source<NavigationController>(this),
NotificationService::NoDetails());
NavigateToPendingEntry(false);
}
NavigationEntry* NavigationController::GetActiveEntry() const {
NavigationEntry* entry = pending_entry_;
if (!entry)
entry = GetLastCommittedEntry();
return entry;
}
int NavigationController::GetCurrentEntryIndex() const {
if (pending_entry_index_ != -1)
return pending_entry_index_;
return last_committed_entry_index_;
}
NavigationEntry* NavigationController::GetLastCommittedEntry() const {
if (last_committed_entry_index_ == -1)
return NULL;
return entries_[last_committed_entry_index_].get();
}
NavigationEntry* NavigationController::GetEntryAtOffset(int offset) const {
int index = last_committed_entry_index_ + offset;
if (index < 0 || index >= GetEntryCount())
return NULL;
return entries_[index].get();
}
bool NavigationController::CanGoBack() const {
return entries_.size() > 1 && GetCurrentEntryIndex() > 0;
}
bool NavigationController::CanGoForward() const {
int index = GetCurrentEntryIndex();
return index >= 0 && index < (static_cast<int>(entries_.size()) - 1);
}
void NavigationController::GoBack() {
if (!CanGoBack()) {
NOTREACHED();
return;
}
// Base the navigation on where we are now...
int current_index = GetCurrentEntryIndex();
DiscardPendingEntry();
pending_entry_index_ = current_index - 1;
NavigateToPendingEntry(false);
}
void NavigationController::GoForward() {
if (!CanGoForward()) {
NOTREACHED();
return;
}
// Base the navigation on where we are now...
int current_index = GetCurrentEntryIndex();
DiscardPendingEntry();
pending_entry_index_ = current_index + 1;
NavigateToPendingEntry(false);
}
void NavigationController::GoToIndex(int index) {
if (index < 0 || index >= static_cast<int>(entries_.size())) {
NOTREACHED();
return;
}
DiscardPendingEntry();
pending_entry_index_ = index;
NavigateToPendingEntry(false);
}
void NavigationController::GoToOffset(int offset) {
int index = last_committed_entry_index_ + offset;
if (index < 0 || index >= GetEntryCount())
return;
GoToIndex(index);
}
void NavigationController::ReloadDontCheckForRepost() {
Reload();
}
void NavigationController::Destroy() {
// Close all tab contents owned by this controller. We make a list on the
// stack because they are removed from the map as they are Destroyed
// (invalidating the iterators), which may or may not occur synchronously.
// We also keep track of any NULL entries in the map so that we can clean
// them out.
std::list<TabContents*> tabs_to_destroy;
std::list<TabContentsType> tab_types_to_erase;
for (TabContentsMap::iterator i = tab_contents_map_.begin();
i != tab_contents_map_.end(); ++i) {
if (i->second)
tabs_to_destroy.push_back(i->second);
else
tab_types_to_erase.push_back(i->first);
}
// Clean out all NULL entries in the map so that we know empty map means all
// tabs destroyed. This is needed since TabContentsWasDestroyed() won't get
// called for types that are in our map with a NULL contents. (We don't do
// this by iterating over TAB_CONTENTS_NUM_TYPES because some tests create
// additional types.)
for (std::list<TabContentsType>::iterator i = tab_types_to_erase.begin();
i != tab_types_to_erase.end(); ++i) {
TabContentsMap::iterator map_iterator = tab_contents_map_.find(*i);
if (map_iterator != tab_contents_map_.end()) {
DCHECK(!map_iterator->second);
tab_contents_map_.erase(map_iterator);
}
}
// Cancel all the TabContentsCollectors.
for (TabContentsCollectorMap::iterator i =
tab_contents_collector_map_.begin();
i != tab_contents_collector_map_.end(); ++i) {
DCHECK(i->second);
i->second->Cancel();
}
tab_contents_collector_map_.clear();
// Finally destroy all the tab contents.
for (std::list<TabContents*>::iterator i = tabs_to_destroy.begin();
i != tabs_to_destroy.end(); ++i) {
(*i)->Destroy();
}
// We are deleted at this point.
}
void NavigationController::TabContentsWasDestroyed(TabContentsType type) {
TabContentsMap::iterator i = tab_contents_map_.find(type);
DCHECK(i != tab_contents_map_.end());
tab_contents_map_.erase(i);
// Make sure we cancel any collector for that TabContents.
CancelTabContentsCollection(type);
// If that was the last tab to be destroyed, delete ourselves.
if (tab_contents_map_.empty())
delete this;
}
NavigationEntry* NavigationController::CreateNavigationEntry(
const GURL& url, PageTransition::Type transition) {
GURL real_url = url;
TabContentsType type;
// If the active contents supports |url|, use it.
// Note: in both cases, we give TabContents a chance to rewrite the URL.
TabContents* active = active_contents();
if (active && active->SupportsURL(&real_url))
type = active->type();
else
type = TabContents::TypeForURL(&real_url);
NavigationEntry* entry = new NavigationEntry(type, NULL, -1, real_url,
std::wstring(), transition);
entry->set_display_url(url);
entry->set_user_typed_url(url);
if (url.SchemeIsFile()) {
entry->set_title(file_util::GetFilenameFromPath(UTF8ToWide(url.host() +
url.path())));
}
return entry;
}
void NavigationController::LoadURL(const GURL& url,
PageTransition::Type transition) {
// The user initiated a load, we don't need to reload anymore.
needs_reload_ = false;
NavigationEntry* entry = CreateNavigationEntry(url, transition);
LoadEntry(entry);
}
void NavigationController::LoadURLLazily(const GURL& url,
PageTransition::Type type,
const std::wstring& title,
SkBitmap* icon) {
NavigationEntry* entry = CreateNavigationEntry(url, type);
entry->set_title(title);
if (icon)
entry->favicon().set_bitmap(*icon);
DiscardPendingEntryInternal();
pending_entry_ = entry;
load_pending_entry_when_active_ = true;
}
bool NavigationController::LoadingURLLazily() {
return load_pending_entry_when_active_;
}
const std::wstring& NavigationController::GetLazyTitle() const {
if (pending_entry_)
return pending_entry_->title();
else
return EmptyWString();
}
const SkBitmap& NavigationController::GetLazyFavIcon() const {
if (pending_entry_) {
return pending_entry_->favicon().bitmap();
} else {
ResourceBundle &rb = ResourceBundle::GetSharedInstance();
return *rb.GetBitmapNamed(IDR_DEFAULT_FAVICON);
}
}
bool NavigationController::RendererDidNavigate(
const ViewHostMsg_FrameNavigate_Params& params,
bool is_interstitial,
LoadCommittedDetails* details) {
// Save the previous URL before we clobber it.
if (GetLastCommittedEntry())
details->previous_url = GetLastCommittedEntry()->url();
// Assign the current site instance to any pending entry, so we can find it
// later by calling GetEntryIndexWithPageID. We only care about this if the
// pending entry is an existing navigation and not a new one (or else we
// wouldn't care about finding it with GetEntryIndexWithPageID).
//
// TODO(brettw) this seems slightly bogus as we don't really know if the
// pending entry is what this navigation is for. There is a similar TODO
// w.r.t. the pending entry in RendererDidNavigateToNewPage.
if (pending_entry_index_ >= 0)
pending_entry_->set_site_instance(active_contents_->GetSiteInstance());
// Do navigation-type specific actions. These will make and commit an entry.
switch (ClassifyNavigation(params)) {
case NAV_NEW_PAGE:
RendererDidNavigateToNewPage(params);
break;
case NAV_EXISTING_PAGE:
RendererDidNavigateToExistingPage(params);
break;
case NAV_SAME_PAGE:
RendererDidNavigateToSamePage(params);
break;
case NAV_IN_PAGE:
RendererDidNavigateInPage(params);
break;
case NAV_NEW_SUBFRAME:
RendererDidNavigateNewSubframe(params);
break;
case NAV_AUTO_SUBFRAME:
if (!RendererDidNavigateAutoSubframe(params))
return false;
break;
case NAV_IGNORE:
// There is nothing we can do with this navigation, so we just return to
// the caller that nothing has happened.
return false;
default:
NOTREACHED();
}
// All committed entries should have nonempty content state so WebKit doesn't
// get confused when we go back to them (see the function for details).
SetContentStateIfEmpty(GetActiveEntry());
// WebKit doesn't set the "auto" transition on meta refreshes properly (bug
// 1051891) so we manually set it for redirects which we normally treat as
// "non-user-gestures" where we want to update stuff after navigations.
//
// Note that the redirect check also checks for a pending entry to
// differentiate real redirects from browser initiated navigations to a
// redirected entry. This happens when you hit back to go to a page that was
// the destination of a redirect, we don't want to treat it as a redirect
// even though that's what its transition will be. See bug 1117048.
//
// TODO(brettw) write a test for this complicated logic.
details->is_auto = (PageTransition::IsRedirect(params.transition) &&
!GetPendingEntry()) ||
params.gesture == NavigationGestureAuto;
// Now prep the rest of the details for the notification and broadcast.
details->entry = GetActiveEntry();
details->is_in_page = IsURLInPageNavigation(params.url);
details->is_main_frame = PageTransition::IsMainFrame(params.transition);
details->is_interstitial = is_interstitial;
details->serialized_security_info = params.security_info;
NotifyNavigationEntryCommitted(details);
// It is now a safe time to schedule collection for any tab contents of a
// different type, because a navigation is necessary to get back to them.
ScheduleTabContentsCollectionForInactiveTabs();
return true;
}
NavigationController::NavClass NavigationController::ClassifyNavigation(
const ViewHostMsg_FrameNavigate_Params& params) const {
// If a page makes a popup navigated to about blank, and then writes stuff
// like a subframe navigated to a real site, we'll get a notification with an
// invalid page ID. There's nothing we can do with these, so just ignore them.
if (params.page_id == -1) {
DCHECK(!GetActiveEntry()) << "Got an invalid page ID but we seem to be "
" navigated to a valid page. This should be impossible.";
return NAV_IGNORE;
}
if (params.page_id > active_contents_->GetMaxPageID()) {
// Greater page IDs than we've ever seen before are new pages. We may or may
// not have a pending entry for the page, and this may or may not be the
// main frame.
if (PageTransition::IsMainFrame(params.transition))
return NAV_NEW_PAGE;
return NAV_NEW_SUBFRAME;
}
// Now we know that the notification is for an existing page. Find that entry.
int existing_entry_index = GetEntryIndexWithPageID(
active_contents_->type(),
active_contents_->GetSiteInstance(),
params.page_id);
if (existing_entry_index == -1) {
// The page was not found. It could have been pruned because of the limit on
// back/forward entries (not likely since we'll usually tell it to navigate
// to such entries). It could also mean that the renderer is smoking crack.
NOTREACHED();
return NAV_IGNORE;
}
NavigationEntry* existing_entry = entries_[existing_entry_index].get();
if (pending_entry_ &&
pending_entry_->url() == params.url &&
existing_entry != pending_entry_ &&
pending_entry_->page_id() == -1 &&
pending_entry_->url() == existing_entry->url()) {
// In this case, we have a pending entry for a URL but WebCore didn't do a
// new navigation. This happens when you press enter in the URL bar to
// reload. We will create a pending entry, but WebKit will convert it to
// a reload since it's the same page and not create a new entry for it
// (the user doesn't want to have a new back/forward entry when they do
// this). In this case, we want to just ignore the pending entry and go
// back to where we were (the "existing entry").
return NAV_SAME_PAGE;
}
if (AreURLsInPageNavigation(existing_entry->url(), params.url))
return NAV_IN_PAGE;
if (!PageTransition::IsMainFrame(params.transition))
return NAV_AUTO_SUBFRAME; // All manual subframes would get new IDs and
// were handled above.
// Since we weeded out "new" navigations above, we know this is an existing
// navigation.
return NAV_EXISTING_PAGE;
}
void NavigationController::RendererDidNavigateToNewPage(
const ViewHostMsg_FrameNavigate_Params& params) {
NavigationEntry* new_entry;
if (pending_entry_) {
// TODO(brettw) this assumes that the pending entry is appropriate for the
// new page that was just loaded. I don't think this is necessarily the
// case! We should have some more tracking to know for sure. This goes along
// with a similar TODO at the top of RendererDidNavigate where we blindly
// set the site instance on the pending entry.
new_entry = new NavigationEntry(*pending_entry_);
// Don't use the page type from the pending entry. Some interstitial page
// may have set the type to interstitial. Once we commit, however, the page
// type must always be normal.
new_entry->set_page_type(NavigationEntry::NORMAL_PAGE);
} else {
new_entry = new NavigationEntry(active_contents_->type());
}
new_entry->set_url(params.url);
new_entry->set_page_id(params.page_id);
new_entry->set_transition_type(params.transition);
new_entry->set_site_instance(active_contents_->GetSiteInstance());
new_entry->set_has_post_data(params.is_post);
InsertEntry(new_entry);
}
void NavigationController::RendererDidNavigateToExistingPage(
const ViewHostMsg_FrameNavigate_Params& params) {
// We should only get here for main frame navigations.
DCHECK(PageTransition::IsMainFrame(params.transition));
// This is a back/forward navigation. The existing page for the ID is
// guaranteed to exist, and we just need to update it with new information
// from the renderer.
int entry_index = GetEntryIndexWithPageID(
active_contents_->type(),
active_contents_->GetSiteInstance(),
params.page_id);
DCHECK(entry_index >= 0 &&
entry_index < static_cast<int>(entries_.size()));
NavigationEntry* entry = entries_[entry_index].get();
// The URL may have changed due to redirects. The site instance will normally
// be the same except during session restore, when no site instance will be
// assigned.
entry->set_url(params.url);
DCHECK(entry->site_instance() == NULL ||
entry->site_instance() == active_contents_->GetSiteInstance());
entry->set_site_instance(active_contents_->GetSiteInstance());
// The entry we found in the list might be pending if the user hit
// back/forward/reload. This load should commit it (since it's already in the
// list, we can just discard the pending pointer).
//
// Note that we need to use the "internal" version since we don't want to
// actually change any other state, just kill the pointer.
if (entry == pending_entry_)
DiscardPendingEntryInternal();
int old_committed_entry_index = last_committed_entry_index_;
last_committed_entry_index_ = entry_index;
IndexOfActiveEntryChanged(old_committed_entry_index);
}
void NavigationController::RendererDidNavigateToSamePage(
const ViewHostMsg_FrameNavigate_Params& params) {
// This mode implies we have a pending entry that's the same as an existing
// entry for this page ID. All we need to do is update the existing entry.
NavigationEntry* existing_entry = GetEntryWithPageID(
active_contents_->type(),
active_contents_->GetSiteInstance(),
params.page_id);
// We assign the entry's unique ID to be that of the new one. Since this is
// always the result of a user action, we want to dismiss infobars, etc. like
// a regular user-initiated navigation.
existing_entry->set_unique_id(pending_entry_->unique_id());
DiscardPendingEntry();
}
void NavigationController::RendererDidNavigateInPage(
const ViewHostMsg_FrameNavigate_Params& params) {
DCHECK(PageTransition::IsMainFrame(params.transition)) <<
"WebKit should only tell us about in-page navs for the main frame.";
// We're guaranteed to have an entry for this one.
NavigationEntry* existing_entry = GetEntryWithPageID(
active_contents_->type(),
active_contents_->GetSiteInstance(),
params.page_id);
// Reference fragment navigation. We're guaranteed to have the last_committed
// entry and it will be the same page as the new navigation (minus the
// reference fragments, of course).
NavigationEntry* new_entry = new NavigationEntry(*existing_entry);
new_entry->set_page_id(params.page_id);
new_entry->set_url(params.url);
InsertEntry(new_entry);
}
void NavigationController::RendererDidNavigateNewSubframe(
const ViewHostMsg_FrameNavigate_Params& params) {
// Manual subframe navigations just get the current entry cloned so the user
// can go back or forward to it. The actual subframe information will be
// stored in the page state for each of those entries. This happens out of
// band with the actual navigations.
DCHECK(GetLastCommittedEntry());
NavigationEntry* new_entry = new NavigationEntry(*GetLastCommittedEntry());
new_entry->set_page_id(params.page_id);
InsertEntry(new_entry);
}
bool NavigationController::RendererDidNavigateAutoSubframe(
const ViewHostMsg_FrameNavigate_Params& params) {
// We're guaranteed to have a previously committed entry, and we now need to
// handle navigation inside of a subframe in it without creating a new entry.
DCHECK(GetLastCommittedEntry());
// Handle the case where we're navigating back/forward to a previous subframe
// navigation entry. This is case "2." in NAV_AUTO_SUBFRAME comment in the
// header file. In case "1." this will be a NOP.
int entry_index = GetEntryIndexWithPageID(
active_contents_->type(),
active_contents_->GetSiteInstance(),
params.page_id);
if (entry_index < 0 ||
entry_index >= static_cast<int>(entries_.size())) {
NOTREACHED();
return false;
}
// Update the current navigation entry in case we're going back/forward.
if (entry_index != last_committed_entry_index_) {
int old_committed_entry_index = last_committed_entry_index_;
last_committed_entry_index_ = entry_index;
IndexOfActiveEntryChanged(old_committed_entry_index);
return true;
}
return false;
}
void NavigationController::CommitPendingEntry() {
if (!GetPendingEntry())
return; // Nothing to do.
// Need to save the previous URL for the notification.
LoadCommittedDetails details;
if (GetLastCommittedEntry())
details.previous_url = GetLastCommittedEntry()->url();
if (pending_entry_index_ >= 0) {
// This is a previous navigation (back/forward) that we're just now
// committing. Just mark it as committed.
int new_entry_index = pending_entry_index_;
DiscardPendingEntryInternal();
// Mark that entry as committed.
int old_committed_entry_index = last_committed_entry_index_;
last_committed_entry_index_ = new_entry_index;
IndexOfActiveEntryChanged(old_committed_entry_index);
} else {
// This is a new navigation. It's easiest to just copy the entry and insert
// it new again, since InsertEntry expects to take ownership and also
// discard the pending entry. We also need to synthesize a page ID. We can
// only do this because this function will only be called by our custom
// TabContents types. For WebContents, the IDs are generated by the
// renderer, so we can't do this.
pending_entry_->set_page_id(active_contents_->GetMaxPageID() + 1);
active_contents_->UpdateMaxPageID(pending_entry_->page_id());
InsertEntry(new NavigationEntry(*pending_entry_));
}
// Broadcast the notification of the navigation.
details.entry = GetActiveEntry();
details.is_auto = false;
details.is_in_page = AreURLsInPageNavigation(details.previous_url,
details.entry->url());
details.is_main_frame = true;
NotifyNavigationEntryCommitted(&details);
}
int NavigationController::GetIndexOfEntry(
const NavigationEntry* entry) const {
const NavigationEntries::const_iterator i(std::find(
entries_.begin(),
entries_.end(),
entry));
return (i == entries_.end()) ? -1 : static_cast<int>(i - entries_.begin());
}
void NavigationController::RemoveLastEntryForInterstitial() {
int current_size = static_cast<int>(entries_.size());
if (current_size > 0) {
if (pending_entry_ == entries_[current_size - 1] ||
pending_entry_index_ == current_size - 1)
DiscardPendingEntryInternal();
entries_.pop_back();
if (last_committed_entry_index_ >= current_size - 1) {
last_committed_entry_index_ = current_size - 2;
// Broadcast the notification of the navigation. This is kind of a hack,
// since the navigation wasn't actually committed. But this function is
// used for interstital pages, and the UI needs to get updated when the
// interstitial page
LoadCommittedDetails details;
details.entry = GetActiveEntry();
details.is_auto = false;
details.is_in_page = false;
details.is_main_frame = true;
NotifyNavigationEntryCommitted(&details);
}
NotifyPrunedEntries(this, false, 1);
}
}
void NavigationController::AddDummyEntryForInterstitial(
const NavigationEntry& clone_me) {
// We need to send a commit notification for this transition.
LoadCommittedDetails details;
if (GetLastCommittedEntry())
details.previous_url = GetLastCommittedEntry()->url();
NavigationEntry* new_entry = new NavigationEntry(clone_me);
InsertEntry(new_entry);
// Watch out, don't use clone_me after this. The caller may have passed in a
// reference to our pending entry, which means it would have been destroyed.
details.is_auto = false;
details.entry = GetActiveEntry();
details.is_in_page = false;
details.is_main_frame = true;
NotifyNavigationEntryCommitted(&details);
}
bool NavigationController::IsURLInPageNavigation(const GURL& url) const {
NavigationEntry* last_committed = GetLastCommittedEntry();
if (!last_committed)
return false;
return AreURLsInPageNavigation(last_committed->url(), url);
}
void NavigationController::DiscardPendingEntry() {
DiscardPendingEntryInternal();
// Synchronize the active_contents_ to the last committed entry.
NavigationEntry* last_entry = GetLastCommittedEntry();
if (last_entry && last_entry->tab_type() != active_contents_->type()) {
TabContents* from_contents = active_contents_;
from_contents->SetActive(false);
// Switch back to the previous tab contents.
active_contents_ = GetTabContents(last_entry->tab_type());
DCHECK(active_contents_);
active_contents_->SetActive(true);
// If we are transitioning from two types of WebContents, we need to migrate
// the download shelf if it is visible. The download shelf may have been
// created before the error that caused us to discard the entry.
WebContents::MigrateShelfView(from_contents, active_contents_);
if (from_contents->delegate()) {
from_contents->delegate()->ReplaceContents(from_contents,
active_contents_);
}
// The entry we just discarded needed a different TabContents type. We no
// longer need it but we can't destroy it just yet because the TabContents
// is very likely involved in the current stack.
DCHECK(from_contents != active_contents_);
ScheduleTabContentsCollection(from_contents->type());
}
}
void NavigationController::InsertEntry(NavigationEntry* entry) {
DCHECK(entry->transition_type() != PageTransition::AUTO_SUBFRAME);
// Copy the pending entry's unique ID to the committed entry.
// I don't know if pending_entry_index_ can be other than -1 here.
const NavigationEntry* const pending_entry = (pending_entry_index_ == -1) ?
pending_entry_ : entries_[pending_entry_index_].get();
if (pending_entry)
entry->set_unique_id(pending_entry->unique_id());
DiscardPendingEntryInternal();
int current_size = static_cast<int>(entries_.size());
// Prune any entries which are in front of the current entry.
if (current_size > 0) {
int num_pruned = 0;
while (last_committed_entry_index_ < (current_size - 1)) {
num_pruned++;
entries_.pop_back();
current_size--;
}
if (num_pruned > 0) // Only notify if we did prune something.
NotifyPrunedEntries(this, false, num_pruned);
}
if (entries_.size() >= max_entry_count_) {
RemoveEntryAtIndex(0);
NotifyPrunedEntries(this, true, 1);
}
entries_.push_back(linked_ptr<NavigationEntry>(entry));
last_committed_entry_index_ = static_cast<int>(entries_.size()) - 1;
// This is a new page ID, so we need everybody to know about it.
active_contents_->UpdateMaxPageID(entry->page_id());
// TODO(brettw) this seems bogus. The tab contents can listen for the
// notification or use the details that we pass back to it.
active_contents_->NotifyDidNavigate(NAVIGATION_NEW, 0);
}
void NavigationController::SetWindowID(const SessionID& id) {
window_id_ = id;
NotificationService::current()->Notify(NOTIFY_TAB_PARENTED,
Source<NavigationController>(this),
NotificationService::NoDetails());
}
void NavigationController::NavigateToPendingEntry(bool reload) {
TabContents* from_contents = active_contents_;
// For session history navigations only the pending_entry_index_ is set.
if (!pending_entry_) {
DCHECK(pending_entry_index_ != -1);
pending_entry_ = entries_[pending_entry_index_].get();
}
// Reset the security states as any SSL error may have been resolved since we
// last visited that page.
pending_entry_->ssl() = NavigationEntry::SSLStatus();
if (from_contents && from_contents->type() != pending_entry_->tab_type())
from_contents->SetActive(false);
HWND parent =
from_contents ? GetParent(from_contents->GetContainerHWND()) : 0;
TabContents* contents =
GetTabContentsCreateIfNecessary(parent, *pending_entry_);
contents->SetActive(true);
active_contents_ = contents;
if (from_contents && from_contents != contents) {
if (from_contents->delegate())
from_contents->delegate()->ReplaceContents(from_contents, contents);
}
NavigationEntry temp_entry(*pending_entry_);
if (!contents->NavigateToPendingEntry(reload))
DiscardPendingEntry();
}
void NavigationController::NotifyNavigationEntryCommitted(
LoadCommittedDetails* details) {
// TODO(pkasting): http://b/1113079 Probably these explicit notification paths
// should be removed, and interested parties should just listen for the
// notification below instead.
ssl_manager_.NavigationStateChanged();
active_contents_->NotifyNavigationStateChanged(
TabContents::INVALIDATE_EVERYTHING);
details->entry = GetActiveEntry();
NotificationService::current()->Notify(
NOTIFY_NAV_ENTRY_COMMITTED,
Source<NavigationController>(this),
Details<LoadCommittedDetails>(details));
}
void NavigationController::IndexOfActiveEntryChanged(int prev_committed_index) {
NavigationType nav_type = NAVIGATION_BACK_FORWARD;
int relative_navigation_offset =
GetLastCommittedEntryIndex() - prev_committed_index;
if (relative_navigation_offset == 0)
nav_type = NAVIGATION_REPLACE;
// TODO(brettw) I don't think this call should be necessary. There is already
// a notification of this event that could be used, or maybe all the tab
// contents' know when we navigate (WebContents does).
active_contents_->NotifyDidNavigate(nav_type, relative_navigation_offset);
}
TabContents* NavigationController::GetTabContentsCreateIfNecessary(
HWND parent,
const NavigationEntry& entry) {
TabContents* contents = GetTabContents(entry.tab_type());
if (!contents) {
contents = TabContents::CreateWithType(entry.tab_type(), parent, profile_,
entry.site_instance());
if (!contents->AsWebContents()) {
// Update the max page id, otherwise the newly created TabContents may
// have reset its max page id resulting in all new navigations. We only
// do this for non-WebContents as WebContents takes care of this via its
// SiteInstance. If this creation is the result of a restore, WebContents
// handles invoking ReservePageIDRange to make sure the renderer's
// max_page_id is updated to reflect the restored range of page ids.
int32 max_page_id = contents->GetMaxPageID();
for (size_t i = 0; i < entries_.size(); ++i) {
if (entries_[i]->tab_type() == entry.tab_type())
max_page_id = std::max(max_page_id, entries_[i]->page_id());
}
contents->UpdateMaxPageID(max_page_id);
}
RegisterTabContents(contents);
}
// We should not be trying to collect this tab contents.
DCHECK(tab_contents_collector_map_.find(contents->type()) ==
tab_contents_collector_map_.end());
return contents;
}
void NavigationController::RegisterTabContents(TabContents* some_contents) {
DCHECK(some_contents);
TabContentsType t = some_contents->type();
TabContents* tc;
if ((tc = tab_contents_map_[t]) != some_contents) {
if (tc) {
NOTREACHED() << "Should not happen. Multiple contents for one type";
} else {
tab_contents_map_[t] = some_contents;
some_contents->set_controller(this);
}
}
if (some_contents->AsDOMUIHost())
some_contents->AsDOMUIHost()->AttachMessageHandlers();
}
// static
void NavigationController::DisablePromptOnRepost() {
check_for_repost_ = false;
}
void NavigationController::SetActive(bool is_active) {
if (is_active) {
if (needs_reload_) {
LoadIfNecessary();
} else if (load_pending_entry_when_active_) {
NavigateToPendingEntry(false);
load_pending_entry_when_active_ = false;
}
}
}
void NavigationController::LoadIfNecessary() {
if (!needs_reload_)
return;
needs_reload_ = false;
// Calling Reload() results in ignoring state, and not loading.
// Explicitly use NavigateToPendingEntry so that the renderer uses the
// cached state.
pending_entry_index_ = last_committed_entry_index_;
NavigateToPendingEntry(false);
}
void NavigationController::NotifyEntryChanged(const NavigationEntry* entry,
int index) {
EntryChangedDetails det;
det.changed_entry = entry;
det.index = index;
NotificationService::current()->Notify(NOTIFY_NAV_ENTRY_CHANGED,
Source<NavigationController>(this),
Details<EntryChangedDetails>(&det));
}
void NavigationController::RemoveEntryAtIndex(int index) {
// TODO(brettw) this is only called to remove the first one when we've got
// too many entries. It should probably be more specific for this case.
if (index >= static_cast<int>(entries_.size()) ||
index == pending_entry_index_ || index == last_committed_entry_index_) {
NOTREACHED();
return;
}
entries_.erase(entries_.begin() + index);
if (last_committed_entry_index_ >= index) {
if (!entries_.empty())
last_committed_entry_index_--;
else
last_committed_entry_index_ = -1;
}
// TODO(brettw) bug 1324021: we probably need some notification here so the
// session service can stay in sync.
}
NavigationController* NavigationController::Clone(HWND parent_hwnd) {
NavigationController* nc = new NavigationController(NULL, profile_);
if (GetEntryCount() == 0)
return nc;
nc->needs_reload_ = true;
nc->entries_.reserve(entries_.size());
for (int i = 0, c = GetEntryCount(); i < c; ++i) {
nc->entries_.push_back(linked_ptr<NavigationEntry>(
new NavigationEntry(*GetEntryAtIndex(i))));
}
nc->FinishRestore(parent_hwnd, last_committed_entry_index_);
return nc;
}
void NavigationController::ScheduleTabContentsCollectionForInactiveTabs() {
int index = GetCurrentEntryIndex();
if (index < 0 || GetPendingEntryIndex() != -1)
return;
TabContentsType active_type = GetEntryAtIndex(index)->tab_type();
for (TabContentsMap::iterator i = tab_contents_map_.begin();
i != tab_contents_map_.end(); ++i) {
if (i->first != active_type)
ScheduleTabContentsCollection(i->first);
}
}
void NavigationController::ScheduleTabContentsCollection(TabContentsType t) {
TabContentsCollectorMap::const_iterator i =
tab_contents_collector_map_.find(t);
// The tab contents is already scheduled for collection.
if (i != tab_contents_collector_map_.end())
return;
// If we currently don't have a TabContents for t, skip.
if (tab_contents_map_.find(t) == tab_contents_map_.end())
return;
// Create a collector and schedule it.
TabContentsCollector* tcc = new TabContentsCollector(this, t);
tab_contents_collector_map_[t] = tcc;
MessageLoop::current()->PostTask(FROM_HERE, tcc);
}
void NavigationController::CancelTabContentsCollection(TabContentsType t) {
TabContentsCollectorMap::iterator i = tab_contents_collector_map_.find(t);
if (i != tab_contents_collector_map_.end()) {
DCHECK(i->second);
i->second->Cancel();
tab_contents_collector_map_.erase(i);
}
}
void NavigationController::FinishRestore(HWND parent_hwnd, int selected_index) {
DCHECK(selected_index >= 0 && selected_index < GetEntryCount());
ConfigureEntriesForRestore(&entries_);
set_max_restored_page_id(GetEntryCount());
last_committed_entry_index_ = selected_index;
// Callers assume we have an active_contents after restoring, so set it now.
active_contents_ =
GetTabContentsCreateIfNecessary(parent_hwnd, *entries_[selected_index]);
}
void NavigationController::DiscardPendingEntryInternal() {
if (pending_entry_index_ == -1)
delete pending_entry_;
pending_entry_ = NULL;
pending_entry_index_ = -1;
}
int NavigationController::GetEntryIndexWithPageID(
TabContentsType type, SiteInstance* instance, int32 page_id) const {
for (int i = static_cast<int>(entries_.size()) - 1; i >= 0; --i) {
if ((entries_[i]->tab_type() == type) &&
(entries_[i]->site_instance() == instance) &&
(entries_[i]->page_id() == page_id))
return i;
}
return -1;
}