// Copyright (c) 2012 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 "content/browser/download/download_manager_impl.h" #include #include "base/bind.h" #include "base/callback.h" #include "base/debug/alias.h" #include "base/file_util.h" #include "base/i18n/case_conversion.h" #include "base/logging.h" #include "base/message_loop.h" #include "base/stl_util.h" #include "base/stringprintf.h" #include "base/supports_user_data.h" #include "base/synchronization/lock.h" #include "base/sys_string_conversions.h" #include "build/build_config.h" #include "content/browser/download/byte_stream.h" #include "content/browser/download/download_create_info.h" #include "content/browser/download/download_file_factory.h" #include "content/browser/download/download_item_factory.h" #include "content/browser/download/download_item_impl.h" #include "content/browser/download/download_stats.h" #include "content/browser/renderer_host/render_view_host_impl.h" #include "content/browser/renderer_host/resource_dispatcher_host_impl.h" #include "content/browser/web_contents/web_contents_impl.h" #include "content/public/browser/browser_context.h" #include "content/public/browser/browser_thread.h" #include "content/public/browser/content_browser_client.h" #include "content/public/browser/download_interrupt_reasons.h" #include "content/public/browser/download_manager_delegate.h" #include "content/public/browser/download_persistent_store_info.h" #include "content/public/browser/download_url_parameters.h" #include "content/public/browser/notification_service.h" #include "content/public/browser/notification_types.h" #include "content/public/browser/render_process_host.h" #include "content/public/browser/resource_context.h" #include "content/public/browser/web_contents_delegate.h" #include "net/base/load_flags.h" #include "net/base/upload_data.h" #include "net/url_request/url_request_context.h" #include "webkit/glue/webkit_glue.h" namespace content { namespace { void BeginDownload(scoped_ptr params) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::IO)); // ResourceDispatcherHost{Base} is-not-a URLRequest::Delegate, and // DownloadUrlParameters can-not include resource_dispatcher_host_impl.h, so // we must down cast. RDHI is the only subclass of RDH as of 2012 May 4. scoped_ptr request( params->resource_context()->GetRequestContext()->CreateRequest( params->url(), NULL)); request->set_referrer(params->referrer().url.spec()); webkit_glue::ConfigureURLRequestForReferrerPolicy( request.get(), params->referrer().policy); request->set_load_flags(request->load_flags() | params->load_flags()); request->set_method(params->method()); if (!params->post_body().empty()) request->AppendBytesToUpload(params->post_body().data(), params->post_body().size()); if (params->post_id() >= 0) { // The POST in this case does not have an actual body, and only works // when retrieving data from cache. This is done because we don't want // to do a re-POST without user consent, and currently don't have a good // plan on how to display the UI for that. DCHECK(params->prefer_cache()); DCHECK(params->method() == "POST"); scoped_refptr upload_data = new net::UploadData(); upload_data->set_identifier(params->post_id()); request->set_upload(upload_data); } for (DownloadUrlParameters::RequestHeadersType::const_iterator iter = params->request_headers_begin(); iter != params->request_headers_end(); ++iter) { request->SetExtraRequestHeaderByName( iter->first, iter->second, false/*overwrite*/); } params->resource_dispatcher_host()->BeginDownload( request.Pass(), params->content_initiated(), params->resource_context(), params->render_process_host_id(), params->render_view_host_routing_id(), params->prefer_cache(), params->GetSaveInfo(), params->callback()); } class MapValueIteratorAdapter { public: explicit MapValueIteratorAdapter( base::hash_map::const_iterator iter) : iter_(iter) { } ~MapValueIteratorAdapter() {} DownloadItem* operator*() { return iter_->second; } MapValueIteratorAdapter& operator++() { ++iter_; return *this; } bool operator!=(const MapValueIteratorAdapter& that) const { return iter_ != that.iter_; } private: base::hash_map::const_iterator iter_; // Allow copy and assign. }; void EnsureNoPendingDownloadJobsOnFile(bool* result) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::FILE)); *result = (DownloadFile::GetNumberOfDownloadFiles() == 0); BrowserThread::PostTask( BrowserThread::UI, FROM_HERE, MessageLoop::QuitClosure()); } class DownloadItemFactoryImpl : public DownloadItemFactory { public: DownloadItemFactoryImpl() {} virtual ~DownloadItemFactoryImpl() {} virtual DownloadItemImpl* CreatePersistedItem( DownloadItemImplDelegate* delegate, DownloadId download_id, const DownloadPersistentStoreInfo& info, const net::BoundNetLog& bound_net_log) OVERRIDE { return new DownloadItemImpl(delegate, download_id, info, bound_net_log); } virtual DownloadItemImpl* CreateActiveItem( DownloadItemImplDelegate* delegate, const DownloadCreateInfo& info, scoped_ptr request_handle, const net::BoundNetLog& bound_net_log) OVERRIDE { return new DownloadItemImpl(delegate, info, request_handle.Pass(), bound_net_log); } virtual DownloadItemImpl* CreateSavePageItem( DownloadItemImplDelegate* delegate, const FilePath& path, const GURL& url, DownloadId download_id, const std::string& mime_type, const net::BoundNetLog& bound_net_log) OVERRIDE { return new DownloadItemImpl(delegate, path, url, download_id, mime_type, bound_net_log); } }; } // namespace DownloadManagerImpl::DownloadManagerImpl( net::NetLog* net_log) : item_factory_(new DownloadItemFactoryImpl()), file_factory_(new DownloadFileFactory()), history_size_(0), shutdown_needed_(false), browser_context_(NULL), delegate_(NULL), net_log_(net_log) { } DownloadManagerImpl::~DownloadManagerImpl() { DCHECK(!shutdown_needed_); } DownloadId DownloadManagerImpl::GetNextId() { DownloadId id; if (delegate_) id = delegate_->GetNextId(); if (!id.IsValid()) { static int next_id; id = DownloadId(browser_context_, ++next_id); } return id; } void DownloadManagerImpl::DetermineDownloadTarget( DownloadItemImpl* item, const DownloadTargetCallback& callback) { // Note that this next call relies on // DownloadItemImplDelegate::DownloadTargetCallback and // DownloadManagerDelegate::DownloadTargetCallback having the same // type. If the types ever diverge, gasket code will need to // be written here. if (!delegate_ || !delegate_->DetermineDownloadTarget(item, callback)) { FilePath target_path = item->GetForcedFilePath(); // TODO(asanka): Determine a useful path if |target_path| is empty. callback.Run(target_path, DownloadItem::TARGET_DISPOSITION_OVERWRITE, DOWNLOAD_DANGER_TYPE_NOT_DANGEROUS, target_path); } } void DownloadManagerImpl::ReadyForDownloadCompletion( DownloadItemImpl* item, const base::Closure& complete_callback) { if (!delegate_ || delegate_->ShouldCompleteDownload(item, complete_callback)) { complete_callback.Run(); } // Otherwise, the delegate has accepted responsibility to run the // callback when the download is ready for completion. } bool DownloadManagerImpl::ShouldOpenFileBasedOnExtension(const FilePath& path) { if (!delegate_) return false; return delegate_->ShouldOpenFileBasedOnExtension(path); } bool DownloadManagerImpl::ShouldOpenDownload(DownloadItemImpl* item) { if (!delegate_) return true; return delegate_->ShouldOpenDownload(item); } void DownloadManagerImpl::SetDelegate(DownloadManagerDelegate* delegate) { delegate_ = delegate; } DownloadManagerDelegate* DownloadManagerImpl::GetDelegate() const { return delegate_; } void DownloadManagerImpl::Shutdown() { VLOG(20) << __FUNCTION__ << "()" << " shutdown_needed_ = " << shutdown_needed_; if (!shutdown_needed_) return; shutdown_needed_ = false; FOR_EACH_OBSERVER(Observer, observers_, ManagerGoingDown(this)); // TODO(benjhayden): Consider clearing observers_. AssertContainersConsistent(); // Go through all downloads in downloads_. Dangerous ones we need to // remove on disk, and in progress ones we need to cancel. for (DownloadMap::iterator it = downloads_.begin(); it != downloads_.end();) { DownloadItemImpl* download = it->second; // Save iterator from potential erases in this set done by called code. // Iterators after an erasure point are still valid for lists and // associative containers such as sets. it++; if (download->GetSafetyState() == DownloadItem::DANGEROUS && download->IsPartialDownload()) { // The user hasn't accepted it, so we need to remove it // from the disk. This may or may not result in it being // removed from the DownloadManager queues and deleted // (specifically, DownloadManager::DownloadRemoved only // removes and deletes it if it's known to the history service) // so the only thing we know after calling this function is that // the download was deleted if-and-only-if it was removed // from all queues. download->Delete(DownloadItem::DELETE_DUE_TO_BROWSER_SHUTDOWN); } else if (download->IsPartialDownload()) { download->Cancel(false); if (delegate_) delegate_->UpdateItemInPersistentStore(download); } } // At this point, all dangerous downloads have had their files removed // and all in progress downloads have been cancelled. We can now delete // anything left. // We delete the downloads before clearing the active_downloads_ map // so that downloads in the COMPLETING_INTERNAL state (which will have // ignored the Cancel() above) will still show up in active_downloads_ // in order to satisfy the invariants enforced in AssertStateConsistent(). STLDeleteValues(&downloads_); active_downloads_.clear(); downloads_.clear(); // We'll have nothing more to report to the observers after this point. observers_.Clear(); if (delegate_) delegate_->Shutdown(); delegate_ = NULL; } bool DownloadManagerImpl::Init(BrowserContext* browser_context) { DCHECK(browser_context); DCHECK(!shutdown_needed_) << "DownloadManager already initialized."; shutdown_needed_ = true; browser_context_ = browser_context; return true; } DownloadItem* DownloadManagerImpl::StartDownload( scoped_ptr info, scoped_ptr stream) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); net::BoundNetLog bound_net_log = net::BoundNetLog::Make(net_log_, net::NetLog::SOURCE_DOWNLOAD); FilePath default_download_directory; if (delegate_) { FilePath website_save_directory; // Unused bool skip_dir_check = false; // Unused delegate_->GetSaveDir(GetBrowserContext(), &website_save_directory, &default_download_directory, &skip_dir_check); } // We create the DownloadItem before the DownloadFile because the // DownloadItem already needs to handle a state in which there is // no associated DownloadFile (history downloads, !IN_PROGRESS downloads) DownloadItemImpl* download = CreateDownloadItem(info.get(), bound_net_log); scoped_ptr download_file( file_factory_->CreateFile( info->save_info.Pass(), default_download_directory, info->url(), info->referrer_url, info->received_bytes, delegate_->GenerateFileHash(), stream.Pass(), bound_net_log, download->DestinationObserverAsWeakPtr())); download->Start(download_file.Pass()); // Delay notification until after Start() so that download_file is bound // to download and all the usual setters (e.g. Cancel) work. FOR_EACH_OBSERVER(Observer, observers_, OnDownloadCreated(this, download)); return download; } void DownloadManagerImpl::CheckForHistoryFilesRemoval() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); for (DownloadMap::iterator it = downloads_.begin(); it != downloads_.end(); ++it) { DownloadItemImpl* item = it->second; if (item->IsPersisted()) CheckForFileRemoval(item); } } void DownloadManagerImpl::CheckForFileRemoval(DownloadItemImpl* download_item) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); if (download_item->IsComplete() && !download_item->GetFileExternallyRemoved()) { BrowserThread::PostTask( BrowserThread::FILE, FROM_HERE, base::Bind(&DownloadManagerImpl::CheckForFileRemovalOnFileThread, this, download_item->GetId(), download_item->GetTargetFilePath())); } } void DownloadManagerImpl::CheckForFileRemovalOnFileThread( int32 download_id, const FilePath& path) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::FILE)); if (!file_util::PathExists(path)) { BrowserThread::PostTask( BrowserThread::UI, FROM_HERE, base::Bind(&DownloadManagerImpl::OnFileRemovalDetected, this, download_id)); } } void DownloadManagerImpl::OnFileRemovalDetected(int32 download_id) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); if (ContainsKey(downloads_, download_id)) downloads_[download_id]->OnDownloadedFileRemoved(); } BrowserContext* DownloadManagerImpl::GetBrowserContext() const { return browser_context_; } DownloadItemImpl* DownloadManagerImpl::CreateDownloadItem( DownloadCreateInfo* info, const net::BoundNetLog& bound_net_log) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); if (!info->download_id.IsValid()) info->download_id = GetNextId(); DownloadItemImpl* download = item_factory_->CreateActiveItem( this, *info, scoped_ptr( new DownloadRequestHandle(info->request_handle)).Pass(), bound_net_log); DCHECK(!ContainsKey(downloads_, download->GetId())); downloads_[download->GetId()] = download; DCHECK(!ContainsKey(active_downloads_, download->GetId())); active_downloads_[download->GetId()] = download; return download; } DownloadItemImpl* DownloadManagerImpl::CreateSavePackageDownloadItem( const FilePath& main_file_path, const GURL& page_url, const std::string& mime_type, DownloadItem::Observer* observer) { net::BoundNetLog bound_net_log = net::BoundNetLog::Make(net_log_, net::NetLog::SOURCE_DOWNLOAD); DownloadItemImpl* download = item_factory_->CreateSavePageItem( this, main_file_path, page_url, GetNextId(), mime_type, bound_net_log); download->AddObserver(observer); DCHECK(!ContainsKey(downloads_, download->GetId())); downloads_[download->GetId()] = download; FOR_EACH_OBSERVER(Observer, observers_, OnDownloadCreated(this, download)); // Will notify the observer in the callback. if (delegate_) delegate_->AddItemToPersistentStore(download); return download; } void DownloadManagerImpl::AssertStateConsistent( DownloadItemImpl* download) const { CHECK(ContainsKey(downloads_, download->GetId())); int64 state = download->GetState(); base::debug::Alias(&state); if (ContainsKey(active_downloads_, download->GetId())) { if (download->IsPersisted()) CHECK_EQ(DownloadItem::IN_PROGRESS, download->GetState()); if (DownloadItem::IN_PROGRESS != download->GetState()) CHECK_EQ(DownloadItem::kUninitializedHandle, download->GetDbHandle()); } if (DownloadItem::IN_PROGRESS == download->GetState()) CHECK(ContainsKey(active_downloads_, download->GetId())); } void DownloadManagerImpl::DownloadCompleted(DownloadItemImpl* download) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(download); if (delegate_) delegate_->UpdateItemInPersistentStore(download); active_downloads_.erase(download->GetId()); AssertStateConsistent(download); } void DownloadManagerImpl::CancelDownload(int32 download_id) { // A cancel at the right time could remove the download from the // |active_downloads_| map before we get here. if (ContainsKey(active_downloads_, download_id)) active_downloads_[download_id]->Cancel(true); } void DownloadManagerImpl::UpdatePersistence(DownloadItemImpl* download) { if (delegate_) delegate_->UpdateItemInPersistentStore(download); } void DownloadManagerImpl::DownloadStopped(DownloadItemImpl* download) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); VLOG(20) << __FUNCTION__ << "()" << " download = " << download->DebugString(true); RemoveFromActiveList(download); // This function is called from the DownloadItem, so DI state // should already have been updated. AssertStateConsistent(download); } void DownloadManagerImpl::RemoveFromActiveList(DownloadItemImpl* download) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(download); // Clean up will happen when the history system create callback runs if we // don't have a valid db_handle yet. if (download->IsPersisted()) { active_downloads_.erase(download->GetId()); if (delegate_) delegate_->UpdateItemInPersistentStore(download); } } void DownloadManagerImpl::SetDownloadItemFactoryForTesting( scoped_ptr item_factory) { item_factory_ = item_factory.Pass(); } void DownloadManagerImpl::SetDownloadFileFactoryForTesting( scoped_ptr file_factory) { file_factory_ = file_factory.Pass(); } DownloadFileFactory* DownloadManagerImpl::GetDownloadFileFactoryForTesting() { return file_factory_.get(); } int DownloadManagerImpl::RemoveDownloadItems( const DownloadItemImplVector& pending_deletes) { if (pending_deletes.empty()) return 0; // Delete from internal maps. for (DownloadItemImplVector::const_iterator it = pending_deletes.begin(); it != pending_deletes.end(); ++it) { DownloadItemImpl* download = *it; DCHECK(download); int32 download_id = download->GetId(); delete download; downloads_.erase(download_id); } NotifyModelChanged(); return static_cast(pending_deletes.size()); } void DownloadManagerImpl::DownloadRemoved(DownloadItemImpl* download) { if (!download || downloads_.find(download->GetId()) == downloads_.end()) return; // TODO(benjhayden,rdsmith): Remove this. if (!download->IsPersisted()) return; // Make history update. if (delegate_) delegate_->RemoveItemFromPersistentStore(download); // Remove from our tables and delete. int downloads_count = RemoveDownloadItems(DownloadItemImplVector(1, download)); DCHECK_EQ(1, downloads_count); } int DownloadManagerImpl::RemoveDownloadsBetween(base::Time remove_begin, base::Time remove_end) { if (delegate_) delegate_->RemoveItemsFromPersistentStoreBetween(remove_begin, remove_end); DownloadItemImplVector pending_deletes; for (DownloadMap::const_iterator it = downloads_.begin(); it != downloads_.end(); ++it) { DownloadItemImpl* download = it->second; if (download->IsPersisted() && download->GetStartTime() >= remove_begin && (remove_end.is_null() || download->GetStartTime() < remove_end) && (download->IsComplete() || download->IsCancelled())) { AssertStateConsistent(download); download->NotifyRemoved(); pending_deletes.push_back(download); } } return RemoveDownloadItems(pending_deletes); } int DownloadManagerImpl::RemoveDownloads(base::Time remove_begin) { return RemoveDownloadsBetween(remove_begin, base::Time()); } int DownloadManagerImpl::RemoveAllDownloads() { // The null times make the date range unbounded. int num_deleted = RemoveDownloadsBetween(base::Time(), base::Time()); RecordClearAllSize(num_deleted); return num_deleted; } void DownloadManagerImpl::DownloadUrl( scoped_ptr params) { if (params->post_id() >= 0) { // Check this here so that the traceback is more useful. DCHECK(params->prefer_cache()); DCHECK(params->method() == "POST"); } BrowserThread::PostTask(BrowserThread::IO, FROM_HERE, base::Bind( &BeginDownload, base::Passed(params.Pass()))); } void DownloadManagerImpl::AddObserver(Observer* observer) { observers_.AddObserver(observer); // TODO: It is the responsibility of the observers to query the // DownloadManager. Remove the following call from here and update all // observers. observer->ModelChanged(this); } void DownloadManagerImpl::RemoveObserver(Observer* observer) { observers_.RemoveObserver(observer); } // Operations posted to us from the history service ---------------------------- // The history service has retrieved all download entries. 'entries' contains // 'DownloadPersistentStoreInfo's in sorted order (by ascending start_time). void DownloadManagerImpl::OnPersistentStoreQueryComplete( std::vector* entries) { history_size_ = entries->size(); for (size_t i = 0; i < entries->size(); ++i) { int64 db_handle = entries->at(i).db_handle; base::debug::Alias(&db_handle); net::BoundNetLog bound_net_log = net::BoundNetLog::Make(net_log_, net::NetLog::SOURCE_DOWNLOAD); DownloadItemImpl* download = item_factory_->CreatePersistedItem( this, GetNextId(), entries->at(i), bound_net_log); DCHECK(!ContainsKey(downloads_, download->GetId())); downloads_[download->GetId()] = download; FOR_EACH_OBSERVER(Observer, observers_, OnDownloadCreated(this, download)); VLOG(20) << __FUNCTION__ << "()" << i << ">" << " download = " << download->DebugString(true); } NotifyModelChanged(); CheckForHistoryFilesRemoval(); } void DownloadManagerImpl::AddDownloadItemToHistory(DownloadItemImpl* download, int64 db_handle) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK_NE(DownloadItem::kUninitializedHandle, db_handle); DCHECK(!download->IsPersisted()); download->SetDbHandle(db_handle); download->SetIsPersisted(); RecordHistorySize(history_size_); // Not counting |download|. ++history_size_; // Show in the appropriate browser UI. // This includes buttons to save or cancel, for a dangerous download. ShowDownloadInBrowser(download); // Inform interested objects about the new download. NotifyModelChanged(); } void DownloadManagerImpl::OnItemAddedToPersistentStore(int32 download_id, int64 db_handle) { // It's valid that we don't find a matching item, i.e. on shutdown. if (!ContainsKey(downloads_, download_id)) return; DownloadItemImpl* item = downloads_[download_id]; AddDownloadItemToHistory(item, db_handle); if (item->IsSavePackageDownload()) { OnSavePageItemAddedToPersistentStore(item); } else { OnDownloadItemAddedToPersistentStore(item); } } // Once the new DownloadItem has been committed to the persistent store, // associate it with its db_handle (TODO(benjhayden) merge db_handle with id), // show it in the browser (TODO(benjhayden) the ui should observe us instead), // and notify observers (TODO(benjhayden) observers should be able to see the // item when it's created so they can observe it directly. Are there any // clients that actually need to know when the item is added to the history?). void DownloadManagerImpl::OnDownloadItemAddedToPersistentStore( DownloadItemImpl* item) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); VLOG(20) << __FUNCTION__ << "()" << " db_handle = " << item->GetDbHandle() << " download_id = " << item->GetId() << " download = " << item->DebugString(true); // If the download is still in progress, try to complete it. // // Otherwise, download has been cancelled or interrupted before we've // received the DB handle. We post one final message to the history // service so that it can be properly in sync with the DownloadItem's // completion status, and also inform any observers so that they get // more than just the start notification. if (item->IsInProgress()) { item->MaybeCompleteDownload(); } else { DCHECK(item->IsCancelled()); active_downloads_.erase(item->GetId()); if (delegate_) delegate_->UpdateItemInPersistentStore(item); item->UpdateObservers(); } } void DownloadManagerImpl::ShowDownloadInBrowser(DownloadItemImpl* download) { // The 'contents' may no longer exist if the user closed the contents before // we get this start completion event. WebContents* content = download->GetWebContents(); // If the contents no longer exists, we ask the embedder to suggest another // contents. if (!content && delegate_) content = delegate_->GetAlternativeWebContentsToNotifyForDownload(); if (content && content->GetDelegate()) content->GetDelegate()->OnStartDownload(content, download); } int DownloadManagerImpl::InProgressCount() const { // Don't use active_downloads_.count() because Cancel() leaves items in // active_downloads_ if they haven't made it into the persistent store yet. // Need to actually look at each item's state. int count = 0; for (DownloadMap::const_iterator it = active_downloads_.begin(); it != active_downloads_.end(); ++it) { DownloadItemImpl* item = it->second; if (item->IsInProgress()) ++count; } return count; } void DownloadManagerImpl::NotifyModelChanged() { FOR_EACH_OBSERVER(Observer, observers_, ModelChanged(this)); } DownloadItem* DownloadManagerImpl::GetDownload(int download_id) { return ContainsKey(downloads_, download_id) ? downloads_[download_id] : NULL; } void DownloadManagerImpl::GetAllDownloads(DownloadVector* downloads) { for (DownloadMap::iterator it = downloads_.begin(); it != downloads_.end(); ++it) { downloads->push_back(it->second); } } // Confirm that everything in all maps is also in |downloads_|, and that // everything in |downloads_| is also in some other map. void DownloadManagerImpl::AssertContainersConsistent() const { #if !defined(NDEBUG) // Turn everything into sets. const DownloadMap* input_maps[] = {&active_downloads_}; DownloadSet active_set; DownloadSet* all_sets[] = {&active_set}; DCHECK_EQ(ARRAYSIZE_UNSAFE(input_maps), ARRAYSIZE_UNSAFE(all_sets)); for (size_t i = 0; i < ARRAYSIZE_UNSAFE(input_maps); i++) { for (DownloadMap::const_iterator it = input_maps[i]->begin(); it != input_maps[i]->end(); ++it) { all_sets[i]->insert(&*it->second); } } DownloadSet all_downloads; for (DownloadMap::const_iterator it = downloads_.begin(); it != downloads_.end(); ++it) { all_downloads.insert(it->second); } // Check if each set is fully present in downloads, and create a union. for (int i = 0; i < static_cast(ARRAYSIZE_UNSAFE(all_sets)); i++) { DownloadSet remainder; std::insert_iterator insert_it(remainder, remainder.begin()); std::set_difference(all_sets[i]->begin(), all_sets[i]->end(), all_downloads.begin(), all_downloads.end(), insert_it); DCHECK(remainder.empty()); } #endif } // SavePackage will call SavePageDownloadFinished upon completion/cancellation. // The history callback will call OnSavePageItemAddedToPersistentStore. // If the download finishes before the history callback, // OnSavePageItemAddedToPersistentStore calls SavePageDownloadFinished, ensuring // that the history event is update regardless of the order in which these two // events complete. // If something removes the download item from the download manager (Remove, // Shutdown) the result will be that the SavePage system will not be able to // properly update the download item (which no longer exists) or the download // history, but the action will complete properly anyway. This may lead to the // history entry being wrong on a reload of chrome (specifically in the case of // Initiation -> History Callback -> Removal -> Completion), but there's no way // to solve that without canceling on Remove (which would then update the DB). void DownloadManagerImpl::OnSavePageItemAddedToPersistentStore( DownloadItemImpl* item) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); // Finalize this download if it finished before the history callback. if (!item->IsInProgress()) SavePageDownloadFinished(item); } void DownloadManagerImpl::SavePageDownloadFinished(DownloadItem* download) { if (download->IsPersisted()) { if (delegate_) delegate_->UpdateItemInPersistentStore(download); } } void DownloadManagerImpl::DownloadOpened(DownloadItemImpl* download) { if (delegate_) delegate_->UpdateItemInPersistentStore(download); int num_unopened = 0; for (DownloadMap::iterator it = downloads_.begin(); it != downloads_.end(); ++it) { DownloadItemImpl* item = it->second; if (item->IsComplete() && !item->GetOpened()) ++num_unopened; } RecordOpensOutstanding(num_unopened); } void DownloadManagerImpl::DownloadRenamedToIntermediateName( DownloadItemImpl* download) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); // download->GetFullPath() is only expected to be meaningful after this // callback is received. Therefore we can now add the download to a persistent // store. If the rename failed, we processed an interrupt // before we receive the DownloadRenamedToIntermediateName() call. if (delegate_) { delegate_->AddItemToPersistentStore(download); } else { OnItemAddedToPersistentStore(download->GetId(), DownloadItem::kUninitializedHandle); } } void DownloadManagerImpl::DownloadRenamedToFinalName( DownloadItemImpl* download) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); // If the rename failed, we processed an interrupt before we get here. if (delegate_) { delegate_->UpdatePathForItemInPersistentStore( download, download->GetFullPath()); } } } // namespace content