// Copyright 2013 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/download/download_target_determiner.h" #include "base/prefs/pref_service.h" #include "base/rand_util.h" #include "base/strings/stringprintf.h" #include "base/time/time.h" #include "chrome/browser/download/chrome_download_manager_delegate.h" #include "chrome/browser/download/download_crx_util.h" #include "chrome/browser/download/download_extensions.h" #include "chrome/browser/download/download_prefs.h" #include "chrome/browser/extensions/webstore_installer.h" #include "chrome/browser/history/history_service.h" #include "chrome/browser/history/history_service_factory.h" #include "chrome/browser/profiles/profile.h" #include "chrome/common/pref_names.h" #include "content/public/browser/browser_context.h" #include "content/public/browser/browser_thread.h" #include "content/public/browser/download_interrupt_reasons.h" #include "extensions/common/constants.h" #include "extensions/common/feature_switch.h" #include "grit/generated_resources.h" #include "net/base/mime_util.h" #include "net/base/net_util.h" #include "ui/base/l10n/l10n_util.h" #if defined(ENABLE_PLUGINS) #include "chrome/browser/plugins/plugin_prefs.h" #include "content/public/browser/plugin_service.h" #include "content/public/common/webplugininfo.h" #endif using content::BrowserThread; using content::DownloadItem; namespace { const base::FilePath::CharType kCrdownloadSuffix[] = FILE_PATH_LITERAL(".crdownload"); // Condenses the results from HistoryService::GetVisibleVisitCountToHost() to a // single bool. A host is considered visited before if prior visible visits were // found in history and the first such visit was earlier than the most recent // midnight. void VisitCountsToVisitedBefore( const base::Callback<void(bool)>& callback, HistoryService::Handle unused_handle, bool found_visits, int count, base::Time first_visit) { callback.Run( found_visits && count > 0 && (first_visit.LocalMidnight() < base::Time::Now().LocalMidnight())); } } // namespace DownloadTargetInfo::DownloadTargetInfo() : is_filetype_handled_securely(false) {} DownloadTargetInfo::~DownloadTargetInfo() {} DownloadTargetDeterminerDelegate::~DownloadTargetDeterminerDelegate() { } DownloadTargetDeterminer::DownloadTargetDeterminer( DownloadItem* download, const base::FilePath& initial_virtual_path, DownloadPrefs* download_prefs, DownloadTargetDeterminerDelegate* delegate, const CompletionCallback& callback) : next_state_(STATE_GENERATE_TARGET_PATH), should_prompt_(false), should_notify_extensions_(false), create_target_directory_(false), conflict_action_(DownloadPathReservationTracker::OVERWRITE), danger_type_(download->GetDangerType()), virtual_path_(initial_virtual_path), is_filetype_handled_securely_(false), download_(download), is_resumption_(download_->GetLastReason() != content::DOWNLOAD_INTERRUPT_REASON_NONE && !initial_virtual_path.empty()), download_prefs_(download_prefs), delegate_(delegate), completion_callback_(callback), weak_ptr_factory_(this) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(download_); DCHECK(delegate); download_->AddObserver(this); DoLoop(); } DownloadTargetDeterminer::~DownloadTargetDeterminer() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(download_); DCHECK(completion_callback_.is_null()); download_->RemoveObserver(this); } void DownloadTargetDeterminer::DoLoop() { Result result = CONTINUE; do { State current_state = next_state_; next_state_ = STATE_NONE; switch (current_state) { case STATE_GENERATE_TARGET_PATH: result = DoGenerateTargetPath(); break; case STATE_NOTIFY_EXTENSIONS: result = DoNotifyExtensions(); break; case STATE_RESERVE_VIRTUAL_PATH: result = DoReserveVirtualPath(); break; case STATE_PROMPT_USER_FOR_DOWNLOAD_PATH: result = DoPromptUserForDownloadPath(); break; case STATE_DETERMINE_LOCAL_PATH: result = DoDetermineLocalPath(); break; case STATE_DETERMINE_MIME_TYPE: result = DoDetermineMimeType(); break; case STATE_DETERMINE_IF_HANDLED_BY_BROWSER: result = DoDetermineIfHandledByBrowser(); break; case STATE_CHECK_DOWNLOAD_URL: result = DoCheckDownloadUrl(); break; case STATE_DETERMINE_INTERMEDIATE_PATH: result = DoDetermineIntermediatePath(); break; case STATE_CHECK_VISITED_REFERRER_BEFORE: result = DoCheckVisitedReferrerBefore(); break; case STATE_NONE: NOTREACHED(); return; } } while (result == CONTINUE); // Note that if a callback completes synchronously, the handler will still // return QUIT_DOLOOP. In this case, an inner DoLoop() may complete the target // determination and delete |this|. if (result == COMPLETE) ScheduleCallbackAndDeleteSelf(); } DownloadTargetDeterminer::Result DownloadTargetDeterminer::DoGenerateTargetPath() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(local_path_.empty()); DCHECK(!should_prompt_); DCHECK(!should_notify_extensions_); DCHECK_EQ(DownloadPathReservationTracker::OVERWRITE, conflict_action_); bool is_forced_path = !download_->GetForcedFilePath().empty(); next_state_ = STATE_NOTIFY_EXTENSIONS; if (!virtual_path_.empty() && HasPromptedForPath() && !is_forced_path) { // The download is being resumed and the user has already been prompted for // a path. Assume that it's okay to overwrite the file if there's a conflict // and reuse the selection. should_prompt_ = ShouldPromptForDownload(virtual_path_); } else if (!is_forced_path) { // If we don't have a forced path, we should construct a path for the // download. Forced paths are only specified for programmatic downloads // (WebStore, Drag&Drop). Treat the path as a virtual path. We will // eventually determine whether this is a local path and if not, figure out // a local path. std::string default_filename( l10n_util::GetStringUTF8(IDS_DEFAULT_DOWNLOAD_FILENAME)); base::FilePath generated_filename = net::GenerateFileName( download_->GetURL(), download_->GetContentDisposition(), GetProfile()->GetPrefs()->GetString(prefs::kDefaultCharset), download_->GetSuggestedFilename(), download_->GetMimeType(), default_filename); should_prompt_ = ShouldPromptForDownload(generated_filename); base::FilePath target_directory; if (should_prompt_) { DCHECK(!download_prefs_->IsDownloadPathManaged()); // If the user is going to be prompted and the user has been prompted // before, then always prefer the last directory that the user selected. target_directory = download_prefs_->SaveFilePath(); } else { target_directory = download_prefs_->DownloadPath(); } virtual_path_ = target_directory.Append(generated_filename); conflict_action_ = DownloadPathReservationTracker::UNIQUIFY; should_notify_extensions_ = true; } else { virtual_path_ = download_->GetForcedFilePath(); // If this is a resumed download which was previously interrupted due to an // issue with the forced path, the user is still not prompted. If the path // supplied to a programmatic download is invalid, then the caller needs to // intervene. } DCHECK(virtual_path_.IsAbsolute()); DVLOG(20) << "Generated virtual path: " << virtual_path_.AsUTF8Unsafe(); // If the download is DOA, don't bother going any further. This would be the // case for a download that failed to initialize (e.g. the initial temporary // file couldn't be created because both the downloads directory and the // temporary directory are unwriteable). // // A virtual path is determined for DOA downloads for display purposes. This // is why this check is performed here instead of at the start. if (download_->GetState() != DownloadItem::IN_PROGRESS) return COMPLETE; return CONTINUE; } DownloadTargetDeterminer::Result DownloadTargetDeterminer::DoNotifyExtensions() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(!virtual_path_.empty()); next_state_ = STATE_RESERVE_VIRTUAL_PATH; if (!should_notify_extensions_) return CONTINUE; delegate_->NotifyExtensions(download_, virtual_path_, base::Bind(&DownloadTargetDeterminer::NotifyExtensionsDone, weak_ptr_factory_.GetWeakPtr())); return QUIT_DOLOOP; } void DownloadTargetDeterminer::NotifyExtensionsDone( const base::FilePath& suggested_path, DownloadPathReservationTracker::FilenameConflictAction conflict_action) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DVLOG(20) << "Extension suggested path: " << suggested_path.AsUTF8Unsafe(); if (!suggested_path.empty()) { // If an extension overrides the filename, then the target directory will be // forced to download_prefs_->DownloadPath() since extensions cannot place // downloaded files anywhere except there. This prevents subdirectories from // accumulating: if an extension is allowed to say that a file should go in // last_download_path/music/foo.mp3, then last_download_path will accumulate // the subdirectory /music/ so that the next download may end up in // Downloads/music/music/music/bar.mp3. base::FilePath new_path(download_prefs_->DownloadPath().Append( suggested_path).NormalizePathSeparators()); // Do not pass a mime type to GenerateSafeFileName so that it does not force // the filename to have an extension if the (Chrome) extension does not // suggest it. net::GenerateSafeFileName(std::string(), false, &new_path); virtual_path_ = new_path; create_target_directory_ = true; conflict_action_ = conflict_action; } DoLoop(); } DownloadTargetDeterminer::Result DownloadTargetDeterminer::DoReserveVirtualPath() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(!virtual_path_.empty()); next_state_ = STATE_PROMPT_USER_FOR_DOWNLOAD_PATH; delegate_->ReserveVirtualPath( download_, virtual_path_, create_target_directory_, conflict_action_, base::Bind(&DownloadTargetDeterminer::ReserveVirtualPathDone, weak_ptr_factory_.GetWeakPtr())); return QUIT_DOLOOP; } void DownloadTargetDeterminer::ReserveVirtualPathDone( const base::FilePath& path, bool verified) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DVLOG(20) << "Reserved path: " << path.AsUTF8Unsafe() << " Verified:" << verified; should_prompt_ = (should_prompt_ || !verified); virtual_path_ = path; DoLoop(); } DownloadTargetDeterminer::Result DownloadTargetDeterminer::DoPromptUserForDownloadPath() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(!virtual_path_.empty()); next_state_ = STATE_DETERMINE_LOCAL_PATH; if (should_prompt_) { delegate_->PromptUserForDownloadPath( download_, virtual_path_, base::Bind(&DownloadTargetDeterminer::PromptUserForDownloadPathDone, weak_ptr_factory_.GetWeakPtr())); return QUIT_DOLOOP; } return CONTINUE; } void DownloadTargetDeterminer::PromptUserForDownloadPathDone( const base::FilePath& virtual_path) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DVLOG(20) << "User selected path:" << virtual_path.AsUTF8Unsafe(); if (virtual_path.empty()) { CancelOnFailureAndDeleteSelf(); return; } virtual_path_ = virtual_path; download_prefs_->SetSaveFilePath(virtual_path_.DirName()); DoLoop(); } DownloadTargetDeterminer::Result DownloadTargetDeterminer::DoDetermineLocalPath() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(!virtual_path_.empty()); DCHECK(local_path_.empty()); next_state_ = STATE_DETERMINE_MIME_TYPE; delegate_->DetermineLocalPath( download_, virtual_path_, base::Bind(&DownloadTargetDeterminer::DetermineLocalPathDone, weak_ptr_factory_.GetWeakPtr())); return QUIT_DOLOOP; } void DownloadTargetDeterminer::DetermineLocalPathDone( const base::FilePath& local_path) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DVLOG(20) << "Local path: " << local_path.AsUTF8Unsafe(); if (local_path.empty()) { // Path subsitution failed. CancelOnFailureAndDeleteSelf(); return; } local_path_ = local_path; DoLoop(); } DownloadTargetDeterminer::Result DownloadTargetDeterminer::DoDetermineMimeType() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(!virtual_path_.empty()); DCHECK(!local_path_.empty()); DCHECK(mime_type_.empty()); next_state_ = STATE_DETERMINE_IF_HANDLED_BY_BROWSER; if (virtual_path_ == local_path_) { delegate_->GetFileMimeType( local_path_, base::Bind(&DownloadTargetDeterminer::DetermineMimeTypeDone, weak_ptr_factory_.GetWeakPtr())); return QUIT_DOLOOP; } return CONTINUE; } void DownloadTargetDeterminer::DetermineMimeTypeDone( const std::string& mime_type) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DVLOG(20) << "MIME type: " << mime_type; mime_type_ = mime_type; DoLoop(); } #if defined(ENABLE_PLUGINS) // The code below is used by DoDetermineIfHandledByBrowser to determine if the // file type is handled by a sandboxed plugin. namespace { typedef std::vector<content::WebPluginInfo> PluginVector; // Returns true if there is a plugin in |plugins| that is sandboxed and enabled // for |profile|. bool IsSafePluginAvailableForProfile(scoped_ptr<PluginVector> plugins, Profile* profile) { using content::WebPluginInfo; DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); if (plugins->size() == 0) return false; scoped_refptr<PluginPrefs> plugin_prefs = PluginPrefs::GetForProfile(profile); if (!plugin_prefs) return false; for (PluginVector::iterator plugin = plugins->begin(); plugin != plugins->end(); ++plugin) { if (plugin_prefs->IsPluginEnabled(*plugin) && (plugin->type == WebPluginInfo::PLUGIN_TYPE_PEPPER_IN_PROCESS || plugin->type == WebPluginInfo::PLUGIN_TYPE_PEPPER_OUT_OF_PROCESS)) return true; } return false; } // Returns a callback that determines if a sandboxed plugin is available to // handle |mime_type| for a specific profile. The returned callback must be // invoked on the UI thread, while this function should be called on the IO // thread. base::Callback<bool(Profile*)> GetSafePluginChecker( const GURL& url, const std::string& mime_type) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::IO)); DCHECK(!mime_type.empty()); scoped_ptr<PluginVector> plugins(new PluginVector); content::PluginService* plugin_service = content::PluginService::GetInstance(); if (plugin_service) plugin_service->GetPluginInfoArray( url, mime_type, false, plugins.get(), NULL); return base::Bind(&IsSafePluginAvailableForProfile, base::Passed(&plugins)); } } // namespace #endif // ENABLE_PLUGINS DownloadTargetDeterminer::Result DownloadTargetDeterminer::DoDetermineIfHandledByBrowser() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(!virtual_path_.empty()); DCHECK(!local_path_.empty()); DCHECK(!is_filetype_handled_securely_); next_state_ = STATE_CHECK_DOWNLOAD_URL; if (mime_type_.empty()) return CONTINUE; if (net::IsSupportedMimeType(mime_type_)) { is_filetype_handled_securely_ = true; return CONTINUE; } #if defined(ENABLE_PLUGINS) BrowserThread::PostTaskAndReplyWithResult( BrowserThread::IO, FROM_HERE, base::Bind(&GetSafePluginChecker, net::FilePathToFileURL(local_path_), mime_type_), base::Bind(&DownloadTargetDeterminer::DetermineIfHandledByBrowserDone, weak_ptr_factory_.GetWeakPtr())); return QUIT_DOLOOP; #else return CONTINUE; #endif } void DownloadTargetDeterminer::DetermineIfHandledByBrowserDone( const base::Callback<bool(Profile*)>& callback) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); is_filetype_handled_securely_ = callback.Run(GetProfile()); DVLOG(20) << "Is file type handled securely: " << is_filetype_handled_securely_; DoLoop(); } DownloadTargetDeterminer::Result DownloadTargetDeterminer::DoCheckDownloadUrl() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(!virtual_path_.empty()); next_state_ = STATE_CHECK_VISITED_REFERRER_BEFORE; delegate_->CheckDownloadUrl( download_, virtual_path_, base::Bind(&DownloadTargetDeterminer::CheckDownloadUrlDone, weak_ptr_factory_.GetWeakPtr())); return QUIT_DOLOOP; } void DownloadTargetDeterminer::CheckDownloadUrlDone( content::DownloadDangerType danger_type) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DVLOG(20) << "URL Check Result:" << danger_type; danger_type_ = danger_type; DoLoop(); } DownloadTargetDeterminer::Result DownloadTargetDeterminer::DoCheckVisitedReferrerBefore() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); next_state_ = STATE_DETERMINE_INTERMEDIATE_PATH; // Checking if there are prior visits to the referrer is only necessary if the // danger level of the download depends on the file type. This excludes cases // where the download has already been deemed dangerous, or where the user is // going to be prompted or where this is a programmatic download. if (danger_type_ != content::DOWNLOAD_DANGER_TYPE_NOT_DANGEROUS) return CONTINUE; // Assume that: // IsDangerousFile(VISITED_REFERRER) => IsDangerousFile(NO_VISITS_...) // I.e. having visited a referrer only lowers a file's danger level. if (IsDangerousFile(NO_VISITS_TO_REFERRER)) { // Only need to ping the history DB if the download would be considered safe // if there are prior visits and is considered dangerous otherwise. if (!IsDangerousFile(VISITED_REFERRER)) { // HistoryServiceFactory redirects incognito profiles to on-record // profiles. There's no history for on-record profiles in unit_tests. HistoryService* history_service = HistoryServiceFactory::GetForProfile( GetProfile(), Profile::EXPLICIT_ACCESS); if (history_service && download_->GetReferrerUrl().is_valid()) { history_service->GetVisibleVisitCountToHost( download_->GetReferrerUrl(), &history_consumer_, base::Bind(&VisitCountsToVisitedBefore, base::Bind( &DownloadTargetDeterminer::CheckVisitedReferrerBeforeDone, weak_ptr_factory_.GetWeakPtr()))); return QUIT_DOLOOP; } } // If the danger level doesn't depend on having visited the refererrer URL // or if original profile doesn't have a HistoryService or the referrer url // is invalid, then assume the referrer has not been visited before. danger_type_ = content::DOWNLOAD_DANGER_TYPE_DANGEROUS_FILE; } return CONTINUE; } void DownloadTargetDeterminer::CheckVisitedReferrerBeforeDone( bool visited_referrer_before) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); if (IsDangerousFile( visited_referrer_before ? VISITED_REFERRER : NO_VISITS_TO_REFERRER)) danger_type_ = content::DOWNLOAD_DANGER_TYPE_DANGEROUS_FILE; DoLoop(); } DownloadTargetDeterminer::Result DownloadTargetDeterminer::DoDetermineIntermediatePath() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK(!virtual_path_.empty()); DCHECK(!local_path_.empty()); DCHECK(intermediate_path_.empty()); DCHECK(!virtual_path_.MatchesExtension(kCrdownloadSuffix)); DCHECK(!local_path_.MatchesExtension(kCrdownloadSuffix)); next_state_ = STATE_NONE; // Note that the intermediate filename is always uniquified (i.e. if a file by // the same name exists, it is never overwritten). Therefore the code below // does not attempt to find a name that doesn't conflict with an existing // file. // If the actual target of the download is a virtual path, then the local path // is considered to point to a temporary path. A separate intermediate path is // unnecessary since the local path already serves that purpose. if (virtual_path_.BaseName() != local_path_.BaseName()) { intermediate_path_ = local_path_; return COMPLETE; } // If the download has a forced path and is safe, then just use the // target path. In practice the temporary download file that was created prior // to download filename determination is already named // download_->GetForcedFilePath(). if (danger_type_ == content::DOWNLOAD_DANGER_TYPE_NOT_DANGEROUS && !download_->GetForcedFilePath().empty()) { DCHECK_EQ(download_->GetForcedFilePath().value(), local_path_.value()); intermediate_path_ = local_path_; return COMPLETE; } // Other safe downloads get a .crdownload suffix for their intermediate name. if (danger_type_ == content::DOWNLOAD_DANGER_TYPE_NOT_DANGEROUS) { intermediate_path_ = GetCrDownloadPath(local_path_); return COMPLETE; } // If this is a resumed download, then re-use the existing intermediate path // if one is available. A resumed download shouldn't cause a non-dangerous // download to be considered dangerous upon resumption. Therefore the // intermediate file should already be in the correct form. if (is_resumption_ && !download_->GetFullPath().empty() && local_path_.DirName() == download_->GetFullPath().DirName()) { DCHECK_NE(content::DOWNLOAD_DANGER_TYPE_NOT_DANGEROUS, download_->GetDangerType()); DCHECK_EQ(kCrdownloadSuffix, download_->GetFullPath().Extension()); intermediate_path_ = download_->GetFullPath(); return COMPLETE; } // Dangerous downloads receive a random intermediate name that looks like: // 'Unconfirmed <random>.crdownload'. const base::FilePath::CharType kUnconfirmedFormatSuffix[] = FILE_PATH_LITERAL(" %d.crdownload"); // Range of the <random> uniquifier. const int kUnconfirmedUniquifierRange = 1000000; #if defined(OS_WIN) base::string16 unconfirmed_format = l10n_util::GetStringUTF16(IDS_DOWNLOAD_UNCONFIRMED_PREFIX); #else std::string unconfirmed_format = l10n_util::GetStringUTF8(IDS_DOWNLOAD_UNCONFIRMED_PREFIX); #endif unconfirmed_format.append(kUnconfirmedFormatSuffix); base::FilePath::StringType file_name = base::StringPrintf( unconfirmed_format.c_str(), base::RandInt(0, kUnconfirmedUniquifierRange)); intermediate_path_ = local_path_.DirName().Append(file_name); return COMPLETE; } void DownloadTargetDeterminer::ScheduleCallbackAndDeleteSelf() { DCHECK(download_); DVLOG(20) << "Scheduling callback. Virtual:" << virtual_path_.AsUTF8Unsafe() << " Local:" << local_path_.AsUTF8Unsafe() << " Intermediate:" << intermediate_path_.AsUTF8Unsafe() << " Should prompt:" << should_prompt_ << " Danger type:" << danger_type_; scoped_ptr<DownloadTargetInfo> target_info(new DownloadTargetInfo); target_info->target_path = local_path_; target_info->target_disposition = (HasPromptedForPath() || should_prompt_ ? DownloadItem::TARGET_DISPOSITION_PROMPT : DownloadItem::TARGET_DISPOSITION_OVERWRITE); target_info->danger_type = danger_type_; target_info->intermediate_path = intermediate_path_; target_info->mime_type = mime_type_; target_info->is_filetype_handled_securely = is_filetype_handled_securely_; base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(completion_callback_, base::Passed(&target_info))); completion_callback_.Reset(); delete this; } void DownloadTargetDeterminer::CancelOnFailureAndDeleteSelf() { // Path substitution failed. virtual_path_.clear(); local_path_.clear(); intermediate_path_.clear(); ScheduleCallbackAndDeleteSelf(); } Profile* DownloadTargetDeterminer::GetProfile() { DCHECK(download_->GetBrowserContext()); return Profile::FromBrowserContext(download_->GetBrowserContext()); } bool DownloadTargetDeterminer::ShouldPromptForDownload( const base::FilePath& filename) const { if (is_resumption_) { // For resumed downloads, if the target disposition or prefs require // prompting, the user has already been prompted. Try to respect the user's // selection, unless we've discovered that the target path cannot be used // for some reason. content::DownloadInterruptReason reason = download_->GetLastReason(); return (reason == content::DOWNLOAD_INTERRUPT_REASON_FILE_ACCESS_DENIED || reason == content::DOWNLOAD_INTERRUPT_REASON_FILE_NO_SPACE || reason == content::DOWNLOAD_INTERRUPT_REASON_FILE_TOO_LARGE); } // If the download path is forced, don't prompt. if (!download_->GetForcedFilePath().empty()) { // 'Save As' downloads shouldn't have a forced path. DCHECK(DownloadItem::TARGET_DISPOSITION_PROMPT != download_->GetTargetDisposition()); return false; } // Don't ask where to save if the download path is managed. Even if the user // wanted to be prompted for "all" downloads, or if this was a 'Save As' // download. if (download_prefs_->IsDownloadPathManaged()) return false; // Prompt if this is a 'Save As' download. if (download_->GetTargetDisposition() == DownloadItem::TARGET_DISPOSITION_PROMPT) return true; // Check if the user has the "Always prompt for download location" preference // set. If so we prompt for most downloads except for the following scenarios: // 1) Extension installation. Note that we only care here about the case where // an extension is installed, not when one is downloaded with "save as...". // 2) Filetypes marked "always open." If the user just wants this file opened, // don't bother asking where to keep it. if (download_prefs_->PromptForDownload() && !download_crx_util::IsExtensionDownload(*download_) && !filename.MatchesExtension(extensions::kExtensionFileExtension) && !download_prefs_->IsAutoOpenEnabledBasedOnExtension(filename)) return true; // Otherwise, don't prompt. Note that the user might still be prompted if // there are unresolved conflicts during path reservation (e.g. due to the // target path being unwriteable or because there are too many conflicting // files), or if an extension signals that the user be prompted on a filename // conflict. return false; } bool DownloadTargetDeterminer::HasPromptedForPath() const { return (is_resumption_ && download_->GetTargetDisposition() == DownloadItem::TARGET_DISPOSITION_PROMPT); } bool DownloadTargetDeterminer::IsDangerousFile(PriorVisitsToReferrer visits) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); // If the user has has been prompted or will be, assume that the user has // approved the download. A programmatic download is considered safe unless it // contains malware. if (HasPromptedForPath() || should_prompt_ || !download_->GetForcedFilePath().empty()) return false; const bool is_extension_download = download_crx_util::IsExtensionDownload(*download_); // User-initiated extension downloads from pref-whitelisted sources are not // considered dangerous. if (download_->HasUserGesture() && is_extension_download && download_crx_util::OffStoreInstallAllowedByPrefs( GetProfile(), *download_)) { return false; } // Extensions that are not from the gallery are considered dangerous. // When off-store install is disabled we skip this, since in this case, we // will not offer to install the extension. if (extensions::FeatureSwitch::easy_off_store_install()->IsEnabled() && is_extension_download && !extensions::WebstoreInstaller::GetAssociatedApproval(*download_)) { return true; } // Anything the user has marked auto-open is OK if it's user-initiated. if (download_prefs_->IsAutoOpenEnabledBasedOnExtension(virtual_path_) && download_->HasUserGesture()) return false; switch (download_util::GetFileDangerLevel(virtual_path_.BaseName())) { case download_util::NOT_DANGEROUS: return false; case download_util::ALLOW_ON_USER_GESTURE: // "Allow on user gesture" is OK when we have a user gesture and the // hosting page has been visited before today. if (download_->GetTransitionType() & content::PAGE_TRANSITION_FROM_ADDRESS_BAR) { return false; } return !download_->HasUserGesture() || visits == NO_VISITS_TO_REFERRER; case download_util::DANGEROUS: return true; } NOTREACHED(); return false; } void DownloadTargetDeterminer::OnDownloadDestroyed( DownloadItem* download) { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); DCHECK_EQ(download_, download); CancelOnFailureAndDeleteSelf(); } // static void DownloadTargetDeterminer::Start(content::DownloadItem* download, const base::FilePath& initial_virtual_path, DownloadPrefs* download_prefs, DownloadTargetDeterminerDelegate* delegate, const CompletionCallback& callback) { // DownloadTargetDeterminer owns itself and will self destruct when the job is // complete or the download item is destroyed. The callback is always invoked // asynchronously. new DownloadTargetDeterminer(download, initial_virtual_path, download_prefs, delegate, callback); } // static base::FilePath DownloadTargetDeterminer::GetCrDownloadPath( const base::FilePath& suggested_path) { return base::FilePath(suggested_path.value() + kCrdownloadSuffix); }