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ara-mdk / platform / external / chromium / f4aee7bd601621d648044a0f918247fd81b6190a / . / chrome / browser / download / save_package.cc
blob: c120e83ba231b35afd7673b977c204f6f7d15a54 [file] [log] [blame]
// Copyright (c) 2011 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/save_package.h"
#include <algorithm>
#include "base/file_path.h"
#include "base/file_util.h"
#include "base/i18n/file_util_icu.h"
#include "base/logging.h"
#include "base/message_loop.h"
#include "base/stl_util-inl.h"
#include "base/string_piece.h"
#include "base/string_split.h"
#include "base/sys_string_conversions.h"
#include "base/task.h"
#include "base/threading/thread.h"
#include "base/utf_string_conversions.h"
#include "chrome/browser/browser_process.h"
#include "chrome/browser/download/download_item.h"
#include "chrome/browser/download/download_item_model.h"
#include "chrome/browser/download/download_manager.h"
#include "chrome/browser/download/download_prefs.h"
#include "chrome/browser/download/download_shelf.h"
#include "chrome/browser/download/download_util.h"
#include "chrome/browser/download/save_file.h"
#include "chrome/browser/download/save_file_manager.h"
#include "chrome/browser/download/save_item.h"
#include "chrome/browser/net/url_fixer_upper.h"
#include "chrome/browser/platform_util.h"
#include "chrome/browser/prefs/pref_member.h"
#include "chrome/browser/prefs/pref_service.h"
#include "chrome/browser/profiles/profile.h"
#include "chrome/browser/tab_contents/tab_util.h"
#include "chrome/common/chrome_paths.h"
#include "chrome/common/pref_names.h"
#include "chrome/common/render_messages.h"
#include "chrome/common/url_constants.h"
#include "content/browser/browser_thread.h"
#include "content/browser/renderer_host/render_process_host.h"
#include "content/browser/renderer_host/render_view_host.h"
#include "content/browser/renderer_host/render_view_host_delegate.h"
#include "content/browser/renderer_host/resource_dispatcher_host.h"
#include "content/browser/tab_contents/tab_contents.h"
#include "content/common/notification_service.h"
#include "content/common/notification_type.h"
#include "grit/generated_resources.h"
#include "net/base/io_buffer.h"
#include "net/base/mime_util.h"
#include "net/base/net_util.h"
#include "net/url_request/url_request_context.h"
#include "third_party/WebKit/Source/WebKit/chromium/public/WebPageSerializerClient.h"
#include "ui/base/l10n/l10n_util.h"
#include "net/url_request/url_request_context_getter.h"
using base::Time;
using WebKit::WebPageSerializerClient;
namespace {
// A counter for uniquely identifying each save package.
int g_save_package_id = 0;
// Default name which will be used when we can not get proper name from
// resource URL.
const char kDefaultSaveName[] = "saved_resource";
const FilePath::CharType kDefaultHtmlExtension[] =
#if defined(OS_WIN)
FILE_PATH_LITERAL("htm");
#else
FILE_PATH_LITERAL("html");
#endif
// Maximum number of file ordinal number. I think it's big enough for resolving
// name-conflict files which has same base file name.
const int32 kMaxFileOrdinalNumber = 9999;
// Maximum length for file path. Since Windows have MAX_PATH limitation for
// file path, we need to make sure length of file path of every saved file
// is less than MAX_PATH
#if defined(OS_WIN)
const uint32 kMaxFilePathLength = MAX_PATH - 1;
#elif defined(OS_POSIX)
const uint32 kMaxFilePathLength = PATH_MAX - 1;
#endif
// Maximum length for file ordinal number part. Since we only support the
// maximum 9999 for ordinal number, which means maximum file ordinal number part
// should be "(9998)", so the value is 6.
const uint32 kMaxFileOrdinalNumberPartLength = 6;
// If false, we don't prompt the user as to where to save the file. This
// exists only for testing.
bool g_should_prompt_for_filename = true;
// Indexes used for specifying which element in the extensions dropdown
// the user chooses when picking a save type.
const int kSelectFileHtmlOnlyIndex = 1;
const int kSelectFileCompleteIndex = 2;
// Used for mapping between SavePackageType constants and the indexes above.
const SavePackage::SavePackageType kIndexToSaveType[] = {
SavePackage::SAVE_TYPE_UNKNOWN,
SavePackage::SAVE_AS_ONLY_HTML,
SavePackage::SAVE_AS_COMPLETE_HTML,
};
// Used for mapping between the IDS_ string identifiers and the indexes above.
const int kIndexToIDS[] = {
0, IDS_SAVE_PAGE_DESC_HTML_ONLY, IDS_SAVE_PAGE_DESC_COMPLETE,
};
int SavePackageTypeToIndex(SavePackage::SavePackageType type) {
for (size_t i = 0; i < arraysize(kIndexToSaveType); ++i) {
if (kIndexToSaveType[i] == type)
return i;
}
NOTREACHED();
return -1;
}
// Strip current ordinal number, if any. Should only be used on pure
// file names, i.e. those stripped of their extensions.
// TODO(estade): improve this to not choke on alternate encodings.
FilePath::StringType StripOrdinalNumber(
const FilePath::StringType& pure_file_name) {
FilePath::StringType::size_type r_paren_index =
pure_file_name.rfind(FILE_PATH_LITERAL(')'));
FilePath::StringType::size_type l_paren_index =
pure_file_name.rfind(FILE_PATH_LITERAL('('));
if (l_paren_index >= r_paren_index)
return pure_file_name;
for (FilePath::StringType::size_type i = l_paren_index + 1;
i != r_paren_index; ++i) {
if (!IsAsciiDigit(pure_file_name[i]))
return pure_file_name;
}
return pure_file_name.substr(0, l_paren_index);
}
// Check whether we can save page as complete-HTML for the contents which
// have specified a MIME type. Now only contents which have the MIME type
// "text/html" can be saved as complete-HTML.
bool CanSaveAsComplete(const std::string& contents_mime_type) {
return contents_mime_type == "text/html" ||
contents_mime_type == "application/xhtml+xml";
}
} // namespace
SavePackage::SavePackage(TabContents* tab_contents,
SavePackageType save_type,
const FilePath& file_full_path,
const FilePath& directory_full_path)
: TabContentsObserver(tab_contents),
file_manager_(NULL),
download_(NULL),
page_url_(GetUrlToBeSaved()),
saved_main_file_path_(file_full_path),
saved_main_directory_path_(directory_full_path),
title_(tab_contents->GetTitle()),
finished_(false),
user_canceled_(false),
disk_error_occurred_(false),
save_type_(save_type),
all_save_items_count_(0),
wait_state_(INITIALIZE),
tab_id_(tab_contents->GetRenderProcessHost()->id()),
unique_id_(g_save_package_id++),
ALLOW_THIS_IN_INITIALIZER_LIST(method_factory_(this)) {
DCHECK(page_url_.is_valid());
DCHECK(save_type_ == SAVE_AS_ONLY_HTML ||
save_type_ == SAVE_AS_COMPLETE_HTML);
DCHECK(!saved_main_file_path_.empty() &&
saved_main_file_path_.value().length() <= kMaxFilePathLength);
DCHECK(!saved_main_directory_path_.empty() &&
saved_main_directory_path_.value().length() < kMaxFilePathLength);
InternalInit();
}
SavePackage::SavePackage(TabContents* tab_contents)
: TabContentsObserver(tab_contents),
file_manager_(NULL),
download_(NULL),
page_url_(GetUrlToBeSaved()),
title_(tab_contents->GetTitle()),
finished_(false),
user_canceled_(false),
disk_error_occurred_(false),
save_type_(SAVE_TYPE_UNKNOWN),
all_save_items_count_(0),
wait_state_(INITIALIZE),
tab_id_(tab_contents->GetRenderProcessHost()->id()),
unique_id_(g_save_package_id++),
ALLOW_THIS_IN_INITIALIZER_LIST(method_factory_(this)) {
DCHECK(page_url_.is_valid());
InternalInit();
}
// This is for testing use. Set |finished_| as true because we don't want
// method Cancel to be be called in destructor in test mode.
// We also don't call InternalInit().
SavePackage::SavePackage(TabContents* tab_contents,
const FilePath& file_full_path,
const FilePath& directory_full_path)
: TabContentsObserver(tab_contents),
file_manager_(NULL),
download_(NULL),
saved_main_file_path_(file_full_path),
saved_main_directory_path_(directory_full_path),
finished_(true),
user_canceled_(false),
disk_error_occurred_(false),
save_type_(SAVE_TYPE_UNKNOWN),
all_save_items_count_(0),
wait_state_(INITIALIZE),
tab_id_(0),
unique_id_(g_save_package_id++),
ALLOW_THIS_IN_INITIALIZER_LIST(method_factory_(this)) {
}
SavePackage::~SavePackage() {
// Stop receiving saving job's updates
if (!finished_ && !canceled()) {
// Unexpected quit.
Cancel(true);
}
DCHECK(all_save_items_count_ == (waiting_item_queue_.size() +
completed_count() +
in_process_count()));
// Free all SaveItems.
while (!waiting_item_queue_.empty()) {
// We still have some items which are waiting for start to save.
SaveItem* save_item = waiting_item_queue_.front();
waiting_item_queue_.pop();
delete save_item;
}
STLDeleteValues(&saved_success_items_);
STLDeleteValues(&in_progress_items_);
STLDeleteValues(&saved_failed_items_);
// The DownloadItem is owned by DownloadManager.
download_ = NULL;
file_manager_ = NULL;
// If there's an outstanding save dialog, make sure it doesn't call us back
// now that we're gone.
if (select_file_dialog_.get())
select_file_dialog_->ListenerDestroyed();
}
// Retrieves the URL to be saved from tab_contents_ variable.
GURL SavePackage::GetUrlToBeSaved() {
// Instead of using tab_contents_.GetURL here, we use url()
// (which is the "real" url of the page)
// from the NavigationEntry because it reflects its' origin
// rather than the displayed one (returned by GetURL) which may be
// different (like having "view-source:" on the front).
NavigationEntry* active_entry =
tab_contents()->controller().GetActiveEntry();
return active_entry->url();
}
// Cancel all in progress request, might be called by user or internal error.
void SavePackage::Cancel(bool user_action) {
if (!canceled()) {
if (user_action)
user_canceled_ = true;
else
disk_error_occurred_ = true;
Stop();
}
}
// Init() can be called directly, or indirectly via GetSaveInfo(). In both
// cases, we need file_manager_ to be initialized, so we do this first.
void SavePackage::InternalInit() {
ResourceDispatcherHost* rdh = g_browser_process->resource_dispatcher_host();
if (!rdh) {
NOTREACHED();
return;
}
file_manager_ = rdh->save_file_manager();
if (!file_manager_) {
NOTREACHED();
return;
}
}
// Initialize the SavePackage.
bool SavePackage::Init() {
// Set proper running state.
if (wait_state_ != INITIALIZE)
return false;
wait_state_ = START_PROCESS;
// Initialize the request context and resource dispatcher.
Profile* profile = tab_contents()->profile();
if (!profile) {
NOTREACHED();
return false;
}
request_context_getter_ = profile->GetRequestContext();
// Create the fake DownloadItem and display the view.
DownloadManager* download_manager =
tab_contents()->profile()->GetDownloadManager();
download_ = new DownloadItem(download_manager,
saved_main_file_path_,
page_url_,
profile->IsOffTheRecord());
// Transfer the ownership to the download manager. We need the DownloadItem
// to be alive as long as the Profile is alive.
download_manager->SavePageAsDownloadStarted(download_);
tab_contents()->OnStartDownload(download_);
// Check save type and process the save page job.
if (save_type_ == SAVE_AS_COMPLETE_HTML) {
// Get directory
DCHECK(!saved_main_directory_path_.empty());
GetAllSavableResourceLinksForCurrentPage();
} else {
wait_state_ = NET_FILES;
SaveFileCreateInfo::SaveFileSource save_source = page_url_.SchemeIsFile() ?
SaveFileCreateInfo::SAVE_FILE_FROM_FILE :
SaveFileCreateInfo::SAVE_FILE_FROM_NET;
SaveItem* save_item = new SaveItem(page_url_,
GURL(),
this,
save_source);
// Add this item to waiting list.
waiting_item_queue_.push(save_item);
all_save_items_count_ = 1;
download_->set_total_bytes(1);
DoSavingProcess();
}
return true;
}
// On POSIX, the length of |pure_file_name| + |file_name_ext| is further
// restricted by NAME_MAX. The maximum allowed path looks like:
// '/path/to/save_dir' + '/' + NAME_MAX.
uint32 SavePackage::GetMaxPathLengthForDirectory(const FilePath& base_dir) {
#if defined(OS_POSIX)
return std::min(kMaxFilePathLength,
static_cast<uint32>(base_dir.value().length()) +
NAME_MAX + 1);
#else
return kMaxFilePathLength;
#endif
}
// File name is considered being consist of pure file name, dot and file
// extension name. File name might has no dot and file extension, or has
// multiple dot inside file name. The dot, which separates the pure file
// name and file extension name, is last dot in the whole file name.
// This function is for making sure the length of specified file path is not
// great than the specified maximum length of file path and getting safe pure
// file name part if the input pure file name is too long.
// The parameter |dir_path| specifies directory part of the specified
// file path. The parameter |file_name_ext| specifies file extension
// name part of the specified file path (including start dot). The parameter
// |max_file_path_len| specifies maximum length of the specified file path.
// The parameter |pure_file_name| input pure file name part of the specified
// file path. If the length of specified file path is great than
// |max_file_path_len|, the |pure_file_name| will output new pure file name
// part for making sure the length of specified file path is less than
// specified maximum length of file path. Return false if the function can
// not get a safe pure file name, otherwise it returns true.
bool SavePackage::GetSafePureFileName(const FilePath& dir_path,
const FilePath::StringType& file_name_ext,
uint32 max_file_path_len,
FilePath::StringType* pure_file_name) {
DCHECK(!pure_file_name->empty());
int available_length = static_cast<int>(max_file_path_len -
dir_path.value().length() -
file_name_ext.length());
// Need an extra space for the separator.
if (!file_util::EndsWithSeparator(dir_path))
--available_length;
// Plenty of room.
if (static_cast<int>(pure_file_name->length()) <= available_length)
return true;
// Limited room. Truncate |pure_file_name| to fit.
if (available_length > 0) {
*pure_file_name = pure_file_name->substr(0, available_length);
return true;
}
// Not enough room to even use a shortened |pure_file_name|.
pure_file_name->clear();
return false;
}
// Generate name for saving resource.
bool SavePackage::GenerateFileName(const std::string& disposition,
const GURL& url,
bool need_html_ext,
FilePath::StringType* generated_name) {
// TODO(jungshik): Figure out the referrer charset when having one
// makes sense and pass it to GetSuggestedFilename.
string16 suggested_name =
net::GetSuggestedFilename(url, disposition, "",
ASCIIToUTF16(kDefaultSaveName));
// TODO(evan): this code is totally wrong -- we should just generate
// Unicode filenames and do all this encoding switching at the end.
// However, I'm just shuffling wrong code around, at least not adding
// to it.
#if defined(OS_WIN)
FilePath file_path = FilePath(suggested_name);
#else
FilePath file_path = FilePath(
base::SysWideToNativeMB(UTF16ToWide(suggested_name)));
#endif
DCHECK(!file_path.empty());
FilePath::StringType pure_file_name =
file_path.RemoveExtension().BaseName().value();
FilePath::StringType file_name_ext = file_path.Extension();
// If it is HTML resource, use ".htm{l,}" as its extension.
if (need_html_ext) {
file_name_ext = FILE_PATH_LITERAL(".");
file_name_ext.append(kDefaultHtmlExtension);
}
// Need to make sure the suggested file name is not too long.
uint32 max_path = GetMaxPathLengthForDirectory(saved_main_directory_path_);
// Get safe pure file name.
if (!GetSafePureFileName(saved_main_directory_path_, file_name_ext,
max_path, &pure_file_name))
return false;
FilePath::StringType file_name = pure_file_name + file_name_ext;
// Check whether we already have same name.
if (file_name_set_.find(file_name) == file_name_set_.end()) {
file_name_set_.insert(file_name);
} else {
// Found same name, increase the ordinal number for the file name.
FilePath::StringType base_file_name = StripOrdinalNumber(pure_file_name);
// We need to make sure the length of base file name plus maximum ordinal
// number path will be less than or equal to kMaxFilePathLength.
if (!GetSafePureFileName(saved_main_directory_path_, file_name_ext,
max_path - kMaxFileOrdinalNumberPartLength, &base_file_name))
return false;
// Prepare the new ordinal number.
uint32 ordinal_number;
FileNameCountMap::iterator it = file_name_count_map_.find(base_file_name);
if (it == file_name_count_map_.end()) {
// First base-name-conflict resolving, use 1 as initial ordinal number.
file_name_count_map_[base_file_name] = 1;
ordinal_number = 1;
} else {
// We have met same base-name conflict, use latest ordinal number.
ordinal_number = it->second;
}
if (ordinal_number > (kMaxFileOrdinalNumber - 1)) {
// Use a random file from temporary file.
FilePath temp_file;
file_util::CreateTemporaryFile(&temp_file);
file_name = temp_file.RemoveExtension().BaseName().value();
// Get safe pure file name.
if (!GetSafePureFileName(saved_main_directory_path_,
FilePath::StringType(),
max_path, &file_name))
return false;
} else {
for (int i = ordinal_number; i < kMaxFileOrdinalNumber; ++i) {
FilePath::StringType new_name = base_file_name +
StringPrintf(FILE_PATH_LITERAL("(%d)"), i) + file_name_ext;
if (file_name_set_.find(new_name) == file_name_set_.end()) {
// Resolved name conflict.
file_name = new_name;
file_name_count_map_[base_file_name] = ++i;
break;
}
}
}
file_name_set_.insert(file_name);
}
DCHECK(!file_name.empty());
generated_name->assign(file_name);
return true;
}
// We have received a message from SaveFileManager about a new saving job. We
// create a SaveItem and store it in our in_progress list.
void SavePackage::StartSave(const SaveFileCreateInfo* info) {
DCHECK(info && !info->url.is_empty());
SaveUrlItemMap::iterator it = in_progress_items_.find(info->url.spec());
if (it == in_progress_items_.end()) {
// If not found, we must have cancel action.
DCHECK(canceled());
return;
}
SaveItem* save_item = it->second;
DCHECK(!saved_main_file_path_.empty());
save_item->SetSaveId(info->save_id);
save_item->SetTotalBytes(info->total_bytes);
// Determine the proper path for a saving job, by choosing either the default
// save directory, or prompting the user.
DCHECK(!save_item->has_final_name());
if (info->url != page_url_) {
FilePath::StringType generated_name;
// For HTML resource file, make sure it will have .htm as extension name,
// otherwise, when you open the saved page in Chrome again, download
// file manager will treat it as downloadable resource, and download it
// instead of opening it as HTML.
bool need_html_ext =
info->save_source == SaveFileCreateInfo::SAVE_FILE_FROM_DOM;
if (!GenerateFileName(info->content_disposition,
GURL(info->url),
need_html_ext,
&generated_name)) {
// We can not generate file name for this SaveItem, so we cancel the
// saving page job if the save source is from serialized DOM data.
// Otherwise, it means this SaveItem is sub-resource type, we treat it
// as an error happened on saving. We can ignore this type error for
// sub-resource links which will be resolved as absolute links instead
// of local links in final saved contents.
if (info->save_source == SaveFileCreateInfo::SAVE_FILE_FROM_DOM)
Cancel(true);
else
SaveFinished(save_item->save_id(), 0, false);
return;
}
// When saving page as only-HTML, we only have a SaveItem whose url
// must be page_url_.
DCHECK(save_type_ == SAVE_AS_COMPLETE_HTML);
DCHECK(!saved_main_directory_path_.empty());
// Now we get final name retrieved from GenerateFileName, we will use it
// rename the SaveItem.
FilePath final_name = saved_main_directory_path_.Append(generated_name);
save_item->Rename(final_name);
} else {
// It is the main HTML file, use the name chosen by the user.
save_item->Rename(saved_main_file_path_);
}
// If the save source is from file system, inform SaveFileManager to copy
// corresponding file to the file path which this SaveItem specifies.
if (info->save_source == SaveFileCreateInfo::SAVE_FILE_FROM_FILE) {
BrowserThread::PostTask(
BrowserThread::FILE, FROM_HERE,
NewRunnableMethod(file_manager_,
&SaveFileManager::SaveLocalFile,
save_item->url(),
save_item->save_id(),
tab_id()));
return;
}
// Check whether we begin to require serialized HTML data.
if (save_type_ == SAVE_AS_COMPLETE_HTML && wait_state_ == HTML_DATA) {
// Inform backend to serialize the all frames' DOM and send serialized
// HTML data back.
GetSerializedHtmlDataForCurrentPageWithLocalLinks();
}
}
// Look up SaveItem by save id from in progress map.
SaveItem* SavePackage::LookupItemInProcessBySaveId(int32 save_id) {
if (in_process_count()) {
for (SaveUrlItemMap::iterator it = in_progress_items_.begin();
it != in_progress_items_.end(); ++it) {
SaveItem* save_item = it->second;
DCHECK(save_item->state() == SaveItem::IN_PROGRESS);
if (save_item->save_id() == save_id)
return save_item;
}
}
return NULL;
}
// Remove SaveItem from in progress map and put it to saved map.
void SavePackage::PutInProgressItemToSavedMap(SaveItem* save_item) {
SaveUrlItemMap::iterator it = in_progress_items_.find(
save_item->url().spec());
DCHECK(it != in_progress_items_.end());
DCHECK(save_item == it->second);
in_progress_items_.erase(it);
if (save_item->success()) {
// Add it to saved_success_items_.
DCHECK(saved_success_items_.find(save_item->save_id()) ==
saved_success_items_.end());
saved_success_items_[save_item->save_id()] = save_item;
} else {
// Add it to saved_failed_items_.
DCHECK(saved_failed_items_.find(save_item->url().spec()) ==
saved_failed_items_.end());
saved_failed_items_[save_item->url().spec()] = save_item;
}
}
// Called for updating saving state.
bool SavePackage::UpdateSaveProgress(int32 save_id,
int64 size,
bool write_success) {
// Because we might have canceled this saving job before,
// so we might not find corresponding SaveItem.
SaveItem* save_item = LookupItemInProcessBySaveId(save_id);
if (!save_item)
return false;
save_item->Update(size);
// If we got disk error, cancel whole save page job.
if (!write_success) {
// Cancel job with reason of disk error.
Cancel(false);
}
return true;
}
// Stop all page saving jobs that are in progress and instruct the file thread
// to delete all saved files.
void SavePackage::Stop() {
// If we haven't moved out of the initial state, there's nothing to cancel and
// there won't be valid pointers for file_manager_ or download_.
if (wait_state_ == INITIALIZE)
return;
// When stopping, if it still has some items in in_progress, cancel them.
DCHECK(canceled());
if (in_process_count()) {
SaveUrlItemMap::iterator it = in_progress_items_.begin();
for (; it != in_progress_items_.end(); ++it) {
SaveItem* save_item = it->second;
DCHECK(save_item->state() == SaveItem::IN_PROGRESS);
save_item->Cancel();
}
// Remove all in progress item to saved map. For failed items, they will
// be put into saved_failed_items_, for successful item, they will be put
// into saved_success_items_.
while (in_process_count())
PutInProgressItemToSavedMap(in_progress_items_.begin()->second);
}
// This vector contains the save ids of the save files which SaveFileManager
// needs to remove from its save_file_map_.
SaveIDList save_ids;
for (SavedItemMap::iterator it = saved_success_items_.begin();
it != saved_success_items_.end(); ++it)
save_ids.push_back(it->first);
for (SaveUrlItemMap::iterator it = saved_failed_items_.begin();
it != saved_failed_items_.end(); ++it)
save_ids.push_back(it->second->save_id());
BrowserThread::PostTask(
BrowserThread::FILE, FROM_HERE,
NewRunnableMethod(file_manager_,
&SaveFileManager::RemoveSavedFileFromFileMap,
save_ids));
finished_ = true;
wait_state_ = FAILED;
// Inform the DownloadItem we have canceled whole save page job.
download_->Cancel(false);
}
void SavePackage::CheckFinish() {
if (in_process_count() || finished_)
return;
FilePath dir = (save_type_ == SAVE_AS_COMPLETE_HTML &&
saved_success_items_.size() > 1) ?
saved_main_directory_path_ : FilePath();
// This vector contains the final names of all the successfully saved files
// along with their save ids. It will be passed to SaveFileManager to do the
// renaming job.
FinalNameList final_names;
for (SavedItemMap::iterator it = saved_success_items_.begin();
it != saved_success_items_.end(); ++it)
final_names.push_back(std::make_pair(it->first,
it->second->full_path()));
BrowserThread::PostTask(
BrowserThread::FILE, FROM_HERE,
NewRunnableMethod(file_manager_,
&SaveFileManager::RenameAllFiles,
final_names,
dir,
tab_contents()->GetRenderProcessHost()->id(),
tab_contents()->render_view_host()->routing_id(),
id()));
}
// Successfully finished all items of this SavePackage.
void SavePackage::Finish() {
// User may cancel the job when we're moving files to the final directory.
if (canceled())
return;
wait_state_ = SUCCESSFUL;
finished_ = true;
// This vector contains the save ids of the save files which SaveFileManager
// needs to remove from its save_file_map_.
SaveIDList save_ids;
for (SaveUrlItemMap::iterator it = saved_failed_items_.begin();
it != saved_failed_items_.end(); ++it)
save_ids.push_back(it->second->save_id());
BrowserThread::PostTask(
BrowserThread::FILE, FROM_HERE,
NewRunnableMethod(file_manager_,
&SaveFileManager::RemoveSavedFileFromFileMap,
save_ids));
download_->OnAllDataSaved(all_save_items_count_);
download_->MarkAsComplete();
NotificationService::current()->Notify(
NotificationType::SAVE_PACKAGE_SUCCESSFULLY_FINISHED,
Source<SavePackage>(this),
Details<GURL>(&page_url_));
}
// Called for updating end state.
void SavePackage::SaveFinished(int32 save_id, int64 size, bool is_success) {
// Because we might have canceled this saving job before,
// so we might not find corresponding SaveItem. Just ignore it.
SaveItem* save_item = LookupItemInProcessBySaveId(save_id);
if (!save_item)
return;
// Let SaveItem set end state.
save_item->Finish(size, is_success);
// Remove the associated save id and SavePackage.
file_manager_->RemoveSaveFile(save_id, save_item->url(), this);
PutInProgressItemToSavedMap(save_item);
// Inform the DownloadItem to update UI.
// We use the received bytes as number of saved files.
download_->Update(completed_count());
if (save_item->save_source() == SaveFileCreateInfo::SAVE_FILE_FROM_DOM &&
save_item->url() == page_url_ && !save_item->received_bytes()) {
// If size of main HTML page is 0, treat it as disk error.
Cancel(false);
return;
}
if (canceled()) {
DCHECK(finished_);
return;
}
// Continue processing the save page job.
DoSavingProcess();
// Check whether we can successfully finish whole job.
CheckFinish();
}
// Sometimes, the net io will only call SaveFileManager::SaveFinished with
// save id -1 when it encounters error. Since in this case, save id will be
// -1, so we can only use URL to find which SaveItem is associated with
// this error.
// Saving an item failed. If it's a sub-resource, ignore it. If the error comes
// from serializing HTML data, then cancel saving page.
void SavePackage::SaveFailed(const GURL& save_url) {
SaveUrlItemMap::iterator it = in_progress_items_.find(save_url.spec());
if (it == in_progress_items_.end()) {
NOTREACHED(); // Should not exist!
return;
}
SaveItem* save_item = it->second;
save_item->Finish(0, false);
PutInProgressItemToSavedMap(save_item);
// Inform the DownloadItem to update UI.
// We use the received bytes as number of saved files.
download_->Update(completed_count());
if (save_type_ == SAVE_AS_ONLY_HTML ||
save_item->save_source() == SaveFileCreateInfo::SAVE_FILE_FROM_DOM) {
// We got error when saving page. Treat it as disk error.
Cancel(true);
}
if (canceled()) {
DCHECK(finished_);
return;
}
// Continue processing the save page job.
DoSavingProcess();
CheckFinish();
}
void SavePackage::SaveCanceled(SaveItem* save_item) {
// Call the RemoveSaveFile in UI thread.
file_manager_->RemoveSaveFile(save_item->save_id(),
save_item->url(),
this);
if (save_item->save_id() != -1)
BrowserThread::PostTask(
BrowserThread::FILE, FROM_HERE,
NewRunnableMethod(file_manager_,
&SaveFileManager::CancelSave,
save_item->save_id()));
}
// Initiate a saving job of a specific URL. We send the request to
// SaveFileManager, which will dispatch it to different approach according to
// the save source. Parameter process_all_remaining_items indicates whether
// we need to save all remaining items.
void SavePackage::SaveNextFile(bool process_all_remaining_items) {
DCHECK(tab_contents());
DCHECK(waiting_item_queue_.size());
do {
// Pop SaveItem from waiting list.
SaveItem* save_item = waiting_item_queue_.front();
waiting_item_queue_.pop();
// Add the item to in_progress_items_.
SaveUrlItemMap::iterator it = in_progress_items_.find(
save_item->url().spec());
DCHECK(it == in_progress_items_.end());
in_progress_items_[save_item->url().spec()] = save_item;
save_item->Start();
file_manager_->SaveURL(save_item->url(),
save_item->referrer(),
tab_contents()->GetRenderProcessHost()->id(),
routing_id(),
save_item->save_source(),
save_item->full_path(),
request_context_getter_.get(),
this);
} while (process_all_remaining_items && waiting_item_queue_.size());
}
// Open download page in windows explorer on file thread, to avoid blocking the
// user interface.
void SavePackage::ShowDownloadInShell() {
DCHECK(file_manager_);
DCHECK(finished_ && !canceled() && !saved_main_file_path_.empty());
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
#if defined(OS_MACOSX)
// Mac OS X requires opening downloads on the UI thread.
platform_util::ShowItemInFolder(saved_main_file_path_);
#else
BrowserThread::PostTask(
BrowserThread::FILE, FROM_HERE,
NewRunnableMethod(file_manager_,
&SaveFileManager::OnShowSavedFileInShell,
saved_main_file_path_));
#endif
}
// Calculate the percentage of whole save page job.
int SavePackage::PercentComplete() {
if (!all_save_items_count_)
return 0;
else if (!in_process_count())
return 100;
else
return completed_count() / all_save_items_count_;
}
// Continue processing the save page job after one SaveItem has been
// finished.
void SavePackage::DoSavingProcess() {
if (save_type_ == SAVE_AS_COMPLETE_HTML) {
// We guarantee that images and JavaScripts must be downloaded first.
// So when finishing all those sub-resources, we will know which
// sub-resource's link can be replaced with local file path, which
// sub-resource's link need to be replaced with absolute URL which
// point to its internet address because it got error when saving its data.
SaveItem* save_item = NULL;
// Start a new SaveItem job if we still have job in waiting queue.
if (waiting_item_queue_.size()) {
DCHECK(wait_state_ == NET_FILES);
save_item = waiting_item_queue_.front();
if (save_item->save_source() != SaveFileCreateInfo::SAVE_FILE_FROM_DOM) {
SaveNextFile(false);
} else if (!in_process_count()) {
// If there is no in-process SaveItem, it means all sub-resources
// have been processed. Now we need to start serializing HTML DOM
// for the current page to get the generated HTML data.
wait_state_ = HTML_DATA;
// All non-HTML resources have been finished, start all remaining
// HTML files.
SaveNextFile(true);
}
} else if (in_process_count()) {
// Continue asking for HTML data.
DCHECK(wait_state_ == HTML_DATA);
}
} else {
// Save as HTML only.
DCHECK(wait_state_ == NET_FILES);
DCHECK(save_type_ == SAVE_AS_ONLY_HTML);
if (waiting_item_queue_.size()) {
DCHECK(all_save_items_count_ == waiting_item_queue_.size());
SaveNextFile(false);
}
}
}
bool SavePackage::OnMessageReceived(const IPC::Message& message) {
bool handled = true;
IPC_BEGIN_MESSAGE_MAP(SavePackage, message)
IPC_MESSAGE_HANDLER(ViewHostMsg_SendCurrentPageAllSavableResourceLinks,
OnReceivedSavableResourceLinksForCurrentPage)
IPC_MESSAGE_HANDLER(ViewHostMsg_SendSerializedHtmlData,
OnReceivedSerializedHtmlData)
IPC_MESSAGE_UNHANDLED(handled = false)
IPC_END_MESSAGE_MAP()
return handled;
}
// After finishing all SaveItems which need to get data from net.
// We collect all URLs which have local storage and send the
// map:(originalURL:currentLocalPath) to render process (backend).
// Then render process will serialize DOM and send data to us.
void SavePackage::GetSerializedHtmlDataForCurrentPageWithLocalLinks() {
if (wait_state_ != HTML_DATA)
return;
std::vector<GURL> saved_links;
std::vector<FilePath> saved_file_paths;
int successful_started_items_count = 0;
// Collect all saved items which have local storage.
// First collect the status of all the resource files and check whether they
// have created local files although they have not been completely saved.
// If yes, the file can be saved. Otherwise, there is a disk error, so we
// need to cancel the page saving job.
for (SaveUrlItemMap::iterator it = in_progress_items_.begin();
it != in_progress_items_.end(); ++it) {
DCHECK(it->second->save_source() ==
SaveFileCreateInfo::SAVE_FILE_FROM_DOM);
if (it->second->has_final_name())
successful_started_items_count++;
saved_links.push_back(it->second->url());
saved_file_paths.push_back(it->second->file_name());
}
// If not all file of HTML resource have been started, then wait.
if (successful_started_items_count != in_process_count())
return;
// Collect all saved success items.
for (SavedItemMap::iterator it = saved_success_items_.begin();
it != saved_success_items_.end(); ++it) {
DCHECK(it->second->has_final_name());
saved_links.push_back(it->second->url());
saved_file_paths.push_back(it->second->file_name());
}
// Get the relative directory name.
FilePath relative_dir_name = saved_main_directory_path_.BaseName();
tab_contents()->render_view_host()->
GetSerializedHtmlDataForCurrentPageWithLocalLinks(
saved_links, saved_file_paths, relative_dir_name);
}
// Process the serialized HTML content data of a specified web page
// retrieved from render process.
void SavePackage::OnReceivedSerializedHtmlData(const GURL& frame_url,
const std::string& data,
int32 status) {
WebPageSerializerClient::PageSerializationStatus flag =
static_cast<WebPageSerializerClient::PageSerializationStatus>(status);
// Check current state.
if (wait_state_ != HTML_DATA)
return;
int id = tab_id();
// If the all frames are finished saving, we need to close the
// remaining SaveItems.
if (flag == WebPageSerializerClient::AllFramesAreFinished) {
for (SaveUrlItemMap::iterator it = in_progress_items_.begin();
it != in_progress_items_.end(); ++it) {
VLOG(20) << " " << __FUNCTION__ << "()"
<< " save_id = " << it->second->save_id()
<< " url = \"" << it->second->url().spec() << "\"";
BrowserThread::PostTask(
BrowserThread::FILE, FROM_HERE,
NewRunnableMethod(file_manager_,
&SaveFileManager::SaveFinished,
it->second->save_id(),
it->second->url(),
id,
true));
}
return;
}
SaveUrlItemMap::iterator it = in_progress_items_.find(frame_url.spec());
if (it == in_progress_items_.end())
return;
SaveItem* save_item = it->second;
DCHECK(save_item->save_source() == SaveFileCreateInfo::SAVE_FILE_FROM_DOM);
if (!data.empty()) {
// Prepare buffer for saving HTML data.
scoped_refptr<net::IOBuffer> new_data(new net::IOBuffer(data.size()));
memcpy(new_data->data(), data.data(), data.size());
// Call write file functionality in file thread.
BrowserThread::PostTask(
BrowserThread::FILE, FROM_HERE,
NewRunnableMethod(file_manager_,
&SaveFileManager::UpdateSaveProgress,
save_item->save_id(),
new_data,
static_cast<int>(data.size())));
}
// Current frame is completed saving, call finish in file thread.
if (flag == WebPageSerializerClient::CurrentFrameIsFinished) {
VLOG(20) << " " << __FUNCTION__ << "()"
<< " save_id = " << save_item->save_id()
<< " url = \"" << save_item->url().spec() << "\"";
BrowserThread::PostTask(
BrowserThread::FILE, FROM_HERE,
NewRunnableMethod(file_manager_,
&SaveFileManager::SaveFinished,
save_item->save_id(),
save_item->url(),
id,
true));
}
}
// Ask for all savable resource links from backend, include main frame and
// sub-frame.
void SavePackage::GetAllSavableResourceLinksForCurrentPage() {
if (wait_state_ != START_PROCESS)
return;
wait_state_ = RESOURCES_LIST;
tab_contents()->render_view_host()->
GetAllSavableResourceLinksForCurrentPage(page_url_);
}
// Give backend the lists which contain all resource links that have local
// storage, after which, render process will serialize DOM for generating
// HTML data.
void SavePackage::OnReceivedSavableResourceLinksForCurrentPage(
const std::vector<GURL>& resources_list,
const std::vector<GURL>& referrers_list,
const std::vector<GURL>& frames_list) {
if (wait_state_ != RESOURCES_LIST)
return;
DCHECK(resources_list.size() == referrers_list.size());
all_save_items_count_ = static_cast<int>(resources_list.size()) +
static_cast<int>(frames_list.size());
// We use total bytes as the total number of files we want to save.
download_->set_total_bytes(all_save_items_count_);
if (all_save_items_count_) {
// Put all sub-resources to wait list.
for (int i = 0; i < static_cast<int>(resources_list.size()); ++i) {
const GURL& u = resources_list[i];
DCHECK(u.is_valid());
SaveFileCreateInfo::SaveFileSource save_source = u.SchemeIsFile() ?
SaveFileCreateInfo::SAVE_FILE_FROM_FILE :
SaveFileCreateInfo::SAVE_FILE_FROM_NET;
SaveItem* save_item = new SaveItem(u, referrers_list[i],
this, save_source);
waiting_item_queue_.push(save_item);
}
// Put all HTML resources to wait list.
for (int i = 0; i < static_cast<int>(frames_list.size()); ++i) {
const GURL& u = frames_list[i];
DCHECK(u.is_valid());
SaveItem* save_item = new SaveItem(u, GURL(),
this, SaveFileCreateInfo::SAVE_FILE_FROM_DOM);
waiting_item_queue_.push(save_item);
}
wait_state_ = NET_FILES;
DoSavingProcess();
} else {
// No resource files need to be saved, treat it as user cancel.
Cancel(true);
}
}
void SavePackage::SetShouldPromptUser(bool should_prompt) {
g_should_prompt_for_filename = should_prompt;
}
FilePath SavePackage::GetSuggestedNameForSaveAs(
bool can_save_as_complete,
const std::string& contents_mime_type) {
FilePath name_with_proper_ext =
FilePath::FromWStringHack(UTF16ToWideHack(title_));
// If the page's title matches its URL, use the URL. Try to use the last path
// component or if there is none, the domain as the file name.
// Normally we want to base the filename on the page title, or if it doesn't
// exist, on the URL. It's not easy to tell if the page has no title, because
// if the page has no title, TabContents::GetTitle() will return the page's
// URL (adjusted for display purposes). Therefore, we convert the "title"
// back to a URL, and if it matches the original page URL, we know the page
// had no title (or had a title equal to its URL, which is fine to treat
// similarly).
GURL fixed_up_title_url =
URLFixerUpper::FixupURL(UTF16ToUTF8(title_), std::string());
if (page_url_ == fixed_up_title_url) {
std::string url_path;
std::vector<std::string> url_parts;
base::SplitString(page_url_.path(), '/', &url_parts);
if (!url_parts.empty()) {
for (int i = static_cast<int>(url_parts.size()) - 1; i >= 0; --i) {
url_path = url_parts[i];
if (!url_path.empty())
break;
}
}
if (url_path.empty())
url_path = page_url_.host();
name_with_proper_ext = FilePath::FromWStringHack(UTF8ToWide(url_path));
}
// Ask user for getting final saving name.
name_with_proper_ext = EnsureMimeExtension(name_with_proper_ext,
contents_mime_type);
// Adjust extension for complete types.
if (can_save_as_complete)
name_with_proper_ext = EnsureHtmlExtension(name_with_proper_ext);
FilePath::StringType file_name = name_with_proper_ext.value();
file_util::ReplaceIllegalCharactersInPath(&file_name, ' ');
return FilePath(file_name);
}
FilePath SavePackage::EnsureHtmlExtension(const FilePath& name) {
// If the file name doesn't have an extension suitable for HTML files,
// append one.
FilePath::StringType ext = name.Extension();
if (!ext.empty())
ext.erase(ext.begin()); // Erase preceding '.'.
std::string mime_type;
if (!net::GetMimeTypeFromExtension(ext, &mime_type) ||
!CanSaveAsComplete(mime_type)) {
return FilePath(name.value() + FILE_PATH_LITERAL(".") +
kDefaultHtmlExtension);
}
return name;
}
FilePath SavePackage::EnsureMimeExtension(const FilePath& name,
const std::string& contents_mime_type) {
// Start extension at 1 to skip over period if non-empty.
FilePath::StringType ext = name.Extension().length() ?
name.Extension().substr(1) : name.Extension();
FilePath::StringType suggested_extension =
ExtensionForMimeType(contents_mime_type);
std::string mime_type;
if (!suggested_extension.empty() &&
(!net::GetMimeTypeFromExtension(ext, &mime_type) ||
!IsSavableContents(mime_type))) {
// Extension is absent or needs to be updated.
return FilePath(name.value() + FILE_PATH_LITERAL(".") +
suggested_extension);
}
return name;
}
const FilePath::CharType* SavePackage::ExtensionForMimeType(
const std::string& contents_mime_type) {
static const struct {
const FilePath::CharType *mime_type;
const FilePath::CharType *suggested_extension;
} extensions[] = {
{ FILE_PATH_LITERAL("text/html"), kDefaultHtmlExtension },
{ FILE_PATH_LITERAL("text/xml"), FILE_PATH_LITERAL("xml") },
{ FILE_PATH_LITERAL("application/xhtml+xml"), FILE_PATH_LITERAL("xhtml") },
{ FILE_PATH_LITERAL("text/plain"), FILE_PATH_LITERAL("txt") },
{ FILE_PATH_LITERAL("text/css"), FILE_PATH_LITERAL("css") },
};
#if defined(OS_POSIX)
FilePath::StringType mime_type(contents_mime_type);
#elif defined(OS_WIN)
FilePath::StringType mime_type(UTF8ToWide(contents_mime_type));
#endif // OS_WIN
for (uint32 i = 0; i < ARRAYSIZE_UNSAFE(extensions); ++i) {
if (mime_type == extensions[i].mime_type)
return extensions[i].suggested_extension;
}
return FILE_PATH_LITERAL("");
}
// static.
// Check whether the preference has the preferred directory for saving file. If
// not, initialize it with default directory.
FilePath SavePackage::GetSaveDirPreference(PrefService* prefs) {
DCHECK(prefs);
if (!prefs->FindPreference(prefs::kSaveFileDefaultDirectory)) {
DCHECK(prefs->FindPreference(prefs::kDownloadDefaultDirectory));
FilePath default_save_path = prefs->GetFilePath(
prefs::kDownloadDefaultDirectory);
prefs->RegisterFilePathPref(prefs::kSaveFileDefaultDirectory,
default_save_path);
}
// Get the directory from preference.
FilePath save_file_path = prefs->GetFilePath(
prefs::kSaveFileDefaultDirectory);
DCHECK(!save_file_path.empty());
return save_file_path;
}
void SavePackage::GetSaveInfo() {
// Can't use tab_contents_ in the file thread, so get the data that we need
// before calling to it.
PrefService* prefs = tab_contents()->profile()->GetPrefs();
FilePath website_save_dir = GetSaveDirPreference(prefs);
FilePath download_save_dir = prefs->GetFilePath(
prefs::kDownloadDefaultDirectory);
std::string mime_type = tab_contents()->contents_mime_type();
BrowserThread::PostTask(
BrowserThread::FILE, FROM_HERE,
NewRunnableMethod(this, &SavePackage::CreateDirectoryOnFileThread,
website_save_dir, download_save_dir, mime_type));
}
void SavePackage::CreateDirectoryOnFileThread(
const FilePath& website_save_dir,
const FilePath& download_save_dir,
const std::string& mime_type) {
FilePath save_dir;
// If the default html/websites save folder doesn't exist...
if (!file_util::DirectoryExists(website_save_dir)) {
// If the default download dir doesn't exist, create it.
if (!file_util::DirectoryExists(download_save_dir))
file_util::CreateDirectory(download_save_dir);
save_dir = download_save_dir;
} else {
// If it does exist, use the default save dir param.
save_dir = website_save_dir;
}
bool can_save_as_complete = CanSaveAsComplete(mime_type);
FilePath suggested_filename = GetSuggestedNameForSaveAs(can_save_as_complete,
mime_type);
FilePath::StringType pure_file_name =
suggested_filename.RemoveExtension().BaseName().value();
FilePath::StringType file_name_ext = suggested_filename.Extension();
// Need to make sure the suggested file name is not too long.
uint32 max_path = GetMaxPathLengthForDirectory(save_dir);
if (GetSafePureFileName(save_dir, file_name_ext, max_path, &pure_file_name)) {
save_dir = save_dir.Append(pure_file_name + file_name_ext);
} else {
// Cannot create a shorter filename. This will cause the save as operation
// to fail unless the user pick a shorter name. Continuing even though it
// will fail because returning means no save as popup for the user, which
// is even more confusing. This case should be rare though.
save_dir = save_dir.Append(suggested_filename);
}
BrowserThread::PostTask(
BrowserThread::UI, FROM_HERE,
NewRunnableMethod(this, &SavePackage::ContinueGetSaveInfo, save_dir,
can_save_as_complete));
}
void SavePackage::ContinueGetSaveInfo(const FilePath& suggested_path,
bool can_save_as_complete) {
// The TabContents which owns this SavePackage may have disappeared during
// the UI->FILE->UI thread hop of
// GetSaveInfo->CreateDirectoryOnFileThread->ContinueGetSaveInfo.
if (!tab_contents())
return;
DownloadPrefs* download_prefs =
tab_contents()->profile()->GetDownloadManager()->download_prefs();
int file_type_index =
SavePackageTypeToIndex(
static_cast<SavePackageType>(download_prefs->save_file_type()));
SelectFileDialog::FileTypeInfo file_type_info;
FilePath::StringType default_extension;
// If the contents can not be saved as complete-HTML, do not show the
// file filters.
if (can_save_as_complete) {
bool add_extra_extension = false;
FilePath::StringType extra_extension;
if (!suggested_path.Extension().empty() &&
suggested_path.Extension().compare(FILE_PATH_LITERAL("htm")) &&
suggested_path.Extension().compare(FILE_PATH_LITERAL("html"))) {
add_extra_extension = true;
extra_extension = suggested_path.Extension().substr(1);
}
file_type_info.extensions.resize(2);
file_type_info.extensions[kSelectFileHtmlOnlyIndex - 1].push_back(
FILE_PATH_LITERAL("htm"));
file_type_info.extensions[kSelectFileHtmlOnlyIndex - 1].push_back(
FILE_PATH_LITERAL("html"));
if (add_extra_extension) {
file_type_info.extensions[kSelectFileHtmlOnlyIndex - 1].push_back(
extra_extension);
}
file_type_info.extension_description_overrides.push_back(
l10n_util::GetStringUTF16(kIndexToIDS[kSelectFileCompleteIndex - 1]));
file_type_info.extensions[kSelectFileCompleteIndex - 1].push_back(
FILE_PATH_LITERAL("htm"));
file_type_info.extensions[kSelectFileCompleteIndex - 1].push_back(
FILE_PATH_LITERAL("html"));
if (add_extra_extension) {
file_type_info.extensions[kSelectFileCompleteIndex - 1].push_back(
extra_extension);
}
file_type_info.extension_description_overrides.push_back(
l10n_util::GetStringUTF16(kIndexToIDS[kSelectFileCompleteIndex]));
file_type_info.include_all_files = false;
default_extension = kDefaultHtmlExtension;
} else {
file_type_info.extensions.resize(1);
file_type_info.extensions[kSelectFileHtmlOnlyIndex - 1].push_back(
suggested_path.Extension());
if (!file_type_info.extensions[kSelectFileHtmlOnlyIndex - 1][0].empty()) {
// Drop the .
file_type_info.extensions[kSelectFileHtmlOnlyIndex - 1][0].erase(0, 1);
}
file_type_info.include_all_files = true;
file_type_index = 1;
}
if (g_should_prompt_for_filename) {
if (!select_file_dialog_.get())
select_file_dialog_ = SelectFileDialog::Create(this);
select_file_dialog_->SelectFile(SelectFileDialog::SELECT_SAVEAS_FILE,
string16(),
suggested_path,
&file_type_info,
file_type_index,
default_extension,
tab_contents(),
platform_util::GetTopLevel(
tab_contents()->GetNativeView()),
NULL);
} else {
// Just use 'suggested_path' instead of opening the dialog prompt.
ContinueSave(suggested_path, file_type_index);
}
}
// Called after the save file dialog box returns.
void SavePackage::ContinueSave(const FilePath& final_name,
int index) {
// Ensure the filename is safe.
saved_main_file_path_ = final_name;
download_util::GenerateSafeFileName(tab_contents()->contents_mime_type(),
&saved_main_file_path_);
// The option index is not zero-based.
DCHECK(index >= kSelectFileHtmlOnlyIndex &&
index <= kSelectFileCompleteIndex);
saved_main_directory_path_ = saved_main_file_path_.DirName();
PrefService* prefs = tab_contents()->profile()->GetPrefs();
StringPrefMember save_file_path;
save_file_path.Init(prefs::kSaveFileDefaultDirectory, prefs, NULL);
#if defined(OS_POSIX)
std::string path_string = saved_main_directory_path_.value();
#elif defined(OS_WIN)
std::string path_string = WideToUTF8(saved_main_directory_path_.value());
#endif
// If user change the default saving directory, we will remember it just
// like IE and FireFox.
if (!tab_contents()->profile()->IsOffTheRecord() &&
save_file_path.GetValue() != path_string) {
save_file_path.SetValue(path_string);
}
save_type_ = kIndexToSaveType[index];
prefs->SetInteger(prefs::kSaveFileType, save_type_);
if (save_type_ == SavePackage::SAVE_AS_COMPLETE_HTML) {
// Make new directory for saving complete file.
saved_main_directory_path_ = saved_main_directory_path_.Append(
saved_main_file_path_.RemoveExtension().BaseName().value() +
FILE_PATH_LITERAL("_files"));
}
Init();
}
// Static
bool SavePackage::IsSavableURL(const GURL& url) {
for (int i = 0; chrome::kSavableSchemes[i] != NULL; ++i) {
if (url.SchemeIs(chrome::kSavableSchemes[i])) {
return true;
}
}
return false;
}
// Static
bool SavePackage::IsSavableContents(const std::string& contents_mime_type) {
// WebKit creates Document object when MIME type is application/xhtml+xml,
// so we also support this MIME type.
return contents_mime_type == "text/html" ||
contents_mime_type == "text/xml" ||
contents_mime_type == "application/xhtml+xml" ||
contents_mime_type == "text/plain" ||
contents_mime_type == "text/css" ||
net::IsSupportedJavascriptMimeType(contents_mime_type.c_str());
}
// SelectFileDialog::Listener interface.
void SavePackage::FileSelected(const FilePath& path,
int index, void* params) {
ContinueSave(path, index);
}
void SavePackage::FileSelectionCanceled(void* params) {
}