// 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/printing/print_view_manager.h" #include "base/memory/scoped_ptr.h" #include "base/utf_string_conversions.h" #include "chrome/browser/browser_process.h" #include "chrome/browser/printing/print_job.h" #include "chrome/browser/printing/print_job_manager.h" #include "chrome/browser/printing/print_preview_tab_controller.h" #include "chrome/browser/printing/printer_query.h" #include "chrome/browser/ui/webui/print_preview_ui.h" #include "chrome/common/print_messages.h" #include "content/browser/renderer_host/render_view_host.h" #include "content/browser/tab_contents/navigation_entry.h" #include "content/browser/tab_contents/tab_contents.h" #include "content/common/notification_details.h" #include "content/common/notification_source.h" #include "grit/generated_resources.h" #include "printing/metafile.h" #include "printing/metafile_impl.h" #include "printing/printed_document.h" #include "ui/base/l10n/l10n_util.h" using base::TimeDelta; namespace { string16 GenerateRenderSourceName(TabContents* tab_contents) { string16 name(tab_contents->GetTitle()); if (name.empty()) name = l10n_util::GetStringUTF16(IDS_DEFAULT_PRINT_DOCUMENT_TITLE); return name; } } // namespace namespace printing { PrintViewManager::PrintViewManager(TabContents* tab_contents) : TabContentsObserver(tab_contents), number_pages_(0), waiting_to_print_(false), printing_succeeded_(false), inside_inner_message_loop_(false), is_title_overridden_(false) { #if defined(OS_POSIX) && !defined(OS_MACOSX) expecting_first_page_ = true; #endif } PrintViewManager::~PrintViewManager() { DisconnectFromCurrentPrintJob(); } bool PrintViewManager::PrintNow() { // Don't print interstitials. if (tab_contents()->showing_interstitial_page()) return false; return Send(new PrintMsg_PrintPages(routing_id())); } void PrintViewManager::StopNavigation() { // Cancel the current job, wait for the worker to finish. TerminatePrintJob(true); } void PrintViewManager::RenderViewGone() { if (!print_job_.get()) return; scoped_refptr<PrintedDocument> document(print_job_->document()); if (document) { // If IsComplete() returns false, the document isn't completely rendered. // Since our renderer is gone, there's nothing to do, cancel it. Otherwise, // the print job may finish without problem. TerminatePrintJob(!document->IsComplete()); } } void PrintViewManager::OverrideTitle(TabContents* tab_contents) { is_title_overridden_ = true; overridden_title_ = GenerateRenderSourceName(tab_contents); } string16 PrintViewManager::RenderSourceName() { if (is_title_overridden_) return overridden_title_; return GenerateRenderSourceName(tab_contents()); } GURL PrintViewManager::RenderSourceUrl() { NavigationEntry* entry = tab_contents()->controller().GetActiveEntry(); if (entry) return entry->virtual_url(); return GURL(); } void PrintViewManager::OnDidGetPrintedPagesCount(int cookie, int number_pages) { DCHECK_GT(cookie, 0); DCHECK_GT(number_pages, 0); number_pages_ = number_pages; if (!OpportunisticallyCreatePrintJob(cookie)) return; PrintedDocument* document = print_job_->document(); if (!document || cookie != document->cookie()) { // Out of sync. It may happens since we are completely asynchronous. Old // spurious message can happen if one of the processes is overloaded. return; } } void PrintViewManager::OnDidPrintPage( const PrintHostMsg_DidPrintPage_Params& params) { if (!OpportunisticallyCreatePrintJob(params.document_cookie)) return; PrintedDocument* document = print_job_->document(); if (!document || params.document_cookie != document->cookie()) { // Out of sync. It may happen since we are completely asynchronous. Old // spurious messages can be received if one of the processes is overloaded. return; } #if defined(OS_WIN) // http://msdn2.microsoft.com/en-us/library/ms535522.aspx // Windows 2000/XP: When a page in a spooled file exceeds approximately 350 // MB, it can fail to print and not send an error message. if (params.data_size && params.data_size >= 350*1024*1024) { NOTREACHED() << "size:" << params.data_size; TerminatePrintJob(true); tab_contents()->Stop(); return; } #endif #if defined(OS_WIN) || defined(OS_MACOSX) const bool metafile_must_be_valid = true; #elif defined(OS_POSIX) const bool metafile_must_be_valid = expecting_first_page_; expecting_first_page_ = false; #endif base::SharedMemory shared_buf(params.metafile_data_handle, true); if (metafile_must_be_valid) { if (!shared_buf.Map(params.data_size)) { NOTREACHED() << "couldn't map"; tab_contents()->Stop(); return; } } scoped_ptr<Metafile> metafile(new NativeMetafile); if (metafile_must_be_valid) { if (!metafile->InitFromData(shared_buf.memory(), params.data_size)) { NOTREACHED() << "Invalid metafile header"; tab_contents()->Stop(); return; } } // Update the rendered document. It will send notifications to the listener. document->SetPage(params.page_number, metafile.release(), params.actual_shrink, params.page_size, params.content_area, params.has_visible_overlays); ShouldQuitFromInnerMessageLoop(); } bool PrintViewManager::OnMessageReceived(const IPC::Message& message) { bool handled = true; IPC_BEGIN_MESSAGE_MAP(PrintViewManager, message) IPC_MESSAGE_HANDLER(PrintHostMsg_DidGetPrintedPagesCount, OnDidGetPrintedPagesCount) IPC_MESSAGE_HANDLER(PrintHostMsg_DidPrintPage, OnDidPrintPage) IPC_MESSAGE_UNHANDLED(handled = false) IPC_END_MESSAGE_MAP() return handled; } void PrintViewManager::Observe(NotificationType type, const NotificationSource& source, const NotificationDetails& details) { switch (type.value) { case NotificationType::PRINT_JOB_EVENT: { OnNotifyPrintJobEvent(*Details<JobEventDetails>(details).ptr()); break; } default: { NOTREACHED(); break; } } } void PrintViewManager::OnNotifyPrintJobEvent( const JobEventDetails& event_details) { switch (event_details.type()) { case JobEventDetails::FAILED: { TerminatePrintJob(true); break; } case JobEventDetails::USER_INIT_DONE: case JobEventDetails::DEFAULT_INIT_DONE: case JobEventDetails::USER_INIT_CANCELED: { NOTREACHED(); break; } case JobEventDetails::ALL_PAGES_REQUESTED: { ShouldQuitFromInnerMessageLoop(); break; } case JobEventDetails::NEW_DOC: case JobEventDetails::NEW_PAGE: case JobEventDetails::PAGE_DONE: { // Don't care about the actual printing process. break; } case JobEventDetails::DOC_DONE: { waiting_to_print_ = false; break; } case JobEventDetails::JOB_DONE: { // Printing is done, we don't need it anymore. // print_job_->is_job_pending() may still be true, depending on the order // of object registration. printing_succeeded_ = true; ReleasePrintJob(); break; } default: { NOTREACHED(); break; } } } bool PrintViewManager::RenderAllMissingPagesNow() { if (!print_job_.get() || !print_job_->is_job_pending()) { DCHECK_EQ(waiting_to_print_, false); return false; } // We can't print if there is no renderer. if (!tab_contents() || !tab_contents()->render_view_host() || !tab_contents()->render_view_host()->IsRenderViewLive()) { waiting_to_print_ = false; return false; } // Is the document already complete? if (print_job_->document() && print_job_->document()->IsComplete()) { waiting_to_print_ = false; printing_succeeded_ = true; return true; } // TabContents is either dying or a second consecutive request to print // happened before the first had time to finish. We need to render all the // pages in an hurry if a print_job_ is still pending. No need to wait for it // to actually spool the pages, only to have the renderer generate them. Run // a message loop until we get our signal that the print job is satisfied. // PrintJob will send a ALL_PAGES_REQUESTED after having received all the // pages it needs. MessageLoop::current()->Quit() will be called as soon as // print_job_->document()->IsComplete() is true on either ALL_PAGES_REQUESTED // or in DidPrintPage(). The check is done in // ShouldQuitFromInnerMessageLoop(). // BLOCKS until all the pages are received. (Need to enable recursive task) if (!RunInnerMessageLoop()) { // This function is always called from DisconnectFromCurrentPrintJob() so we // know that the job will be stopped/canceled in any case. return false; } return true; } void PrintViewManager::ShouldQuitFromInnerMessageLoop() { // Look at the reason. DCHECK(print_job_->document()); if (print_job_->document() && print_job_->document()->IsComplete() && inside_inner_message_loop_) { // We are in a message loop created by RenderAllMissingPagesNow. Quit from // it. MessageLoop::current()->Quit(); inside_inner_message_loop_ = false; waiting_to_print_ = false; } } bool PrintViewManager::CreateNewPrintJob(PrintJobWorkerOwner* job) { DCHECK(!inside_inner_message_loop_); if (waiting_to_print_) { // We can't help; we are waiting for a print job initialization. The user is // button bashing. The only thing we could do is to batch up the requests. return false; } // Disconnect the current print_job_. DisconnectFromCurrentPrintJob(); // We can't print if there is no renderer. if (!tab_contents()->render_view_host() || !tab_contents()->render_view_host()->IsRenderViewLive()) { return false; } // Ask the renderer to generate the print preview, create the print preview // view and switch to it, initialize the printer and show the print dialog. DCHECK(!print_job_.get()); DCHECK(job); if (!job) return false; print_job_ = new PrintJob(); print_job_->Initialize(job, this, number_pages_); registrar_.Add(this, NotificationType::PRINT_JOB_EVENT, Source<PrintJob>(print_job_.get())); printing_succeeded_ = false; return true; } void PrintViewManager::DisconnectFromCurrentPrintJob() { // Make sure all the necessary rendered page are done. Don't bother with the // return value. bool result = RenderAllMissingPagesNow(); // Verify that assertion. if (print_job_.get() && print_job_->document() && !print_job_->document()->IsComplete()) { DCHECK(!result); // That failed. TerminatePrintJob(true); } else { // DO NOT wait for the job to finish. ReleasePrintJob(); } #if defined(OS_POSIX) && !defined(OS_MACOSX) expecting_first_page_ = true; #endif } void PrintViewManager::PrintingDone(bool success) { if (!print_job_.get() || !tab_contents()) return; RenderViewHost* rvh = tab_contents()->render_view_host(); rvh->Send(new PrintMsg_PrintingDone(rvh->routing_id(), print_job_->cookie(), success)); } void PrintViewManager::TerminatePrintJob(bool cancel) { if (!print_job_.get()) return; if (cancel) { // We don't need the metafile data anymore because the printing is canceled. print_job_->Cancel(); waiting_to_print_ = false; inside_inner_message_loop_ = false; } else { DCHECK(!inside_inner_message_loop_); DCHECK(!print_job_->document() || print_job_->document()->IsComplete() || !waiting_to_print_); // TabContents is either dying or navigating elsewhere. We need to render // all the pages in an hurry if a print job is still pending. This does the // trick since it runs a blocking message loop: print_job_->Stop(); } ReleasePrintJob(); } void PrintViewManager::ReleasePrintJob() { DCHECK_EQ(waiting_to_print_, false); if (!print_job_.get()) return; PrintingDone(printing_succeeded_); registrar_.Remove(this, NotificationType::PRINT_JOB_EVENT, Source<PrintJob>(print_job_.get())); print_job_->DisconnectSource(); // Don't close the worker thread. print_job_ = NULL; } bool PrintViewManager::RunInnerMessageLoop() { // This value may actually be too low: // // - If we're looping because of printer settings initializaton, the premise // here is that some poor users have their print server away on a VPN over // dialup. In this situation, the simple fact of opening the printer can be // dead slow. On the other side, we don't want to die infinitely for a real // network error. Give the printer 60 seconds to comply. // // - If we're looping because of renderer page generation, the renderer could // be cpu bound, the page overly complex/large or the system just // memory-bound. static const int kPrinterSettingsTimeout = 60000; base::OneShotTimer<MessageLoop> quit_timer; quit_timer.Start(TimeDelta::FromMilliseconds(kPrinterSettingsTimeout), MessageLoop::current(), &MessageLoop::Quit); inside_inner_message_loop_ = true; // Need to enable recursive task. bool old_state = MessageLoop::current()->NestableTasksAllowed(); MessageLoop::current()->SetNestableTasksAllowed(true); MessageLoop::current()->Run(); // Restore task state. MessageLoop::current()->SetNestableTasksAllowed(old_state); bool success = true; if (inside_inner_message_loop_) { // Ok we timed out. That's sad. inside_inner_message_loop_ = false; success = false; } return success; } bool PrintViewManager::OpportunisticallyCreatePrintJob(int cookie) { if (print_job_.get()) return true; if (!cookie) { // Out of sync. It may happens since we are completely asynchronous. Old // spurious message can happen if one of the processes is overloaded. return false; } // The job was initiated by a script. Time to get the corresponding worker // thread. scoped_refptr<PrinterQuery> queued_query; g_browser_process->print_job_manager()->PopPrinterQuery(cookie, &queued_query); DCHECK(queued_query.get()); if (!queued_query.get()) return false; if (!CreateNewPrintJob(queued_query.get())) { // Don't kill anything. return false; } // Settings are already loaded. Go ahead. This will set // print_job_->is_job_pending() to true. print_job_->StartPrinting(); return true; } } // namespace printing