electron/chromium_src/chrome/browser/printing/print_job.cc
2014-12-07 06:55:40 -08:00

356 lines
11 KiB
C++

// 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 "chrome/browser/printing/print_job.h"
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/message_loop/message_loop.h"
#include "base/threading/thread_restrictions.h"
#include "base/threading/worker_pool.h"
#include "base/timer/timer.h"
#include "chrome/browser/chrome_notification_types.h"
#include "chrome/browser/printing/print_job_worker.h"
#include "content/public/browser/browser_thread.h"
#include "content/public/browser/notification_service.h"
#include "printing/printed_document.h"
#include "printing/printed_page.h"
using base::TimeDelta;
namespace {
// Helper function to ensure |owner| is valid until at least |callback| returns.
void HoldRefCallback(const scoped_refptr<printing::PrintJobWorkerOwner>& owner,
const base::Closure& callback) {
callback.Run();
}
} // namespace
namespace printing {
PrintJob::PrintJob()
: source_(NULL),
worker_(),
settings_(),
is_job_pending_(false),
is_canceling_(false),
quit_factory_(this) {
// This is normally a UI message loop, but in unit tests, the message loop is
// of the 'default' type.
DCHECK(base::MessageLoopForUI::IsCurrent() ||
base::MessageLoop::current()->type() ==
base::MessageLoop::TYPE_DEFAULT);
}
PrintJob::~PrintJob() {
// The job should be finished (or at least canceled) when it is destroyed.
DCHECK(!is_job_pending_);
DCHECK(!is_canceling_);
DCHECK(!worker_ || !worker_->IsRunning());
DCHECK(RunsTasksOnCurrentThread());
}
void PrintJob::Initialize(PrintJobWorkerOwner* job,
PrintedPagesSource* source,
int page_count) {
DCHECK(!source_);
DCHECK(!worker_.get());
DCHECK(!is_job_pending_);
DCHECK(!is_canceling_);
DCHECK(!document_.get());
source_ = source;
worker_.reset(job->DetachWorker(this));
settings_ = job->settings();
PrintedDocument* new_doc =
new PrintedDocument(settings_,
source_,
job->cookie(),
content::BrowserThread::GetBlockingPool());
new_doc->set_page_count(page_count);
UpdatePrintedDocument(new_doc);
// Don't forget to register to our own messages.
registrar_.Add(this, chrome::NOTIFICATION_PRINT_JOB_EVENT,
content::Source<PrintJob>(this));
}
void PrintJob::Observe(int type,
const content::NotificationSource& source,
const content::NotificationDetails& details) {
DCHECK(RunsTasksOnCurrentThread());
switch (type) {
case chrome::NOTIFICATION_PRINT_JOB_EVENT: {
OnNotifyPrintJobEvent(*content::Details<JobEventDetails>(details).ptr());
break;
}
default: {
break;
}
}
}
void PrintJob::GetSettingsDone(const PrintSettings& new_settings,
PrintingContext::Result result) {
NOTREACHED();
}
PrintJobWorker* PrintJob::DetachWorker(PrintJobWorkerOwner* new_owner) {
NOTREACHED();
return NULL;
}
const PrintSettings& PrintJob::settings() const {
return settings_;
}
int PrintJob::cookie() const {
if (!document_.get())
// Always use an invalid cookie in this case.
return 0;
return document_->cookie();
}
void PrintJob::StartPrinting() {
DCHECK(RunsTasksOnCurrentThread());
DCHECK(worker_->IsRunning());
DCHECK(!is_job_pending_);
if (!worker_->IsRunning() || is_job_pending_)
return;
// Real work is done in PrintJobWorker::StartPrinting().
worker_->PostTask(FROM_HERE,
base::Bind(&HoldRefCallback,
make_scoped_refptr(this),
base::Bind(&PrintJobWorker::StartPrinting,
base::Unretained(worker_.get()),
document_)));
// Set the flag right now.
is_job_pending_ = true;
// Tell everyone!
scoped_refptr<JobEventDetails> details(
new JobEventDetails(JobEventDetails::NEW_DOC, document_.get(), NULL));
content::NotificationService::current()->Notify(
chrome::NOTIFICATION_PRINT_JOB_EVENT,
content::Source<PrintJob>(this),
content::Details<JobEventDetails>(details.get()));
}
void PrintJob::Stop() {
DCHECK(RunsTasksOnCurrentThread());
if (quit_factory_.HasWeakPtrs()) {
// In case we're running a nested message loop to wait for a job to finish,
// and we finished before the timeout, quit the nested loop right away.
Quit();
quit_factory_.InvalidateWeakPtrs();
}
// Be sure to live long enough.
scoped_refptr<PrintJob> handle(this);
if (worker_->IsRunning()) {
ControlledWorkerShutdown();
} else {
// Flush the cached document.
UpdatePrintedDocument(NULL);
}
}
void PrintJob::Cancel() {
if (is_canceling_)
return;
is_canceling_ = true;
// Be sure to live long enough.
scoped_refptr<PrintJob> handle(this);
DCHECK(RunsTasksOnCurrentThread());
if (worker_ && worker_->IsRunning()) {
// Call this right now so it renders the context invalid. Do not use
// InvokeLater since it would take too much time.
worker_->Cancel();
}
// Make sure a Cancel() is broadcast.
scoped_refptr<JobEventDetails> details(
new JobEventDetails(JobEventDetails::FAILED, NULL, NULL));
content::NotificationService::current()->Notify(
chrome::NOTIFICATION_PRINT_JOB_EVENT,
content::Source<PrintJob>(this),
content::Details<JobEventDetails>(details.get()));
Stop();
is_canceling_ = false;
}
bool PrintJob::FlushJob(base::TimeDelta timeout) {
// Make sure the object outlive this message loop.
scoped_refptr<PrintJob> handle(this);
base::MessageLoop::current()->PostDelayedTask(FROM_HERE,
base::Bind(&PrintJob::Quit, quit_factory_.GetWeakPtr()), timeout);
base::MessageLoop::ScopedNestableTaskAllower allow(
base::MessageLoop::current());
base::MessageLoop::current()->Run();
return true;
}
void PrintJob::DisconnectSource() {
source_ = NULL;
if (document_.get())
document_->DisconnectSource();
}
bool PrintJob::is_job_pending() const {
return is_job_pending_;
}
PrintedDocument* PrintJob::document() const {
return document_.get();
}
void PrintJob::UpdatePrintedDocument(PrintedDocument* new_document) {
if (document_.get() == new_document)
return;
document_ = new_document;
if (document_.get()) {
settings_ = document_->settings();
}
if (worker_) {
DCHECK(!is_job_pending_);
// Sync the document with the worker.
worker_->PostTask(FROM_HERE,
base::Bind(&HoldRefCallback,
make_scoped_refptr(this),
base::Bind(&PrintJobWorker::OnDocumentChanged,
base::Unretained(worker_.get()),
document_)));
}
}
void PrintJob::OnNotifyPrintJobEvent(const JobEventDetails& event_details) {
switch (event_details.type()) {
case JobEventDetails::FAILED: {
settings_.Clear();
// No need to cancel since the worker already canceled itself.
Stop();
break;
}
case JobEventDetails::USER_INIT_DONE:
case JobEventDetails::DEFAULT_INIT_DONE:
case JobEventDetails::USER_INIT_CANCELED: {
DCHECK_EQ(event_details.document(), document_.get());
break;
}
case JobEventDetails::NEW_DOC:
case JobEventDetails::NEW_PAGE:
case JobEventDetails::JOB_DONE:
case JobEventDetails::ALL_PAGES_REQUESTED: {
// Don't care.
break;
}
case JobEventDetails::DOC_DONE: {
// This will call Stop() and broadcast a JOB_DONE message.
base::MessageLoop::current()->PostTask(
FROM_HERE, base::Bind(&PrintJob::OnDocumentDone, this));
break;
}
case JobEventDetails::PAGE_DONE:
break;
default: {
NOTREACHED();
break;
}
}
}
void PrintJob::OnDocumentDone() {
// Be sure to live long enough. The instance could be destroyed by the
// JOB_DONE broadcast.
scoped_refptr<PrintJob> handle(this);
// Stop the worker thread.
Stop();
scoped_refptr<JobEventDetails> details(
new JobEventDetails(JobEventDetails::JOB_DONE, document_.get(), NULL));
content::NotificationService::current()->Notify(
chrome::NOTIFICATION_PRINT_JOB_EVENT,
content::Source<PrintJob>(this),
content::Details<JobEventDetails>(details.get()));
}
void PrintJob::ControlledWorkerShutdown() {
DCHECK(RunsTasksOnCurrentThread());
// The deadlock this code works around is specific to window messaging on
// Windows, so we aren't likely to need it on any other platforms.
#if defined(OS_WIN)
// We could easily get into a deadlock case if worker_->Stop() is used; the
// printer driver created a window as a child of the browser window. By
// canceling the job, the printer driver initiated dialog box is destroyed,
// which sends a blocking message to its parent window. If the browser window
// thread is not processing messages, a deadlock occurs.
//
// This function ensures that the dialog box will be destroyed in a timely
// manner by the mere fact that the thread will terminate. So the potential
// deadlock is eliminated.
worker_->StopSoon();
// Delay shutdown until the worker terminates. We want this code path
// to wait on the thread to quit before continuing.
if (worker_->IsRunning()) {
base::MessageLoop::current()->PostDelayedTask(
FROM_HERE,
base::Bind(&PrintJob::ControlledWorkerShutdown, this),
base::TimeDelta::FromMilliseconds(100));
return;
}
#endif
// Now make sure the thread object is cleaned up. Do this on a worker
// thread because it may block.
base::WorkerPool::PostTaskAndReply(
FROM_HERE,
base::Bind(&PrintJobWorker::Stop, base::Unretained(worker_.get())),
base::Bind(&PrintJob::HoldUntilStopIsCalled, this),
false);
is_job_pending_ = false;
registrar_.RemoveAll();
UpdatePrintedDocument(NULL);
}
void PrintJob::HoldUntilStopIsCalled() {
}
void PrintJob::Quit() {
base::MessageLoop::current()->Quit();
}
// Takes settings_ ownership and will be deleted in the receiving thread.
JobEventDetails::JobEventDetails(Type type,
PrintedDocument* document,
PrintedPage* page)
: document_(document),
page_(page),
type_(type) {
}
JobEventDetails::~JobEventDetails() {
}
PrintedDocument* JobEventDetails::document() const { return document_.get(); }
PrintedPage* JobEventDetails::page() const { return page_.get(); }
} // namespace printing