cef/cef1/libcef/printing/win_printing_context.cc

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// Copyright (c) 2006-2008 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 "libcef/printing/win_printing_context.h"
#include <winspool.h>
#include "base/file_util.h"
#include "base/i18n/time_formatting.h"
#include "base/message_loop.h"
#include "base/time.h"
#include "skia/ext/bitmap_platform_device_win.h"
#include "printing/units.h"
using base::Time;
namespace {
// Retrieves the content of a GetPrinter call.
void GetPrinterHelper(HANDLE printer, int level, scoped_array<uint8>* buffer) {
DWORD buf_size = 0;
GetPrinter(printer, level, NULL, 0, &buf_size);
if (buf_size) {
buffer->reset(new uint8[buf_size]);
memset(buffer->get(), 0, buf_size);
if (!GetPrinter(printer, level, buffer->get(), buf_size, &buf_size)) {
buffer->reset();
}
}
}
} // namespace
namespace printing {
PrintingContext::PrintingContext()
: hdc_(NULL),
#ifndef NDEBUG
page_number_(-1),
#endif
dialog_box_(NULL),
dialog_box_dismissed_(false),
abort_printing_(false),
in_print_job_(false) {
}
PrintingContext::~PrintingContext() {
ResetSettings();
}
PrintingContext::Result PrintingContext::AskUserForSettings(
HWND window,
int max_pages,
bool has_selection) {
DCHECK(window);
DCHECK(!in_print_job_);
dialog_box_dismissed_ = false;
// Show the OS-dependent dialog box.
// If the user press
// - OK, the settings are reset and reinitialized with the new settings. OK is
// returned.
// - Apply then Cancel, the settings are reset and reinitialized with the new
// settings. CANCEL is returned.
// - Cancel, the settings are not changed, the previous setting, if it was
// initialized before, are kept. CANCEL is returned.
// On failure, the settings are reset and FAILED is returned.
PRINTDLGEX dialog_options = { sizeof(PRINTDLGEX) };
dialog_options.hwndOwner = window;
// Disable options we don't support currently.
// TODO(maruel): Reuse the previously loaded settings!
dialog_options.Flags = PD_RETURNDC | PD_USEDEVMODECOPIESANDCOLLATE |
PD_NOCURRENTPAGE;
if (!has_selection)
dialog_options.Flags |= PD_NOSELECTION;
PRINTPAGERANGE ranges[32];
dialog_options.nStartPage = START_PAGE_GENERAL;
if (max_pages) {
// Default initialize to print all the pages.
memset(ranges, 0, sizeof(ranges));
ranges[0].nFromPage = 1;
ranges[0].nToPage = max_pages;
dialog_options.nPageRanges = 1;
dialog_options.nMaxPageRanges = arraysize(ranges);
dialog_options.nMinPage = 1;
dialog_options.nMaxPage = max_pages;
dialog_options.lpPageRanges = ranges;
} else {
// No need to bother, we don't know how many pages are available.
dialog_options.Flags |= PD_NOPAGENUMS;
}
// Adjust the default dev mode for the printdlg settings.
DEVMODE dev_mode;
memset(&dev_mode, 0, sizeof(dev_mode));
dev_mode.dmSpecVersion = DM_SPECVERSION;
dev_mode.dmSize = sizeof(DEVMODE);
AdjustDevMode(dev_mode);
dialog_options.hDevMode = GlobalAlloc(GMEM_MOVEABLE, sizeof(DEVMODE));
DEVMODE* locked_dev_mode =
reinterpret_cast<DEVMODE*>(GlobalLock(dialog_options.hDevMode));
memcpy(locked_dev_mode, &dev_mode, sizeof(DEVMODE));
GlobalUnlock(dialog_options.hDevMode);
{
if (PrintDlgEx(&dialog_options) != S_OK) {
ResetSettings();
return FAILED;
}
}
return ParseDialogResultEx(dialog_options);
}
PrintingContext::Result PrintingContext::UseDefaultSettings() {
DCHECK(!in_print_job_);
PRINTDLG dialog_options = { sizeof(PRINTDLG) };
dialog_options.Flags = PD_RETURNDC | PD_RETURNDEFAULT;
if (PrintDlg(&dialog_options) == 0) {
ResetSettings();
return FAILED;
}
return ParseDialogResult(dialog_options);
}
void PrintingContext::AdjustDevMode(DEVMODE& dev_mode) {
dev_mode.dmFields |= DM_ORIENTATION;
dev_mode.dmOrientation =
(settings_.landscape) ? DMORIENT_LANDSCAPE : DMORIENT_PORTRAIT;
dev_mode.dmFields |= DM_PAPERSIZE;
switch (settings_.page_measurements.page_type) {
case PT_LETTER:
dev_mode.dmPaperSize = DMPAPER_LETTER;
break;
case PT_LEGAL:
dev_mode.dmPaperSize = DMPAPER_LEGAL;
break;
case PT_EXECUTIVE:
dev_mode.dmPaperSize = DMPAPER_EXECUTIVE;
break;
case PT_A3:
dev_mode.dmPaperSize = DMPAPER_A3;
break;
case PT_A4:
dev_mode.dmPaperSize = DMPAPER_A4;
break;
case PT_CUSTOM:
{
dev_mode.dmPaperSize = DMPAPER_USER;
dev_mode.dmFields |= DM_PAPERLENGTH | DM_PAPERWIDTH;
DCHECK_GT(settings_.page_measurements.page_length, 0);
DCHECK_GT(settings_.page_measurements.page_width, 0);
// Convert from desired_dpi to tenths of a mm.
dev_mode.dmPaperLength =
static_cast<short>(ConvertUnitDouble( // NOLINT(runtime/int)
abs(settings_.page_measurements.page_length),
10.0 * settings_.desired_dpi,
static_cast<double>(kHundrethsMMPerInch)) + 0.5);
dev_mode.dmPaperWidth =
static_cast<short>(ConvertUnitDouble( // NOLINT(runtime/int)
abs(settings_.page_measurements.page_width),
10.0 * settings_.desired_dpi,
static_cast<double>(kHundrethsMMPerInch)) + 0.5);
break;
}
default:
// We shouldn't ever hit this case.
DCHECK(false);
dev_mode.dmPaperSize = DMPAPER_LETTER;
break;
}
}
PrintingContext::Result PrintingContext::Init() {
DCHECK(!in_print_job_);
TCHAR printername[512];
DWORD size = sizeof(printername)-1;
if (GetDefaultPrinter(printername, &size)) {
return Init(CefString(printername), false);
}
return FAILED;
}
PrintingContext::Result PrintingContext::InitWithSettings(
const PrintSettings& settings) {
DCHECK(!in_print_job_);
settings_ = settings;
return Init(settings_.device_name(), true);
}
PrintingContext::Result PrintingContext::Init(const CefString& device_name,
bool adjust_dev_mode) {
HANDLE printer;
std::wstring deviceNameStr = device_name;
if (!OpenPrinter(const_cast<wchar_t*>(deviceNameStr.c_str()),
&printer,
NULL))
return FAILED;
Result status = OK;
if (!GetPrinterSettings(printer, device_name, adjust_dev_mode))
status = FAILED;
// Close the printer after retrieving the context.
ClosePrinter(printer);
if (status != OK)
ResetSettings();
return status;
}
void PrintingContext::ResetSettings() {
if (hdc_ != NULL) {
DeleteDC(hdc_);
hdc_ = NULL;
}
settings_.Clear();
in_print_job_ = false;
#ifndef NDEBUG
page_number_ = -1;
#endif
}
PrintingContext::Result PrintingContext::NewDocument(
const CefString& document_name) {
DCHECK(!in_print_job_);
if (!hdc_)
return OnError();
// Set the flag used by the AbortPrintJob dialog procedure.
abort_printing_ = false;
in_print_job_ = true;
// Register the application's AbortProc function with GDI.
if (SP_ERROR == SetAbortProc(hdc_, &AbortProc))
return OnError();
DOCINFO di = { sizeof(DOCINFO) };
std::wstring documentNameStr = document_name;
di.lpszDocName = documentNameStr.c_str();
wchar_t szFileName[MAX_PATH] = L"";
if (settings_.to_file) {
// Prompt for the file name to use for the printed output.
OPENFILENAME ofn = { sizeof(ofn) };
ofn.lpstrFilter = L"PostScript Files (*.ps)\0*.ps\0All Files (*.*)\0*.*\0";
ofn.lpstrFile = szFileName;
ofn.nMaxFile = MAX_PATH;
ofn.Flags = OFN_EXPLORER | OFN_OVERWRITEPROMPT | OFN_HIDEREADONLY |
OFN_NOREADONLYRETURN | OFN_ENABLESIZING;
ofn.lpstrDefExt = L"ps";
if (GetSaveFileName(&ofn))
di.lpszOutput = szFileName;
else
return OnError();
}
DCHECK_EQ(MessageLoop::current()->NestableTasksAllowed(), false);
// Begin a print job by calling the StartDoc function.
// NOTE: StartDoc() starts a message loop. That causes a lot of problems with
// IPC. Make sure recursive task processing is disabled.
if (StartDoc(hdc_, &di) <= 0)
return OnError();
#ifndef NDEBUG
page_number_ = 0;
#endif
return OK;
}
PrintingContext::Result PrintingContext::NewPage() {
if (abort_printing_)
return CANCEL;
DCHECK(in_print_job_);
// Inform the driver that the application is about to begin sending data.
if (StartPage(hdc_) <= 0)
return OnError();
#ifndef NDEBUG
++page_number_;
#endif
return OK;
}
PrintingContext::Result PrintingContext::PageDone() {
if (abort_printing_)
return CANCEL;
DCHECK(in_print_job_);
if (EndPage(hdc_) <= 0)
return OnError();
return OK;
}
PrintingContext::Result PrintingContext::DocumentDone() {
if (abort_printing_)
return CANCEL;
DCHECK(in_print_job_);
// Inform the driver that document has ended.
if (EndDoc(hdc_) <= 0)
return OnError();
ResetSettings();
return OK;
}
void PrintingContext::Cancel() {
abort_printing_ = true;
in_print_job_ = false;
if (hdc_)
CancelDC(hdc_);
DismissDialog();
}
void PrintingContext::DismissDialog() {
if (dialog_box_) {
DestroyWindow(dialog_box_);
dialog_box_dismissed_ = true;
}
}
PrintingContext::Result PrintingContext::OnError() {
// This will close hdc_ and clear settings_.
ResetSettings();
return abort_printing_ ? CANCEL : FAILED;
}
// static
BOOL PrintingContext::AbortProc(HDC hdc, int nCode) {
if (nCode) {
// TODO(maruel): Need a way to find the right instance to set. Should
// leverage PrintJobManager here?
// abort_printing_ = true;
}
return true;
}
bool PrintingContext::InitializeSettings(const DEVMODE& dev_mode,
const CefString& new_device_name,
const PRINTPAGERANGE* ranges,
int number_ranges,
bool selection_only,
bool to_file) {
skia::InitializeDC(hdc_);
DCHECK(GetDeviceCaps(hdc_, CLIPCAPS));
DCHECK(GetDeviceCaps(hdc_, RASTERCAPS) & RC_STRETCHDIB);
DCHECK(GetDeviceCaps(hdc_, RASTERCAPS) & RC_BITMAP64);
// Some printers don't advertise these.
// DCHECK(GetDeviceCaps(hdc_, RASTERCAPS) & RC_SCALING);
// DCHECK(GetDeviceCaps(hdc_, SHADEBLENDCAPS) & SB_CONST_ALPHA);
// DCHECK(GetDeviceCaps(hdc_, SHADEBLENDCAPS) & SB_PIXEL_ALPHA);
// StretchDIBits() support is needed for printing.
if (!(GetDeviceCaps(hdc_, RASTERCAPS) & RC_STRETCHDIB) ||
!(GetDeviceCaps(hdc_, RASTERCAPS) & RC_BITMAP64)) {
NOTREACHED();
ResetSettings();
return false;
}
DCHECK(!in_print_job_);
DCHECK(hdc_);
PageRanges ranges_vector;
if (!selection_only) {
// Convert the PRINTPAGERANGE array to a PrintSettings::PageRanges vector.
ranges_vector.reserve(number_ranges);
for (int i = 0; i < number_ranges; ++i) {
PageRange range;
// Transfer from 1-based to 0-based.
range.from = ranges[i].nFromPage - 1;
range.to = ranges[i].nToPage - 1;
ranges_vector.push_back(range);
}
}
settings_.Init(hdc_,
dev_mode,
ranges_vector,
new_device_name,
selection_only,
to_file);
return true;
}
bool PrintingContext::GetPrinterSettings(HANDLE printer,
const CefString& device_name,
bool adjust_dev_mode) {
DCHECK(!in_print_job_);
scoped_array<uint8> buffer;
// A PRINTER_INFO_9 structure specifying the per-user default printer
// settings.
GetPrinterHelper(printer, 9, &buffer);
if (buffer.get()) {
PRINTER_INFO_9* info_9 = reinterpret_cast<PRINTER_INFO_9*>(buffer.get());
if (info_9->pDevMode != NULL) {
if (adjust_dev_mode)
AdjustDevMode(*info_9->pDevMode);
if (!AllocateContext(device_name, info_9->pDevMode)) {
ResetSettings();
return false;
}
return InitializeSettings(*info_9->pDevMode, device_name, NULL, 0, false,
false);
}
buffer.reset();
}
// A PRINTER_INFO_8 structure specifying the global default printer settings.
GetPrinterHelper(printer, 8, &buffer);
if (buffer.get()) {
PRINTER_INFO_8* info_8 = reinterpret_cast<PRINTER_INFO_8*>(buffer.get());
if (info_8->pDevMode != NULL) {
if (adjust_dev_mode)
AdjustDevMode(*info_8->pDevMode);
if (!AllocateContext(device_name, info_8->pDevMode)) {
ResetSettings();
return false;
}
return InitializeSettings(*info_8->pDevMode, device_name, NULL, 0, false,
false);
}
buffer.reset();
}
// A PRINTER_INFO_2 structure specifying the driver's default printer
// settings.
GetPrinterHelper(printer, 2, &buffer);
if (buffer.get()) {
PRINTER_INFO_2* info_2 = reinterpret_cast<PRINTER_INFO_2*>(buffer.get());
if (info_2->pDevMode != NULL) {
if (adjust_dev_mode)
AdjustDevMode(*info_2->pDevMode);
if (!AllocateContext(device_name, info_2->pDevMode)) {
ResetSettings();
return false;
}
return InitializeSettings(*info_2->pDevMode, device_name, NULL, 0, false,
false);
}
buffer.reset();
}
// Failed to retrieve the printer settings.
ResetSettings();
return false;
}
bool PrintingContext::AllocateContext(const CefString& printer_name,
const DEVMODE* dev_mode) {
std::wstring printerNameStr = printer_name;
hdc_ = CreateDC(L"WINSPOOL", printerNameStr.c_str(), NULL, dev_mode);
DCHECK(hdc_);
return hdc_ != NULL;
}
PrintingContext::Result PrintingContext::ParseDialogResultEx(
const PRINTDLGEX& dialog_options) {
// If the user clicked OK or Apply then Cancel, but not only Cancel.
if (dialog_options.dwResultAction != PD_RESULT_CANCEL) {
PageMargins requested_margins = settings_.requested_margins;
// Start fresh except for page margins since that isn't controlled by this
// dialog.
ResetSettings();
settings_.requested_margins = requested_margins;
DEVMODE* dev_mode = NULL;
if (dialog_options.hDevMode) {
dev_mode =
reinterpret_cast<DEVMODE*>(GlobalLock(dialog_options.hDevMode));
DCHECK(dev_mode);
}
std::wstring device_name;
if (dialog_options.hDevNames) {
DEVNAMES* dev_names =
reinterpret_cast<DEVNAMES*>(GlobalLock(dialog_options.hDevNames));
DCHECK(dev_names);
if (dev_names) {
device_name =
reinterpret_cast<const wchar_t*>(
reinterpret_cast<const wchar_t*>(dev_names) +
dev_names->wDeviceOffset);
GlobalUnlock(dialog_options.hDevNames);
}
}
bool success = false;
if (dev_mode && !device_name.empty()) {
hdc_ = dialog_options.hDC;
PRINTPAGERANGE* page_ranges = NULL;
DWORD num_page_ranges = 0;
bool print_selection_only = false;
bool print_to_file = false;
if (dialog_options.Flags & PD_PAGENUMS) {
page_ranges = dialog_options.lpPageRanges;
num_page_ranges = dialog_options.nPageRanges;
}
if (dialog_options.Flags & PD_SELECTION) {
print_selection_only = true;
}
if (dialog_options.Flags & PD_PRINTTOFILE) {
print_to_file = true;
}
success = InitializeSettings(*dev_mode,
device_name,
page_ranges,
num_page_ranges,
print_selection_only,
print_to_file);
}
if (!success && dialog_options.hDC) {
DeleteDC(dialog_options.hDC);
hdc_ = NULL;
}
if (dev_mode) {
GlobalUnlock(dialog_options.hDevMode);
}
} else {
if (dialog_options.hDC) {
DeleteDC(dialog_options.hDC);
}
}
if (dialog_options.hDevMode != NULL)
GlobalFree(dialog_options.hDevMode);
if (dialog_options.hDevNames != NULL)
GlobalFree(dialog_options.hDevNames);
switch (dialog_options.dwResultAction) {
case PD_RESULT_PRINT:
return hdc_ ? OK : FAILED;
case PD_RESULT_APPLY:
return hdc_ ? CANCEL : FAILED;
case PD_RESULT_CANCEL:
return CANCEL;
default:
return FAILED;
}
}
PrintingContext::Result PrintingContext::ParseDialogResult(
const PRINTDLG& dialog_options) {
// If the user clicked OK or Apply then Cancel, but not only Cancel.
// Start fresh.
ResetSettings();
DEVMODE* dev_mode = NULL;
if (dialog_options.hDevMode) {
dev_mode =
reinterpret_cast<DEVMODE*>(GlobalLock(dialog_options.hDevMode));
DCHECK(dev_mode);
}
std::wstring device_name;
if (dialog_options.hDevNames) {
DEVNAMES* dev_names =
reinterpret_cast<DEVNAMES*>(GlobalLock(dialog_options.hDevNames));
DCHECK(dev_names);
if (dev_names) {
device_name =
reinterpret_cast<const wchar_t*>(
reinterpret_cast<const wchar_t*>(dev_names) +
dev_names->wDeviceOffset);
GlobalUnlock(dialog_options.hDevNames);
}
}
bool success = false;
if (dev_mode && !device_name.empty()) {
hdc_ = dialog_options.hDC;
success = InitializeSettings(*dev_mode, device_name, NULL, 0, false,
false);
}
if (!success && dialog_options.hDC) {
DeleteDC(dialog_options.hDC);
hdc_ = NULL;
}
if (dev_mode) {
GlobalUnlock(dialog_options.hDevMode);
}
if (dialog_options.hDevMode != NULL)
GlobalFree(dialog_options.hDevMode);
if (dialog_options.hDevNames != NULL)
GlobalFree(dialog_options.hDevNames);
return hdc_ ? OK : FAILED;
}
} // namespace printing