// Copyright (c) 2009 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 "printing/printing_context.h" #include #include "base/file_util.h" #include "base/i18n/file_util_icu.h" #include "base/i18n/time_formatting.h" #include "base/message_loop.h" #include "base/time.h" #include "printing/printed_document.h" #include "skia/ext/platform_device_win.h" using base::Time; namespace { // Retrieves the content of a GetPrinter call. void GetPrinterHelper(HANDLE printer, int level, scoped_array* 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 { class PrintingContext::CallbackHandler : public IPrintDialogCallback, public IObjectWithSite { public: CallbackHandler(PrintingContext& owner, HWND owner_hwnd) : owner_(owner), owner_hwnd_(owner_hwnd), services_(NULL) { } ~CallbackHandler() { if (services_) services_->Release(); } IUnknown* ToIUnknown() { return static_cast(static_cast(this)); } // IUnknown virtual HRESULT WINAPI QueryInterface(REFIID riid, void**object) { if (riid == IID_IUnknown) { *object = ToIUnknown(); } else if (riid == IID_IPrintDialogCallback) { *object = static_cast(this); } else if (riid == IID_IObjectWithSite) { *object = static_cast(this); } else { return E_NOINTERFACE; } return S_OK; } // No real ref counting. virtual ULONG WINAPI AddRef() { return 1; } virtual ULONG WINAPI Release() { return 1; } // IPrintDialogCallback methods virtual HRESULT WINAPI InitDone() { return S_OK; } virtual HRESULT WINAPI SelectionChange() { if (services_) { // TODO(maruel): Get the devmode for the new printer with // services_->GetCurrentDevMode(&devmode, &size), send that information // back to our client and continue. The client needs to recalculate the // number of rendered pages and send back this information here. } return S_OK; } virtual HRESULT WINAPI HandleMessage(HWND dialog, UINT message, WPARAM wparam, LPARAM lparam, LRESULT* result) { // Cheap way to retrieve the window handle. if (!owner_.dialog_box_) { // The handle we receive is the one of the groupbox in the General tab. We // need to get the grand-father to get the dialog box handle. owner_.dialog_box_ = GetAncestor(dialog, GA_ROOT); // Trick to enable the owner window. This can cause issues with navigation // events so it may have to be disabled if we don't fix the side-effects. EnableWindow(owner_hwnd_, TRUE); } return S_FALSE; } virtual HRESULT WINAPI SetSite(IUnknown* site) { if (!site) { DCHECK(services_); services_->Release(); services_ = NULL; // The dialog box is destroying, PrintJob::Worker don't need the handle // anymore. owner_.dialog_box_ = NULL; } else { DCHECK(services_ == NULL); HRESULT hr = site->QueryInterface(IID_IPrintDialogServices, reinterpret_cast(&services_)); DCHECK(SUCCEEDED(hr)); } return S_OK; } virtual HRESULT WINAPI GetSite(REFIID riid, void** site) { return E_NOTIMPL; } private: PrintingContext& owner_; HWND owner_hwnd_; IPrintDialogServices* services_; DISALLOW_COPY_AND_ASSIGN(CallbackHandler); }; PrintingContext::PrintingContext() : context_(NULL), #ifndef NDEBUG page_number_(-1), #endif dialog_box_(NULL), dialog_box_dismissed_(false), in_print_job_(false), abort_printing_(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 | PD_HIDEPRINTTOFILE; 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; } { if (PrintDlgEx(&dialog_options) != S_OK) { ResetSettings(); return FAILED; } } // TODO(maruel): Support PD_PRINTTOFILE. 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); } PrintingContext::Result PrintingContext::InitWithSettings( const PrintSettings& settings) { DCHECK(!in_print_job_); settings_ = settings; // TODO(maruel): settings_->ToDEVMODE() HANDLE printer; if (!OpenPrinter(const_cast(settings_.device_name().c_str()), &printer, NULL)) return FAILED; Result status = OK; if (!GetPrinterSettings(printer, settings_.device_name())) status = FAILED; // Close the printer after retrieving the context. ClosePrinter(printer); if (status != OK) ResetSettings(); return status; } void PrintingContext::ResetSettings() { if (context_ != NULL) { DeleteDC(context_); context_ = NULL; } settings_.Clear(); in_print_job_ = false; #ifndef NDEBUG page_number_ = -1; #endif } PrintingContext::Result PrintingContext::NewDocument( const std::wstring& document_name) { DCHECK(!in_print_job_); if (!context_) 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(context_, &AbortProc)) return OnError(); DOCINFO di = { sizeof(DOCINFO) }; di.lpszDocName = document_name.c_str(); // Is there a debug dump directory specified? If so, force to print to a file. std::wstring debug_dump_path = PrintedDocument::debug_dump_path(); if (!debug_dump_path.empty()) { // Create a filename. std::wstring filename; Time now(Time::Now()); filename = base::TimeFormatShortDateNumeric(now); filename += L"_"; filename += base::TimeFormatTimeOfDay(now); filename += L"_"; filename += document_name; filename += L"_"; filename += L"buffer.prn"; file_util::ReplaceIllegalCharactersInPath(&filename, '_'); file_util::AppendToPath(&debug_dump_path, filename); di.lpszOutput = debug_dump_path.c_str(); } // No message loop running in unit tests. DCHECK(!MessageLoop::current() ? true : !MessageLoop::current()->NestableTasksAllowed()); // 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(context_, &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(context_) <= 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(context_) <= 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(context_) <= 0) return OnError(); ResetSettings(); return OK; } void PrintingContext::Cancel() { abort_printing_ = true; in_print_job_ = false; if (context_) CancelDC(context_); DismissDialog(); } void PrintingContext::DismissDialog() { if (dialog_box_) { DestroyWindow(dialog_box_); dialog_box_dismissed_ = true; } } PrintingContext::Result PrintingContext::OnError() { // This will close context_ 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 std::wstring& new_device_name, const PRINTPAGERANGE* ranges, int number_ranges, bool selection_only) { skia::PlatformDevice::InitializeDC(context_); DCHECK(GetDeviceCaps(context_, CLIPCAPS)); DCHECK(GetDeviceCaps(context_, RASTERCAPS) & RC_STRETCHDIB); DCHECK(GetDeviceCaps(context_, RASTERCAPS) & RC_BITMAP64); // Some printers don't advertise these. // DCHECK(GetDeviceCaps(context_, RASTERCAPS) & RC_SCALING); // DCHECK(GetDeviceCaps(context_, SHADEBLENDCAPS) & SB_CONST_ALPHA); // DCHECK(GetDeviceCaps(context_, SHADEBLENDCAPS) & SB_PIXEL_ALPHA); // StretchDIBits() support is needed for printing. if (!(GetDeviceCaps(context_, RASTERCAPS) & RC_STRETCHDIB) || !(GetDeviceCaps(context_, RASTERCAPS) & RC_BITMAP64)) { NOTREACHED(); ResetSettings(); return false; } DCHECK(!in_print_job_); DCHECK(context_); 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(context_, dev_mode, ranges_vector, new_device_name, selection_only); return true; } bool PrintingContext::GetPrinterSettings(HANDLE printer, const std::wstring& device_name) { DCHECK(!in_print_job_); scoped_array 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(buffer.get()); if (info_9->pDevMode != NULL) { if (!AllocateContext(device_name, info_9->pDevMode)) { ResetSettings(); return false; } return InitializeSettings(*info_9->pDevMode, device_name, NULL, 0, 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(buffer.get()); if (info_8->pDevMode != NULL) { if (!AllocateContext(device_name, info_8->pDevMode)) { ResetSettings(); return false; } return InitializeSettings(*info_8->pDevMode, device_name, NULL, 0, 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(buffer.get()); if (info_2->pDevMode != NULL) { if (!AllocateContext(device_name, info_2->pDevMode)) { ResetSettings(); return false; } return InitializeSettings(*info_2->pDevMode, device_name, NULL, 0, false); } buffer.reset(); } // Failed to retrieve the printer settings. ResetSettings(); return false; } bool PrintingContext::AllocateContext(const std::wstring& printer_name, const DEVMODE* dev_mode) { context_ = CreateDC(L"WINSPOOL", printer_name.c_str(), NULL, dev_mode); DCHECK(context_); return context_ != 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) { // Start fresh. ResetSettings(); DEVMODE* dev_mode = NULL; if (dialog_options.hDevMode) { dev_mode = reinterpret_cast(GlobalLock(dialog_options.hDevMode)); DCHECK(dev_mode); } std::wstring device_name; if (dialog_options.hDevNames) { DEVNAMES* dev_names = reinterpret_cast(GlobalLock(dialog_options.hDevNames)); DCHECK(dev_names); if (dev_names) { device_name = reinterpret_cast( reinterpret_cast(dev_names) + dev_names->wDeviceOffset); GlobalUnlock(dialog_options.hDevNames); } } bool success = false; if (dev_mode && !device_name.empty()) { context_ = dialog_options.hDC; PRINTPAGERANGE* page_ranges = NULL; DWORD num_page_ranges = 0; bool print_selection_only = 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; } success = InitializeSettings(*dev_mode, device_name, dialog_options.lpPageRanges, dialog_options.nPageRanges, print_selection_only); } if (!success && dialog_options.hDC) { DeleteDC(dialog_options.hDC); context_ = 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 context_ ? OK : FAILED; case PD_RESULT_APPLY: return context_ ? 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(GlobalLock(dialog_options.hDevMode)); DCHECK(dev_mode); } std::wstring device_name; if (dialog_options.hDevNames) { DEVNAMES* dev_names = reinterpret_cast(GlobalLock(dialog_options.hDevNames)); DCHECK(dev_names); if (dev_names) { device_name = reinterpret_cast( reinterpret_cast(dev_names) + dev_names->wDeviceOffset); GlobalUnlock(dialog_options.hDevNames); } } bool success = false; if (dev_mode && !device_name.empty()) { context_ = dialog_options.hDC; success = InitializeSettings(*dev_mode, device_name, NULL, 0, false); } if (!success && dialog_options.hDC) { DeleteDC(dialog_options.hDC); context_ = 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 context_ ? OK : FAILED; } } // namespace printing