blob: e9084ae84caf5c8be1415debce202937c0d1cda1 [file] [log] [blame]
// Copyright 2014 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/renderer/printing/print_web_view_helper.h"
#include "base/logging.h"
#include "base/memory/scoped_ptr.h"
#include "base/process/process_handle.h"
#include "chrome/common/print_messages.h"
#include "content/public/renderer/render_thread.h"
#include "printing/metafile.h"
#include "printing/metafile_impl.h"
#include "printing/metafile_skia_wrapper.h"
#include "printing/page_size_margins.h"
#include "printing/units.h"
#include "skia/ext/platform_device.h"
#include "skia/ext/vector_canvas.h"
#include "third_party/WebKit/public/web/WebLocalFrame.h"
namespace printing {
using blink::WebFrame;
bool PrintWebViewHelper::RenderPreviewPage(
int page_number,
const PrintMsg_Print_Params& print_params) {
PrintMsg_PrintPage_Params page_params;
page_params.params = print_params;
page_params.page_number = page_number;
scoped_ptr<Metafile> draft_metafile;
Metafile* initial_render_metafile = print_preview_context_.metafile();
if (print_preview_context_.IsModifiable() && is_print_ready_metafile_sent_) {
draft_metafile.reset(new PreviewMetafile);
initial_render_metafile = draft_metafile.get();
}
base::TimeTicks begin_time = base::TimeTicks::Now();
PrintPageInternal(page_params,
print_preview_context_.GetPrintCanvasSize(),
print_preview_context_.prepared_frame(),
initial_render_metafile,
NULL,
NULL);
print_preview_context_.RenderedPreviewPage(
base::TimeTicks::Now() - begin_time);
if (draft_metafile.get()) {
draft_metafile->FinishDocument();
} else if (print_preview_context_.IsModifiable() &&
print_preview_context_.generate_draft_pages()) {
DCHECK(!draft_metafile.get());
draft_metafile.reset(
print_preview_context_.metafile()->GetMetafileForCurrentPage());
}
return PreviewPageRendered(page_number, draft_metafile.get());
}
bool PrintWebViewHelper::PrintPagesNative(blink::WebFrame* frame,
int page_count,
const gfx::Size& canvas_size) {
NativeMetafile metafile;
if (!metafile.Init())
return false;
const PrintMsg_PrintPages_Params& params = *print_pages_params_;
std::vector<int> printed_pages;
if (params.pages.empty()) {
for (int i = 0; i < page_count; ++i) {
printed_pages.push_back(i);
}
} else {
// TODO(vitalybuka): redesign to make more code cross platform.
for (size_t i = 0; i < params.pages.size(); ++i) {
if (params.pages[i] >= 0 && params.pages[i] < page_count) {
printed_pages.push_back(params.pages[i]);
}
}
}
if (printed_pages.empty())
return false;
std::vector<gfx::Size> page_size_in_dpi(printed_pages.size());
std::vector<gfx::Rect> content_area_in_dpi(printed_pages.size());
PrintMsg_PrintPage_Params page_params;
page_params.params = params.params;
for (size_t i = 0; i < printed_pages.size(); ++i) {
page_params.page_number = printed_pages[i];
PrintPageInternal(page_params,
canvas_size,
frame,
&metafile,
&page_size_in_dpi[i],
&content_area_in_dpi[i]);
}
// blink::printEnd() for PDF should be called before metafile is closed.
FinishFramePrinting();
metafile.FinishDocument();
// Get the size of the resulting metafile.
uint32 buf_size = metafile.GetDataSize();
DCHECK_GT(buf_size, 0u);
PrintHostMsg_DidPrintPage_Params printed_page_params;
printed_page_params.data_size = 0;
printed_page_params.document_cookie = params.params.document_cookie;
printed_page_params.page_size = params.params.page_size;
printed_page_params.content_area = params.params.printable_area;
{
base::SharedMemory shared_buf;
// Allocate a shared memory buffer to hold the generated metafile data.
if (!shared_buf.CreateAndMapAnonymous(buf_size)) {
NOTREACHED() << "Buffer allocation failed";
return false;
}
// Copy the bits into shared memory.
if (!metafile.GetData(shared_buf.memory(), buf_size)) {
NOTREACHED() << "GetData() failed";
shared_buf.Unmap();
return false;
}
shared_buf.GiveToProcess(base::GetCurrentProcessHandle(),
&printed_page_params.metafile_data_handle);
shared_buf.Unmap();
printed_page_params.data_size = buf_size;
Send(new PrintHostMsg_DuplicateSection(
routing_id(),
printed_page_params.metafile_data_handle,
&printed_page_params.metafile_data_handle));
}
for (size_t i = 0; i < printed_pages.size(); ++i) {
printed_page_params.page_number = printed_pages[i];
printed_page_params.page_size = page_size_in_dpi[i];
printed_page_params.content_area = content_area_in_dpi[i];
Send(new PrintHostMsg_DidPrintPage(routing_id(), printed_page_params));
printed_page_params.metafile_data_handle = INVALID_HANDLE_VALUE;
}
return true;
}
void PrintWebViewHelper::PrintPageInternal(
const PrintMsg_PrintPage_Params& params,
const gfx::Size& canvas_size,
WebFrame* frame,
Metafile* metafile,
gfx::Size* page_size_in_dpi,
gfx::Rect* content_area_in_dpi) {
PageSizeMargins page_layout_in_points;
double css_scale_factor = 1.0f;
ComputePageLayoutInPointsForCss(frame, params.page_number, params.params,
ignore_css_margins_, &css_scale_factor,
&page_layout_in_points);
gfx::Size page_size;
gfx::Rect content_area;
GetPageSizeAndContentAreaFromPageLayout(page_layout_in_points, &page_size,
&content_area);
int dpi = static_cast<int>(params.params.dpi);
// Calculate the actual page size and content area in dpi.
if (page_size_in_dpi) {
*page_size_in_dpi =
gfx::Size(static_cast<int>(ConvertUnitDouble(
page_size.width(), kPointsPerInch, dpi)),
static_cast<int>(ConvertUnitDouble(
page_size.height(), kPointsPerInch, dpi)));
}
if (content_area_in_dpi) {
// Output PDF matches paper size and should be printer edge to edge.
*content_area_in_dpi =
gfx::Rect(0, 0, page_size_in_dpi->width(), page_size_in_dpi->height());
}
gfx::Rect canvas_area =
params.params.display_header_footer ? gfx::Rect(page_size) : content_area;
float webkit_page_shrink_factor =
frame->getPrintPageShrink(params.page_number);
float scale_factor = css_scale_factor * webkit_page_shrink_factor;
SkBaseDevice* device = metafile->StartPageForVectorCanvas(page_size,
canvas_area,
scale_factor);
if (!device)
return;
// The printPage method take a reference to the canvas we pass down, so it
// can't be a stack object.
skia::RefPtr<skia::VectorCanvas> canvas =
skia::AdoptRef(new skia::VectorCanvas(device));
MetafileSkiaWrapper::SetMetafileOnCanvas(*canvas, metafile);
skia::SetIsDraftMode(*canvas, is_print_ready_metafile_sent_);
if (params.params.display_header_footer) {
// |page_number| is 0-based, so 1 is added.
PrintHeaderAndFooter(canvas.get(),
params.page_number + 1,
print_preview_context_.total_page_count(),
scale_factor,
page_layout_in_points,
*header_footer_info_,
params.params);
}
float webkit_scale_factor = RenderPageContent(frame,
params.page_number,
canvas_area,
content_area,
scale_factor,
canvas.get());
DCHECK_GT(webkit_scale_factor, 0.0f);
// Done printing. Close the device context to retrieve the compiled metafile.
if (!metafile->FinishPage())
NOTREACHED() << "metafile failed";
}
bool PrintWebViewHelper::CopyMetafileDataToSharedMem(
Metafile* metafile, base::SharedMemoryHandle* shared_mem_handle) {
uint32 buf_size = metafile->GetDataSize();
base::SharedMemory shared_buf;
// Allocate a shared memory buffer to hold the generated metafile data.
if (!shared_buf.CreateAndMapAnonymous(buf_size)) {
NOTREACHED() << "Buffer allocation failed";
return false;
}
// Copy the bits into shared memory.
if (!metafile->GetData(shared_buf.memory(), buf_size)) {
NOTREACHED() << "GetData() failed";
shared_buf.Unmap();
return false;
}
shared_buf.GiveToProcess(base::GetCurrentProcessHandle(), shared_mem_handle);
shared_buf.Unmap();
Send(new PrintHostMsg_DuplicateSection(routing_id(), *shared_mem_handle,
shared_mem_handle));
return true;
}
} // namespace printing