// 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 "base/command_line.h"
#include "base/file_util.h"
#include "base/gfx/gdi_util.h"
#include "skia/ext/platform_device.h"
#include "base/gfx/png_decoder.h"
#include "base/gfx/png_encoder.h"
#include "base/simple_thread.h"
#include "base/time.h"
#include "base/win_util.h"
#include "chrome/common/chrome_paths.h"
#include "chrome/common/gfx/emf.h"
#include "chrome/test/automation/browser_proxy.h"
#include "chrome/test/automation/tab_proxy.h"
#include "chrome/test/automation/window_proxy.h"
#include "chrome/test/ui/ui_test.h"
#include "chrome/browser/printing/printing_test.h"
#include "net/url_request/url_request_unittest.h"
using base::Time;
using base::TimeDelta;
namespace {
const wchar_t* const kGenerateSwitch = L"print-layout-generate";
const wchar_t kDocRoot[] = L"chrome/test/data";
// Lightweight raw-bitmap management. The image, once initialized, is immuable.
// It is mainly used for comparison.
class Image {
public:
// Creates the image from the given filename on disk.
Image(const std::wstring& filename) : ignore_alpha_(true) {
std::string data;
file_util::ReadFileToString(filename, &data);
EXPECT_TRUE(data.size());
std::wstring ext = file_util::GetFileExtensionFromPath(filename);
if (LowerCaseEqualsASCII(ext, "png")) {
LoadPng(data);
} else if (LowerCaseEqualsASCII(ext, "emf")) {
LoadEmf(data);
} else {
EXPECT_TRUE(false);
}
}
const gfx::Size& size() const {
return size_;
}
// Used to create the initial test files.
void SaveToPng(const std::wstring& filename) {
ASSERT_FALSE(data_.empty());
std::vector<unsigned char> compressed;
ASSERT_TRUE(PNGEncoder::Encode(&*data_.begin(),
PNGEncoder::FORMAT_BGRA,
size_.width(),
size_.height(),
row_length_,
true,
&compressed));
ASSERT_TRUE(compressed.size());
ASSERT_EQ(compressed.size(), file_util::WriteFile(
filename,
reinterpret_cast<char*>(&*compressed.begin()), compressed.size()));
}
double PercentageDifferent(const Image& rhs) const {
if (size_.width() == 0 || size_.height() == 0 ||
rhs.size_.width() == 0 || rhs.size_.height() == 0)
return 100.;
int width = std::min(size_.width(), rhs.size_.width());
int height = std::min(size_.height(), rhs.size_.height());
// Compute pixels different in the overlap
int pixels_different = 0;
for (int y = 0; y < height; ++y) {
for (int x = 0; x < width; ++x) {
uint32 lhs_pixel = pixel_at(x, y);
uint32 rhs_pixel = rhs.pixel_at(x, y);
if (lhs_pixel != rhs_pixel)
++pixels_different;
}
// Look for extra right lhs pixels. They should be white.
for (int x = width; x < size_.width(); ++x) {
uint32 lhs_pixel = pixel_at(x, y);
if (lhs_pixel != Color(SK_ColorWHITE))
++pixels_different;
}
// Look for extra right rhs pixels. They should be white.
for (int x = width; x < rhs.size_.width(); ++x) {
uint32 rhs_pixel = rhs.pixel_at(x, y);
if (rhs_pixel != Color(SK_ColorWHITE))
++pixels_different;
}
}
// Look for extra bottom lhs pixels. They should be white.
for (int y = height; y < size_.height(); ++y) {
for (int x = 0; x < size_.width(); ++x) {
uint32 lhs_pixel = pixel_at(x, y);
if (lhs_pixel != Color(SK_ColorWHITE))
++pixels_different;
}
}
// Look for extra bottom rhs pixels. They should be white.
for (int y = height; y < rhs.size_.height(); ++y) {
for (int x = 0; x < rhs.size_.width(); ++x) {
uint32 rhs_pixel = rhs.pixel_at(x, y);
if (rhs_pixel != Color(SK_ColorWHITE))
++pixels_different;
}
}
// Like the WebKit ImageDiff tool, we define percentage different in terms
// of the size of the 'actual' bitmap.
double total_pixels = static_cast<double>(size_.width()) *
static_cast<double>(height);
return static_cast<double>(pixels_different) / total_pixels * 100.;
}
// Returns the 0x0RGB or 0xARGB value of the pixel at the given location,
// depending on ignore_alpha_.
uint32 Color(uint32 color) const {
if (ignore_alpha_)
return color & 0xFFFFFF; // Strip out A.
else
return color;
}
uint32 pixel_at(int x, int y) const {
EXPECT_TRUE(x >= 0 && x < size_.width());
EXPECT_TRUE(y >= 0 && y < size_.height());
const uint32* data = reinterpret_cast<const uint32*>(&*data_.begin());
const uint32* data_row = data + y * row_length_ / sizeof(uint32);
return Color(data_row[x]);
}
private:
void LoadPng(const std::string& compressed) {
int w;
int h;
EXPECT_TRUE(PNGDecoder::Decode(
reinterpret_cast<const unsigned char*>(compressed.c_str()),
compressed.size(), PNGDecoder::FORMAT_BGRA, &data_, &w, &h));
size_.SetSize(w, h);
row_length_ = size_.width() * sizeof(uint32);
}
void LoadEmf(const std::string& data) {
ASSERT_FALSE(data.empty());
gfx::Emf emf;
emf.CreateFromData(data.data(), data.size());
gfx::Rect rect(emf.GetBounds());
// Create a temporary HDC and bitmap to retrieve the renderered data.
HDC hdc = CreateCompatibleDC(NULL);
BITMAPV4HEADER hdr;
EXPECT_FALSE(rect.x());
EXPECT_FALSE(rect.y());
EXPECT_NE(rect.width(), 0);
EXPECT_NE(rect.height(), 0);
size_ = rect.size();
gfx::CreateBitmapV4Header(rect.width(), rect.height(), &hdr);
void* bits;
HBITMAP bitmap = CreateDIBSection(hdc,
reinterpret_cast<BITMAPINFO*>(&hdr), 0,
&bits, NULL, 0);
EXPECT_TRUE(bitmap);
EXPECT_TRUE(SelectObject(hdc, bitmap));
skia::PlatformDeviceWin::InitializeDC(hdc);
EXPECT_TRUE(emf.Playback(hdc, NULL));
row_length_ = size_.width() * sizeof(uint32);
size_t bytes = row_length_ * size_.height();
ASSERT_TRUE(bytes);
data_.resize(bytes);
memcpy(&*data_.begin(), bits, bytes);
DeleteDC(hdc);
DeleteObject(bitmap);
}
// Pixel dimensions of the image.
gfx::Size size_;
// Length of a line in bytes.
int row_length_;
// Actual bitmap data in arrays of RGBAs (so when loaded as uint32, it's
// 0xABGR).
std::vector<unsigned char> data_;
// Flag to signal if the comparison functions should ignore the alpha channel.
const bool ignore_alpha_;
DISALLOW_EVIL_CONSTRUCTORS(Image);
};
class PrintingLayoutTest : public PrintingTest<UITest> {
public:
PrintingLayoutTest() {
emf_path_ = browser_directory_;
file_util::AppendToPath(&emf_path_, L"emf_dumps");
launch_arguments_.AppendSwitchWithValue(L"debug-print", L'"' + emf_path_ + L'"');
show_window_ = true;
}
virtual void SetUp() {
// Make sure there is no left overs.
CleanupDumpDirectory();
UITest::SetUp();
}
virtual void TearDown() {
UITest::TearDown();
file_util::Delete(emf_path_, true);
}
protected:
void PrintNowTab() {
scoped_ptr<TabProxy> tab_proxy(GetActiveTab());
ASSERT_TRUE(tab_proxy.get());
if (!tab_proxy.get())
return;
ASSERT_TRUE(tab_proxy->PrintNow());
}
// Finds the dump for the last print job and compares it to the data named
// |verification_name|. Compares the saved printed job pixels with the test
// data pixels and returns the percentage of different pixels; 0 for success,
// ]0, 100] for failure.
double CompareWithResult(const std::wstring& verification_name) {
std::wstring test_result(ScanFiles(verification_name));
if (test_result.empty()) {
// 100% different, the print job buffer is not there.
return 100.;
}
std::wstring verification_file(test_data_directory_);
file_util::AppendToPath(&verification_file, L"printing");
file_util::AppendToPath(&verification_file, verification_name);
std::wstring emf(verification_file + L".emf");
std::wstring png(verification_file + L".png");
// Looks for Cleartype override.
if (file_util::PathExists(verification_file + L"_cleartype.png") &&
IsClearTypeEnabled()) {
png = verification_file + L"_cleartype.png";
}
if (GenerateFiles()) {
// Copy the .emf and generate an .png.
file_util::CopyFile(test_result, emf);
Image emf_content(emf);
emf_content.SaveToPng(png);
// Saving is always fine.
return 0;
} else {
// File compare between test and result.
Image emf_content(emf);
Image test_content(test_result);
Image png_content(png);
double diff_emf = emf_content.PercentageDifferent(test_content);
EXPECT_EQ(0., diff_emf) << verification_name <<
L" original size:" << emf_content.size() <<
L" result size:" << test_content.size();
if (diff_emf) {
// Backup the result emf file.
file_util::CopyFile(test_result, verification_file + L"_failed.emf");
}
// This verification is only to know that the EMF rendering stays
// immutable.
double diff_png = emf_content.PercentageDifferent(png_content);
EXPECT_EQ(0., diff_png) << verification_name <<
L" original size:" << emf_content.size() <<
L" result size:" << test_content.size();
if (diff_png) {
// Backup the rendered emf file to detect the rendering difference.
emf_content.SaveToPng(verification_file + L"_rendering.png");
}
return std::max(diff_png, diff_emf);
}
}
// Makes sure the directory exists and is empty.
void CleanupDumpDirectory() {
// Tries to delete the dumping directory for around 10 seconds.
for (int i = 0; i < 100 && file_util::PathExists(emf_path()); ++i) {
// It's fine fail sometimes because of opened left over .PRN file.
// Explanation:
// When calling PrintNowTab(), it makes sure the page is rendered and
// sent to the spooler. It does *not* wait for the spooler to flush the
// job. It is completely unnecessary to wait for that. So the printer
// may write the file too late. Since the printer holds an exclusive
// access to the file, it can't be deleted until the printer is done.
if (file_util::Delete(emf_path(), true)) {
break;
}
Sleep(100);
}
file_util::CreateDirectory(emf_path());
}
// Returns if Clear Type is currently enabled.
static bool IsClearTypeEnabled() {
BOOL ct_enabled = 0;
if (SystemParametersInfo(SPI_GETCLEARTYPE, 0, &ct_enabled, 0) && ct_enabled)
return true;
UINT smoothing = 0;
if (SystemParametersInfo(SPI_GETFONTSMOOTHINGTYPE, 0, &smoothing, 0) &&
smoothing == FE_FONTSMOOTHINGCLEARTYPE)
return true;
return false;
}
private:
// Verifies that there is one .emf and one .prn file in the dump directory.
// Returns the path of the .emf file and deletes the .prn file.
std::wstring ScanFiles(const std::wstring& verification_name) {
// Try to 10 seconds.
std::wstring emf_file;
std::wstring prn_file;
bool found_emf = false;
bool found_prn = false;
for (int i = 0; i < 100; ++i) {
file_util::FileEnumerator enumerator(
FilePath::FromWStringHack(emf_path()), false,
file_util::FileEnumerator::FILES);
emf_file.clear();
prn_file.clear();
found_emf = false;
found_prn = false;
std::wstring file;
while (!(file = enumerator.Next().ToWStringHack()).empty()) {
std::wstring ext = file_util::GetFileExtensionFromPath(file);
if (!_wcsicmp(ext.c_str(), L"emf")) {
EXPECT_FALSE(found_emf) << "Found a leftover .EMF file: \"" <<
emf_file << "\" and \"" << file << "\" when looking for \"" <<
verification_name << "\"";
found_emf = true;
emf_file = file;
continue;
}
if (!_wcsicmp(ext.c_str(), L"prn")) {
EXPECT_FALSE(found_prn) << "Found a leftover .PRN file: \"" <<
prn_file << "\" and \"" << file << "\" when looking for \"" <<
verification_name << "\"";
prn_file = file;
found_prn = true;
file_util::Delete(file, false);
continue;
}
EXPECT_TRUE(false);
}
if (found_emf && found_prn)
break;
Sleep(100);
}
EXPECT_TRUE(found_emf) << ".PRN file is: " << prn_file;
EXPECT_TRUE(found_prn) << ".EMF file is: " << emf_file;
return emf_file;
}
static bool GenerateFiles() {
return CommandLine::ForCurrentProcess()->HasSwitch(kGenerateSwitch);
}
const std::wstring& emf_path() const { return emf_path_; }
std::wstring emf_path_;
DISALLOW_EVIL_CONSTRUCTORS(PrintingLayoutTest);
};
// Tests that don't need UI access.
class PrintingLayoutTestHidden : public PrintingLayoutTest {
public:
PrintingLayoutTestHidden() {
show_window_ = false;
}
};
class PrintingLayoutTextTest : public PrintingLayoutTest {
typedef PrintingLayoutTest Parent;
public:
// Returns if the test is disabled.
// TODO(maruel): http://b/1157665 Until the issue is fixed, disable the test
// if ClearType is enabled.
static bool IsTestCaseDisabled() {
return Parent::IsTestCaseDisabled() || IsClearTypeEnabled();
}
};
// Finds the first dialog window owned by owner_process.
HWND FindDialogWindow(DWORD owner_process) {
HWND dialog_window(NULL);
for (;;) {
dialog_window = FindWindowEx(NULL,
dialog_window,
MAKEINTATOM(32770),
NULL);
if (!dialog_window)
break;
// The dialog must be owned by our target process.
DWORD process_id = 0;
GetWindowThreadProcessId(dialog_window, &process_id);
if (process_id == owner_process)
break;
}
return dialog_window;
}
// Tries to close a dialog window.
bool CloseDialogWindow(HWND dialog_window) {
LRESULT res = SendMessage(dialog_window, DM_GETDEFID, 0, 0);
if (!res)
return false;
EXPECT_EQ(DC_HASDEFID, HIWORD(res));
WORD print_button_id = LOWORD(res);
res = SendMessage(
dialog_window,
WM_COMMAND,
print_button_id,
reinterpret_cast<LPARAM>(GetDlgItem(dialog_window, print_button_id)));
return res == 0;
}
// Dismiss the first dialog box owned by owner_process by "executing" the
// default button.
class DismissTheWindow : public base::DelegateSimpleThread::Delegate {
public:
DismissTheWindow(DWORD owner_process)
: owner_process_(owner_process) {
}
virtual void Run() {
HWND dialog_window;
for (;;) {
// First enumerate the windows.
dialog_window = FindDialogWindow(owner_process_);
// Try to close it.
if (dialog_window) {
if (CloseDialogWindow(dialog_window)) {
break;
}
}
Sleep(10);
}
// Now verify that it indeed closed itself.
while (IsWindow(dialog_window)) {
CloseDialogWindow(dialog_window);
Sleep(10);
}
}
DWORD owner_process() { return owner_process_; }
private:
DWORD owner_process_;
};
} // namespace
// This test is disable because it fails. See bug 1353559.
TEST_F(PrintingLayoutTextTest, DISABLED_Complex) {
if (IsTestCaseDisabled())
return;
DismissTheWindow dismisser(base::GetProcId(process()));
base::DelegateSimpleThread close_printdlg_thread(&dismisser,
"close_printdlg_thread");
// Print a document, check its output.
scoped_refptr<HTTPTestServer> server =
HTTPTestServer::CreateServer(kDocRoot, NULL);
ASSERT_TRUE(NULL != server.get());
NavigateToURL(server->TestServerPage("files/printing/test1.html"));
close_printdlg_thread.Start();
PrintNowTab();
close_printdlg_thread.Join();
EXPECT_EQ(0., CompareWithResult(L"test1"));
}
struct TestPool {
const wchar_t* source;
const wchar_t* result;
};
const TestPool kTestPool[] = {
// ImagesB&W
L"files/printing/test2.html", L"test2",
// ImagesTransparent
L"files/printing/test3.html", L"test3",
// ImageColor
L"files/printing/test4.html", L"test4",
// TODO(maruel): http://b/1171450 Transparent overlays are drawn opaque
// L"files/printing/test5.html", L"test5",
};
// TODO(maruel:) http://code.google.com/p/chromium/issues/detail?id=7721
TEST_F(PrintingLayoutTestHidden, DISABLED_ManyTimes) {
if (IsTestCaseDisabled())
return;
scoped_refptr<HTTPTestServer> server(
HTTPTestServer::CreateServer(kDocRoot, NULL));
ASSERT_TRUE(NULL != server.get());
DismissTheWindow dismisser(base::GetProcId(process()));
ASSERT_GT(arraysize(kTestPool), 0u);
for (int i = 0; i < arraysize(kTestPool); ++i) {
if (i)
CleanupDumpDirectory();
const TestPool& test = kTestPool[i % arraysize(kTestPool)];
NavigateToURL(server->TestServerPageW(test.source));
base::DelegateSimpleThread close_printdlg_thread1(&dismisser,
"close_printdlg_thread");
EXPECT_EQ(NULL, FindDialogWindow(dismisser.owner_process()));
close_printdlg_thread1.Start();
PrintNowTab();
close_printdlg_thread1.Join();
EXPECT_EQ(0., CompareWithResult(test.result)) << test.result;
CleanupDumpDirectory();
base::DelegateSimpleThread close_printdlg_thread2(&dismisser,
"close_printdlg_thread");
EXPECT_EQ(NULL, FindDialogWindow(dismisser.owner_process()));
close_printdlg_thread2.Start();
PrintNowTab();
close_printdlg_thread2.Join();
EXPECT_EQ(0., CompareWithResult(test.result)) << test.result;
CleanupDumpDirectory();
base::DelegateSimpleThread close_printdlg_thread3(&dismisser,
"close_printdlg_thread");
EXPECT_EQ(NULL, FindDialogWindow(dismisser.owner_process()));
close_printdlg_thread3.Start();
PrintNowTab();
close_printdlg_thread3.Join();
EXPECT_EQ(0., CompareWithResult(test.result)) << test.result;
CleanupDumpDirectory();
base::DelegateSimpleThread close_printdlg_thread4(&dismisser,
"close_printdlg_thread");
EXPECT_EQ(NULL, FindDialogWindow(dismisser.owner_process()));
close_printdlg_thread4.Start();
PrintNowTab();
close_printdlg_thread4.Join();
EXPECT_EQ(0., CompareWithResult(test.result)) << test.result;
}
}
// Prints a popup and immediately closes it.
// TODO(maruel): Reenable it, it causes crashes.
TEST_F(PrintingLayoutTest, DISABLED_Delayed) {
if (IsTestCaseDisabled())
return;
scoped_refptr<HTTPTestServer> server(
HTTPTestServer::CreateServer(kDocRoot, NULL));
ASSERT_TRUE(NULL != server.get());
{
scoped_ptr<TabProxy> tab_proxy(GetActiveTab());
ASSERT_TRUE(tab_proxy.get());
bool is_timeout = true;
GURL url = server->TestServerPage("files/printing/popup_delayed_print.htm");
EXPECT_EQ(AUTOMATION_MSG_NAVIGATION_SUCCESS,
tab_proxy->NavigateToURL(url));
DismissTheWindow dismisser(base::GetProcId(process()));
base::DelegateSimpleThread close_printdlg_thread(&dismisser,
"close_printdlg_thread");
close_printdlg_thread.Start();
close_printdlg_thread.Join();
// Force a navigation elsewhere to verify that it's fine with it.
url = server->TestServerPage("files/printing/test1.html");
EXPECT_EQ(AUTOMATION_MSG_NAVIGATION_SUCCESS,
tab_proxy->NavigateToURL(url));
}
CloseBrowserAndServer();
EXPECT_EQ(0., CompareWithResult(L"popup_delayed_print"))
<< L"popup_delayed_print";
}
// Prints a popup and immediately closes it.
// TODO(maruel:) http://code.google.com/p/chromium/issues/detail?id=7721
TEST_F(PrintingLayoutTest, DISABLED_IFrame) {
if (IsTestCaseDisabled())
return;
scoped_refptr<HTTPTestServer> server(
HTTPTestServer::CreateServer(kDocRoot, NULL));
ASSERT_TRUE(NULL != server.get());
{
scoped_ptr<TabProxy> tab_proxy(GetActiveTab());
ASSERT_TRUE(tab_proxy.get());
GURL url = server->TestServerPage("files/printing/iframe.htm");
EXPECT_EQ(AUTOMATION_MSG_NAVIGATION_SUCCESS,
tab_proxy->NavigateToURL(url));
DismissTheWindow dismisser(base::GetProcId(process()));
base::DelegateSimpleThread close_printdlg_thread(&dismisser,
"close_printdlg_thread");
close_printdlg_thread.Start();
close_printdlg_thread.Join();
// Force a navigation elsewhere to verify that it's fine with it.
url = server->TestServerPage("files/printing/test1.html");
EXPECT_EQ(AUTOMATION_MSG_NAVIGATION_SUCCESS,
tab_proxy->NavigateToURL(url));
}
CloseBrowserAndServer();
EXPECT_EQ(0., CompareWithResult(L"iframe")) << L"iframe";
}