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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "PreXULSkeletonUI.h"
#include <algorithm>
#include <math.h>
#include <limits.h>
#include <cmath>
#include <locale>
#include <string>
#include <objbase.h>
#include <shlobj.h>
#include "mozilla/Assertions.h"
#include "mozilla/Attributes.h"
#include "mozilla/HashFunctions.h"
#include "mozilla/BaseProfilerMarkers.h"
#include "mozilla/FStream.h"
#include "mozilla/HelperMacros.h"
#include "mozilla/glue/Debug.h"
#include "mozilla/ScopeExit.h"
#include "mozilla/UniquePtr.h"
#include "mozilla/UniquePtrExtensions.h"
#include "mozilla/Unused.h"
#include "mozilla/WindowsDpiAwareness.h"
#include "mozilla/WindowsVersion.h"
namespace mozilla {
// ColorRect defines an optionally-rounded, optionally-bordered rectangle of a
// particular color that we will draw.
struct ColorRect {
uint32_t color;
uint32_t borderColor;
int x;
int y;
int width;
int height;
int borderWidth;
int borderRadius;
bool flipIfRTL;
};
// DrawRect is mostly the same as ColorRect, but exists as an implementation
// detail to simplify drawing borders. We draw borders as a strokeOnly rect
// underneath an inner rect of a particular color. We also need to keep
// track of the backgroundColor for rounding rects, in order to correctly
// anti-alias.
struct DrawRect {
uint32_t color;
uint32_t backgroundColor;
int x;
int y;
int width;
int height;
int borderRadius;
int borderWidth;
bool strokeOnly;
};
struct NormalizedRGB {
double r;
double g;
double b;
};
NormalizedRGB UintToRGB(uint32_t color) {
double r = static_cast<double>(color >> 16 & 0xff) / 255.0;
double g = static_cast<double>(color >> 8 & 0xff) / 255.0;
double b = static_cast<double>(color >> 0 & 0xff) / 255.0;
return NormalizedRGB{r, g, b};
}
uint32_t RGBToUint(const NormalizedRGB& rgb) {
return (static_cast<uint32_t>(rgb.r * 255.0) << 16) |
(static_cast<uint32_t>(rgb.g * 255.0) << 8) |
(static_cast<uint32_t>(rgb.b * 255.0) << 0);
}
double Lerp(double a, double b, double x) { return a + x * (b - a); }
NormalizedRGB Lerp(const NormalizedRGB& a, const NormalizedRGB& b, double x) {
return NormalizedRGB{Lerp(a.r, b.r, x), Lerp(a.g, b.g, x), Lerp(a.b, b.b, x)};
}
// Produces a smooth curve in [0,1] based on a linear input in [0,1]
double SmoothStep3(double x) { return x * x * (3.0 - 2.0 * x); }
static const wchar_t kPreXULSkeletonUIKeyPath[] =
L"SOFTWARE"
L"\\" MOZ_APP_VENDOR L"\\" MOZ_APP_BASENAME L"\\PreXULSkeletonUISettings";
static bool sPreXULSkeletonUIEnabled = false;
// sPreXULSkeletonUIDisallowed means that we don't even have the capacity to
// enable the skeleton UI, whether because we're on a platform that doesn't
// support it or because we launched with command line arguments that we don't
// support. Some of these situations are transient, so we want to make sure we
// don't mess with registry values in these scenarios that we may use in
// other scenarios in which the skeleton UI is actually enabled.
static bool sPreXULSkeletonUIDisallowed = false;
static HWND sPreXULSkeletonUIWindow;
static LPWSTR const gStockApplicationIcon = MAKEINTRESOURCEW(32512);
static LPWSTR const gIDCWait = MAKEINTRESOURCEW(32514);
static HANDLE sPreXULSKeletonUIAnimationThread;
static uint32_t* sPixelBuffer = nullptr;
static Vector<ColorRect>* sAnimatedRects = nullptr;
static int sTotalChromeHeight = 0;
static volatile LONG sAnimationControlFlag = 0;
static bool sMaximized = false;
static int sNonClientVerticalMargins = 0;
static int sNonClientHorizontalMargins = 0;
static uint32_t sDpi = 0;
// Color values needed by the animation loop
static uint32_t sAnimationColor;
static uint32_t sToolbarForegroundColor;
static ThemeMode sTheme = ThemeMode::Invalid;
typedef BOOL(WINAPI* EnableNonClientDpiScalingProc)(HWND);
static EnableNonClientDpiScalingProc sEnableNonClientDpiScaling = NULL;
typedef int(WINAPI* GetSystemMetricsForDpiProc)(int, UINT);
GetSystemMetricsForDpiProc sGetSystemMetricsForDpi = NULL;
typedef UINT(WINAPI* GetDpiForWindowProc)(HWND);
GetDpiForWindowProc sGetDpiForWindow = NULL;
typedef ATOM(WINAPI* RegisterClassWProc)(const WNDCLASSW*);
RegisterClassWProc sRegisterClassW = NULL;
typedef HICON(WINAPI* LoadIconWProc)(HINSTANCE, LPCWSTR);
LoadIconWProc sLoadIconW = NULL;
typedef HICON(WINAPI* LoadCursorWProc)(HINSTANCE, LPCWSTR);
LoadCursorWProc sLoadCursorW = NULL;
typedef HWND(WINAPI* CreateWindowExWProc)(DWORD, LPCWSTR, LPCWSTR, DWORD, int,
int, int, int, HWND, HMENU, HINSTANCE,
LPVOID);
CreateWindowExWProc sCreateWindowExW = NULL;
typedef BOOL(WINAPI* ShowWindowProc)(HWND, int);
ShowWindowProc sShowWindow = NULL;
typedef BOOL(WINAPI* SetWindowPosProc)(HWND, HWND, int, int, int, int, UINT);
SetWindowPosProc sSetWindowPos = NULL;
typedef HDC(WINAPI* GetWindowDCProc)(HWND);
GetWindowDCProc sGetWindowDC = NULL;
typedef int(WINAPI* FillRectProc)(HDC, const RECT*, HBRUSH);
FillRectProc sFillRect = NULL;
typedef BOOL(WINAPI* DeleteObjectProc)(HGDIOBJ);
DeleteObjectProc sDeleteObject = NULL;
typedef int(WINAPI* ReleaseDCProc)(HWND, HDC);
ReleaseDCProc sReleaseDC = NULL;
typedef HMONITOR(WINAPI* MonitorFromWindowProc)(HWND, DWORD);
MonitorFromWindowProc sMonitorFromWindow = NULL;
typedef BOOL(WINAPI* GetMonitorInfoWProc)(HMONITOR, LPMONITORINFO);
GetMonitorInfoWProc sGetMonitorInfoW = NULL;
typedef LONG_PTR(WINAPI* SetWindowLongPtrWProc)(HWND, int, LONG_PTR);
SetWindowLongPtrWProc sSetWindowLongPtrW = NULL;
typedef int(WINAPI* StretchDIBitsProc)(HDC, int, int, int, int, int, int, int,
int, const VOID*, const BITMAPINFO*,
UINT, DWORD);
StretchDIBitsProc sStretchDIBits = NULL;
typedef HBRUSH(WINAPI* CreateSolidBrushProc)(COLORREF);
CreateSolidBrushProc sCreateSolidBrush = NULL;
static int sWindowWidth;
static int sWindowHeight;
static double sCSSToDevPixelScaling;
static const int kAnimationCSSPixelsPerFrame = 21;
static const int kAnimationCSSExtraWindowSize = 300;
// NOTE: these values were pulled out of thin air as round numbers that are
// likely to be too big to be seen in practice. If we legitimately see windows
// this big, we probably don't want to be drawing them on the CPU anyway.
static const uint32_t kMaxWindowWidth = 1 << 16;
static const uint32_t kMaxWindowHeight = 1 << 16;
static const wchar_t* sEnabledRegSuffix = L"|Enabled";
static const wchar_t* sScreenXRegSuffix = L"|ScreenX";
static const wchar_t* sScreenYRegSuffix = L"|ScreenY";
static const wchar_t* sWidthRegSuffix = L"|Width";
static const wchar_t* sHeightRegSuffix = L"|Height";
static const wchar_t* sMaximizedRegSuffix = L"|Maximized";
static const wchar_t* sUrlbarCSSRegSuffix = L"|UrlbarCSSSpan";
static const wchar_t* sCssToDevPixelScalingRegSuffix = L"|CssToDevPixelScaling";
static const wchar_t* sSearchbarRegSuffix = L"|SearchbarCSSSpan";
static const wchar_t* sSpringsCSSRegSuffix = L"|SpringsCSSSpan";
static const wchar_t* sThemeRegSuffix = L"|Theme";
static const wchar_t* sFlagsRegSuffix = L"|Flags";
struct LoadedCoTaskMemFreeDeleter {
void operator()(void* ptr) {
static decltype(CoTaskMemFree)* coTaskMemFree = nullptr;
if (!coTaskMemFree) {
// Just let this get cleaned up when the process is terminated, because
// we're going to load it anyway elsewhere.
HMODULE ole32Dll = ::LoadLibraryW(L"ole32");
if (!ole32Dll) {
printf_stderr(
"Could not load ole32 - will not free with CoTaskMemFree");
return;
}
coTaskMemFree = reinterpret_cast<decltype(coTaskMemFree)>(
::GetProcAddress(ole32Dll, "CoTaskMemFree"));
if (!coTaskMemFree) {
printf_stderr("Could not find CoTaskMemFree");
return;
}
}
coTaskMemFree(ptr);
}
};
std::wstring GetRegValueName(const wchar_t* prefix, const wchar_t* suffix) {
std::wstring result(prefix);
result.append(suffix);
return result;
}
// This is paraphrased from WinHeaderOnlyUtils.h. The fact that this file is
// included in standalone SpiderMonkey builds prohibits us from including that
// file directly, and it hardly warrants its own header. Bug 1674920 tracks
// only including this file for gecko-related builds.
UniquePtr<wchar_t[]> GetBinaryPath() {
DWORD bufLen = MAX_PATH;
UniquePtr<wchar_t[]> buf;
while (true) {
buf = MakeUnique<wchar_t[]>(bufLen);
DWORD retLen = ::GetModuleFileNameW(nullptr, buf.get(), bufLen);
if (!retLen) {
return nullptr;
}
if (retLen == bufLen && ::GetLastError() == ERROR_INSUFFICIENT_BUFFER) {
bufLen *= 2;
continue;
}
break;
}
return buf;
}
static UniquePtr<wchar_t, LoadedCoTaskMemFreeDeleter> GetKnownFolderPath(
REFKNOWNFOLDERID folderId) {
static decltype(SHGetKnownFolderPath)* shGetKnownFolderPath = nullptr;
if (!shGetKnownFolderPath) {
// We could go out of our way to `FreeLibrary` on this, decrementing its
// ref count and potentially unloading it. However doing so would be either
// effectively a no-op, or counterproductive. Just let it get cleaned up
// when the process is terminated, because we're going to load it anyway
// elsewhere.
HMODULE shell32Dll = ::LoadLibraryW(L"shell32");
if (!shell32Dll) {
return nullptr;
}
shGetKnownFolderPath = reinterpret_cast<decltype(shGetKnownFolderPath)>(
::GetProcAddress(shell32Dll, "SHGetKnownFolderPath"));
if (!shGetKnownFolderPath) {
return nullptr;
}
}
PWSTR path = nullptr;
shGetKnownFolderPath(folderId, 0, nullptr, &path);
return UniquePtr<wchar_t, LoadedCoTaskMemFreeDeleter>(path);
}
// Note: this is specifically *not* a robust, multi-locale lowercasing
// operation. It is not intended to be such. It is simply intended to match the
// way in which we look for other instances of firefox to remote into.
// See
// https://searchfox.org/mozilla-central/rev/71621bfa47a371f2b1ccfd33c704913124afb933/toolkit/components/remote/nsRemoteService.cpp#56
static void MutateStringToLowercase(wchar_t* ptr) {
while (*ptr) {
wchar_t ch = *ptr;
if (ch >= L'A' && ch <= L'Z') {
*ptr = ch + (L'a' - L'A');
}
++ptr;
}
}
static bool TryGetSkeletonUILock() {
auto localAppDataPath = GetKnownFolderPath(FOLDERID_LocalAppData);
if (!localAppDataPath) {
return false;
}
// Note: because we're in mozglue, we cannot easily access things from
// toolkit, like `GetInstallHash`. We could move `GetInstallHash` into
// mozglue, and rip out all of its usage of types defined in toolkit headers.
// However, it seems cleaner to just hash the bin path ourselves. We don't
// get quite the same robustness that `GetInstallHash` might provide, but
// we already don't have that with how we key our registry values, so it
// probably makes sense to just match those.
UniquePtr<wchar_t[]> binPath = GetBinaryPath();
if (!binPath) {
return false;
}
// Lowercase the binpath to match how we look for remote instances.
MutateStringToLowercase(binPath.get());
// The number of bytes * 2 characters per byte + 1 for the null terminator
uint32_t hexHashSize = sizeof(uint32_t) * 2 + 1;
UniquePtr<wchar_t[]> installHash = MakeUnique<wchar_t[]>(hexHashSize);
// This isn't perfect - it's a 32-bit hash of the path to our executable. It
// could reasonably collide, or casing could potentially affect things, but
// the theory is that that should be uncommon enough and the failure case
// mild enough that this is fine.
uint32_t binPathHash = HashString(binPath.get());
swprintf(installHash.get(), hexHashSize, L"%08x", binPathHash);
std::wstring lockFilePath;
lockFilePath.append(localAppDataPath.get());
lockFilePath.append(
L"\\" MOZ_APP_VENDOR L"\\" MOZ_APP_BASENAME L"\\SkeletonUILock-");
lockFilePath.append(installHash.get());
// We intentionally leak this file - that is okay, and (kind of) the point.
// We want to hold onto this handle until the application exits, and hold
// onto it with exclusive rights. If this check fails, then we assume that
// another instance of the executable is holding it, and thus return false.
HANDLE lockFile =
::CreateFileW(lockFilePath.c_str(), GENERIC_READ | GENERIC_WRITE,
0, // No sharing - this is how the lock works
nullptr, CREATE_ALWAYS,
FILE_FLAG_DELETE_ON_CLOSE, // Don't leave this lying around
nullptr);
return lockFile != INVALID_HANDLE_VALUE;
}
const char kGeneralSection[] = "[General]";
const char kStartWithLastProfile[] = "StartWithLastProfile=";
static bool ProfileDbHasStartWithLastProfile(IFStream& iniContents) {
bool inGeneral = false;
std::string line;
while (std::getline(iniContents, line)) {
int whitespace = 0;
while (line.length() > whitespace &&
(line[whitespace] == ' ' || line[whitespace] == '\t')) {
whitespace++;
}
line.erase(0, whitespace);
if (line.compare(kGeneralSection) == 0) {
inGeneral = true;
} else if (inGeneral) {
if (line[0] == '[') {
inGeneral = false;
} else {
if (line.find(kStartWithLastProfile) == 0) {
char val = line.c_str()[sizeof(kStartWithLastProfile) - 1];
if (val == '0') {
return false;
} else if (val == '1') {
return true;
}
}
}
}
}
// If we don't find it in the .ini file, we interpret that as true
return true;
}
static bool CheckForStartWithLastProfile() {
auto roamingAppData = GetKnownFolderPath(FOLDERID_RoamingAppData);
if (!roamingAppData) {
return false;
}
std::wstring profileDbPath(roamingAppData.get());
profileDbPath.append(
L"\\" MOZ_APP_VENDOR L"\\" MOZ_APP_BASENAME L"\\profiles.ini");
IFStream profileDb(profileDbPath.c_str());
if (profileDb.fail()) {
return false;
}
return ProfileDbHasStartWithLastProfile(profileDb);
}
// We could use nsAutoRegKey, but including nsWindowsHelpers.h causes build
// failures in random places because we're in mozglue. Overall it should be
// simpler and cleaner to just step around that issue with this class:
class MOZ_RAII AutoCloseRegKey {
public:
explicit AutoCloseRegKey(HKEY key) : mKey(key) {}
~AutoCloseRegKey() { ::RegCloseKey(mKey); }
private:
HKEY mKey;
};
int CSSToDevPixels(double cssPixels, double scaling) {
return floor(cssPixels * scaling + 0.5);
}
int CSSToDevPixels(int cssPixels, double scaling) {
return CSSToDevPixels((double)cssPixels, scaling);
}
int CSSToDevPixelsFloor(double cssPixels, double scaling) {
return floor(cssPixels * scaling);
}
// Some things appear to floor to device pixels rather than rounding. A good
// example of this is border widths.
int CSSToDevPixelsFloor(int cssPixels, double scaling) {
return CSSToDevPixelsFloor((double)cssPixels, scaling);
}
double SignedDistanceToCircle(double x, double y, double radius) {
return sqrt(x * x + y * y) - radius;
}
// For more details, see
// https://searchfox.org/mozilla-central/rev/a5d9abfda1e26b1207db9549549ab0bdd73f735d/gfx/wr/webrender/res/shared.glsl#141-187
// which was a reference for this function.
double DistanceAntiAlias(double signedDistance) {
// Distance assumed to be in device pixels. We use an aa range of 0.5 for
// reasons detailed in the linked code above.
const double aaRange = 0.5;
double dist = 0.5 * signedDistance / aaRange;
if (dist <= -0.5 + std::numeric_limits<double>::epsilon()) return 1.0;
if (dist >= 0.5 - std::numeric_limits<double>::epsilon()) return 0.0;
return 0.5 + dist * (0.8431027 * dist * dist - 1.14453603);
}
void RasterizeRoundedRectTopAndBottom(const DrawRect& rect) {
if (rect.height <= 2 * rect.borderRadius) {
MOZ_ASSERT(false, "Skeleton UI rect height too small for border radius.");
return;
}
if (rect.width <= 2 * rect.borderRadius) {
MOZ_ASSERT(false, "Skeleton UI rect width too small for border radius.");
return;
}
NormalizedRGB rgbBase = UintToRGB(rect.backgroundColor);
NormalizedRGB rgbBlend = UintToRGB(rect.color);
for (int rowIndex = 0; rowIndex < rect.borderRadius; ++rowIndex) {
int yTop = rect.y + rect.borderRadius - 1 - rowIndex;
int yBottom = rect.y + rect.height - rect.borderRadius + rowIndex;
uint32_t* lineStartTop = &sPixelBuffer[yTop * sWindowWidth];
uint32_t* innermostPixelTopLeft =
lineStartTop + rect.x + rect.borderRadius - 1;
uint32_t* innermostPixelTopRight =
lineStartTop + rect.x + rect.width - rect.borderRadius;
uint32_t* lineStartBottom = &sPixelBuffer[yBottom * sWindowWidth];
uint32_t* innermostPixelBottomLeft =
lineStartBottom + rect.x + rect.borderRadius - 1;
uint32_t* innermostPixelBottomRight =
lineStartBottom + rect.x + rect.width - rect.borderRadius;
// Add 0.5 to x and y to get the pixel center.
double pixelY = (double)rowIndex + 0.5;
for (int columnIndex = 0; columnIndex < rect.borderRadius; ++columnIndex) {
double pixelX = (double)columnIndex + 0.5;
double distance =
SignedDistanceToCircle(pixelX, pixelY, (double)rect.borderRadius);
double alpha = DistanceAntiAlias(distance);
NormalizedRGB rgb = Lerp(rgbBase, rgbBlend, alpha);
uint32_t color = RGBToUint(rgb);
innermostPixelTopLeft[-columnIndex] = color;
innermostPixelTopRight[columnIndex] = color;
innermostPixelBottomLeft[-columnIndex] = color;
innermostPixelBottomRight[columnIndex] = color;
}
std::fill(innermostPixelTopLeft + 1, innermostPixelTopRight, rect.color);
std::fill(innermostPixelBottomLeft + 1, innermostPixelBottomRight,
rect.color);
}
}
void RasterizeAnimatedRoundedRectTopAndBottom(
const ColorRect& colorRect, const uint32_t* animationLookup,
int priorUpdateAreaMin, int priorUpdateAreaMax, int currentUpdateAreaMin,
int currentUpdateAreaMax, int animationMin) {
// We iterate through logical pixel rows here, from inside to outside, which
// for the top of the rounded rect means from bottom to top, and for the
// bottom of the rect means top to bottom. We paint pixels from left to
// right on the top and bottom rows at the same time for the entire animation
// window. (If the animation window does not overlap any rounded corners,
// however, we won't be called at all)
for (int rowIndex = 0; rowIndex < colorRect.borderRadius; ++rowIndex) {
int yTop = colorRect.y + colorRect.borderRadius - 1 - rowIndex;
int yBottom =
colorRect.y + colorRect.height - colorRect.borderRadius + rowIndex;
uint32_t* lineStartTop = &sPixelBuffer[yTop * sWindowWidth];
uint32_t* lineStartBottom = &sPixelBuffer[yBottom * sWindowWidth];
// Add 0.5 to x and y to get the pixel center.
double pixelY = (double)rowIndex + 0.5;
for (int x = priorUpdateAreaMin; x < currentUpdateAreaMax; ++x) {
// The column index is the distance from the innermost pixel, which
// is different depending on whether we're on the left or right
// side of the rect. It will always be the max here, and if it's
// negative that just means we're outside the rounded area.
int columnIndex =
std::max((int)colorRect.x + (int)colorRect.borderRadius - x - 1,
x - ((int)colorRect.x + (int)colorRect.width -
(int)colorRect.borderRadius));
double alpha = 1.0;
if (columnIndex >= 0) {
double pixelX = (double)columnIndex + 0.5;
double distance = SignedDistanceToCircle(
pixelX, pixelY, (double)colorRect.borderRadius);
alpha = DistanceAntiAlias(distance);
}
// We don't do alpha blending for the antialiased pixels at the
// shape's border. It is not noticeable in the animation.
if (alpha > 1.0 - std::numeric_limits<double>::epsilon()) {
// Overwrite the tail end of last frame's animation with the
// rect's normal, unanimated color.
uint32_t color = x < priorUpdateAreaMax
? colorRect.color
: animationLookup[x - animationMin];
lineStartTop[x] = color;
lineStartBottom[x] = color;
}
}
}
}
void RasterizeColorRect(const ColorRect& colorRect) {
// We sometimes split our rect into two, to simplify drawing borders. If we
// have a border, we draw a stroke-only rect first, and then draw the smaller
// inner rect on top of it.
Vector<DrawRect, 2> drawRects;
Unused << drawRects.reserve(2);
if (colorRect.borderWidth == 0) {
DrawRect rect = {};
rect.color = colorRect.color;
rect.backgroundColor =
sPixelBuffer[colorRect.y * sWindowWidth + colorRect.x];
rect.x = colorRect.x;
rect.y = colorRect.y;
rect.width = colorRect.width;
rect.height = colorRect.height;
rect.borderRadius = colorRect.borderRadius;
rect.strokeOnly = false;
drawRects.infallibleAppend(rect);
} else {
DrawRect borderRect = {};
borderRect.color = colorRect.borderColor;
borderRect.backgroundColor =
sPixelBuffer[colorRect.y * sWindowWidth + colorRect.x];
borderRect.x = colorRect.x;
borderRect.y = colorRect.y;
borderRect.width = colorRect.width;
borderRect.height = colorRect.height;
borderRect.borderRadius = colorRect.borderRadius;
borderRect.borderWidth = colorRect.borderWidth;
borderRect.strokeOnly = true;
drawRects.infallibleAppend(borderRect);
DrawRect baseRect = {};
baseRect.color = colorRect.color;
baseRect.backgroundColor = borderRect.color;
baseRect.x = colorRect.x + colorRect.borderWidth;
baseRect.y = colorRect.y + colorRect.borderWidth;
baseRect.width = colorRect.width - 2 * colorRect.borderWidth;
baseRect.height = colorRect.height - 2 * colorRect.borderWidth;
baseRect.borderRadius =
std::max(0, (int)colorRect.borderRadius - (int)colorRect.borderWidth);
baseRect.borderWidth = 0;
baseRect.strokeOnly = false;
drawRects.infallibleAppend(baseRect);
}
for (const DrawRect& rect : drawRects) {
if (rect.height <= 0 || rect.width <= 0) {
continue;
}
// For rounded rectangles, the first thing we do is draw the top and
// bottom of the rectangle, with the more complicated logic below. After
// that we can just draw the vertically centered part of the rect like
// normal.
RasterizeRoundedRectTopAndBottom(rect);
// We then draw the flat, central portion of the rect (which in the case of
// non-rounded rects, is just the entire thing.)
int solidRectStartY =
std::clamp(rect.y + rect.borderRadius, 0, sTotalChromeHeight);
int solidRectEndY = std::clamp(rect.y + rect.height - rect.borderRadius, 0,
sTotalChromeHeight);
for (int y = solidRectStartY; y < solidRectEndY; ++y) {
// For strokeOnly rects (used to draw borders), we just draw the left
// and right side here. Looping down a column of pixels is not the most
// cache-friendly thing, but it shouldn't be a big deal given the height
// of the urlbar.
// Also, if borderRadius is less than borderWidth, we need to ensure
// that we fully draw the top and bottom lines, so we make sure to check
// that we're inside the middle range range before excluding pixels.
if (rect.strokeOnly && y - rect.y > rect.borderWidth &&
rect.y + rect.height - y > rect.borderWidth) {
int startXLeft = std::clamp(rect.x, 0, sWindowWidth);
int endXLeft = std::clamp(rect.x + rect.borderWidth, 0, sWindowWidth);
int startXRight =
std::clamp(rect.x + rect.width - rect.borderWidth, 0, sWindowWidth);
int endXRight = std::clamp(rect.x + rect.width, 0, sWindowWidth);
uint32_t* lineStart = &sPixelBuffer[y * sWindowWidth];
uint32_t* dataStartLeft = lineStart + startXLeft;
uint32_t* dataEndLeft = lineStart + endXLeft;
uint32_t* dataStartRight = lineStart + startXRight;
uint32_t* dataEndRight = lineStart + endXRight;
std::fill(dataStartLeft, dataEndLeft, rect.color);
std::fill(dataStartRight, dataEndRight, rect.color);
} else {
int startX = std::clamp(rect.x, 0, sWindowWidth);
int endX = std::clamp(rect.x + rect.width, 0, sWindowWidth);
uint32_t* lineStart = &sPixelBuffer[y * sWindowWidth];
uint32_t* dataStart = lineStart + startX;
uint32_t* dataEnd = lineStart + endX;
std::fill(dataStart, dataEnd, rect.color);
}
}
}
}
// Paints the pixels to sPixelBuffer for the skeleton UI animation (a light
// gradient which moves from left to right across the grey placeholder rects).
// Takes in the rect to draw, together with a lookup table for the gradient,
// and the bounds of the previous and current frame of the animation.
bool RasterizeAnimatedRect(const ColorRect& colorRect,
const uint32_t* animationLookup,
int priorAnimationMin, int animationMin,
int animationMax) {
int rectMin = colorRect.x;
int rectMax = colorRect.x + colorRect.width;
bool animationWindowOverlaps =
rectMax >= priorAnimationMin && rectMin < animationMax;
int priorUpdateAreaMin = std::max(rectMin, priorAnimationMin);
int priorUpdateAreaMax = std::min(rectMax, animationMin);
int currentUpdateAreaMin = std::max(rectMin, animationMin);
int currentUpdateAreaMax = std::min(rectMax, animationMax);
if (!animationWindowOverlaps) {
return false;
}
bool animationWindowOverlapsBorderRadius =
rectMin + colorRect.borderRadius > priorAnimationMin ||
rectMax - colorRect.borderRadius <= animationMax;
// If we don't overlap the left or right side of the rounded rectangle,
// just pretend it's not rounded. This is a small optimization but
// there's no point in doing all of this rounded rectangle checking if
// we aren't even overlapping
int borderRadius =
animationWindowOverlapsBorderRadius ? colorRect.borderRadius : 0;
if (borderRadius > 0) {
// Similarly to how we draw the rounded rects in DrawSkeletonUI, we
// first draw the rounded top and bottom, and then we draw the center
// rect.
RasterizeAnimatedRoundedRectTopAndBottom(
colorRect, animationLookup, priorUpdateAreaMin, priorUpdateAreaMax,
currentUpdateAreaMin, currentUpdateAreaMax, animationMin);
}
for (int y = colorRect.y + borderRadius;
y < colorRect.y + colorRect.height - borderRadius; ++y) {
uint32_t* lineStart = &sPixelBuffer[y * sWindowWidth];
// Overwrite the tail end of last frame's animation with the rect's
// normal, unanimated color.
for (int x = priorUpdateAreaMin; x < priorUpdateAreaMax; ++x) {
lineStart[x] = colorRect.color;
}
// Then apply the animated color
for (int x = currentUpdateAreaMin; x < currentUpdateAreaMax; ++x) {
lineStart[x] = animationLookup[x - animationMin];
}
}
return true;
}
void DrawSkeletonUI(HWND hWnd, CSSPixelSpan urlbarCSSSpan,
CSSPixelSpan searchbarCSSSpan,
Vector<CSSPixelSpan>& springs,
const ThemeColors& currentTheme,
const EnumSet<SkeletonUIFlag, uint32_t>& flags) {
// NOTE: we opt here to paint a pixel buffer for the application chrome by
// hand, without using native UI library methods. Why do we do this?
//
// 1) It gives us a little bit more control, especially if we want to animate
// any of this.
// 2) It's actually more portable. We can do this on any platform where we
// can blit a pixel buffer to the screen, and it only has to change
// insofar as the UI is different on those platforms (and thus would have
// to change anyway.)
//
// The performance impact of this ought to be negligible. As far as has been
// observed, on slow reference hardware this might take up to a millisecond,
// for a startup which otherwise takes 30 seconds.
//
// The readability and maintainability are a greater concern. When the
// silhouette of Firefox's core UI changes, this code will likely need to
// change. However, for the foreseeable future, our skeleton UI will be mostly
// axis-aligned geometric shapes, and the thought is that any code which is
// manipulating raw pixels should not be *too* hard to maintain and
// understand so long as it is only painting such simple shapes.
sAnimationColor = currentTheme.animationColor;
sToolbarForegroundColor = currentTheme.toolbarForegroundColor;
bool menubarShown = flags.contains(SkeletonUIFlag::MenubarShown);
bool bookmarksToolbarShown =
flags.contains(SkeletonUIFlag::BookmarksToolbarShown);
bool rtlEnabled = flags.contains(SkeletonUIFlag::RtlEnabled);
int chromeHorMargin = CSSToDevPixels(2, sCSSToDevPixelScaling);
int verticalOffset = sMaximized ? sNonClientVerticalMargins : 0;
int horizontalOffset =
sNonClientHorizontalMargins - (sMaximized ? 0 : chromeHorMargin);
// found in browser-aero.css, ":root[sizemode=normal][tabsintitlebar]"
int topBorderHeight =
sMaximized ? 0 : CSSToDevPixels(1, sCSSToDevPixelScaling);
// found in tabs.inc.css, "--tab-min-height" - depends on uidensity variable
int tabBarHeight = CSSToDevPixels(33, sCSSToDevPixelScaling) + verticalOffset;
// found in tabs.inc.css, ".titlebar-spacer"
int titlebarSpacerWidth = horizontalOffset;
if (!sMaximized && !menubarShown) {
titlebarSpacerWidth += CSSToDevPixels(40, sCSSToDevPixelScaling);
}
// found in tabs.inc.css, ".tab-line"
int tabLineHeight = CSSToDevPixels(2, sCSSToDevPixelScaling) + verticalOffset;
int selectedTabWidth = CSSToDevPixels(224, sCSSToDevPixelScaling);
int toolbarHeight = CSSToDevPixels(39, sCSSToDevPixelScaling);
// found in browser.css, "#PersonalToolbar"
int bookmarkToolbarHeight = CSSToDevPixels(28, sCSSToDevPixelScaling);
if (bookmarksToolbarShown) {
toolbarHeight += bookmarkToolbarHeight;
}
// found in urlbar-searchbar.inc.css, "#urlbar[breakout]"
int urlbarTopOffset = CSSToDevPixels(5, sCSSToDevPixelScaling);
int urlbarHeight = CSSToDevPixels(30, sCSSToDevPixelScaling);
// found in browser-aero.css, "#navigator-toolbox::after" border-bottom
int chromeContentDividerHeight = CSSToDevPixels(1, sCSSToDevPixelScaling);
int tabPlaceholderBarMarginTop = CSSToDevPixels(13, sCSSToDevPixelScaling);
int tabPlaceholderBarMarginLeft = CSSToDevPixels(10, sCSSToDevPixelScaling);
int tabPlaceholderBarHeight = CSSToDevPixels(8, sCSSToDevPixelScaling);
int tabPlaceholderBarWidth = CSSToDevPixels(120, sCSSToDevPixelScaling);
int toolbarPlaceholderHeight = CSSToDevPixels(10, sCSSToDevPixelScaling);
int toolbarPlaceholderMarginRight =
rtlEnabled ? CSSToDevPixels(11, sCSSToDevPixelScaling)
: CSSToDevPixels(9, sCSSToDevPixelScaling);
int toolbarPlaceholderMarginLeft =
rtlEnabled ? CSSToDevPixels(9, sCSSToDevPixelScaling)
: CSSToDevPixels(11, sCSSToDevPixelScaling);
int placeholderMargin = CSSToDevPixels(8, sCSSToDevPixelScaling);
int menubarHeightDevPixels =
menubarShown ? CSSToDevPixels(28, sCSSToDevPixelScaling) : 0;
// controlled by css variable urlbarMarginInline in urlbar-searchbar.inc.css
int urlbarMargin =
CSSToDevPixels(5, sCSSToDevPixelScaling) + horizontalOffset;
int urlbarTextPlaceholderMarginTop =
CSSToDevPixels(10, sCSSToDevPixelScaling);
int urlbarTextPlaceholderMarginLeft =
CSSToDevPixels(10, sCSSToDevPixelScaling);
int urlbarTextPlaceHolderWidth = CSSToDevPixels(
std::clamp(urlbarCSSSpan.end - urlbarCSSSpan.start - 10.0, 0.0, 260.0),
sCSSToDevPixelScaling);
int urlbarTextPlaceholderHeight = CSSToDevPixels(10, sCSSToDevPixelScaling);
int searchbarTextPlaceholderWidth = CSSToDevPixels(62, sCSSToDevPixelScaling);
auto scopeExit = MakeScopeExit([&] {
delete sAnimatedRects;
sAnimatedRects = nullptr;
return;
});
Vector<ColorRect> rects;
ColorRect topBorder = {};
topBorder.color = 0x00000000;
topBorder.x = 0;
topBorder.y = 0;
topBorder.width = sWindowWidth;
topBorder.height = topBorderHeight;
topBorder.flipIfRTL = false;
if (!rects.append(topBorder)) {
return;
}
ColorRect menubar = {};
menubar.color = currentTheme.tabBarColor;
menubar.x = 0;
menubar.y = topBorder.height;
menubar.width = sWindowWidth;
menubar.height = menubarHeightDevPixels;
menubar.flipIfRTL = false;
if (!rects.append(menubar)) {
return;
}
int placeholderBorderRadius = CSSToDevPixels(2, sCSSToDevPixelScaling);
// found in browser.css "--toolbarbutton-border-radius"
int urlbarBorderRadius = CSSToDevPixels(2, sCSSToDevPixelScaling);
// found in urlbar-searchbar.inc.css "#urlbar-background"
int urlbarBorderWidth = CSSToDevPixelsFloor(1, sCSSToDevPixelScaling);
int urlbarBorderColor = currentTheme.urlbarBorderColor;
// The (traditionally dark blue on Windows) background of the tab bar.
ColorRect tabBar = {};
tabBar.color = currentTheme.tabBarColor;
tabBar.x = 0;
tabBar.y = menubar.height + topBorder.height;
tabBar.width = sWindowWidth;
tabBar.height = tabBarHeight;
tabBar.flipIfRTL = false;
if (!rects.append(tabBar)) {
return;
}
// The blue highlight at the top of the initial selected tab
ColorRect tabLine = {};
tabLine.color = currentTheme.tabLineColor;
tabLine.x = titlebarSpacerWidth;
tabLine.y = menubar.height + topBorder.height;
tabLine.width = selectedTabWidth;
tabLine.height = tabLineHeight;
tabLine.flipIfRTL = true;
if (!rects.append(tabLine)) {
return;
}
// The initial selected tab
ColorRect selectedTab = {};
selectedTab.color = currentTheme.backgroundColor;
selectedTab.x = titlebarSpacerWidth;
selectedTab.y = tabLine.y + tabLineHeight;
selectedTab.width = selectedTabWidth;
selectedTab.height = tabBar.y + tabBar.height - selectedTab.y;
selectedTab.flipIfRTL = true;
if (!rects.append(selectedTab)) {
return;
}
// A placeholder rect representing text that will fill the selected tab title
ColorRect tabTextPlaceholder = {};
tabTextPlaceholder.color = sToolbarForegroundColor;
tabTextPlaceholder.x = selectedTab.x + tabPlaceholderBarMarginLeft;
tabTextPlaceholder.y = selectedTab.y + tabPlaceholderBarMarginTop;
tabTextPlaceholder.width = tabPlaceholderBarWidth;
tabTextPlaceholder.height = tabPlaceholderBarHeight;
tabTextPlaceholder.borderRadius = placeholderBorderRadius;
tabTextPlaceholder.flipIfRTL = true;
if (!rects.append(tabTextPlaceholder)) {
return;
}
// The toolbar background
ColorRect toolbar = {};
toolbar.color = currentTheme.backgroundColor;
toolbar.x = 0;
toolbar.y = tabBar.y + tabBarHeight;
toolbar.width = sWindowWidth;
toolbar.height = toolbarHeight;
toolbar.flipIfRTL = false;
if (!rects.append(toolbar)) {
return;
}
// The single-pixel divider line below the toolbar
ColorRect chromeContentDivider = {};
chromeContentDivider.color = currentTheme.chromeContentDividerColor;
chromeContentDivider.x = 0;
chromeContentDivider.y = toolbar.y + toolbar.height;
chromeContentDivider.width = sWindowWidth;
chromeContentDivider.height = chromeContentDividerHeight;
chromeContentDivider.flipIfRTL = false;
if (!rects.append(chromeContentDivider)) {
return;
}
// The urlbar
ColorRect urlbar = {};
urlbar.color = currentTheme.urlbarColor;
urlbar.x = CSSToDevPixels(urlbarCSSSpan.start, sCSSToDevPixelScaling) +
horizontalOffset;
urlbar.y = tabBar.y + tabBarHeight + urlbarTopOffset;
urlbar.width = CSSToDevPixels((urlbarCSSSpan.end - urlbarCSSSpan.start),
sCSSToDevPixelScaling);
urlbar.height = urlbarHeight;
urlbar.borderRadius = urlbarBorderRadius;
urlbar.borderWidth = urlbarBorderWidth;
urlbar.borderColor = urlbarBorderColor;
urlbar.flipIfRTL = false;
if (!rects.append(urlbar)) {
return;
}
// The urlbar placeholder rect representating text that will fill the urlbar
// If rtl is enabled, it is flipped relative to the the urlbar rectangle, not
// sWindowWidth.
ColorRect urlbarTextPlaceholder = {};
urlbarTextPlaceholder.color = sToolbarForegroundColor;
urlbarTextPlaceholder.x =
rtlEnabled
? ((urlbar.x + urlbar.width) - urlbarTextPlaceholderMarginLeft -
urlbarTextPlaceHolderWidth)
: (urlbar.x + urlbarTextPlaceholderMarginLeft);
urlbarTextPlaceholder.y = urlbar.y + urlbarTextPlaceholderMarginTop;
urlbarTextPlaceholder.width = urlbarTextPlaceHolderWidth;
urlbarTextPlaceholder.height = urlbarTextPlaceholderHeight;
urlbarTextPlaceholder.borderRadius = placeholderBorderRadius;
urlbarTextPlaceholder.flipIfRTL = false;
if (!rects.append(urlbarTextPlaceholder)) {
return;
}
// The searchbar and placeholder text, if present
// This is y-aligned with the urlbar
bool hasSearchbar = searchbarCSSSpan.start != 0 && searchbarCSSSpan.end != 0;
ColorRect searchbarRect = {};
if (hasSearchbar == true) {
searchbarRect.color = currentTheme.urlbarColor;
searchbarRect.x =
CSSToDevPixels(searchbarCSSSpan.start, sCSSToDevPixelScaling) +
horizontalOffset;
searchbarRect.y = urlbar.y;
searchbarRect.width = CSSToDevPixels(
searchbarCSSSpan.end - searchbarCSSSpan.start, sCSSToDevPixelScaling);
searchbarRect.height = urlbarHeight;
searchbarRect.borderRadius = urlbarBorderRadius;
searchbarRect.borderWidth = urlbarBorderWidth;
searchbarRect.borderColor = urlbarBorderColor;
searchbarRect.flipIfRTL = false;
if (!rects.append(searchbarRect)) {
return;
}
// The placeholder rect representating text that will fill the searchbar
// This uses the same margins as the urlbarTextPlaceholder
// If rtl is enabled, it is flipped relative to the the searchbar rectangle,
// not sWindowWidth.
ColorRect searchbarTextPlaceholder = {};
searchbarTextPlaceholder.color = sToolbarForegroundColor;
searchbarTextPlaceholder.x =
rtlEnabled
? ((searchbarRect.x + searchbarRect.width) -
urlbarTextPlaceholderMarginLeft - searchbarTextPlaceholderWidth)
: (searchbarRect.x + urlbarTextPlaceholderMarginLeft);
searchbarTextPlaceholder.y =
searchbarRect.y + urlbarTextPlaceholderMarginTop;
searchbarTextPlaceholder.width = searchbarTextPlaceholderWidth;
searchbarTextPlaceholder.height = urlbarTextPlaceholderHeight;
searchbarTextPlaceholder.flipIfRTL = false;
if (!rects.append(searchbarTextPlaceholder) ||
!sAnimatedRects->append(searchbarTextPlaceholder)) {
return;
}
}
// Determine where the placeholder rectangles should not go. This is
// anywhere occupied by a spring, urlbar, or searchbar
Vector<DevPixelSpan> noPlaceholderSpans;
DevPixelSpan urlbarSpan;
urlbarSpan.start = urlbar.x - urlbarMargin;
urlbarSpan.end = urlbar.width + urlbar.x + urlbarMargin;
DevPixelSpan searchbarSpan;
if (hasSearchbar) {
searchbarSpan.start = searchbarRect.x - urlbarMargin;
searchbarSpan.end = searchbarRect.width + searchbarRect.x + urlbarMargin;
}
DevPixelSpan marginLeftPlaceholder;
marginLeftPlaceholder.start = toolbarPlaceholderMarginLeft;
marginLeftPlaceholder.end = toolbarPlaceholderMarginLeft;
if (!noPlaceholderSpans.append(marginLeftPlaceholder)) {
return;
}
if (rtlEnabled) {
// If we're RTL, then the springs as ordered in the DOM will be from right
// to left, which will break our comparison logic below
springs.reverse();
}
for (auto spring : springs) {
DevPixelSpan springDevPixels;
springDevPixels.start =
CSSToDevPixels(spring.start, sCSSToDevPixelScaling) + horizontalOffset;
springDevPixels.end =
CSSToDevPixels(spring.end, sCSSToDevPixelScaling) + horizontalOffset;
if (!noPlaceholderSpans.append(springDevPixels)) {
return;
}
}
DevPixelSpan marginRightPlaceholder;
marginRightPlaceholder.start = sWindowWidth - toolbarPlaceholderMarginRight;
marginRightPlaceholder.end = sWindowWidth - toolbarPlaceholderMarginRight;
if (!noPlaceholderSpans.append(marginRightPlaceholder)) {
return;
}
Vector<DevPixelSpan, 2> spansToAdd;
Unused << spansToAdd.reserve(2);
spansToAdd.infallibleAppend(urlbarSpan);
if (hasSearchbar) {
spansToAdd.infallibleAppend(searchbarSpan);
}
for (auto& toAdd : spansToAdd) {
for (auto& span : noPlaceholderSpans) {
if (span.start > toAdd.start) {
if (!noPlaceholderSpans.insert(&span, toAdd)) {
return;
}
break;
}
}
}
for (int i = 1; i < noPlaceholderSpans.length(); i++) {
int start = noPlaceholderSpans[i - 1].end + placeholderMargin;
int end = noPlaceholderSpans[i].start - placeholderMargin;
if (start + 2 * placeholderBorderRadius >= end) {
continue;
}
// The placeholder rects should all be y-aligned.
ColorRect placeholderRect = {};
placeholderRect.color = sToolbarForegroundColor;
placeholderRect.x = start;
placeholderRect.y = urlbarTextPlaceholder.y;
placeholderRect.width = end - start;
placeholderRect.height = toolbarPlaceholderHeight;
placeholderRect.borderRadius = placeholderBorderRadius;
placeholderRect.flipIfRTL = false;
if (!rects.append(placeholderRect) ||
!sAnimatedRects->append(placeholderRect)) {
return;
}
}
sTotalChromeHeight = chromeContentDivider.y + chromeContentDivider.height;
if (sTotalChromeHeight > sWindowHeight) {
printf_stderr("Exiting drawing skeleton UI because window is too small.\n");
return;
}
if (!sAnimatedRects->append(tabTextPlaceholder) ||
!sAnimatedRects->append(urlbarTextPlaceholder)) {
return;
}
sPixelBuffer =
(uint32_t*)calloc(sWindowWidth * sTotalChromeHeight, sizeof(uint32_t));
for (auto& rect : *sAnimatedRects) {
if (rtlEnabled && rect.flipIfRTL) {
rect.x = sWindowWidth - rect.x - rect.width;
}
rect.x = std::clamp(rect.x, 0, sWindowWidth);
rect.width = std::clamp(rect.width, 0, sWindowWidth - rect.x);
rect.y = std::clamp(rect.y, 0, sTotalChromeHeight);
rect.height = std::clamp(rect.height, 0, sTotalChromeHeight - rect.y);
}
for (auto& rect : rects) {
if (rtlEnabled && rect.flipIfRTL) {
rect.x = sWindowWidth - rect.x - rect.width;
}
rect.x = std::clamp(rect.x, 0, sWindowWidth);
rect.width = std::clamp(rect.width, 0, sWindowWidth - rect.x);
rect.y = std::clamp(rect.y, 0, sTotalChromeHeight);
rect.height = std::clamp(rect.height, 0, sTotalChromeHeight - rect.y);
RasterizeColorRect(rect);
}
HDC hdc = sGetWindowDC(hWnd);
BITMAPINFO chromeBMI = {};
chromeBMI.bmiHeader.biSize = sizeof(chromeBMI.bmiHeader);
chromeBMI.bmiHeader.biWidth = sWindowWidth;
chromeBMI.bmiHeader.biHeight = -sTotalChromeHeight;
chromeBMI.bmiHeader.biPlanes = 1;
chromeBMI.bmiHeader.biBitCount = 32;
chromeBMI.bmiHeader.biCompression = BI_RGB;
// First, we just paint the chrome area with our pixel buffer
sStretchDIBits(hdc, 0, 0, sWindowWidth, sTotalChromeHeight, 0, 0,
sWindowWidth, sTotalChromeHeight, sPixelBuffer, &chromeBMI,
DIB_RGB_COLORS, SRCCOPY);
// Then, we just fill the rest with FillRect
RECT rect = {0, sTotalChromeHeight, sWindowWidth, sWindowHeight};
HBRUSH brush = sCreateSolidBrush(currentTheme.backgroundColor);
sFillRect(hdc, &rect, brush);
scopeExit.release();
sReleaseDC(hWnd, hdc);
sDeleteObject(brush);
}
DWORD WINAPI AnimateSkeletonUI(void* aUnused) {
if (!sPixelBuffer || sAnimatedRects->empty()) {
return 0;
}
// On each of the animated rects (which happen to all be placeholder UI
// rects sharing the same color), we want to animate a gradient moving across
// the screen from left to right. The gradient starts as the rect's color on,
// the left side, changes to the background color of the window by the middle
// of the gradient, and then goes back down to the rect's color. To make this
// faster than interpolating between the two colors for each pixel for each
// frame, we simply create a lookup buffer in which we can look up the color
// for a particular offset into the gradient.
//
// To do this we just interpolate between the two values, and to give the
// gradient a smoother transition between colors, we transform the linear
// blend amount via the cubic smooth step function (SmoothStep3) to produce
// a smooth start and stop for the gradient. We do this for the first half
// of the gradient, and then simply copy that backwards for the second half.
//
// The CSS width of 80 chosen here is effectively is just to match the size
// of the animation provided in the design mockup. We define it in CSS pixels
// simply because the rest of our UI is based off of CSS scalings.
int animationWidth = CSSToDevPixels(80, sCSSToDevPixelScaling);
UniquePtr<uint32_t[]> animationLookup =
MakeUnique<uint32_t[]>(animationWidth);
uint32_t animationColor = sAnimationColor;
NormalizedRGB rgbBlend = UintToRGB(animationColor);
// Build the first half of the lookup table
for (int i = 0; i < animationWidth / 2; ++i) {
uint32_t baseColor = sToolbarForegroundColor;
double blendAmountLinear =
static_cast<double>(i) / (static_cast<double>(animationWidth / 2));
double blendAmount = SmoothStep3(blendAmountLinear);
NormalizedRGB rgbBase = UintToRGB(baseColor);
NormalizedRGB rgb = Lerp(rgbBase, rgbBlend, blendAmount);
animationLookup[i] = RGBToUint(rgb);
}
// Copy the first half of the lookup table into the second half backwards
for (int i = animationWidth / 2; i < animationWidth; ++i) {
int j = animationWidth - 1 - i;
if (j == animationWidth / 2) {
// If animationWidth is odd, we'll be left with one pixel at the center.
// Just color that as the animation color.
animationLookup[i] = animationColor;
} else {
animationLookup[i] = animationLookup[j];
}
}
// The bitmap info remains unchanged throughout the animation - this just
// effectively describes the contents of sPixelBuffer
BITMAPINFO chromeBMI = {};
chromeBMI.bmiHeader.biSize = sizeof(chromeBMI.bmiHeader);
chromeBMI.bmiHeader.biWidth = sWindowWidth;
chromeBMI.bmiHeader.biHeight = -sTotalChromeHeight;
chromeBMI.bmiHeader.biPlanes = 1;
chromeBMI.bmiHeader.biBitCount = 32;
chromeBMI.bmiHeader.biCompression = BI_RGB;
uint32_t animationIteration = 0;
int devPixelsPerFrame =
CSSToDevPixels(kAnimationCSSPixelsPerFrame, sCSSToDevPixelScaling);
int devPixelsExtraWindowSize =
CSSToDevPixels(kAnimationCSSExtraWindowSize, sCSSToDevPixelScaling);
if (::InterlockedCompareExchange(&sAnimationControlFlag, 0, 0)) {
// The window got consumed before we were able to draw anything.
return 0;
}
while (true) {
// The gradient will move across the screen at devPixelsPerFrame at
// 60fps, and then loop back to the beginning. However, we add a buffer of
// devPixelsExtraWindowSize around the edges so it doesn't immediately
// jump back, giving it a more pulsing feel.
int animationMin = ((animationIteration * devPixelsPerFrame) %
(sWindowWidth + devPixelsExtraWindowSize)) -
devPixelsExtraWindowSize / 2;
int animationMax = animationMin + animationWidth;
// The priorAnimationMin is the beginning of the previous frame's animation.
// Since we only want to draw the bits of the image that we updated, we need
// to overwrite the left bit of the animation we drew last frame with the
// default color.
int priorAnimationMin = animationMin - devPixelsPerFrame;
animationMin = std::max(0, animationMin);
priorAnimationMin = std::max(0, priorAnimationMin);
animationMax = std::min((int)sWindowWidth, animationMax);
// The gradient only affects the specific rects that we put into
// sAnimatedRects. So we simply update those rects, and maintain a flag
// to avoid drawing when we don't need to.
bool updatedAnything = false;
for (ColorRect rect : *sAnimatedRects) {
bool hadUpdates =
RasterizeAnimatedRect(rect, animationLookup.get(), priorAnimationMin,
animationMin, animationMax);
updatedAnything = updatedAnything || hadUpdates;
}
if (updatedAnything) {
HDC hdc = sGetWindowDC(sPreXULSkeletonUIWindow);
sStretchDIBits(hdc, priorAnimationMin, 0,
animationMax - priorAnimationMin, sTotalChromeHeight,
priorAnimationMin, 0, animationMax - priorAnimationMin,
sTotalChromeHeight, sPixelBuffer, &chromeBMI,
DIB_RGB_COLORS, SRCCOPY);
sReleaseDC(sPreXULSkeletonUIWindow, hdc);
}
animationIteration++;
// We coordinate around our sleep here to ensure that the main thread does
// not wait on us if we're sleeping. If we don't get 1 here, it means the
// window has been consumed and we don't need to sleep. If in
// ConsumePreXULSkeletonUIHandle we get a value other than 1 after
// incrementing, it means we're sleeping, and that function can assume that
// we will safely exit after the sleep because of the observed value of
// sAnimationControlFlag.
if (InterlockedIncrement(&sAnimationControlFlag) != 1) {
return 0;
}
// Note: Sleep does not guarantee an exact time interval. If the system is
// busy, for instance, we could easily end up taking several frames longer,
// and really we could be left unscheduled for an arbitrarily long time.
// This is fine, and we don't really care. We could track how much time this
// actually took and jump the animation forward the appropriate amount, but
// its not even clear that that's a better user experience. So we leave this
// as simple as we can.
::Sleep(16);
// Here we bring sAnimationControlFlag back down - again, if we don't get a
// 0 here it means we consumed the skeleton UI window in the mean time, so
// we can simply exit.
if (InterlockedDecrement(&sAnimationControlFlag) != 0) {
return 0;
}
}
return 0;
}
LRESULT WINAPI PreXULSkeletonUIProc(HWND hWnd, UINT msg, WPARAM wParam,
LPARAM lParam) {
// NOTE: this block was copied from WinUtils.cpp, and needs to be kept in
// sync.
if (msg == WM_NCCREATE && sEnableNonClientDpiScaling) {
sEnableNonClientDpiScaling(hWnd);
}
// NOTE: this block was paraphrased from the WM_NCCALCSIZE handler in
// nsWindow.cpp, and will need to be kept in sync.
if (msg == WM_NCCALCSIZE) {
RECT* clientRect =
wParam ? &(reinterpret_cast<NCCALCSIZE_PARAMS*>(lParam))->rgrc[0]
: (reinterpret_cast<RECT*>(lParam));
// These match the margins set in browser-tabsintitlebar.js with
// default prefs on Windows. Bug 1673092 tracks lining this up with
// that more correctly instead of hard-coding it.
int horizontalOffset =
sNonClientHorizontalMargins -
(sMaximized ? 0 : CSSToDevPixels(2, sCSSToDevPixelScaling));
int verticalOffset =
sNonClientHorizontalMargins -
(sMaximized ? 0 : CSSToDevPixels(2, sCSSToDevPixelScaling));
clientRect->top = clientRect->top;
clientRect->left += horizontalOffset;
clientRect->right -= horizontalOffset;
clientRect->bottom -= verticalOffset;
return 0;
}
return ::DefWindowProcW(hWnd, msg, wParam, lParam);
}
bool IsSystemDarkThemeEnabled() {
DWORD result;
HKEY themeKey;
DWORD dataLen = sizeof(uint32_t);
LPCWSTR keyName =
L"SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Themes\\Personalize";
result = ::RegOpenKeyExW(HKEY_CURRENT_USER, keyName, 0, KEY_READ, &themeKey);
if (result != ERROR_SUCCESS) {
return false;
}
AutoCloseRegKey closeKey(themeKey);
uint32_t lightThemeEnabled;
result = ::RegGetValueW(
themeKey, nullptr, L"AppsUseLightTheme", RRF_RT_REG_DWORD, nullptr,
reinterpret_cast<PBYTE>(&lightThemeEnabled), &dataLen);
if (result != ERROR_SUCCESS) {
return false;
}
return !lightThemeEnabled;
}
ThemeColors GetTheme(ThemeMode themeId) {
ThemeColors theme = {};
switch (themeId) {
case ThemeMode::Dark:
// Dark theme or default theme when in dark mode
// controlled by css variable --toolbar-bgcolor
theme.backgroundColor = 0x323234;
theme.toolbarForegroundColor = 0x6a6a6b;
// controlled by css variable --lwt-accent-color
theme.tabBarColor = 0x0c0c0d;
// controlled by --toolbar-non-lwt-textcolor in browser.css
theme.chromeContentDividerColor = 0x0c0c0d;
// controlled by css variable --tab-line-color
theme.tabLineColor = 0x0a84ff;
// controlled by css variable --lwt-toolbar-field-background-color
theme.urlbarColor = 0x474749;
// controlled by css variable --lwt-toolbar-field-border-color
theme.urlbarBorderColor = 0x5a5a5c;
theme.animationColor = theme.urlbarColor;
return theme;
case ThemeMode::Light:
// Light theme
// controlled by --toolbar-bgcolor
theme.backgroundColor = 0xf5f6f7;
theme.toolbarForegroundColor = 0xd9dadb;
// controlled by css variable --lwt-accent-color
theme.tabBarColor = 0xe3e4e6;
// --chrome-content-separator-color in browser.css
theme.chromeContentDividerColor = 0xcccccc;
// controlled by css variable --tab-line-color
theme.tabLineColor = 0x0a84ff;
// by css variable --lwt-toolbar-field-background-color
theme.urlbarColor = 0xffffff;
// controlled by css variable --lwt-toolbar-field-border-color
theme.urlbarBorderColor = 0xcccccc;
theme.animationColor = theme.backgroundColor;
return theme;
case ThemeMode::Default:
default:
// Default theme when not in dark mode
MOZ_ASSERT(themeId == ThemeMode::Default);
// --toolbar-non-lwt-bgcolor in browser.css
theme.backgroundColor = 0xf9f9fa;
theme.toolbarForegroundColor = 0xe5e5e5;
// found in browser-aero.css ":root[tabsintitlebar]:not(:-moz-lwtheme)"
// (set to "hsl(235,33%,19%)")
theme.tabBarColor = 0x202340;
// --chrome-content-separator-color in browser.css
theme.chromeContentDividerColor = 0xe2e1e3;
// controlled by css variable --tab-line-color
theme.tabLineColor = 0x0a84ff;
// controlled by css variable --toolbar-color
theme.urlbarColor = 0xffffff;
// controlled by css variable --lwt-toolbar-field-border-color
theme.urlbarBorderColor = 0xbebebe;
theme.animationColor = theme.backgroundColor;
return theme;
}
}
bool OpenPreXULSkeletonUIRegKey(HKEY& key) {
DWORD disposition;
LSTATUS result =
::RegCreateKeyExW(HKEY_CURRENT_USER, kPreXULSkeletonUIKeyPath, 0, nullptr,
0, KEY_ALL_ACCESS, nullptr, &key, &disposition);
if (result != ERROR_SUCCESS) {
return false;
}
if (disposition == REG_CREATED_NEW_KEY) {
return false;
}
if (disposition == REG_OPENED_EXISTING_KEY) {
return true;
}
::RegCloseKey(key);
return false;
}
bool LoadGdi32AndUser32Procedures() {
HMODULE user32Dll = ::LoadLibraryW(L"user32");
HMODULE gdi32Dll = ::LoadLibraryW(L"gdi32");
if (!user32Dll || !gdi32Dll) {
return false;
}
auto getThreadDpiAwarenessContext =
(decltype(GetThreadDpiAwarenessContext)*)::GetProcAddress(
user32Dll, "GetThreadDpiAwarenessContext");
auto areDpiAwarenessContextsEqual =
(decltype(AreDpiAwarenessContextsEqual)*)::GetProcAddress(
user32Dll, "AreDpiAwarenessContextsEqual");
if (getThreadDpiAwarenessContext && areDpiAwarenessContextsEqual &&
areDpiAwarenessContextsEqual(getThreadDpiAwarenessContext(),
DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE)) {
// EnableNonClientDpiScaling is optional - we can handle not having it.
sEnableNonClientDpiScaling =
(EnableNonClientDpiScalingProc)::GetProcAddress(
user32Dll, "EnableNonClientDpiScaling");
}
sGetSystemMetricsForDpi = (GetSystemMetricsForDpiProc)::GetProcAddress(
user32Dll, "GetSystemMetricsForDpi");
if (!sGetSystemMetricsForDpi) {
return false;
}
sGetDpiForWindow =
(GetDpiForWindowProc)::GetProcAddress(user32Dll, "GetDpiForWindow");
if (!sGetDpiForWindow) {
return false;
}
sRegisterClassW =
(RegisterClassWProc)::GetProcAddress(user32Dll, "RegisterClassW");
if (!sRegisterClassW) {
return false;
}
sCreateWindowExW =
(CreateWindowExWProc)::GetProcAddress(user32Dll, "CreateWindowExW");
if (!sCreateWindowExW) {
return false;
}
sShowWindow = (ShowWindowProc)::GetProcAddress(user32Dll, "ShowWindow");
if (!sShowWindow) {
return false;
}
sSetWindowPos = (SetWindowPosProc)::GetProcAddress(user32Dll, "SetWindowPos");
if (!sSetWindowPos) {
return false;
}
sGetWindowDC = (GetWindowDCProc)::GetProcAddress(user32Dll, "GetWindowDC");
if (!sGetWindowDC) {
return false;
}
sFillRect = (FillRectProc)::GetProcAddress(user32Dll, "FillRect");
if (!sFillRect) {
return false;
}
sReleaseDC = (ReleaseDCProc)::GetProcAddress(user32Dll, "ReleaseDC");
if (!sReleaseDC) {
return false;
}
sLoadIconW = (LoadIconWProc)::GetProcAddress(user32Dll, "LoadIconW");
if (!sLoadIconW) {
return false;
}
sLoadCursorW = (LoadCursorWProc)::GetProcAddress(user32Dll, "LoadCursorW");
if (!sLoadCursorW) {
return false;
}
sMonitorFromWindow =
(MonitorFromWindowProc)::GetProcAddress(user32Dll, "MonitorFromWindow");
if (!sMonitorFromWindow) {
return false;
}
sGetMonitorInfoW =
(GetMonitorInfoWProc)::GetProcAddress(user32Dll, "GetMonitorInfoW");
if (!sGetMonitorInfoW) {
return false;
}
sSetWindowLongPtrW =
(SetWindowLongPtrWProc)::GetProcAddress(user32Dll, "SetWindowLongPtrW");
if (!sSetWindowLongPtrW) {
return false;
}
sStretchDIBits =
(StretchDIBitsProc)::GetProcAddress(gdi32Dll, "StretchDIBits");
if (!sStretchDIBits) {
return false;
}
sCreateSolidBrush =
(CreateSolidBrushProc)::GetProcAddress(gdi32Dll, "CreateSolidBrush");
if (!sCreateSolidBrush) {
return false;
}
sDeleteObject = (DeleteObjectProc)::GetProcAddress(gdi32Dll, "DeleteObject");
if (!sDeleteObject) {
return false;
}
return true;
}
// Strips "--", "-", and "/" from the front of the arg if one of those exists,
// returning `arg + 2`, `arg + 1`, and `arg + 1` respectively. If none of these
// prefixes are found, the argument is not a flag, and nullptr is returned.
const char* NormalizeFlag(const char* arg) {
if (strstr(arg, "--") == arg) {
return arg + 2;
}
if (arg[0] == '-') {
return arg + 1;
}
if (arg[0] == '/') {
return arg + 1;
}
return nullptr;
}
static bool EnvHasValue(const char* name) {
const char* val = getenv(name);
return (val && *val);
}
// Ensures that we only see arguments in the command line which are acceptable.
// This is based on manual inspection of the list of arguments listed in the MDN
// page for Gecko/Firefox commandline options:
// https://developer.mozilla.org/en-US/docs/Mozilla/Command_Line_Options
// Broadly speaking, we want to reject any argument which causes us to show
// something other than the default window at its normal size. Here is a non-
// exhaustive list of command line options we want to *exclude*:
//
// -ProfileManager : This will display the profile manager window, which does
// not match the skeleton UI at all.
//
// -CreateProfile : This will display a firefox window with the default
// screen position and size, and not the position and size
// which we have recorded in the registry.
//
// -P <profile> : This could cause us to display firefox with a position
// and size of a different profile than that in which we
// were previously running.
//
// -width, -height : This will cause the width and height values in the
// registry to be incorrect.
//
// -kiosk : See above.
//
// -headless : This one should be rather obvious.
//
// -migration : This will start with the import wizard, which of course
// does not match the skeleton UI.
//
// -private-window : This is tricky, but the colors of the main content area
// make this not feel great with the white content of the
// default skeleton UI.
//
// NOTE: we generally want to skew towards erroneous rejections of the command
// line rather than erroneous approvals. The consequence of a bad rejection
// is that we don't show the skeleton UI, which is business as usual. The
// consequence of a bad approval is that we show it when we're not supposed to,
// which is visually jarring and can also be unpredictable - there's no
// guarantee that the code which handles the non-default window is set up to
// properly handle the transition from the skeleton UI window.
bool AreAllCmdlineArgumentsApproved(int argc, char** argv,
bool* explicitProfile) {
const char* approvedArgumentsArray[] = {
// These won't cause the browser to be visualy different in any way
"new-instance", "no-remote", "browser", "foreground", "setDefaultBrowser",
"attach-console", "wait-for-browser", "osint",
// These will cause the chrome to be a bit different or extra windows to
// be created, but overall the skeleton UI should still be broadly
// correct enough.
"new-tab", "new-window",
// To the extent possible, we want to ensure that existing tests cover
// the skeleton UI, so we need to allow marionette
"marionette",
// These will cause the content area to appear different, but won't
// meaningfully affect the chrome
"preferences", "search", "url",
#ifndef MOZILLA_OFFICIAL
// On local builds, we want to allow -profile, because it's how `mach run`
// operates, and excluding that would create an unnecessary blind spot for
// Firefox devs.
"profile"
#endif
// There are other arguments which are likely okay. However, they are
// not included here because this list is not intended to be
// exhaustive - it only intends to green-light some somewhat commonly
// used arguments. We want to err on the side of an unnecessary
// rejection of the command line.
};
int approvedArgumentsArraySize =
sizeof(approvedArgumentsArray) / sizeof(approvedArgumentsArray[0]);
Vector<const char*> approvedArguments;
if (!approvedArguments.reserve(approvedArgumentsArraySize)) {
return false;
}
for (int i = 0; i < approvedArgumentsArraySize; ++i) {
approvedArguments.infallibleAppend(approvedArgumentsArray[i]);
}
#ifdef MOZILLA_OFFICIAL
int profileArgIndex = -1;
// If we're running mochitests or direct marionette tests, those specify a
// temporary profile, and we want to ensure that we get the added coverage
// from those.
for (int i = 1; i < argc; ++i) {
const char* flag = NormalizeFlag(argv[i]);
if (flag && !strcmp(flag, "marionette")) {
if (!approvedArguments.append("profile")) {
return false;
}
profileArgIndex = approvedArguments.length() - 1;
break;
}
}
#else
int profileArgIndex = approvedArguments.length() - 1;
#endif
for (int i = 1; i < argc; ++i) {
const char* flag = NormalizeFlag(argv[i]);
if (!flag) {
// If this is not a flag, then we interpret it as a URL, similar to
// BrowserContentHandler.jsm. Some command line options take additional
// arguments, which may or may not be URLs. We don't need to know this,
// because we don't need to parse them out; we just rely on the
// assumption that if arg X is actually a parameter for the preceding
// arg Y, then X must not look like a flag (starting with "--", "-",
// or "/").
//
// The most important thing here is the assumption that if something is
// going to meaningfully alter the appearance of the window itself, it
// must be a flag.
continue;
}
bool approved = false;
for (const char* approvedArg : approvedArguments) {
// We do a case-insensitive compare here with _stricmp. Even though some
// of these arguments are *not* read as case-insensitive, others *are*.
// Similar to the flag logic above, we don't really care about this
// distinction, because we don't need to parse the arguments - we just
// rely on the assumption that none of the listed flags in our
// approvedArguments are overloaded in such a way that a different
// casing would visually alter the firefox window.
if (!_stricmp(flag, approvedArg)) {
approved = true;
if (i == profileArgIndex) {
*explicitProfile = true;
}
break;
}
}
if (!approved) {
return false;
}
}
return true;
}
static bool VerifyWindowDimensions(uint32_t windowWidth,
uint32_t windowHeight) {
return windowWidth <= kMaxWindowWidth && windowHeight <= kMaxWindowHeight;
}
void CreateAndStorePreXULSkeletonUI(HINSTANCE hInstance, int argc,
char** argv) {
#ifdef MOZ_GECKO_PROFILER
const TimeStamp skeletonStart = TimeStamp::NowUnfuzzed();
#endif
bool explicitProfile = false;
if (!AreAllCmdlineArgumentsApproved(argc, argv, &explicitProfile) ||
EnvHasValue("MOZ_SAFE_MODE_RESTART") || EnvHasValue("XRE_PROFILE_PATH") ||
EnvHasValue("MOZ_RESET_PROFILE_RESTART") || EnvHasValue("MOZ_HEADLESS")) {
sPreXULSkeletonUIDisallowed = true;
return;
}
HKEY regKey;
if (!IsWin10OrLater() || !OpenPreXULSkeletonUIRegKey(regKey)) {
return;
}
AutoCloseRegKey closeKey(regKey);
UniquePtr<wchar_t[]> binPath = GetBinaryPath();
DWORD dataLen = sizeof(uint32_t);
uint32_t enabled;
LSTATUS result = ::RegGetValueW(
regKey, nullptr,
GetRegValueName(binPath.get(), sEnabledRegSuffix).c_str(),
RRF_RT_REG_DWORD, nullptr, reinterpret_cast<PBYTE>(&enabled), &dataLen);
if (result != ERROR_SUCCESS || enabled == 0) {
return;
}
sPreXULSkeletonUIEnabled = true;
MOZ_ASSERT(!sAnimatedRects);
sAnimatedRects = new Vector<ColorRect>();
if (!LoadGdi32AndUser32Procedures()) {
return;
}
if (!TryGetSkeletonUILock()) {
printf_stderr("Error trying to get skeleton UI lock %lu\n", GetLastError());
return;
}
if (!explicitProfile && !CheckForStartWithLastProfile()) {
return;
}
WNDCLASSW wc;
wc.style = CS_DBLCLKS;
wc.lpfnWndProc = PreXULSkeletonUIProc;
wc.cbClsExtra = 0;
wc.cbWndExtra = 0;
wc.hInstance = hInstance;
wc.hIcon = sLoadIconW(::GetModuleHandleW(nullptr), gStockApplicationIcon);
wc.hCursor = sLoadCursorW(hInstance, gIDCWait);
wc.hbrBackground = nullptr;
wc.lpszMenuName = nullptr;
// TODO: just ensure we disable this if we've overridden the window class
wc.lpszClassName = L"MozillaWindowClass";
if (!sRegisterClassW(&wc)) {
printf_stderr("RegisterClassW error %lu\n", GetLastError());
return;
}
uint32_t screenX;
result = ::RegGetValueW(
regKey, nullptr,
GetRegValueName(binPath.get(), sScreenXRegSuffix).c_str(),
RRF_RT_REG_DWORD, nullptr, reinterpret_cast<PBYTE>(&screenX), &dataLen);
if (result != ERROR_SUCCESS) {
printf_stderr("Error reading screenX %lu\n", GetLastError());
return;
}
uint32_t screenY;
result = ::RegGetValueW(
regKey, nullptr,
GetRegValueName(binPath.get(), sScreenYRegSuffix).c_str(),
RRF_RT_REG_DWORD, nullptr, reinterpret_cast<PBYTE>(&screenY), &dataLen);
if (result != ERROR_SUCCESS) {
printf_stderr("Error reading screenY %lu\n", GetLastError());
return;
}
uint32_t windowWidth;
result = ::RegGetValueW(
regKey, nullptr, GetRegValueName(binPath.get(), sWidthRegSuffix).c_str(),
RRF_RT_REG_DWORD, nullptr, reinterpret_cast<PBYTE>(&windowWidth),
&dataLen);
if (result != ERROR_SUCCESS) {
printf_stderr("Error reading width %lu\n", GetLastError());
return;
}
uint32_t windowHeight;
result = ::RegGetValueW(
regKey, nullptr, GetRegValueName(binPath.get(), sHeightRegSuffix).c_str(),
RRF_RT_REG_DWORD, nullptr, reinterpret_cast<PBYTE>(&windowHeight),
&dataLen);
if (result != ERROR_SUCCESS) {
printf_stderr("Error reading height %lu\n", GetLastError());
return;
}
uint32_t maximized;
result = ::RegGetValueW(
regKey, nullptr,
GetRegValueName(binPath.get(), sMaximizedRegSuffix).c_str(),
RRF_RT_REG_DWORD, nullptr, reinterpret_cast<PBYTE>(&maximized), &dataLen);
if (result != ERROR_SUCCESS) {
printf_stderr("Error reading maximized %lu\n", GetLastError());
return;
}
sMaximized = maximized != 0;
EnumSet<SkeletonUIFlag, uint32_t> flags;
uint32_t flagsUint;
result = ::RegGetValueW(
regKey, nullptr, GetRegValueName(binPath.get(), sFlagsRegSuffix).c_str(),
RRF_RT_REG_DWORD, nullptr, reinterpret_cast<PBYTE>(&flagsUint), &dataLen);
if (result != ERROR_SUCCESS) {
printf_stderr("Error reading flags %lu\n", GetLastError());
return;
}
flags.deserialize(flagsUint);
dataLen = sizeof(double);
result = ::RegGetValueW(
regKey, nullptr,
GetRegValueName(binPath.get(), sCssToDevPixelScalingRegSuffix).c_str(),
RRF_RT_REG_BINARY, nullptr,
reinterpret_cast<PBYTE>(&sCSSToDevPixelScaling), &dataLen);
if (result != ERROR_SUCCESS || dataLen != sizeof(double)) {
printf_stderr("Error reading cssToDevPixelScaling %lu\n", GetLastError());
return;
}
int showCmd = SW_SHOWNORMAL;
DWORD windowStyle = kPreXULSkeletonUIWindowStyle;
if (sMaximized) {
showCmd = SW_SHOWMAXIMIZED;
windowStyle |= WS_MAXIMIZE;
}
dataLen = 2 * sizeof(double);
auto buffer = MakeUniqueFallible<wchar_t[]>(2 * sizeof(double));
if (!buffer) {
return;
}
result = ::RegGetValueW(
regKey, nullptr,
GetRegValueName(binPath.get(), sUrlbarCSSRegSuffix).c_str(),
RRF_RT_REG_BINARY, nullptr, reinterpret_cast<PBYTE>(buffer.get()),
&dataLen);
if (result != ERROR_SUCCESS || dataLen % (2 * sizeof(double)) != 0) {
printf_stderr("Error reading urlbar %lu\n", GetLastError());
return;
}
double* asDoubles = reinterpret_cast<double*>(buffer.get());
CSSPixelSpan urlbar;
urlbar.start = *(asDoubles++);
urlbar.end = *(asDoubles++);
result = ::RegGetValueW(
regKey, nullptr,
GetRegValueName(binPath.get(), sSearchbarRegSuffix).c_str(),
RRF_RT_REG_BINARY, nullptr, reinterpret_cast<PBYTE>(buffer.get()),
&dataLen);
if (result != ERROR_SUCCESS || dataLen % (2 * sizeof(double)) != 0) {
printf_stderr("Error reading searchbar %lu\n", GetLastError());
return;
}
asDoubles = reinterpret_cast<double*>(buffer.get());
CSSPixelSpan searchbar;
searchbar.start = *(asDoubles++);
searchbar.end = *(asDoubles++);
result = ::RegQueryValueExW(
regKey, GetRegValueName(binPath.get(), sSpringsCSSRegSuffix).c_str(),
nullptr, nullptr, nullptr, &dataLen);
if (result != ERROR_SUCCESS || dataLen % (2 * sizeof(double)) != 0) {
printf_stderr("Error reading springsCSS %lu\n", GetLastError());
return;
}
buffer = MakeUniqueFallible<wchar_t[]>(dataLen);
if (!buffer) {
return;
}
result = ::RegGetValueW(
regKey, nullptr,
GetRegValueName(binPath.get(), sSpringsCSSRegSuffix).c_str(),
RRF_RT_REG_BINARY, nullptr, reinterpret_cast<PBYTE>(buffer.get()),
&dataLen);
if (result != ERROR_SUCCESS) {
printf_stderr("Error reading springsCSS %lu\n", GetLastError());
return;
}
Vector<CSSPixelSpan> springs;
asDoubles = reinterpret_cast<double*>(buffer.get());
for (int i = 0; i < dataLen / (2 * sizeof(double)); i++) {
CSSPixelSpan spring;
spring.start = *(asDoubles++);
spring.end = *(asDoubles++);
if (!springs.append(spring)) {
return;
}
}
dataLen = sizeof(uint32_t);
uint32_t theme;
result = ::RegGetValueW(
regKey, nullptr, GetRegValueName(binPath.get(), sThemeRegSuffix).c_str(),
RRF_RT_REG_DWORD, nullptr, reinterpret_cast<PBYTE>(&theme), &dataLen);
if (result != ERROR_SUCCESS) {
printf_stderr("Error reading theme %lu\n", GetLastError());
return;
}
ThemeMode themeMode = static_cast<ThemeMode>(theme);
if (themeMode == ThemeMode::Default) {
if (IsSystemDarkThemeEnabled() == true) {
themeMode = ThemeMode::Dark;
}
}
ThemeColors currentTheme = GetTheme(themeMode);
if (!VerifyWindowDimensions(windowWidth, windowHeight)) {
printf_stderr("Bad window dimensions for skeleton UI.");
return;
}
sPreXULSkeletonUIWindow =
sCreateWindowExW(kPreXULSkeletonUIWindowStyleEx, L"MozillaWindowClass",
L"", windowStyle, screenX, screenY, windowWidth,
windowHeight, nullptr, nullptr, hInstance, nullptr);
sShowWindow(sPreXULSkeletonUIWindow, showCmd);
sDpi = sGetDpiForWindow(sPreXULSkeletonUIWindow);
sNonClientHorizontalMargins =
sGetSystemMetricsForDpi(SM_CXFRAME, sDpi) +
sGetSystemMetricsForDpi(SM_CXPADDEDBORDER, sDpi);
sNonClientVerticalMargins = sGetSystemMetricsForDpi(SM_CYFRAME, sDpi) +
sGetSystemMetricsForDpi(SM_CXPADDEDBORDER, sDpi);
if (sMaximized) {
HMONITOR monitor =
sMonitorFromWindow(sPreXULSkeletonUIWindow, MONITOR_DEFAULTTONULL);
if (!monitor) {
// NOTE: we specifically don't clean up the window here. If we're unable
// to finish setting up the window how we want it, we still need to keep
// it around and consume it with the first real toplevel window we
// create, to avoid flickering.
return;
}
MONITORINFO mi = {sizeof(MONITORINFO)};
if (!sGetMonitorInfoW(monitor, &mi)) {
return;
}
sWindowWidth =
mi.rcWork.right - mi.rcWork.left + sNonClientHorizontalMargins * 2;
sWindowHeight =
mi.rcWork.bottom - mi.rcWork.top + sNonClientVerticalMargins * 2;
} else {
sWindowWidth = static_cast<int>(windowWidth);
sWindowHeight = static_cast<int>(windowHeight);
}
sSetWindowPos(sPreXULSkeletonUIWindow, 0, 0, 0, 0, 0,
SWP_FRAMECHANGED | SWP_NOACTIVATE | SWP_NOMOVE |
SWP_NOOWNERZORDER | SWP_NOSIZE | SWP_NOZORDER);
DrawSkeletonUI(sPreXULSkeletonUIWindow, urlbar, searchbar, springs,
currentTheme, flags);
if (sAnimatedRects) {
sPreXULSKeletonUIAnimationThread = ::CreateThread(
nullptr, 256 * 1024, AnimateSkeletonUI, nullptr, 0, nullptr);
}
BASE_PROFILER_MARKER_UNTYPED(
"CreatePreXULSkeletonUI", OTHER,
MarkerTiming::IntervalUntilNowFrom(skeletonStart));
}
bool WasPreXULSkeletonUIMaximized() { return sMaximized; }
HWND ConsumePreXULSkeletonUIHandle() {
// NOTE: we need to make sure that everything that runs here is a no-op if
// it failed to be set, which is a possibility. If anything fails to be set
// we don't want to clean everything up right away, because if we have a
// blank window up, we want that to stick around and get consumed by nsWindow
// as normal, otherwise the window will flicker in and out, which we imagine
// is unpleasant.
// If we don't get 1 here, it means the thread is actually just sleeping, so
// we don't need to worry about giving out ownership of the window, because
// the thread will simply exit after its sleep. However, if it is 1, we need
// to wait for the thread to exit to be safe, as it could be doing anything.
if (InterlockedIncrement(&sAnimationControlFlag) == 1) {
::WaitForSingleObject(sPreXULSKeletonUIAnimationThread, INFINITE);
}
::CloseHandle(sPreXULSKeletonUIAnimationThread);
sPreXULSKeletonUIAnimationThread = nullptr;
HWND result = sPreXULSkeletonUIWindow;
sPreXULSkeletonUIWindow = nullptr;
free(sPixelBuffer);
sPixelBuffer = nullptr;
delete sAnimatedRects;
sAnimatedRects = nullptr;
return result;
}
void PersistPreXULSkeletonUIValues(const SkeletonUISettings& settings) {
if (!sPreXULSkeletonUIEnabled) {
return;
}
HKEY regKey;
if (!OpenPreXULSkeletonUIRegKey(regKey)) {
return;
}
AutoCloseRegKey closeKey(regKey);
UniquePtr<wchar_t[]> binPath = GetBinaryPath();
LSTATUS result;
result = ::RegSetValueExW(
regKey, GetRegValueName(binPath.get(), sScreenXRegSuffix).c_str(), 0,
REG_DWORD, reinterpret_cast<const BYTE*>(&settings.screenX),
sizeof(settings.screenX));
if (result != ERROR_SUCCESS) {
printf_stderr("Failed persisting screenX to Windows registry\n");
return;
}
result = ::RegSetValueExW(
regKey, GetRegValueName(binPath.get(), sScreenYRegSuffix).c_str(), 0,
REG_DWORD, reinterpret_cast<const BYTE*>(&settings.screenY),
sizeof(settings.screenY));
if (result != ERROR_SUCCESS) {
printf_stderr("Failed persisting screenY to Windows registry\n");
return;
}
result = ::RegSetValueExW(
regKey, GetRegValueName(binPath.get(), sWidthRegSuffix).c_str(), 0,
REG_DWORD, reinterpret_cast<const BYTE*>(&settings.width),
sizeof(settings.width));
if (result != ERROR_SUCCESS) {
printf_stderr("Failed persisting width to Windows registry\n");
return;
}
result = ::RegSetValueExW(
regKey, GetRegValueName(binPath.get(), sHeightRegSuffix).c_str(), 0,
REG_DWORD, reinterpret_cast<const BYTE*>(&settings.height),
sizeof(settings.height));
if (result != ERROR_SUCCESS) {
printf_stderr("Failed persisting height to Windows registry\n");
return;
}
DWORD maximizedDword = settings.maximized ? 1 : 0;
result = ::RegSetValueExW(
regKey, GetRegValueName(binPath.get(), sMaximizedRegSuffix).c_str(), 0,
REG_DWORD, reinterpret_cast<const BYTE*>(&maximizedDword),
sizeof(maximizedDword));
if (result != ERROR_SUCCESS) {
printf_stderr("Failed persisting maximized to Windows registry\n");
}
EnumSet<SkeletonUIFlag, uint32_t> flags;
if (settings.menubarShown) {
flags += SkeletonUIFlag::MenubarShown;
}
if (settings.bookmarksToolbarShown) {
flags += SkeletonUIFlag::BookmarksToolbarShown;
}
if (settings.rtlEnabled) {
flags += SkeletonUIFlag::RtlEnabled;
}
uint32_t flagsUint = flags.serialize();
result = ::RegSetValueExW(
regKey, GetRegValueName(binPath.get(), sFlagsRegSuffix).c_str(), 0,
REG_DWORD, reinterpret_cast<const BYTE*>(&flagsUint), sizeof(flagsUint));
if (result != ERROR_SUCCESS) {
printf_stderr("Failed persisting flags to Windows registry\n");
return;
}
result = ::RegSetValueExW(
regKey,
GetRegValueName(binPath.get(), sCssToDevPixelScalingRegSuffix).c_str(), 0,
REG_BINARY, reinterpret_cast<const BYTE*>(&settings.cssToDevPixelScaling),
sizeof(settings.cssToDevPixelScaling));
if (result != ERROR_SUCCESS) {
printf_stderr(
"Failed persisting cssToDevPixelScaling to Windows registry\n");
return;
}
double urlbar[2];
urlbar[0] = settings.urlbarSpan.start;
urlbar[1] = settings.urlbarSpan.end;
result = ::RegSetValueExW(
regKey, GetRegValueName(binPath.get(), sUrlbarCSSRegSuffix).c_str(), 0,
REG_BINARY, reinterpret_cast<const BYTE*>(urlbar), sizeof(urlbar));
if (result != ERROR_SUCCESS) {
printf_stderr("Failed persisting urlbar to Windows registry\n");
return;
}
double searchbar[2];
searchbar[0] = settings.searchbarSpan.start;
searchbar[1] = settings.searchbarSpan.end;
result = ::RegSetValueExW(
regKey, GetRegValueName(binPath.get(), sSearchbarRegSuffix).c_str(), 0,
REG_BINARY, reinterpret_cast<const BYTE*>(searchbar), sizeof(searchbar));
if (result != ERROR_SUCCESS) {
printf_stderr("Failed persisting searchbar to Windows registry\n");
return;
}
Vector<double> springValues;
if (!springValues.reserve(settings.springs.length() * 2)) {
return;
}
for (auto spring : settings.springs) {
springValues.infallibleAppend(spring.start);
springValues.infallibleAppend(spring.end);
}
result = ::RegSetValueExW(
regKey, GetRegValueName(binPath.get(), sSpringsCSSRegSuffix).c_str(), 0,
REG_BINARY, reinterpret_cast<const BYTE*>(springValues.begin()),
springValues.length() * sizeof(double));
if (result != ERROR_SUCCESS) {
printf_stderr("Failed persisting springsCSS to Windows registry\n");
return;
}
}
MFBT_API bool GetPreXULSkeletonUIEnabled() { return sPreXULSkeletonUIEnabled; }
MFBT_API void SetPreXULSkeletonUIEnabledIfAllowed(bool value) {
// If the pre-XUL skeleton UI was disallowed for some reason, we just want to
// ignore changes to the registry. An example of how things could be bad if
// we didn't: someone running firefox with the -profile argument could
// turn the skeleton UI on or off for the default profile. Turning it off
// maybe isn't so bad (though it's likely still incorrect), but turning it
// on could be bad if the user had specifically disabled it for a profile for
// some reason. Ultimately there's no correct decision here, and the
// messiness of this is just a consequence of sharing the registry values
// across profiles. However, whatever ill effects we observe should be
// correct themselves after one session.
if (sPreXULSkeletonUIDisallowed) {
return;
}
HKEY regKey;
if (!OpenPreXULSkeletonUIRegKey(regKey)) {
return;
}
AutoCloseRegKey closeKey(regKey);
UniquePtr<wchar_t[]> binPath = GetBinaryPath();
DWORD enabled = value;
LSTATUS result = ::RegSetValueExW(
regKey, GetRegValueName(binPath.get(), sEnabledRegSuffix).c_str(), 0,
REG_DWORD, reinterpret_cast<PBYTE>(&enabled), sizeof(enabled));
if (result != ERROR_SUCCESS) {
printf_stderr("Failed persisting enabled to Windows registry\n");
return;
}
if (!sPreXULSkeletonUIEnabled && value) {
// We specifically don't care if we fail to get this lock. We just want to
// do our best effort to lock it so that future instances don't create
// skeleton UIs while we're still running, since they will immediately exit
// and tell us to open a new window.
Unused << TryGetSkeletonUILock();
}
sPreXULSkeletonUIEnabled = value;
}
MFBT_API void SetPreXULSkeletonUIThemeId(ThemeMode theme) {
if (theme == sTheme) {
return;
}
HKEY regKey;
if (!OpenPreXULSkeletonUIRegKey(regKey)) {
return;
}
AutoCloseRegKey closeKey(regKey);
UniquePtr<wchar_t[]> binPath = GetBinaryPath();
uint32_t themeId = (uint32_t)theme;
LSTATUS result;
result = ::RegSetValueExW(
regKey, GetRegValueName(binPath.get(), sThemeRegSuffix).c_str(), 0,
REG_DWORD, reinterpret_cast<PBYTE>(&themeId), sizeof(themeId));
if (result != ERROR_SUCCESS) {
printf_stderr("Failed persisting theme to Windows registry\n");
sTheme = ThemeMode::Invalid;
return;
}
sTheme = static_cast<ThemeMode>(themeId);
}
MFBT_API void PollPreXULSkeletonUIEvents() {
if (sPreXULSkeletonUIEnabled && sPreXULSkeletonUIWindow) {
MSG outMsg = {};
PeekMessageW(&outMsg, sPreXULSkeletonUIWindow, 0, 0, 0);
}
}
} // namespace mozilla
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