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fune/xpcom/io/FileUtilsWin.h
Andrew Osmond b87e7bad97 Bug 1811981 - Add ability to run both x86 and ARM Widevine plugins on Windows ARM. r=jld 
This patch adds the ability for Windows on ARM to launch either x86 or
ARM Widevine plugins. It also adds the ability for Windows on x86 to
refuse ARM binaries in case, for example, a profile is transferred
between machines.

Overall this should be a non-functional change for users at the time of
landing. It does however allow us to ship the ARM Widevine plugin to
Windows ARM users to workaround a plugin crash with the x86 Widevine
plugin. This only affects Windows 10 users (Windows 11 works fine).

Differential Revision: https://phabricator.services.mozilla.com/D167634
2023-01-31 20:57:11 +00:00

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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/. */
#ifndef mozilla_FileUtilsWin_h
#define mozilla_FileUtilsWin_h
#include <windows.h>
#include "mozilla/Scoped.h"
#include "nsString.h"
namespace mozilla {
inline bool EnsureLongPath(nsAString& aDosPath) {
nsAutoString inputPath(aDosPath);
while (true) {
DWORD requiredLength = GetLongPathNameW(
inputPath.get(), reinterpret_cast<wchar_t*>(aDosPath.BeginWriting()),
aDosPath.Length());
if (!requiredLength) {
return false;
}
if (requiredLength < aDosPath.Length()) {
// When GetLongPathNameW deems the last argument too small,
// it returns a value, but when you pass that value back, it's
// satisfied and returns a number that's one smaller. If the above
// check was == instead of <, the loop would go on forever with
// GetLongPathNameW returning oscillating values!
aDosPath.Truncate(requiredLength);
return true;
}
aDosPath.SetLength(requiredLength);
}
}
inline bool NtPathToDosPath(const nsAString& aNtPath, nsAString& aDosPath) {
aDosPath.Truncate();
if (aNtPath.IsEmpty()) {
return true;
}
constexpr auto symLinkPrefix = u"\\??\\"_ns;
uint32_t ntPathLen = aNtPath.Length();
uint32_t symLinkPrefixLen = symLinkPrefix.Length();
if (ntPathLen >= 6 && aNtPath.CharAt(5) == L':' &&
ntPathLen >= symLinkPrefixLen &&
Substring(aNtPath, 0, symLinkPrefixLen).Equals(symLinkPrefix)) {
// Symbolic link for DOS device. Just strip off the prefix.
aDosPath = aNtPath;
aDosPath.Cut(0, 4);
return true;
}
nsAutoString logicalDrives;
while (true) {
DWORD requiredLength = GetLogicalDriveStringsW(
logicalDrives.Length(),
reinterpret_cast<wchar_t*>(logicalDrives.BeginWriting()));
if (!requiredLength) {
return false;
}
if (requiredLength < logicalDrives.Length()) {
// When GetLogicalDriveStringsW deems the first argument too small,
// it returns a value, but when you pass that value back, it's
// satisfied and returns a number that's one smaller. If the above
// check was == instead of <, the loop would go on forever with
// GetLogicalDriveStringsW returning oscillating values!
logicalDrives.Truncate(requiredLength);
// logicalDrives now has the format "C:\\\0D:\\\0Z:\\\0". That is,
// the sequence drive letter, colon, backslash, U+0000 repeats.
break;
}
logicalDrives.SetLength(requiredLength);
}
const char16_t* cur = logicalDrives.BeginReading();
const char16_t* end = logicalDrives.EndReading();
nsString targetPath;
targetPath.SetLength(MAX_PATH);
wchar_t driveTemplate[] = L" :";
while (cur < end) {
// Unfortunately QueryDosDevice doesn't support the idiom for querying the
// output buffer size, so it may require retries.
driveTemplate[0] = *cur;
DWORD targetPathLen = 0;
SetLastError(ERROR_SUCCESS);
while (true) {
targetPathLen = QueryDosDeviceW(
driveTemplate, reinterpret_cast<wchar_t*>(targetPath.BeginWriting()),
targetPath.Length());
if (targetPathLen || GetLastError() != ERROR_INSUFFICIENT_BUFFER) {
break;
}
targetPath.SetLength(targetPath.Length() * 2);
}
if (targetPathLen) {
// Need to use wcslen here because targetPath contains embedded NULL chars
size_t firstTargetPathLen = wcslen(targetPath.get());
const char16_t* pathComponent =
aNtPath.BeginReading() + firstTargetPathLen;
bool found = _wcsnicmp(char16ptr_t(aNtPath.BeginReading()),
targetPath.get(), firstTargetPathLen) == 0 &&
*pathComponent == L'\\';
if (found) {
aDosPath = driveTemplate;
aDosPath += pathComponent;
return EnsureLongPath(aDosPath);
}
}
// Find the next U+0000 within the logical string
while (*cur) {
// This loop skips the drive letter, the colon
// and the backslash.
cur++;
}
// Skip over the U+0000 that ends a drive entry
// within the logical string
cur++;
}
// Try to handle UNC paths. NB: This must happen after we've checked drive
// mappings in case a UNC path is mapped to a drive!
constexpr auto uncPrefix = u"\\\\"_ns;
constexpr auto deviceMupPrefix = u"\\Device\\Mup\\"_ns;
if (StringBeginsWith(aNtPath, deviceMupPrefix)) {
aDosPath = uncPrefix;
aDosPath += Substring(aNtPath, deviceMupPrefix.Length());
return true;
}
constexpr auto deviceLanmanRedirectorPrefix =
u"\\Device\\LanmanRedirector\\"_ns;
if (StringBeginsWith(aNtPath, deviceLanmanRedirectorPrefix)) {
aDosPath = uncPrefix;
aDosPath += Substring(aNtPath, deviceLanmanRedirectorPrefix.Length());
return true;
}
return false;
}
bool HandleToFilename(HANDLE aHandle, const LARGE_INTEGER& aOffset,
nsAString& aFilename);
uint32_t GetExecutableArchitecture(const wchar_t* aPath);
} // namespace mozilla
#endif // mozilla_FileUtilsWin_h
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