506 lines
16 KiB
C++
506 lines
16 KiB
C++
//===- Win32/Process.cpp - Win32 Process Implementation ------- -*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file provides the Win32 specific implementation of the Process class.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Support/Allocator.h"
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#include "llvm/Support/CommandLine.h"
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#include "llvm/Support/ConvertUTF.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/StringSaver.h"
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#include "llvm/Support/WindowsError.h"
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#include <malloc.h>
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// The Windows.h header must be after LLVM and standard headers.
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#include "llvm/Support/Windows/WindowsSupport.h"
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#include <direct.h>
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#include <io.h>
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#include <psapi.h>
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#include <shellapi.h>
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#if !defined(__MINGW32__)
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#pragma comment(lib, "psapi.lib")
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#pragma comment(lib, "shell32.lib")
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#endif
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//===----------------------------------------------------------------------===//
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//=== WARNING: Implementation here must contain only Win32 specific code
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//=== and must not be UNIX code
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//===----------------------------------------------------------------------===//
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#ifdef __MINGW32__
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// This ban should be lifted when MinGW 1.0+ has defined this value.
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# define _HEAPOK (-2)
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#endif
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using namespace llvm;
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Process::Pid Process::getProcessId() {
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static_assert(sizeof(Pid) >= sizeof(DWORD),
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"Process::Pid should be big enough to store DWORD");
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return Pid(::GetCurrentProcessId());
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}
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// This function retrieves the page size using GetNativeSystemInfo() and is
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// present solely so it can be called once to initialize the self_process member
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// below.
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static unsigned computePageSize() {
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// GetNativeSystemInfo() provides the physical page size which may differ
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// from GetSystemInfo() in 32-bit applications running under WOW64.
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SYSTEM_INFO info;
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GetNativeSystemInfo(&info);
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// FIXME: FileOffset in MapViewOfFile() should be aligned to not dwPageSize,
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// but dwAllocationGranularity.
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return static_cast<unsigned>(info.dwPageSize);
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}
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Expected<unsigned> Process::getPageSize() {
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static unsigned Ret = computePageSize();
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return Ret;
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}
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size_t
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Process::GetMallocUsage()
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{
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_HEAPINFO hinfo;
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hinfo._pentry = NULL;
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size_t size = 0;
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while (_heapwalk(&hinfo) == _HEAPOK)
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size += hinfo._size;
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return size;
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}
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void Process::GetTimeUsage(TimePoint<> &elapsed, std::chrono::nanoseconds &user_time,
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std::chrono::nanoseconds &sys_time) {
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elapsed = std::chrono::system_clock::now();;
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FILETIME ProcCreate, ProcExit, KernelTime, UserTime;
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if (GetProcessTimes(GetCurrentProcess(), &ProcCreate, &ProcExit, &KernelTime,
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&UserTime) == 0)
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return;
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user_time = toDuration(UserTime);
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sys_time = toDuration(KernelTime);
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}
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// Some LLVM programs such as bugpoint produce core files as a normal part of
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// their operation. To prevent the disk from filling up, this configuration
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// item does what's necessary to prevent their generation.
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void Process::PreventCoreFiles() {
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// Windows does have the concept of core files, called minidumps. However,
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// disabling minidumps for a particular application extends past the lifetime
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// of that application, which is the incorrect behavior for this API.
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// Additionally, the APIs require elevated privileges to disable and re-
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// enable minidumps, which makes this untenable. For more information, see
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// WerAddExcludedApplication and WerRemoveExcludedApplication (Vista and
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// later).
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//
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// Windows also has modal pop-up message boxes. As this method is used by
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// bugpoint, preventing these pop-ups is additionally important.
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SetErrorMode(SEM_FAILCRITICALERRORS |
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SEM_NOGPFAULTERRORBOX |
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SEM_NOOPENFILEERRORBOX);
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coreFilesPrevented = true;
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}
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/// Returns the environment variable \arg Name's value as a string encoded in
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/// UTF-8. \arg Name is assumed to be in UTF-8 encoding.
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Optional<std::string> Process::GetEnv(StringRef Name) {
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// Convert the argument to UTF-16 to pass it to _wgetenv().
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SmallVector<wchar_t, 128> NameUTF16;
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if (windows::UTF8ToUTF16(Name, NameUTF16))
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return None;
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// Environment variable can be encoded in non-UTF8 encoding, and there's no
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// way to know what the encoding is. The only reliable way to look up
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// multibyte environment variable is to use GetEnvironmentVariableW().
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SmallVector<wchar_t, MAX_PATH> Buf;
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size_t Size = MAX_PATH;
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do {
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Buf.reserve(Size);
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SetLastError(NO_ERROR);
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Size =
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GetEnvironmentVariableW(NameUTF16.data(), Buf.data(), Buf.capacity());
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if (Size == 0 && GetLastError() == ERROR_ENVVAR_NOT_FOUND)
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return None;
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// Try again with larger buffer.
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} while (Size > Buf.capacity());
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Buf.set_size(Size);
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// Convert the result from UTF-16 to UTF-8.
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SmallVector<char, MAX_PATH> Res;
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if (windows::UTF16ToUTF8(Buf.data(), Size, Res))
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return None;
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return std::string(Res.data());
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}
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/// Perform wildcard expansion of Arg, or just push it into Args if it doesn't
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/// have wildcards or doesn't match any files.
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static std::error_code WildcardExpand(StringRef Arg,
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SmallVectorImpl<const char *> &Args,
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StringSaver &Saver) {
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std::error_code EC;
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// Don't expand Arg if it does not contain any wildcard characters. This is
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// the common case. Also don't wildcard expand /?. Always treat it as an
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// option.
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if (Arg.find_first_of("*?") == StringRef::npos || Arg == "/?" ||
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Arg == "-?") {
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Args.push_back(Arg.data());
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return EC;
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}
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// Convert back to UTF-16 so we can call FindFirstFileW.
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SmallVector<wchar_t, MAX_PATH> ArgW;
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EC = windows::UTF8ToUTF16(Arg, ArgW);
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if (EC)
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return EC;
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// Search for matching files.
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// FIXME: This assumes the wildcard is only in the file name and not in the
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// directory portion of the file path. For example, it doesn't handle
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// "*\foo.c" nor "s?c\bar.cpp".
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WIN32_FIND_DATAW FileData;
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HANDLE FindHandle = FindFirstFileW(ArgW.data(), &FileData);
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if (FindHandle == INVALID_HANDLE_VALUE) {
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Args.push_back(Arg.data());
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return EC;
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}
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// Extract any directory part of the argument.
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SmallString<MAX_PATH> Dir = Arg;
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sys::path::remove_filename(Dir);
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const int DirSize = Dir.size();
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do {
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SmallString<MAX_PATH> FileName;
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EC = windows::UTF16ToUTF8(FileData.cFileName, wcslen(FileData.cFileName),
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FileName);
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if (EC)
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break;
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// Append FileName to Dir, and remove it afterwards.
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llvm::sys::path::append(Dir, FileName);
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Args.push_back(Saver.save(StringRef(Dir)).data());
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Dir.resize(DirSize);
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} while (FindNextFileW(FindHandle, &FileData));
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FindClose(FindHandle);
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return EC;
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}
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static std::error_code GetExecutableName(SmallVectorImpl<char> &Filename) {
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// The first argument may contain just the name of the executable (e.g.,
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// "clang") rather than the full path, so swap it with the full path.
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wchar_t ModuleName[MAX_PATH];
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size_t Length = ::GetModuleFileNameW(NULL, ModuleName, MAX_PATH);
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if (Length == 0 || Length == MAX_PATH) {
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return mapWindowsError(GetLastError());
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}
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// If the first argument is a shortened (8.3) name (which is possible even
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// if we got the module name), the driver will have trouble distinguishing it
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// (e.g., clang.exe v. clang++.exe), so expand it now.
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Length = GetLongPathNameW(ModuleName, ModuleName, MAX_PATH);
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if (Length == 0)
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return mapWindowsError(GetLastError());
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if (Length > MAX_PATH) {
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// We're not going to try to deal with paths longer than MAX_PATH, so we'll
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// treat this as an error. GetLastError() returns ERROR_SUCCESS, which
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// isn't useful, so we'll hardcode an appropriate error value.
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return mapWindowsError(ERROR_INSUFFICIENT_BUFFER);
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}
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std::error_code EC = windows::UTF16ToUTF8(ModuleName, Length, Filename);
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if (EC)
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return EC;
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// Make a copy of the filename since assign makes the StringRef invalid.
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std::string Base = sys::path::filename(Filename.data()).str();
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Filename.assign(Base.begin(), Base.end());
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return std::error_code();
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}
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std::error_code
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windows::GetCommandLineArguments(SmallVectorImpl<const char *> &Args,
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BumpPtrAllocator &Alloc) {
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const wchar_t *CmdW = GetCommandLineW();
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assert(CmdW);
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std::error_code EC;
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SmallString<MAX_PATH> Cmd;
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EC = windows::UTF16ToUTF8(CmdW, wcslen(CmdW), Cmd);
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if (EC)
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return EC;
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SmallVector<const char *, 20> TmpArgs;
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StringSaver Saver(Alloc);
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cl::TokenizeWindowsCommandLine(Cmd, Saver, TmpArgs, /*MarkEOLs=*/false);
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for (const char *Arg : TmpArgs) {
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EC = WildcardExpand(Arg, Args, Saver);
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if (EC)
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return EC;
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}
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SmallVector<char, MAX_PATH> Arg0(Args[0], Args[0] + strlen(Args[0]));
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SmallVector<char, MAX_PATH> Filename;
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sys::path::remove_filename(Arg0);
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EC = GetExecutableName(Filename);
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if (EC)
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return EC;
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sys::path::append(Arg0, Filename);
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Args[0] = Saver.save(Arg0).data();
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return std::error_code();
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}
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std::error_code Process::FixupStandardFileDescriptors() {
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return std::error_code();
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}
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std::error_code Process::SafelyCloseFileDescriptor(int FD) {
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if (::close(FD) < 0)
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return std::error_code(errno, std::generic_category());
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return std::error_code();
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}
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bool Process::StandardInIsUserInput() {
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return FileDescriptorIsDisplayed(0);
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}
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bool Process::StandardOutIsDisplayed() {
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return FileDescriptorIsDisplayed(1);
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}
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bool Process::StandardErrIsDisplayed() {
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return FileDescriptorIsDisplayed(2);
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}
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bool Process::FileDescriptorIsDisplayed(int fd) {
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DWORD Mode; // Unused
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return (GetConsoleMode((HANDLE)_get_osfhandle(fd), &Mode) != 0);
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}
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unsigned Process::StandardOutColumns() {
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unsigned Columns = 0;
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CONSOLE_SCREEN_BUFFER_INFO csbi;
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if (GetConsoleScreenBufferInfo(GetStdHandle(STD_OUTPUT_HANDLE), &csbi))
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Columns = csbi.dwSize.X;
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return Columns;
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}
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unsigned Process::StandardErrColumns() {
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unsigned Columns = 0;
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CONSOLE_SCREEN_BUFFER_INFO csbi;
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if (GetConsoleScreenBufferInfo(GetStdHandle(STD_ERROR_HANDLE), &csbi))
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Columns = csbi.dwSize.X;
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return Columns;
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}
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// The terminal always has colors.
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bool Process::FileDescriptorHasColors(int fd) {
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return FileDescriptorIsDisplayed(fd);
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}
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bool Process::StandardOutHasColors() {
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return FileDescriptorHasColors(1);
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}
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bool Process::StandardErrHasColors() {
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return FileDescriptorHasColors(2);
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}
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static bool UseANSI = false;
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void Process::UseANSIEscapeCodes(bool enable) {
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#if defined(ENABLE_VIRTUAL_TERMINAL_PROCESSING)
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if (enable) {
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HANDLE Console = GetStdHandle(STD_OUTPUT_HANDLE);
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DWORD Mode;
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GetConsoleMode(Console, &Mode);
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Mode |= ENABLE_VIRTUAL_TERMINAL_PROCESSING;
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SetConsoleMode(Console, Mode);
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}
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#endif
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UseANSI = enable;
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}
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namespace {
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class DefaultColors
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{
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private:
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WORD defaultColor;
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public:
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DefaultColors()
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:defaultColor(GetCurrentColor()) {}
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static unsigned GetCurrentColor() {
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CONSOLE_SCREEN_BUFFER_INFO csbi;
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if (GetConsoleScreenBufferInfo(GetStdHandle(STD_OUTPUT_HANDLE), &csbi))
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return csbi.wAttributes;
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return 0;
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}
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WORD operator()() const { return defaultColor; }
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};
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DefaultColors defaultColors;
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WORD fg_color(WORD color) {
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return color & (FOREGROUND_BLUE | FOREGROUND_GREEN |
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FOREGROUND_INTENSITY | FOREGROUND_RED);
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}
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WORD bg_color(WORD color) {
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return color & (BACKGROUND_BLUE | BACKGROUND_GREEN |
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BACKGROUND_INTENSITY | BACKGROUND_RED);
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}
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}
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bool Process::ColorNeedsFlush() {
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return !UseANSI;
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}
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const char *Process::OutputBold(bool bg) {
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if (UseANSI) return "\033[1m";
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WORD colors = DefaultColors::GetCurrentColor();
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if (bg)
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colors |= BACKGROUND_INTENSITY;
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else
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colors |= FOREGROUND_INTENSITY;
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SetConsoleTextAttribute(GetStdHandle(STD_OUTPUT_HANDLE), colors);
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return 0;
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}
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const char *Process::OutputColor(char code, bool bold, bool bg) {
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if (UseANSI) return colorcodes[bg?1:0][bold?1:0][code&7];
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WORD current = DefaultColors::GetCurrentColor();
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WORD colors;
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if (bg) {
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colors = ((code&1) ? BACKGROUND_RED : 0) |
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((code&2) ? BACKGROUND_GREEN : 0 ) |
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((code&4) ? BACKGROUND_BLUE : 0);
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if (bold)
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colors |= BACKGROUND_INTENSITY;
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colors |= fg_color(current);
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} else {
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colors = ((code&1) ? FOREGROUND_RED : 0) |
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((code&2) ? FOREGROUND_GREEN : 0 ) |
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((code&4) ? FOREGROUND_BLUE : 0);
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if (bold)
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colors |= FOREGROUND_INTENSITY;
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colors |= bg_color(current);
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}
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SetConsoleTextAttribute(GetStdHandle(STD_OUTPUT_HANDLE), colors);
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return 0;
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}
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static WORD GetConsoleTextAttribute(HANDLE hConsoleOutput) {
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CONSOLE_SCREEN_BUFFER_INFO info;
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GetConsoleScreenBufferInfo(GetStdHandle(STD_OUTPUT_HANDLE), &info);
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return info.wAttributes;
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}
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const char *Process::OutputReverse() {
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if (UseANSI) return "\033[7m";
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const WORD attributes
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= GetConsoleTextAttribute(GetStdHandle(STD_OUTPUT_HANDLE));
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const WORD foreground_mask = FOREGROUND_BLUE | FOREGROUND_GREEN |
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FOREGROUND_RED | FOREGROUND_INTENSITY;
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const WORD background_mask = BACKGROUND_BLUE | BACKGROUND_GREEN |
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BACKGROUND_RED | BACKGROUND_INTENSITY;
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const WORD color_mask = foreground_mask | background_mask;
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WORD new_attributes =
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((attributes & FOREGROUND_BLUE )?BACKGROUND_BLUE :0) |
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((attributes & FOREGROUND_GREEN )?BACKGROUND_GREEN :0) |
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((attributes & FOREGROUND_RED )?BACKGROUND_RED :0) |
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((attributes & FOREGROUND_INTENSITY)?BACKGROUND_INTENSITY:0) |
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((attributes & BACKGROUND_BLUE )?FOREGROUND_BLUE :0) |
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((attributes & BACKGROUND_GREEN )?FOREGROUND_GREEN :0) |
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((attributes & BACKGROUND_RED )?FOREGROUND_RED :0) |
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((attributes & BACKGROUND_INTENSITY)?FOREGROUND_INTENSITY:0) |
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0;
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new_attributes = (attributes & ~color_mask) | (new_attributes & color_mask);
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SetConsoleTextAttribute(GetStdHandle(STD_OUTPUT_HANDLE), new_attributes);
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return 0;
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}
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const char *Process::ResetColor() {
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if (UseANSI) return "\033[0m";
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SetConsoleTextAttribute(GetStdHandle(STD_OUTPUT_HANDLE), defaultColors());
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return 0;
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}
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static unsigned GetRandomNumberSeed() {
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// Generate a random number seed from the millisecond-resolution Windows
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// system clock and the current process id.
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FILETIME Time;
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GetSystemTimeAsFileTime(&Time);
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DWORD Pid = GetCurrentProcessId();
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return hash_combine(Time.dwHighDateTime, Time.dwLowDateTime, Pid);
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}
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static unsigned GetPseudoRandomNumber() {
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// Arrange to call srand once when this function is first used, and
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// otherwise (if GetRandomNumber always succeeds in using
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// CryptGenRandom) don't bother at all.
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static int x = (static_cast<void>(::srand(GetRandomNumberSeed())), 0);
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(void)x;
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return ::rand();
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}
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unsigned Process::GetRandomNumber() {
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// Try to use CryptGenRandom.
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HCRYPTPROV HCPC;
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if (::CryptAcquireContextW(&HCPC, NULL, NULL, PROV_RSA_FULL,
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CRYPT_VERIFYCONTEXT)) {
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ScopedCryptContext CryptoProvider(HCPC);
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unsigned Ret;
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if (::CryptGenRandom(CryptoProvider, sizeof(Ret),
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reinterpret_cast<BYTE *>(&Ret)))
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return Ret;
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}
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// If that fails, fall back to pseudo-random numbers.
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return GetPseudoRandomNumber();
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}
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typedef NTSTATUS(WINAPI* RtlGetVersionPtr)(PRTL_OSVERSIONINFOW);
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#define STATUS_SUCCESS ((NTSTATUS)0x00000000L)
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llvm::VersionTuple llvm::GetWindowsOSVersion() {
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HMODULE hMod = ::GetModuleHandleW(L"ntdll.dll");
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if (hMod) {
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auto getVer = (RtlGetVersionPtr)::GetProcAddress(hMod, "RtlGetVersion");
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if (getVer) {
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RTL_OSVERSIONINFOEXW info{};
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info.dwOSVersionInfoSize = sizeof(info);
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if (getVer((PRTL_OSVERSIONINFOW)&info) == STATUS_SUCCESS) {
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return llvm::VersionTuple(info.dwMajorVersion, info.dwMinorVersion, 0,
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info.dwBuildNumber);
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}
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}
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}
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return llvm::VersionTuple(0, 0, 0, 0);
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}
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bool llvm::RunningWindows8OrGreater() {
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// Windows 8 is version 6.2, service pack 0.
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return GetWindowsOSVersion() >= llvm::VersionTuple(6, 2, 0, 0);
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}
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