src/test/native/windows/util_test.cc - bazel - Git at Google

 // Copyright 2017 The Bazel Authors. All rights reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //    http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 #ifndef WIN32_LEAN_AND_MEAN
 #define WIN32_LEAN_AND_MEAN
 #endif
 #include "src/main/native/windows/util.h"

 #include <stdlib.h>
 #include <string.h>
 #include <windows.h>

 #include <algorithm>   // replace
 #include <functional>  // function
 #include <memory>      // unique_ptr
 #include <string>

 #include "gtest/gtest.h"

 #if !defined(_WIN32) && !defined(__CYGWIN__)
 #error("This test should only be run on Windows")
 #endif  // !defined(_WIN32) && !defined(__CYGWIN__)

 namespace bazel {
 namespace windows {

 using std::wstring;
 using std::unique_ptr;
 using std::wstring;

 static const wstring kUncPrefix = wstring(L"\\\\?\\");

 // Retrieves TEST_TMPDIR as a shortened path. Result won't have a "\\?\" prefix.
 static void GetShortTempDir(wstring* result) {
   unique_ptr<WCHAR[]> buf;
   DWORD size = ::GetEnvironmentVariableW(L"TEST_TMPDIR", NULL, 0);
   ASSERT_GT(size, (DWORD)0);
   // `size` accounts for the null-terminator
   buf.reset(new WCHAR[size]);
   ::GetEnvironmentVariableW(L"TEST_TMPDIR", buf.get(), size);

   // Add "\\?\" prefix.
   wstring tmpdir = kUncPrefix + wstring(buf.get());

   // Remove trailing '/' or '\' and replace all '/' with '\'.
   if (tmpdir.back() == '/' || tmpdir.back() == '\\') {
     tmpdir.pop_back();
   }
   std::replace(tmpdir.begin(), tmpdir.end(), '/', '\\');

   // Convert to 8dot3 style short path.
   size = ::GetShortPathNameW(tmpdir.c_str(), NULL, 0);
   ASSERT_GT(size, (DWORD)0);
   // `size` accounts for the null-terminator
   buf.reset(new WCHAR[size]);
   ::GetShortPathNameW(tmpdir.c_str(), buf.get(), size);

   // Set the result, omit the "\\?\" prefix.
   // Ensure that the result is shorter than MAX_PATH and also has room for a
   // backslash (1 wchar) and a single-letter executable name with .bat
   // extension (5 wchars).
   *result = wstring(buf.get() + 4);
   ASSERT_LT(result->size(), MAX_PATH - 6);
 }

 // If `success` is true, returns an empty string, otherwise an error message.
 // The error message will have the format "Failed: operation(arg)" using the
 // specified `operation` and `arg` strings.
 static wstring ReturnEmptyOrError(bool success, const wstring& operation,
                                   const wstring& arg) {
   return success ? L"" : (wstring(L"Failed: ") + operation + L"(" + arg + L")");
 }

 // Creates a dummy file under `path`. `path` should NOT have a "\\?\" prefix.
 static wstring CreateDummyFile(wstring path) {
   path = kUncPrefix + path;
   HANDLE handle = ::CreateFileW(
       /* lpFileName */ path.c_str(),
       /* dwDesiredAccess */ GENERIC_WRITE,
       /* dwShareMode */ FILE_SHARE_READ,
       /* lpSecurityAttributes */ NULL,
       /* dwCreationDisposition */ CREATE_ALWAYS,
       /* dwFlagsAndAttributes */ FILE_ATTRIBUTE_NORMAL,
       /* hTemplateFile */ NULL);
   if (handle == INVALID_HANDLE_VALUE) {
     return ReturnEmptyOrError(false, L"CreateFileW", path);
   }
   DWORD actually_written = 0;
   WriteFile(handle, "hello", 5, &actually_written, NULL);
   if (actually_written == 0) {
     return ReturnEmptyOrError(false, L"WriteFile", path);
   }
   CloseHandle(handle);
   return L"";
 }

 // Asserts that a dummy file under `path` can be created.
 // This is a macro so the assertions will have the correct line number.
 #define CREATE_FILE(/* const wstring& */ path) \
   { ASSERT_EQ(CreateDummyFile(path), L""); }

 // Deletes a file under `path`. `path` should NOT have a "\\?\" prefix.
 static wstring DeleteDummyFile(wstring path) {
   path = kUncPrefix + path;
   return ReturnEmptyOrError(::DeleteFileW(path.c_str()), L"DeleteFileW", path);
 }

 // Asserts that a file under `path` can be deleted.
 // This is a macro so the assertions will have the correct line number.
 #define DELETE_FILE(/* const wstring& */ path) \
   { ASSERT_EQ(DeleteDummyFile(path), L""); }

 // Creates a directory under `path`. `path` should NOT have a "\\?\" prefix.
 static wstring CreateDir(wstring path) {
   path = kUncPrefix + path;
   return ReturnEmptyOrError(::CreateDirectoryW(path.c_str(), NULL),
                             L"CreateDirectoryW", path);
 }

 // Asserts that a directory under `path` can be created.
 // This is a macro so the assertions will have the correct line number.
 #define CREATE_DIR(/* const wstring& */ path) \
   { ASSERT_EQ(CreateDir(path), L""); }

 // Deletes an empty directory under `path`.
 // `path` should NOT have a "\\?\" prefix.
 static wstring DeleteDir(wstring path) {
   path = kUncPrefix + path;
   return ReturnEmptyOrError(::RemoveDirectoryW(path.c_str()),
                             L"RemoveDirectoryW", path);
 }

 // Asserts that the empty directory under `path` can be deleted.
 // This is a macro so the assertions will have the correct line number.
 #define DELETE_DIR(/* const wstring& */ path) \
   { ASSERT_EQ(DeleteDir(path), L""); }

 // Appends a file name segment with ".bat" extension to `result`.
 // `length` specifies how long the segment may be, and it includes the "\" at
 // the beginning. `length` must be in [6..13], so the shortest segment is
 // "\a.bat", the longest is "\abcdefgh.bat".
 // For example APPEND_FILE_SEGMENT(8, result) will append "\abc.bat" to
 // `result`.
 // This is a macro so the assertions will have the correct line number.
 #define APPEND_FILE_SEGMENT(/* size_t */ length, /* wstring* */ result) \
   {                                                                     \
     ASSERT_GE(length, 6);                                               \
     ASSERT_LE(length, 13);                                              \
     *result += wstring(L"\\abcdefgh", length - 4) + L".bat";            \
   }

 // Creates subdirectories under `basedir` and sets `result_path` to the deepest.
 //
 // `basedir` should be a shortened path, without "\\?\" prefix.
 // `result_path` will be also a short path under `basedir`.
 //
 // Every directory in `result_path` will be created. The entire length of this
 // path will be exactly MAX_PATH - 7 (not including null-terminator).
 // Just by appending a file name segment between 6 and 8 characters long (i.e.
 // "\a.bat", "\ab.bat", or "\abc.bat") the caller can obtain a path that is
 // MAX_PATH - 1 long, or MAX_PATH long, or MAX_PATH + 1 long, respectively,
 // and cannot be shortened further.
 static void CreateShortDirsUnder(wstring basedir, wstring* result_path) {
   ASSERT_LT(basedir.size(), MAX_PATH);
   size_t remaining_len = MAX_PATH - 1 - basedir.size();
   ASSERT_GE(remaining_len, 6);  // has room for suffix "\a.bat"

   // If `remaining_len` is odd, make it even.
   if (remaining_len % 2) {
     remaining_len -= 3;
     basedir += wstring(L"\\ab");
     CREATE_DIR(basedir);
   }

   // Keep adding 2 chars long segments until we only have 6 chars left.
   while (remaining_len >= 8) {
     remaining_len -= 2;
     basedir += wstring(L"\\a");
     CREATE_DIR(basedir);
   }
   ASSERT_EQ(basedir.size(), MAX_PATH - 1 - 6);
   *result_path = basedir;
 }

 // Deletes `deepest_subdir` and all of its parents below `basedir`.
 // `basedir` must be a prefix (ancestor) of `deepest_subdir`. Neither of them
 // should have a "\\?\" prefix.
 // Every subdirectory connecting `basedir` and `deepest_subdir` must be empty
 // except for the single directory child connecting these two nodes. In other
 // words it should be possible to remove all directories starting at
 // `deepest_subdir` and walking up the tree until `basedir` is reached.
 // `basedir` is NOT deleted and it doesn't need to be empty either.
 static void DeleteDirsUnder(const wstring& basedir,
                             const wstring& deepest_subdir) {
   // Assert that `deepest_subdir` starts with `basedir`.
   ASSERT_EQ(deepest_subdir.find(basedir), 0);

   // Make a mutable copy of `deepest_subdir`.
   unique_ptr<WCHAR[]> mutable_path(new WCHAR[deepest_subdir.size() + 1]);
   memcpy(mutable_path.get(), deepest_subdir.c_str(),
          deepest_subdir.size() * sizeof(WCHAR));
   mutable_path.get()[deepest_subdir.size()] = 0;

   // Mark the end of the path. We'll keep setting the last directory separator
   // to the null-terminator, thus walking up the directory tree.
   WCHAR* p_end = mutable_path.get() + deepest_subdir.size();

   while (p_end > mutable_path.get() + basedir.size()) {
     DELETE_DIR(mutable_path.get());
     // Walk up one level in the path.
     while (*p_end != '\\') {
       --p_end;
     }
     *p_end = '\0';
   }
 }

 // Asserts that `str` contains substring `substr`.
 // This is a macro so the assertions will have the correct line number.
 #define ASSERT_CONTAINS(/* const wstring& */ str, /* const WCHAR* */ substr) \
   {                                                                          \
     ASSERT_NE(str, L"");                                                     \
     ASSERT_NE(str.find(substr), wstring::npos);                              \
   }

 // This is a macro so the assertions will have the correct line number.
 #define ASSERT_SHORTENING_FAILS(/* const WCHAR* */ input,             \
                                 /* const WCHAR* */ error_msg)         \
   {                                                                   \
     wstring actual;                                                   \
     wstring result(AsExecutablePathForCreateProcess(input, &actual)); \
     ASSERT_CONTAINS(result, error_msg);                               \
   }

 // This is a macro so the assertions will have the correct line number.
 #define ASSERT_SHORTENING_SUCCEEDS(/* const WCHAR* */ input,             \
                                    /* const wstring& */ expected_result) \
   {                                                                      \
     wstring actual;                                                      \
     ASSERT_EQ(AsExecutablePathForCreateProcess(input, &actual), L"");    \
     ASSERT_EQ(actual, expected_result);                                  \
   }

 TEST(WindowsUtilTest, TestAsExecutablePathForCreateProcessBadInputs) {
   ASSERT_SHORTENING_FAILS(L"", L"should not be empty");
   ASSERT_SHORTENING_FAILS(L"\"cmd.exe\"", L"path should not be quoted");
   ASSERT_SHORTENING_FAILS(L"/dev/null", L"path is absolute without a drive");
   ASSERT_SHORTENING_FAILS(L"/usr/bin/bash", L"path is absolute without a");
   ASSERT_SHORTENING_FAILS(L"foo\\..\\bar.exe", L"path is not normalized");
   ASSERT_SHORTENING_FAILS(L"\\bar.exe", L"path is absolute");

   wstring dummy = L"hello";
   while (dummy.size() < MAX_PATH) {
     dummy += dummy;
   }
   dummy += L".exe";
   ASSERT_SHORTENING_FAILS(dummy.c_str(), L"a file name but too long");

   // Relative paths are fine, they are absolutized.
   std::wstring rel(L"foo\\bar.exe");
   std::wstring actual;
   EXPECT_EQ(AsExecutablePathForCreateProcess(rel, &actual), L"");
   EXPECT_GT(actual.size(), rel.size());
   EXPECT_EQ(actual.rfind(rel), actual.size() - rel.size() - 1);
 }

 TEST(WindowsUtilTest, TestAsExecutablePathForCreateProcessConversions) {
   wstring tmpdir;
   GetShortTempDir(&tmpdir);
   wstring short_root;
   CreateShortDirsUnder(tmpdir, &short_root);

   // Assert that we have enough room to append a file name that is just short
   // enough to fit into MAX_PATH - 1, or one that's just long enough to make
   // the whole path MAX_PATH long or longer.
   ASSERT_EQ(short_root.size(), MAX_PATH - 1 - 6);

   wstring actual;
   wstring error;
   for (size_t i = 0; i < 3; ++i) {
     wstring wfilename = short_root;

     APPEND_FILE_SEGMENT(6 + i, &wfilename);
     ASSERT_EQ(wfilename.size(), MAX_PATH - 1 + i);

     // When i=0 then `wfilename` is MAX_PATH - 1 long, so
     // `AsExecutablePathForCreateProcess` will not attempt to shorten it, and
     // so it also won't notice that the file doesn't exist. If however we pass
     // a non-existent path to CreateProcessA, then it'll fail, so we'll find out
     // about this error in production code.
     // When i>0 then `wfilename` is at least MAX_PATH long, so
     // `AsExecutablePathForCreateProcess` will attempt to shorten it, but
     // because the file doesn't yet exist, the shortening attempt will fail.
     if (i > 0) {
       ASSERT_EQ(::GetFileAttributesW(wfilename.c_str()),
                 INVALID_FILE_ATTRIBUTES);
       ASSERT_SHORTENING_FAILS(wfilename.c_str(), L"GetShortPathNameW");
     }

     // Create the file, now we should be able to shorten it when i=0, but not
     // otherwise.
     CREATE_FILE(wfilename);
     if (i == 0) {
       // The wfilename was short enough.
       ASSERT_SHORTENING_SUCCEEDS(wfilename.c_str(),
                                  wstring(L"\"") + wfilename + L"\"");
     } else {
       // The wfilename was too long to begin with, and it was impossible to
       // shorten any of the segments (since we deliberately created them that
       // way), so shortening failed.
       ASSERT_SHORTENING_FAILS(wfilename.c_str(), L"cannot shorten the path");
     }
     DELETE_FILE(wfilename);
   }

   // Finally construct a path that can and will be shortened. Just walk up a few
   // levels in `short_root` and create a long file name that can be shortened.
   wstring wshortenable_root = short_root;
   while (wshortenable_root.size() > MAX_PATH - 1 - 13) {
     wshortenable_root =
         wshortenable_root.substr(0, wshortenable_root.find_last_of(L'\\'));
   }
   wstring wshortenable = wshortenable_root + wstring(L"\\") +
                          wstring(MAX_PATH - wshortenable_root.size(), L'a') +
                          wstring(L".bat");
   ASSERT_GT(wshortenable.size(), MAX_PATH);

   // Attempt to shorten. It will fail because the file doesn't exist yet.
   ASSERT_SHORTENING_FAILS(wshortenable, L"GetShortPathNameW");

   // Create the file so shortening will succeed.
   CREATE_FILE(wshortenable);
   ASSERT_SHORTENING_SUCCEEDS(
       wshortenable, wstring(L"\"") + wshortenable_root + L"\\AAAAAA~1.BAT\"");
   DELETE_FILE(wshortenable);

   DeleteDirsUnder(tmpdir, short_root);
 }

 }  // namespace windows
 }  // namespace bazel
	// Copyright 2017 The Bazel Authors. All rights reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.
	#ifndef WIN32_LEAN_AND_MEAN
	#define WIN32_LEAN_AND_MEAN
	#endif
	#include "src/main/native/windows/util.h"

	#include <stdlib.h>
	#include <string.h>
	#include <windows.h>

	#include <algorithm> // replace
	#include <functional> // function
	#include <memory> // unique_ptr
	#include <string>

	#include "gtest/gtest.h"

	#if !defined(_WIN32) && !defined(__CYGWIN__)
	#error("This test should only be run on Windows")
	#endif // !defined(_WIN32) && !defined(__CYGWIN__)

	namespace bazel {
	namespace windows {

	using std::wstring;
	using std::unique_ptr;
	using std::wstring;

	static const wstring kUncPrefix = wstring(L"\\\\?\\");

	// Retrieves TEST_TMPDIR as a shortened path. Result won't have a "\\?\" prefix.
	static void GetShortTempDir(wstring* result) {
	unique_ptr<WCHAR[]> buf;
	DWORD size = ::GetEnvironmentVariableW(L"TEST_TMPDIR", NULL, 0);
	ASSERT_GT(size, (DWORD)0);
	// `size` accounts for the null-terminator
	buf.reset(new WCHAR[size]);
	::GetEnvironmentVariableW(L"TEST_TMPDIR", buf.get(), size);

	// Add "\\?\" prefix.
	wstring tmpdir = kUncPrefix + wstring(buf.get());

	// Remove trailing '/' or '\' and replace all '/' with '\'.
	if (tmpdir.back() == '/' \|\| tmpdir.back() == '\\') {
	tmpdir.pop_back();
	}
	std::replace(tmpdir.begin(), tmpdir.end(), '/', '\\');

	// Convert to 8dot3 style short path.
	size = ::GetShortPathNameW(tmpdir.c_str(), NULL, 0);
	ASSERT_GT(size, (DWORD)0);
	// `size` accounts for the null-terminator
	buf.reset(new WCHAR[size]);
	::GetShortPathNameW(tmpdir.c_str(), buf.get(), size);

	// Set the result, omit the "\\?\" prefix.
	// Ensure that the result is shorter than MAX_PATH and also has room for a
	// backslash (1 wchar) and a single-letter executable name with .bat
	// extension (5 wchars).
	*result = wstring(buf.get() + 4);
	ASSERT_LT(result->size(), MAX_PATH - 6);
	}

	// If `success` is true, returns an empty string, otherwise an error message.
	// The error message will have the format "Failed: operation(arg)" using the
	// specified `operation` and `arg` strings.
	static wstring ReturnEmptyOrError(bool success, const wstring& operation,
	const wstring& arg) {
	return success ? L"" : (wstring(L"Failed: ") + operation + L"(" + arg + L")");
	}

	// Creates a dummy file under `path`. `path` should NOT have a "\\?\" prefix.
	static wstring CreateDummyFile(wstring path) {
	path = kUncPrefix + path;
	HANDLE handle = ::CreateFileW(
	/* lpFileName */ path.c_str(),
	/* dwDesiredAccess */ GENERIC_WRITE,
	/* dwShareMode */ FILE_SHARE_READ,
	/* lpSecurityAttributes */ NULL,
	/* dwCreationDisposition */ CREATE_ALWAYS,
	/* dwFlagsAndAttributes */ FILE_ATTRIBUTE_NORMAL,
	/* hTemplateFile */ NULL);
	if (handle == INVALID_HANDLE_VALUE) {
	return ReturnEmptyOrError(false, L"CreateFileW", path);
	}
	DWORD actually_written = 0;
	WriteFile(handle, "hello", 5, &actually_written, NULL);
	if (actually_written == 0) {
	return ReturnEmptyOrError(false, L"WriteFile", path);
	}
	CloseHandle(handle);
	return L"";
	}

	// Asserts that a dummy file under `path` can be created.
	// This is a macro so the assertions will have the correct line number.
	#define CREATE_FILE(/* const wstring& */ path) \
	{ ASSERT_EQ(CreateDummyFile(path), L""); }

	// Deletes a file under `path`. `path` should NOT have a "\\?\" prefix.
	static wstring DeleteDummyFile(wstring path) {
	path = kUncPrefix + path;
	return ReturnEmptyOrError(::DeleteFileW(path.c_str()), L"DeleteFileW", path);
	}

	// Asserts that a file under `path` can be deleted.
	// This is a macro so the assertions will have the correct line number.
	#define DELETE_FILE(/* const wstring& */ path) \
	{ ASSERT_EQ(DeleteDummyFile(path), L""); }

	// Creates a directory under `path`. `path` should NOT have a "\\?\" prefix.
	static wstring CreateDir(wstring path) {
	path = kUncPrefix + path;
	return ReturnEmptyOrError(::CreateDirectoryW(path.c_str(), NULL),
	L"CreateDirectoryW", path);
	}

	// Asserts that a directory under `path` can be created.
	// This is a macro so the assertions will have the correct line number.
	#define CREATE_DIR(/* const wstring& */ path) \
	{ ASSERT_EQ(CreateDir(path), L""); }

	// Deletes an empty directory under `path`.
	// `path` should NOT have a "\\?\" prefix.
	static wstring DeleteDir(wstring path) {
	path = kUncPrefix + path;
	return ReturnEmptyOrError(::RemoveDirectoryW(path.c_str()),
	L"RemoveDirectoryW", path);
	}

	// Asserts that the empty directory under `path` can be deleted.
	// This is a macro so the assertions will have the correct line number.
	#define DELETE_DIR(/* const wstring& */ path) \
	{ ASSERT_EQ(DeleteDir(path), L""); }

	// Appends a file name segment with ".bat" extension to `result`.
	// `length` specifies how long the segment may be, and it includes the "\" at
	// the beginning. `length` must be in [6..13], so the shortest segment is
	// "\a.bat", the longest is "\abcdefgh.bat".
	// For example APPEND_FILE_SEGMENT(8, result) will append "\abc.bat" to
	// `result`.
	// This is a macro so the assertions will have the correct line number.
	#define APPEND_FILE_SEGMENT(/* size_t / length, / wstring* */ result) \
	{ \
	ASSERT_GE(length, 6); \
	ASSERT_LE(length, 13); \
	*result += wstring(L"\\abcdefgh", length - 4) + L".bat"; \
	}

	// Creates subdirectories under `basedir` and sets `result_path` to the deepest.
	//
	// `basedir` should be a shortened path, without "\\?\" prefix.
	// `result_path` will be also a short path under `basedir`.
	//
	// Every directory in `result_path` will be created. The entire length of this
	// path will be exactly MAX_PATH - 7 (not including null-terminator).
	// Just by appending a file name segment between 6 and 8 characters long (i.e.
	// "\a.bat", "\ab.bat", or "\abc.bat") the caller can obtain a path that is
	// MAX_PATH - 1 long, or MAX_PATH long, or MAX_PATH + 1 long, respectively,
	// and cannot be shortened further.
	static void CreateShortDirsUnder(wstring basedir, wstring* result_path) {
	ASSERT_LT(basedir.size(), MAX_PATH);
	size_t remaining_len = MAX_PATH - 1 - basedir.size();
	ASSERT_GE(remaining_len, 6); // has room for suffix "\a.bat"

	// If `remaining_len` is odd, make it even.
	if (remaining_len % 2) {
	remaining_len -= 3;
	basedir += wstring(L"\\ab");
	CREATE_DIR(basedir);
	}

	// Keep adding 2 chars long segments until we only have 6 chars left.
	while (remaining_len >= 8) {
	remaining_len -= 2;
	basedir += wstring(L"\\a");
	CREATE_DIR(basedir);
	}
	ASSERT_EQ(basedir.size(), MAX_PATH - 1 - 6);
	*result_path = basedir;
	}

	// Deletes `deepest_subdir` and all of its parents below `basedir`.
	// `basedir` must be a prefix (ancestor) of `deepest_subdir`. Neither of them
	// should have a "\\?\" prefix.
	// Every subdirectory connecting `basedir` and `deepest_subdir` must be empty
	// except for the single directory child connecting these two nodes. In other
	// words it should be possible to remove all directories starting at
	// `deepest_subdir` and walking up the tree until `basedir` is reached.
	// `basedir` is NOT deleted and it doesn't need to be empty either.
	static void DeleteDirsUnder(const wstring& basedir,
	const wstring& deepest_subdir) {
	// Assert that `deepest_subdir` starts with `basedir`.
	ASSERT_EQ(deepest_subdir.find(basedir), 0);

	// Make a mutable copy of `deepest_subdir`.
	unique_ptr<WCHAR[]> mutable_path(new WCHAR[deepest_subdir.size() + 1]);
	memcpy(mutable_path.get(), deepest_subdir.c_str(),
	deepest_subdir.size() * sizeof(WCHAR));
	mutable_path.get()[deepest_subdir.size()] = 0;

	// Mark the end of the path. We'll keep setting the last directory separator
	// to the null-terminator, thus walking up the directory tree.
	WCHAR* p_end = mutable_path.get() + deepest_subdir.size();

	while (p_end > mutable_path.get() + basedir.size()) {
	DELETE_DIR(mutable_path.get());
	// Walk up one level in the path.
	while (*p_end != '\\') {
	--p_end;
	}
	*p_end = '\0';
	}
	}

	// Asserts that `str` contains substring `substr`.
	// This is a macro so the assertions will have the correct line number.
	#define ASSERT_CONTAINS(/* const wstring& / str, / const WCHAR* */ substr) \
	{ \
	ASSERT_NE(str, L""); \
	ASSERT_NE(str.find(substr), wstring::npos); \
	}

	// This is a macro so the assertions will have the correct line number.
	#define ASSERT_SHORTENING_FAILS(/* const WCHAR* */ input, \
	/* const WCHAR* */ error_msg) \
	{ \
	wstring actual; \
	wstring result(AsExecutablePathForCreateProcess(input, &actual)); \
	ASSERT_CONTAINS(result, error_msg); \
	}

	// This is a macro so the assertions will have the correct line number.
	#define ASSERT_SHORTENING_SUCCEEDS(/* const WCHAR* */ input, \
	/* const wstring& */ expected_result) \
	{ \
	wstring actual; \
	ASSERT_EQ(AsExecutablePathForCreateProcess(input, &actual), L""); \
	ASSERT_EQ(actual, expected_result); \
	}

	TEST(WindowsUtilTest, TestAsExecutablePathForCreateProcessBadInputs) {
	ASSERT_SHORTENING_FAILS(L"", L"should not be empty");
	ASSERT_SHORTENING_FAILS(L"\"cmd.exe\"", L"path should not be quoted");
	ASSERT_SHORTENING_FAILS(L"/dev/null", L"path is absolute without a drive");
	ASSERT_SHORTENING_FAILS(L"/usr/bin/bash", L"path is absolute without a");
	ASSERT_SHORTENING_FAILS(L"foo\\..\\bar.exe", L"path is not normalized");
	ASSERT_SHORTENING_FAILS(L"\\bar.exe", L"path is absolute");

	wstring dummy = L"hello";
	while (dummy.size() < MAX_PATH) {
	dummy += dummy;
	}
	dummy += L".exe";
	ASSERT_SHORTENING_FAILS(dummy.c_str(), L"a file name but too long");

	// Relative paths are fine, they are absolutized.
	std::wstring rel(L"foo\\bar.exe");
	std::wstring actual;
	EXPECT_EQ(AsExecutablePathForCreateProcess(rel, &actual), L"");
	EXPECT_GT(actual.size(), rel.size());
	EXPECT_EQ(actual.rfind(rel), actual.size() - rel.size() - 1);
	}

	TEST(WindowsUtilTest, TestAsExecutablePathForCreateProcessConversions) {
	wstring tmpdir;
	GetShortTempDir(&tmpdir);
	wstring short_root;
	CreateShortDirsUnder(tmpdir, &short_root);

	// Assert that we have enough room to append a file name that is just short
	// enough to fit into MAX_PATH - 1, or one that's just long enough to make
	// the whole path MAX_PATH long or longer.
	ASSERT_EQ(short_root.size(), MAX_PATH - 1 - 6);

	wstring actual;
	wstring error;
	for (size_t i = 0; i < 3; ++i) {
	wstring wfilename = short_root;

	APPEND_FILE_SEGMENT(6 + i, &wfilename);
	ASSERT_EQ(wfilename.size(), MAX_PATH - 1 + i);

	// When i=0 then `wfilename` is MAX_PATH - 1 long, so
	// `AsExecutablePathForCreateProcess` will not attempt to shorten it, and
	// so it also won't notice that the file doesn't exist. If however we pass
	// a non-existent path to CreateProcessA, then it'll fail, so we'll find out
	// about this error in production code.
	// When i>0 then `wfilename` is at least MAX_PATH long, so
	// `AsExecutablePathForCreateProcess` will attempt to shorten it, but
	// because the file doesn't yet exist, the shortening attempt will fail.
	if (i > 0) {
	ASSERT_EQ(::GetFileAttributesW(wfilename.c_str()),
	INVALID_FILE_ATTRIBUTES);
	ASSERT_SHORTENING_FAILS(wfilename.c_str(), L"GetShortPathNameW");
	}

	// Create the file, now we should be able to shorten it when i=0, but not
	// otherwise.
	CREATE_FILE(wfilename);
	if (i == 0) {
	// The wfilename was short enough.
	ASSERT_SHORTENING_SUCCEEDS(wfilename.c_str(),
	wstring(L"\"") + wfilename + L"\"");
	} else {
	// The wfilename was too long to begin with, and it was impossible to
	// shorten any of the segments (since we deliberately created them that
	// way), so shortening failed.
	ASSERT_SHORTENING_FAILS(wfilename.c_str(), L"cannot shorten the path");
	}
	DELETE_FILE(wfilename);
	}

	// Finally construct a path that can and will be shortened. Just walk up a few
	// levels in `short_root` and create a long file name that can be shortened.
	wstring wshortenable_root = short_root;
	while (wshortenable_root.size() > MAX_PATH - 1 - 13) {
	wshortenable_root =
	wshortenable_root.substr(0, wshortenable_root.find_last_of(L'\\'));
	}
	wstring wshortenable = wshortenable_root + wstring(L"\\") +
	wstring(MAX_PATH - wshortenable_root.size(), L'a') +
	wstring(L".bat");
	ASSERT_GT(wshortenable.size(), MAX_PATH);

	// Attempt to shorten. It will fail because the file doesn't exist yet.
	ASSERT_SHORTENING_FAILS(wshortenable, L"GetShortPathNameW");

	// Create the file so shortening will succeed.
	CREATE_FILE(wshortenable);
	ASSERT_SHORTENING_SUCCEEDS(
	wshortenable, wstring(L"\"") + wshortenable_root + L"\\AAAAAA~1.BAT\"");
	DELETE_FILE(wshortenable);

	DeleteDirsUnder(tmpdir, short_root);
	}

	} // namespace windows
	} // namespace bazel