Merge pull request #5044 from laszlocsomor/expand-wildcards

Windows: expand path names on command line
pull/6467/head
Adam Cozzette 5 years ago committed by GitHub
commit 5b6238e486
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GPG Key ID: 4AEE18F83AFDEB23
  1. 20
      BUILD
  2. 25
      src/google/protobuf/compiler/command_line_interface.cc
  3. 55
      src/google/protobuf/io/io_win32.cc
  4. 19
      src/google/protobuf/io/io_win32.h
  5. 191
      src/google/protobuf/io/io_win32_unittest.cc

20
BUILD

@ -405,25 +405,7 @@ cc_library(
],
copts = COPTS,
includes = ["src/"],
linkopts = LINK_OPTS + select({
":msvc": [
# Linking to setargv.obj makes the default command line argument
# parser expand wildcards, so the main method's argv will contain the
# expanded list instead of the wildcards.
#
# Adding dummy "-DEFAULTLIB:kernel32.lib", because:
# - Microsoft ships this object file next to default libraries
# - but this file is not a library, just a precompiled object
# - "-WHOLEARCHIVE" and "-DEFAULTLIB" only accept library,
# not precompiled object.
# - Bazel would assume linkopt that does not start with "-" or "$"
# as a label to a target, so we add a harmless "-DEFAULTLIB:kernel32.lib"
# before "setargv.obj".
# See https://msdn.microsoft.com/en-us/library/8bch7bkk.aspx
"-DEFAULTLIB:kernel32.lib setargv.obj",
],
"//conditions:default": [],
}),
linkopts = LINK_OPTS,
visibility = ["//visibility:public"],
deps = [":protobuf"],
)

@ -1427,7 +1427,32 @@ CommandLineInterface::InterpretArgument(const std::string& name,
return PARSE_ARGUMENT_FAIL;
}
#if defined(_WIN32)
// On Windows, the shell (typically cmd.exe) does not expand wildcards in
// file names (e.g. foo\*.proto), so we do it ourselves.
switch (google::protobuf::io::win32::ExpandWildcards(
value,
[this](const string& path) {
this->input_files_.push_back(path);
})) {
case google::protobuf::io::win32::ExpandWildcardsResult::kSuccess:
break;
case google::protobuf::io::win32::ExpandWildcardsResult::kErrorNoMatchingFile:
// Path does not exist, is not a file, or it's longer than MAX_PATH and
// long path handling is disabled.
std::cerr << "Invalid file name pattern or missing input file \""
<< value << "\"" << std::endl;
return PARSE_ARGUMENT_FAIL;
default:
std::cerr << "Cannot convert path \"" << value
<< "\" to or from Windows style" << std::endl;
return PARSE_ARGUMENT_FAIL;
}
#else // not _WIN32
// On other platforms than Windows (e.g. Linux, Mac OS) the shell (typically
// Bash) expands wildcards.
input_files_.push_back(value);
#endif // _WIN32
} else if (name == "-I" || name == "--proto_path") {
// Java's -classpath (and some other languages) delimits path components

@ -59,6 +59,11 @@
#include <sys/stat.h>
#include <sys/types.h>
#include <wctype.h>
#ifndef WIN32_LEAN_AND_MEAN
#define WIN32_LEAN_AND_MEAN 1
#endif
#include <windows.h>
#include <memory>
@ -356,6 +361,56 @@ wstring testonly_utf8_to_winpath(const char* path) {
return as_windows_path(path, &wpath) ? wpath : wstring();
}
ExpandWildcardsResult ExpandWildcards(
const string& path, std::function<void(const string&)> consume) {
if (path.find_first_of("*?") == string::npos) {
// There are no wildcards in the path, we don't need to expand it.
consume(path);
return ExpandWildcardsResult::kSuccess;
}
wstring wpath;
if (!as_windows_path(path.c_str(), &wpath)) {
return ExpandWildcardsResult::kErrorInputPathConversion;
}
static const wstring kDot = L".";
static const wstring kDotDot = L"..";
WIN32_FIND_DATAW metadata;
HANDLE handle = ::FindFirstFileW(wpath.c_str(), &metadata);
if (handle == INVALID_HANDLE_VALUE) {
// The pattern does not match any files (or directories).
return ExpandWildcardsResult::kErrorNoMatchingFile;
}
string::size_type pos = path.find_last_of("\\/");
string dirname;
if (pos != string::npos) {
dirname = path.substr(0, pos + 1);
}
ExpandWildcardsResult matched = ExpandWildcardsResult::kErrorNoMatchingFile;
do {
// Ignore ".", "..", and directories.
if ((metadata.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) == 0
&& kDot != metadata.cFileName && kDotDot != metadata.cFileName) {
matched = ExpandWildcardsResult::kSuccess;
string filename;
if (!strings::wcs_to_utf8(metadata.cFileName, &filename)) {
return ExpandWildcardsResult::kErrorOutputPathConversion;
}
if (dirname.empty()) {
consume(filename);
} else {
consume(dirname + filename);
}
}
} while (::FindNextFileW(handle, &metadata));
FindClose(handle);
return matched;
}
namespace strings {
bool wcs_to_mbs(const WCHAR* s, string* out, bool outUtf8) {

@ -49,6 +49,7 @@
#if defined(_WIN32)
#include <functional>
#include <string>
#include <google/protobuf/port.h>
@ -76,6 +77,24 @@ PROTOBUF_EXPORT int stat(const char* path, struct _stat* buffer);
PROTOBUF_EXPORT int write(int fd, const void* buffer, size_t size);
PROTOBUF_EXPORT std::wstring testonly_utf8_to_winpath(const char* path);
enum class ExpandWildcardsResult {
kSuccess = 0,
kErrorNoMatchingFile = 1,
kErrorInputPathConversion = 2,
kErrorOutputPathConversion = 3,
};
// Expand wildcards in a path pattern, feed the result to a consumer function.
//
// `path` must be a valid, Windows-style path. It may be absolute, or relative
// to the current working directory, and it may contain wildcards ("*" and "?")
// in the last path segment. This function passes all matching file names to
// `consume`. The resulting paths may not be absolute nor normalized.
//
// The function returns a value from `ExpandWildcardsResult`.
LIBPROTOBUF_EXPORT ExpandWildcardsResult ExpandWildcards(
const std::string& path, std::function<void(const std::string&)> consume);
namespace strings {
// Convert from UTF-16 to Active-Code-Page-encoded or to UTF-8-encoded text.

@ -54,6 +54,7 @@
#include <memory>
#include <sstream>
#include <string>
#include <vector>
#include <gtest/gtest.h>
@ -85,6 +86,7 @@ const wchar_t kUtf16Text[] = {
};
using std::string;
using std::vector;
using std::wstring;
class IoWin32Test : public ::testing::Test {
@ -146,12 +148,24 @@ bool GetCwdAsUtf8(string* result) {
}
}
bool CreateEmptyFile(const wstring& path) {
HANDLE h = CreateFileW(path.c_str(), GENERIC_WRITE, 0, NULL, CREATE_ALWAYS,
FILE_ATTRIBUTE_NORMAL, NULL);
if (h == INVALID_HANDLE_VALUE) {
return false;
}
CloseHandle(h);
return true;
}
} // namespace
void IoWin32Test::SetUp() {
test_tmpdir.clear();
wtest_tmpdir.clear();
EXPECT_GT(::GetCurrentDirectoryW(MAX_PATH, working_directory), 0);
DWORD size = ::GetCurrentDirectoryW(MAX_PATH, working_directory);
EXPECT_GT(size, 0);
EXPECT_LT(size, MAX_PATH);
string tmp;
bool ok = false;
@ -354,7 +368,7 @@ TEST_F(IoWin32Test, MkdirTestNonAscii) {
ASSERT_INITIALIZED;
// Create a non-ASCII path.
// Ensure that we can create the directory using SetCurrentDirectoryW.
// Ensure that we can create the directory using CreateDirectoryW.
EXPECT_TRUE(CreateDirectoryW((wtest_tmpdir + L"\\1").c_str(), nullptr));
EXPECT_TRUE(CreateDirectoryW((wtest_tmpdir + L"\\1\\" + kUtf16Text).c_str(), nullptr));
// Ensure that we can create a very similarly named directory using mkdir.
@ -402,6 +416,179 @@ TEST_F(IoWin32Test, ChdirTestNonAscii) {
ASSERT_EQ(wNonAscii, cwd);
}
TEST_F(IoWin32Test, ExpandWildcardsInRelativePathTest) {
wstring wNonAscii(wtest_tmpdir + L"\\" + kUtf16Text);
EXPECT_TRUE(CreateDirectoryW(wNonAscii.c_str(), nullptr));
// Create mock files we will test pattern matching on.
EXPECT_TRUE(CreateEmptyFile(wNonAscii + L"\\foo_a.proto"));
EXPECT_TRUE(CreateEmptyFile(wNonAscii + L"\\foo_b.proto"));
EXPECT_TRUE(CreateEmptyFile(wNonAscii + L"\\bar.proto"));
// `cd` into `wtest_tmpdir`.
EXPECT_TRUE(SetCurrentDirectoryW(wtest_tmpdir.c_str()));
int found_a = 0;
int found_b = 0;
vector<string> found_bad;
// Assert matching a relative path pattern. Results should also be relative.
ExpandWildcardsResult result =
ExpandWildcards(
string(kUtf8Text) + "\\foo*.proto",
[&found_a, &found_b, &found_bad](const string& p) {
if (p == string(kUtf8Text) + "\\foo_a.proto") {
found_a++;
} else if (p == string(kUtf8Text) + "\\foo_b.proto") {
found_b++;
} else {
found_bad.push_back(p);
}
});
EXPECT_EQ(result, ExpandWildcardsResult::kSuccess);
EXPECT_EQ(found_a, 1);
EXPECT_EQ(found_b, 1);
if (!found_bad.empty()) {
FAIL() << found_bad[0];
}
// Assert matching the exact filename.
found_a = 0;
found_bad.clear();
result =
ExpandWildcards(
string(kUtf8Text) + "\\foo_a.proto",
[&found_a, &found_bad](const string& p) {
if (p == string(kUtf8Text) + "\\foo_a.proto") {
found_a++;
} else {
found_bad.push_back(p);
}
});
EXPECT_EQ(result, ExpandWildcardsResult::kSuccess);
EXPECT_EQ(found_a, 1);
if (!found_bad.empty()) {
FAIL() << found_bad[0];
}
}
TEST_F(IoWin32Test, ExpandWildcardsInAbsolutePathTest) {
wstring wNonAscii(wtest_tmpdir + L"\\" + kUtf16Text);
EXPECT_TRUE(CreateDirectoryW(wNonAscii.c_str(), nullptr));
// Create mock files we will test pattern matching on.
EXPECT_TRUE(CreateEmptyFile(wNonAscii + L"\\foo_a.proto"));
EXPECT_TRUE(CreateEmptyFile(wNonAscii + L"\\foo_b.proto"));
EXPECT_TRUE(CreateEmptyFile(wNonAscii + L"\\bar.proto"));
int found_a = 0;
int found_b = 0;
vector<string> found_bad;
// Assert matching an absolute path. The results should also use absolute
// path.
ExpandWildcardsResult result =
ExpandWildcards(
string(test_tmpdir) + "\\" + kUtf8Text + "\\foo*.proto",
[this, &found_a, &found_b, &found_bad](const string& p) {
if (p == string(this->test_tmpdir)
+ "\\"
+ kUtf8Text
+ "\\foo_a.proto") {
found_a++;
} else if (p == string(this->test_tmpdir)
+ "\\"
+ kUtf8Text
+ "\\foo_b.proto") {
found_b++;
} else {
found_bad.push_back(p);
}
});
EXPECT_EQ(result, ExpandWildcardsResult::kSuccess);
EXPECT_EQ(found_a, 1);
EXPECT_EQ(found_b, 1);
if (!found_bad.empty()) {
FAIL() << found_bad[0];
}
// Assert matching the exact filename.
found_a = 0;
found_bad.clear();
result =
ExpandWildcards(
string(test_tmpdir) + "\\" + kUtf8Text + "\\foo_a.proto",
[this, &found_a, &found_bad](const string& p) {
if (p == string(this->test_tmpdir)
+ "\\"
+ kUtf8Text
+ "\\foo_a.proto") {
found_a++;
} else {
found_bad.push_back(p);
}
});
EXPECT_EQ(result, ExpandWildcardsResult::kSuccess);
EXPECT_EQ(found_a, 1);
if (!found_bad.empty()) {
FAIL() << found_bad[0];
}
}
TEST_F(IoWin32Test, ExpandWildcardsIgnoresDirectoriesTest) {
wstring wNonAscii(wtest_tmpdir + L"\\" + kUtf16Text);
EXPECT_TRUE(CreateDirectoryW(wNonAscii.c_str(), nullptr));
// Create mock files we will test pattern matching on.
EXPECT_TRUE(CreateEmptyFile(wNonAscii + L"\\foo_a.proto"));
EXPECT_TRUE(CreateDirectoryW((wNonAscii + L"\\foo_b.proto").c_str(), nullptr));
EXPECT_TRUE(CreateEmptyFile(wNonAscii + L"\\foo_c.proto"));
// `cd` into `wtest_tmpdir`.
EXPECT_TRUE(SetCurrentDirectoryW(wtest_tmpdir.c_str()));
int found_a = 0;
int found_c = 0;
vector<string> found_bad;
// Assert that the pattern matches exactly the expected files, and using the
// absolute path as did the input pattern.
ExpandWildcardsResult result =
ExpandWildcards(
string(kUtf8Text) + "\\foo*.proto",
[&found_a, &found_c, &found_bad](const string& p) {
if (p == string(kUtf8Text) + "\\foo_a.proto") {
found_a++;
} else if (p == string(kUtf8Text) + "\\foo_c.proto") {
found_c++;
} else {
found_bad.push_back(p);
}
});
EXPECT_EQ(result, ExpandWildcardsResult::kSuccess);
EXPECT_EQ(found_a, 1);
EXPECT_EQ(found_c, 1);
if (!found_bad.empty()) {
FAIL() << found_bad[0];
}
}
TEST_F(IoWin32Test, ExpandWildcardsFailsIfNoFileMatchesTest) {
wstring wNonAscii(wtest_tmpdir + L"\\" + kUtf16Text);
EXPECT_TRUE(CreateDirectoryW(wNonAscii.c_str(), nullptr));
// Create mock files we will test pattern matching on.
EXPECT_TRUE(CreateEmptyFile(wNonAscii + L"\\foo_a.proto"));
// `cd` into `wtest_tmpdir`.
EXPECT_TRUE(SetCurrentDirectoryW(wtest_tmpdir.c_str()));
// Control test: should match foo*.proto
ExpandWildcardsResult result = ExpandWildcards(
string(kUtf8Text) + "\\foo*.proto", [](const string&) {});
EXPECT_EQ(result, ExpandWildcardsResult::kSuccess);
// Control test: should match foo_a.proto
result = ExpandWildcards(
string(kUtf8Text) + "\\foo_a.proto", [](const string&) {});
EXPECT_EQ(result, ExpandWildcardsResult::kSuccess);
// Actual test: should not match anything.
result = ExpandWildcards(
string(kUtf8Text) + "\\bar*.proto", [](const string&) {});
ASSERT_EQ(result, ExpandWildcardsResult::kErrorNoMatchingFile);
}
TEST_F(IoWin32Test, AsWindowsPathTest) {
DWORD size = GetCurrentDirectoryW(0, nullptr);
std::unique_ptr<wchar_t[]> cwd_str(new wchar_t[size]);

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