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// Copyright 2018 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 BAZEL_TOOLS_TEST_WINDOWS_TW_H_
#define BAZEL_TOOLS_TEST_WINDOWS_TW_H_
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#include <memory>
#include <string>
#include <vector>
namespace bazel {
namespace windows {
class AutoHandle;
} // namespace windows
namespace tools {
namespace test_wrapper {
// Info about a file/directory in the results of TestOnly_GetFileListRelativeTo.
class FileInfo {
public:
// C'tor for a directory.
FileInfo(const std::wstring& rel_path)
: rel_path_(rel_path), size_(0), is_dir_(true) {}
// C'tor for a file.
// Marked "explicit" because `size` is just a `int`.
explicit FileInfo(const std::wstring& rel_path, int size)
: rel_path_(rel_path), size_(size), is_dir_(false) {}
inline const std::wstring& RelativePath() const { return rel_path_; }
inline int Size() const { return size_; }
inline bool IsDirectory() const { return is_dir_; }
private:
// The file's path, relative to the traversal root.
std::wstring rel_path_;
// The file's size, in bytes.
//
// Unfortunately this field has to be `int`, so it can only describe files up
// to 2 GiB in size. The reason is, devtools_ijar::Stat::total_size is
// declared as `int`, which is what we ultimately store the file size in,
// therefore this field is also `int`.
int size_;
// Whether this is a directory (true) or a regular file (false).
bool is_dir_;
};
// Zip entry paths for devtools_ijar::ZipBuilder.
// The function signatures mirror the signatures of ZipBuilder's functions.
class ZipEntryPaths {
public:
// Initialize the strings in this object.
// `root` must be an absolute mixed-style path (Windows path with "/"
// separators).
// `files` must be relative, Unix-style paths.
void Create(const std::string& root, const std::vector<std::string>& files);
// Returns the number of paths in `AbsPathPtrs` and `EntryPathPtrs`.
size_t Size() const { return size_; }
// Returns a mutable array of const pointers to const char data.
// Each pointer points to an absolute path: the file to archive.
// The pointers are owned by this object and become invalid when the object is
// destroyed.
// Each entry corresponds to the entry at the same index in `EntryPathPtrs`.
char const* const* AbsPathPtrs() const { return abs_path_ptrs_.get(); }
// Returns a mutable array of const pointers to const char data.
// Each pointer points to a relative path: an entry in the zip file.
// The pointers are owned by this object and become invalid when the object is
// destroyed.
// Each entry corresponds to the entry at the same index in `AbsPathPtrs`.
char const* const* EntryPathPtrs() const { return entry_path_ptrs_.get(); }
private:
size_t size_;
std::unique_ptr<char[]> abs_paths_;
std::unique_ptr<char*[]> abs_path_ptrs_;
std::unique_ptr<char*[]> entry_path_ptrs_;
};
// Streams data from an input to two outputs.
// Inspired by tee(1) in the GNU coreutils.
class Tee {
public:
virtual ~Tee() {}
protected:
Tee() {}
Tee(const Tee&) = delete;
Tee& operator=(const Tee&) = delete;
};
// The main function of the test wrapper.
int Main(int argc, wchar_t** argv);
// The "testing" namespace contains functions that should only be used by tests.
namespace testing {
// Retrieves an environment variable.
bool TestOnly_GetEnv(const wchar_t* name, std::wstring* result);
// Lists all files under `abs_root`, with paths relative to `abs_root`.
// Limits the directory depth to `depth_limit` many directories below
// `abs_root`.
// A negative depth means unlimited depth. 0 depth means searching only
// `abs_root`, while a positive depth limit allows matches in up to that many
// subdirectories.
bool TestOnly_GetFileListRelativeTo(const std::wstring& abs_root,
std::vector<FileInfo>* result,
int depth_limit = -1);
// Converts a list of files to ZIP file entry paths.a
bool TestOnly_ToZipEntryPaths(
const std::wstring& abs_root,
const std::vector<bazel::tools::test_wrapper::FileInfo>& files,
ZipEntryPaths* result);
// Archives `files` into a zip file at `abs_zip` (absolute path to the zip).
bool TestOnly_CreateZip(const std::wstring& abs_root,
const std::vector<FileInfo>& files,
const std::wstring& abs_zip);
// Returns the MIME type of a file. The file does not need to exist.
std::string TestOnly_GetMimeType(const std::string& filename);
// Returns the contents of the Undeclared Outputs manifest.
bool TestOnly_CreateUndeclaredOutputsManifest(
const std::vector<FileInfo>& files, std::string* result);
bool TestOnly_CreateUndeclaredOutputsAnnotations(
const std::wstring& abs_root, const std::wstring& abs_output);
bool TestOnly_AsMixedPath(const std::wstring& path, std::string* result);
// Creates a Tee object. See the Tee class declaration for more info.
bool TestOnly_CreateTee(bazel::windows::AutoHandle* input,
bazel::windows::AutoHandle* output1,
bazel::windows::AutoHandle* output2,
std::unique_ptr<Tee>* result);
bool TestOnly_CdataEncodeBuffer(uint8_t* buffer, const DWORD size,
std::vector<DWORD>* cdata_end_locations);
bool TestOnly_CdataEscapeAndAppend(const std::wstring& abs_input,
const std::wstring& abs_output);
} // namespace testing
} // namespace test_wrapper
} // namespace tools
} // namespace bazel
#endif // BAZEL_TOOLS_TEST_WINDOWS_TW_H_