forked from OSchip/llvm-project
558 lines
17 KiB
C++
558 lines
17 KiB
C++
#ifndef FILESYSTEM_TEST_HELPER_HPP
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#define FILESYSTEM_TEST_HELPER_HPP
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#include "filesystem_include.hpp"
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#include <unistd.h> // for ftruncate
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#include <cassert>
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#include <cstdio> // for printf
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#include <string>
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#include <fstream>
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#include <random>
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#include <chrono>
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#include <vector>
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#include <regex>
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#include "test_macros.h"
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#include "rapid-cxx-test.hpp"
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#include "format_string.hpp"
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// static test helpers
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#ifndef LIBCXX_FILESYSTEM_STATIC_TEST_ROOT
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#warning "STATIC TESTS DISABLED"
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#else // LIBCXX_FILESYSTEM_STATIC_TEST_ROOT
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namespace StaticEnv {
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inline fs::path makePath(fs::path const& p) {
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// env_path is expected not to contain symlinks.
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static const fs::path env_path = LIBCXX_FILESYSTEM_STATIC_TEST_ROOT;
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return env_path / p;
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}
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static const fs::path Root = LIBCXX_FILESYSTEM_STATIC_TEST_ROOT;
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static const fs::path TestFileList[] = {
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makePath("empty_file"),
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makePath("non_empty_file"),
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makePath("dir1/file1"),
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makePath("dir1/file2")
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};
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const std::size_t TestFileListSize = sizeof(TestFileList) / sizeof(fs::path);
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static const fs::path TestDirList[] = {
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makePath("dir1"),
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makePath("dir1/dir2"),
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makePath("dir1/dir2/dir3")
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};
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const std::size_t TestDirListSize = sizeof(TestDirList) / sizeof(fs::path);
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static const fs::path File = TestFileList[0];
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static const fs::path Dir = TestDirList[0];
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static const fs::path Dir2 = TestDirList[1];
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static const fs::path Dir3 = TestDirList[2];
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static const fs::path SymlinkToFile = makePath("symlink_to_empty_file");
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static const fs::path SymlinkToDir = makePath("symlink_to_dir");
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static const fs::path BadSymlink = makePath("bad_symlink");
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static const fs::path DNE = makePath("DNE");
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static const fs::path EmptyFile = TestFileList[0];
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static const fs::path NonEmptyFile = TestFileList[1];
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static const fs::path CharFile = "/dev/null"; // Hopefully this exists
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static const fs::path DirIterationList[] = {
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makePath("dir1/dir2"),
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makePath("dir1/file1"),
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makePath("dir1/file2")
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};
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const std::size_t DirIterationListSize = sizeof(DirIterationList)
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/ sizeof(fs::path);
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static const fs::path DirIterationListDepth1[] = {
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makePath("dir1/dir2/afile3"),
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makePath("dir1/dir2/dir3"),
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makePath("dir1/dir2/symlink_to_dir3"),
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makePath("dir1/dir2/file4"),
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};
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static const fs::path RecDirIterationList[] = {
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makePath("dir1/dir2"),
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makePath("dir1/file1"),
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makePath("dir1/file2"),
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makePath("dir1/dir2/afile3"),
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makePath("dir1/dir2/dir3"),
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makePath("dir1/dir2/symlink_to_dir3"),
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makePath("dir1/dir2/file4"),
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makePath("dir1/dir2/dir3/file5")
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};
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static const fs::path RecDirFollowSymlinksIterationList[] = {
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makePath("dir1/dir2"),
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makePath("dir1/file1"),
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makePath("dir1/file2"),
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makePath("dir1/dir2/afile3"),
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makePath("dir1/dir2/dir3"),
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makePath("dir1/dir2/file4"),
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makePath("dir1/dir2/dir3/file5"),
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makePath("dir1/dir2/symlink_to_dir3"),
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makePath("dir1/dir2/symlink_to_dir3/file5"),
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};
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} // namespace StaticEnv
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#endif // LIBCXX_FILESYSTEM_STATIC_TEST_ROOT
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#ifndef LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT
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#warning LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT must be defined
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#else // LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT
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#ifndef LIBCXX_FILESYSTEM_DYNAMIC_TEST_HELPER
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#error LIBCXX_FILESYSTEM_DYNAMIC_TEST_HELPER must be defined
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#endif
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namespace random_utils {
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inline char to_hex(int ch) {
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return ch < 10 ? static_cast<char>('0' + ch)
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: static_cast<char>('a' + (ch - 10));
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}
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inline char random_hex_char() {
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static std::mt19937 rd{std::random_device{}()};
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static std::uniform_int_distribution<int> mrand{0, 15};
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return to_hex(mrand(rd));
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}
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} // namespace random_utils
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struct scoped_test_env
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{
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scoped_test_env() : test_root(random_env_path())
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{ fs_helper_run(fs_make_cmd("init_test_directory", test_root)); }
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~scoped_test_env()
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{ fs_helper_run(fs_make_cmd("destroy_test_directory", test_root)); }
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scoped_test_env(scoped_test_env const &) = delete;
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scoped_test_env & operator=(scoped_test_env const &) = delete;
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fs::path make_env_path(std::string p) { return sanitize_path(p); }
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std::string sanitize_path(std::string raw) {
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assert(raw.find("..") == std::string::npos);
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std::string const& root = test_root.native();
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if (root.compare(0, root.size(), raw, 0, root.size()) != 0) {
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assert(raw.front() != '\\');
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fs::path tmp(test_root);
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tmp /= raw;
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return std::move(const_cast<std::string&>(tmp.native()));
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}
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return raw;
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}
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// Purposefully using a size potentially larger than off_t here so we can
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// test the behavior of libc++fs when it is built with _FILE_OFFSET_BITS=64
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// but the caller is not (std::filesystem also uses uintmax_t rather than
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// off_t). On a 32-bit system this allows us to create a file larger than
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// 2GB.
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std::string create_file(std::string filename, uintmax_t size = 0) {
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#if defined(__LP64__)
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auto large_file_fopen = fopen;
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auto large_file_ftruncate = ftruncate;
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using large_file_offset_t = off_t;
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#else
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auto large_file_fopen = fopen64;
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auto large_file_ftruncate = ftruncate64;
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using large_file_offset_t = off64_t;
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#endif
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filename = sanitize_path(std::move(filename));
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if (size > std::numeric_limits<large_file_offset_t>::max()) {
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fprintf(stderr, "create_file(%s, %ju) too large\n",
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filename.c_str(), size);
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abort();
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}
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FILE* file = large_file_fopen(filename.c_str(), "we");
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if (file == nullptr) {
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fprintf(stderr, "fopen %s failed: %s\n", filename.c_str(),
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strerror(errno));
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abort();
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}
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if (large_file_ftruncate(
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fileno(file), static_cast<large_file_offset_t>(size)) == -1) {
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fprintf(stderr, "ftruncate %s %ju failed: %s\n", filename.c_str(),
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size, strerror(errno));
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fclose(file);
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abort();
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}
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fclose(file);
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return filename;
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}
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std::string create_dir(std::string filename) {
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filename = sanitize_path(std::move(filename));
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fs_helper_run(fs_make_cmd("create_dir", filename));
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return filename;
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}
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std::string create_symlink(std::string source, std::string to) {
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source = sanitize_path(std::move(source));
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to = sanitize_path(std::move(to));
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fs_helper_run(fs_make_cmd("create_symlink", source, to));
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return to;
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}
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std::string create_hardlink(std::string source, std::string to) {
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source = sanitize_path(std::move(source));
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to = sanitize_path(std::move(to));
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fs_helper_run(fs_make_cmd("create_hardlink", source, to));
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return to;
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}
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std::string create_fifo(std::string file) {
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file = sanitize_path(std::move(file));
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fs_helper_run(fs_make_cmd("create_fifo", file));
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return file;
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}
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// OS X and FreeBSD doesn't support socket files so we shouldn't even
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// allow tests to call this unguarded.
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#if !defined(__FreeBSD__) && !defined(__APPLE__)
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std::string create_socket(std::string file) {
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file = sanitize_path(std::move(file));
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fs_helper_run(fs_make_cmd("create_socket", file));
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return file;
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}
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#endif
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fs::path const test_root;
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private:
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static std::string unique_path_suffix() {
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std::string model = "test.%%%%%%";
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for (auto & ch : model) {
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if (ch == '%')
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ch = random_utils::random_hex_char();
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}
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return model;
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}
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// This could potentially introduce a filesystem race with other tests
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// running at the same time, but oh well, it's just test code.
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static inline fs::path random_env_path() {
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static const char* env_path = LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT;
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fs::path p = fs::path(env_path) / unique_path_suffix();
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assert(p.parent_path() == env_path);
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return p;
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}
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static inline std::string make_arg(std::string const& arg) {
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return "'" + arg + "'";
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}
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static inline std::string make_arg(std::size_t arg) {
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return std::to_string(arg);
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}
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template <class T>
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static inline std::string
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fs_make_cmd(std::string const& cmd_name, T const& arg) {
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return cmd_name + "(" + make_arg(arg) + ")";
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}
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template <class T, class U>
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static inline std::string
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fs_make_cmd(std::string const& cmd_name, T const& arg1, U const& arg2) {
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return cmd_name + "(" + make_arg(arg1) + ", " + make_arg(arg2) + ")";
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}
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static inline void fs_helper_run(std::string const& raw_cmd) {
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// check that the fs test root in the environment matches what we were
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// compiled with.
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static bool checked = checkDynamicTestRoot();
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((void)checked);
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std::string cmd = LIBCXX_FILESYSTEM_DYNAMIC_TEST_HELPER;
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cmd += " \"" + raw_cmd + "\"";
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int ret = std::system(cmd.c_str());
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assert(ret == 0);
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}
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static bool checkDynamicTestRoot() {
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// LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT is expected not to contain symlinks.
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char* fs_root = std::getenv("LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT");
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if (!fs_root) {
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std::printf("ERROR: LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT must be a defined "
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"environment variable when running the test.\n");
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std::abort();
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}
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if (std::string(fs_root) != LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT) {
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std::printf("ERROR: LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT environment variable"
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" must have the same value as when the test was compiled.\n");
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std::printf(" Current Value: '%s'\n", fs_root);
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std::printf(" Expected Value: '%s'\n", LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT);
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std::abort();
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}
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return true;
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}
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};
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#endif // LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT
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// Misc test types
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#define CONCAT2(LHS, RHS) LHS##RHS
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#define CONCAT(LHS, RHS) CONCAT2(LHS, RHS)
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#define MKSTR(Str) {Str, CONCAT(L, Str), CONCAT(u, Str), CONCAT(U, Str)}
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struct MultiStringType {
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const char* s;
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const wchar_t* w;
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const char16_t* u16;
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const char32_t* u32;
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operator const char* () const { return s; }
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operator const wchar_t* () const { return w; }
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operator const char16_t* () const { return u16; }
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operator const char32_t* () const { return u32; }
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};
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const MultiStringType PathList[] = {
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MKSTR(""),
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MKSTR(" "),
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MKSTR("//"),
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MKSTR("."),
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MKSTR(".."),
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MKSTR("foo"),
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MKSTR("/"),
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MKSTR("/foo"),
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MKSTR("foo/"),
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MKSTR("/foo/"),
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MKSTR("foo/bar"),
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MKSTR("/foo/bar"),
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MKSTR("//net"),
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MKSTR("//net/foo"),
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MKSTR("///foo///"),
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MKSTR("///foo///bar"),
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MKSTR("/."),
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MKSTR("./"),
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MKSTR("/.."),
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MKSTR("../"),
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MKSTR("foo/."),
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MKSTR("foo/.."),
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MKSTR("foo/./"),
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MKSTR("foo/./bar"),
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MKSTR("foo/../"),
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MKSTR("foo/../bar"),
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MKSTR("c:"),
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MKSTR("c:/"),
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MKSTR("c:foo"),
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MKSTR("c:/foo"),
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MKSTR("c:foo/"),
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MKSTR("c:/foo/"),
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MKSTR("c:/foo/bar"),
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MKSTR("prn:"),
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MKSTR("c:\\"),
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MKSTR("c:\\foo"),
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MKSTR("c:foo\\"),
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MKSTR("c:\\foo\\"),
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MKSTR("c:\\foo/"),
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MKSTR("c:/foo\\bar"),
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MKSTR("//"),
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MKSTR("/finally/we/need/one/really/really/really/really/really/really/really/long/string")
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};
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const unsigned PathListSize = sizeof(PathList) / sizeof(MultiStringType);
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template <class Iter>
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Iter IterEnd(Iter B) {
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using VT = typename std::iterator_traits<Iter>::value_type;
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for (; *B != VT{}; ++B)
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;
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return B;
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}
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template <class CharT>
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const CharT* StrEnd(CharT const* P) {
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return IterEnd(P);
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}
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template <class CharT>
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std::size_t StrLen(CharT const* P) {
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return StrEnd(P) - P;
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}
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// Testing the allocation behavior of the code_cvt functions requires
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// *knowing* that the allocation was not done by "path::__str_".
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// This hack forces path to allocate enough memory.
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inline void PathReserve(fs::path& p, std::size_t N) {
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auto const& native_ref = p.native();
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const_cast<std::string&>(native_ref).reserve(N);
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}
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template <class Iter1, class Iter2>
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bool checkCollectionsEqual(
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Iter1 start1, Iter1 const end1
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, Iter2 start2, Iter2 const end2
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)
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{
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while (start1 != end1 && start2 != end2) {
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if (*start1 != *start2) {
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return false;
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}
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++start1; ++start2;
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}
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return (start1 == end1 && start2 == end2);
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}
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template <class Iter1, class Iter2>
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bool checkCollectionsEqualBackwards(
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Iter1 const start1, Iter1 end1
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, Iter2 const start2, Iter2 end2
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)
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{
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while (start1 != end1 && start2 != end2) {
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--end1; --end2;
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if (*end1 != *end2) {
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return false;
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}
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}
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return (start1 == end1 && start2 == end2);
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}
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// We often need to test that the error_code was cleared if no error occurs
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// this function returns an error_code which is set to an error that will
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// never be returned by the filesystem functions.
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inline std::error_code GetTestEC(unsigned Idx = 0) {
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using std::errc;
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auto GetErrc = [&]() {
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switch (Idx) {
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case 0:
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return errc::address_family_not_supported;
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case 1:
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return errc::address_not_available;
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case 2:
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return errc::address_in_use;
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case 3:
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return errc::argument_list_too_long;
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default:
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assert(false && "Idx out of range");
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std::abort();
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}
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};
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return std::make_error_code(GetErrc());
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}
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inline bool ErrorIsImp(const std::error_code& ec,
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std::vector<std::errc> const& errors) {
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for (auto errc : errors) {
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if (ec == std::make_error_code(errc))
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return true;
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}
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return false;
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}
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template <class... ErrcT>
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inline bool ErrorIs(const std::error_code& ec, std::errc First, ErrcT... Rest) {
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std::vector<std::errc> errors = {First, Rest...};
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return ErrorIsImp(ec, errors);
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}
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// Provide our own Sleep routine since std::this_thread::sleep_for is not
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// available in single-threaded mode.
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void SleepFor(std::chrono::seconds dur) {
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using namespace std::chrono;
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#if defined(_LIBCPP_HAS_NO_MONOTONIC_CLOCK)
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using Clock = system_clock;
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#else
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using Clock = steady_clock;
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#endif
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const auto wake_time = Clock::now() + dur;
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while (Clock::now() < wake_time)
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;
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}
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inline bool PathEq(fs::path const& LHS, fs::path const& RHS) {
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return LHS.native() == RHS.native();
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}
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struct ExceptionChecker {
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std::errc expected_err;
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fs::path expected_path1;
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fs::path expected_path2;
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unsigned num_paths;
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const char* func_name;
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std::string opt_message;
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explicit ExceptionChecker(std::errc first_err, const char* func_name,
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std::string opt_msg = {})
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: expected_err{first_err}, num_paths(0), func_name(func_name),
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opt_message(opt_msg) {}
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explicit ExceptionChecker(fs::path p, std::errc first_err,
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const char* func_name, std::string opt_msg = {})
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: expected_err(first_err), expected_path1(p), num_paths(1),
|
|
func_name(func_name), opt_message(opt_msg) {}
|
|
|
|
explicit ExceptionChecker(fs::path p1, fs::path p2, std::errc first_err,
|
|
const char* func_name, std::string opt_msg = {})
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|
: expected_err(first_err), expected_path1(p1), expected_path2(p2),
|
|
num_paths(2), func_name(func_name), opt_message(opt_msg) {}
|
|
|
|
void operator()(fs::filesystem_error const& Err) {
|
|
TEST_CHECK(ErrorIsImp(Err.code(), {expected_err}));
|
|
TEST_CHECK(Err.path1() == expected_path1);
|
|
TEST_CHECK(Err.path2() == expected_path2);
|
|
LIBCPP_ONLY(check_libcxx_string(Err));
|
|
}
|
|
|
|
void check_libcxx_string(fs::filesystem_error const& Err) {
|
|
std::string message = std::make_error_code(expected_err).message();
|
|
|
|
std::string additional_msg = "";
|
|
if (!opt_message.empty()) {
|
|
additional_msg = opt_message + ": ";
|
|
}
|
|
auto transform_path = [](const fs::path& p) {
|
|
if (p.native().empty())
|
|
return "\"\"";
|
|
return p.c_str();
|
|
};
|
|
std::string format = [&]() -> std::string {
|
|
switch (num_paths) {
|
|
case 0:
|
|
return format_string("filesystem error: in %s: %s%s", func_name,
|
|
additional_msg, message);
|
|
case 1:
|
|
return format_string("filesystem error: in %s: %s%s [%s]", func_name,
|
|
additional_msg, message,
|
|
transform_path(expected_path1));
|
|
case 2:
|
|
return format_string("filesystem error: in %s: %s%s [%s] [%s]",
|
|
func_name, additional_msg, message,
|
|
transform_path(expected_path1),
|
|
transform_path(expected_path2));
|
|
default:
|
|
TEST_CHECK(false && "unexpected case");
|
|
return "";
|
|
}
|
|
}();
|
|
TEST_CHECK(format == Err.what());
|
|
if (format != Err.what()) {
|
|
fprintf(stderr,
|
|
"filesystem_error::what() does not match expected output:\n");
|
|
fprintf(stderr, " expected: \"%s\"\n", format.c_str());
|
|
fprintf(stderr, " actual: \"%s\"\n\n", Err.what());
|
|
}
|
|
}
|
|
|
|
ExceptionChecker(ExceptionChecker const&) = delete;
|
|
ExceptionChecker& operator=(ExceptionChecker const&) = delete;
|
|
|
|
};
|
|
|
|
#endif /* FILESYSTEM_TEST_HELPER_HPP */
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