fmt/test/os-test.cc

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// Formatting library for C++ - tests of the OS-specific functionality
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//
// Copyright (c) 2012 - present, Victor Zverovich
// All rights reserved.
//
// For the license information refer to format.h.
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#include "fmt/os.h"
#include <cstdlib> // std::exit
#include <cstring>
#include <memory>
#include "gtest-extra.h"
#include "util.h"
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using fmt::buffered_file;
using testing::HasSubstr;
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using wstring_view = fmt::basic_string_view<wchar_t>;
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#ifdef _WIN32
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# include <windows.h>
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TEST(os_test, format_windows_error) {
LPWSTR message = nullptr;
auto result = FormatMessageW(
FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM |
FORMAT_MESSAGE_IGNORE_INSERTS,
nullptr, ERROR_FILE_EXISTS, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT),
reinterpret_cast<LPWSTR>(&message), 0, nullptr);
auto utf8_message =
fmt::detail::to_utf8<wchar_t>(wstring_view(message, result - 2));
LocalFree(message);
fmt::memory_buffer actual_message;
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fmt::detail::format_windows_error(actual_message, ERROR_FILE_EXISTS, "test");
EXPECT_EQ(fmt::format("test: {}", utf8_message.str()),
fmt::to_string(actual_message));
actual_message.resize(0);
}
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TEST(os_test, format_long_windows_error) {
LPWSTR message = nullptr;
// this error code is not available on all Windows platforms and
// Windows SDKs, so do not fail the test if the error string cannot
// be retrieved.
int provisioning_not_allowed = 0x80284013L; // TBS_E_PROVISIONING_NOT_ALLOWED
auto result = FormatMessageW(
FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM |
FORMAT_MESSAGE_IGNORE_INSERTS,
nullptr, static_cast<DWORD>(provisioning_not_allowed),
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT),
reinterpret_cast<LPWSTR>(&message), 0, nullptr);
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if (result == 0) {
LocalFree(message);
return;
}
auto utf8_message =
fmt::detail::to_utf8<wchar_t>(wstring_view(message, result - 2));
LocalFree(message);
fmt::memory_buffer actual_message;
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fmt::detail::format_windows_error(actual_message, provisioning_not_allowed,
"test");
EXPECT_EQ(fmt::format("test: {}", utf8_message.str()),
fmt::to_string(actual_message));
}
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TEST(os_test, windows_error) {
auto error = std::system_error(std::error_code());
try {
throw fmt::windows_error(ERROR_FILE_EXISTS, "test {}", "error");
} catch (const std::system_error& e) {
error = e;
}
fmt::memory_buffer message;
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fmt::detail::format_windows_error(message, ERROR_FILE_EXISTS, "test error");
EXPECT_THAT(error.what(), HasSubstr(to_string(message)));
EXPECT_EQ(ERROR_FILE_EXISTS, error.code().value());
}
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TEST(os_test, report_windows_error) {
fmt::memory_buffer out;
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fmt::detail::format_windows_error(out, ERROR_FILE_EXISTS, "test error");
out.push_back('\n');
EXPECT_WRITE(stderr,
fmt::report_windows_error(ERROR_FILE_EXISTS, "test error"),
fmt::to_string(out));
}
# if FMT_USE_FCNTL && !defined(__MINGW32__)
TEST(file_test, open_windows_file) {
using fmt::file;
file out = file::open_windows_file(L"test-file",
file::WRONLY | file::CREATE | file::TRUNC);
out.write("x", 1);
file in = file::open_windows_file(L"test-file", file::RDONLY);
EXPECT_READ(in, "x");
}
# endif // FMT_USE_FCNTL && !defined(__MINGW32__)
#endif // _WIN32
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#if FMT_USE_FCNTL
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using fmt::file;
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bool isclosed(int fd) {
char buffer;
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auto result = std::streamsize();
SUPPRESS_ASSERT(result = FMT_POSIX(read(fd, &buffer, 1)));
return result == -1 && errno == EBADF;
}
// Opens a file for reading.
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file open_file() {
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file read_end, write_end;
file::pipe(read_end, write_end);
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write_end.write(file_content, std::strlen(file_content));
write_end.close();
return read_end;
}
// Attempts to write a string to a file.
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void write(file& f, fmt::string_view s) {
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size_t num_chars_left = s.size();
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const char* ptr = s.data();
do {
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size_t count = f.write(ptr, num_chars_left);
ptr += count;
// We can't write more than size_t bytes since num_chars_left
// has type size_t.
num_chars_left -= count;
} while (num_chars_left != 0);
}
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TEST(buffered_file_test, default_ctor) {
auto f = buffered_file();
EXPECT_TRUE(f.get() == nullptr);
}
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TEST(buffered_file_test, move_ctor) {
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buffered_file bf = open_buffered_file();
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FILE* fp = bf.get();
EXPECT_TRUE(fp != nullptr);
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buffered_file bf2(std::move(bf));
EXPECT_EQ(fp, bf2.get());
EXPECT_TRUE(bf.get() == nullptr);
}
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TEST(buffered_file_test, move_assignment) {
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buffered_file bf = open_buffered_file();
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FILE* fp = bf.get();
EXPECT_TRUE(fp != nullptr);
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buffered_file bf2;
bf2 = std::move(bf);
EXPECT_EQ(fp, bf2.get());
EXPECT_TRUE(bf.get() == nullptr);
}
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TEST(buffered_file_test, move_assignment_closes_file) {
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buffered_file bf = open_buffered_file();
buffered_file bf2 = open_buffered_file();
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int old_fd = bf2.descriptor();
bf2 = std::move(bf);
EXPECT_TRUE(isclosed(old_fd));
}
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TEST(buffered_file_test, move_from_temporary_in_ctor) {
FILE* fp = nullptr;
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buffered_file f = open_buffered_file(&fp);
EXPECT_EQ(fp, f.get());
}
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TEST(buffered_file_test, move_from_temporary_in_assignment) {
FILE* fp = nullptr;
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auto f = buffered_file();
f = open_buffered_file(&fp);
EXPECT_EQ(fp, f.get());
}
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TEST(buffered_file_test, move_from_temporary_in_assignment_closes_file) {
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buffered_file f = open_buffered_file();
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int old_fd = f.descriptor();
f = open_buffered_file();
EXPECT_TRUE(isclosed(old_fd));
}
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TEST(buffered_file_test, close_file_in_dtor) {
int fd = 0;
{
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buffered_file f = open_buffered_file();
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fd = f.descriptor();
}
EXPECT_TRUE(isclosed(fd));
}
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TEST(buffered_file_test, close_error_in_dtor) {
auto f =
std::unique_ptr<buffered_file>(new buffered_file(open_buffered_file()));
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EXPECT_WRITE(
stderr,
{
// The close function must be called inside EXPECT_WRITE,
// otherwise the system may recycle closed file descriptor when
// redirecting the output in EXPECT_STDERR and the second close
// will break output redirection.
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FMT_POSIX(close(f->descriptor()));
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SUPPRESS_ASSERT(f.reset(nullptr));
},
system_error_message(EBADF, "cannot close file") + "\n");
}
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TEST(buffered_file_test, close) {
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buffered_file f = open_buffered_file();
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int fd = f.descriptor();
f.close();
EXPECT_TRUE(f.get() == nullptr);
EXPECT_TRUE(isclosed(fd));
}
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TEST(buffered_file_test, close_error) {
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buffered_file f = open_buffered_file();
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FMT_POSIX(close(f.descriptor()));
EXPECT_SYSTEM_ERROR_NOASSERT(f.close(), EBADF, "cannot close file");
EXPECT_TRUE(f.get() == nullptr);
}
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TEST(buffered_file_test, descriptor) {
auto f = open_buffered_file();
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EXPECT_TRUE(f.descriptor() != -1);
file copy = file::dup(f.descriptor());
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EXPECT_READ(copy, file_content);
}
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TEST(ostream_test, move) {
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fmt::ostream out = fmt::output_file("test-file");
fmt::ostream moved(std::move(out));
moved.print("hello");
}
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TEST(ostream_test, move_while_holding_data) {
{
fmt::ostream out = fmt::output_file("test-file");
out.print("Hello, ");
fmt::ostream moved(std::move(out));
moved.print("world!\n");
}
{
file in("test-file", file::RDONLY);
EXPECT_READ(in, "Hello, world!\n");
}
}
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TEST(ostream_test, print) {
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fmt::ostream out = fmt::output_file("test-file");
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out.print("The answer is {}.\n",
fmt::join(std::initializer_list<int>{42}, ", "));
out.close();
file in("test-file", file::RDONLY);
EXPECT_READ(in, "The answer is 42.\n");
}
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TEST(ostream_test, buffer_boundary) {
auto str = std::string(4096, 'x');
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fmt::ostream out = fmt::output_file("test-file");
out.print("{}", str);
out.print("{}", str);
out.close();
file in("test-file", file::RDONLY);
EXPECT_READ(in, str + str);
}
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TEST(ostream_test, buffer_size) {
fmt::ostream out = fmt::output_file("test-file", fmt::buffer_size = 1);
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out.print("{}", "foo");
out.close();
file in("test-file", file::RDONLY);
EXPECT_READ(in, "foo");
}
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TEST(ostream_test, truncate) {
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{
fmt::ostream out = fmt::output_file("test-file");
out.print("0123456789");
}
{
fmt::ostream out = fmt::output_file("test-file");
out.print("foo");
}
file in("test-file", file::RDONLY);
EXPECT_EQ("foo", read(in, 4));
}
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TEST(ostream_test, flush) {
auto out = fmt::output_file("test-file");
out.print("x");
out.flush();
auto in = fmt::file("test-file", file::RDONLY);
EXPECT_READ(in, "x");
}
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TEST(file_test, default_ctor) {
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file f;
EXPECT_EQ(-1, f.descriptor());
}
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TEST(file_test, open_buffered_file_in_ctor) {
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FILE* fp = safe_fopen("test-file", "w");
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std::fputs(file_content, fp);
std::fclose(fp);
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file f("test-file", file::RDONLY);
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// Check if the file is open by reading one character from it.
char buffer;
bool isopen = FMT_POSIX(read(f.descriptor(), &buffer, 1)) == 1;
ASSERT_TRUE(isopen);
}
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TEST(file_test, open_buffered_file_error) {
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EXPECT_SYSTEM_ERROR(file("nonexistent", file::RDONLY), ENOENT,
"cannot open file nonexistent");
}
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TEST(file_test, move_ctor) {
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file f = open_file();
int fd = f.descriptor();
EXPECT_NE(-1, fd);
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file f2(std::move(f));
EXPECT_EQ(fd, f2.descriptor());
EXPECT_EQ(-1, f.descriptor());
}
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TEST(file_test, move_assignment) {
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file f = open_file();
int fd = f.descriptor();
EXPECT_NE(-1, fd);
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file f2;
f2 = std::move(f);
EXPECT_EQ(fd, f2.descriptor());
EXPECT_EQ(-1, f.descriptor());
}
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TEST(file_test, move_assignment_closes_file) {
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file f = open_file();
file f2 = open_file();
int old_fd = f2.descriptor();
f2 = std::move(f);
EXPECT_TRUE(isclosed(old_fd));
}
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file open_buffered_file(int& fd) {
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file f = open_file();
fd = f.descriptor();
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return f;
}
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TEST(file_test, move_from_temporary_in_ctor) {
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int fd = 0xdead;
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file f(open_buffered_file(fd));
EXPECT_EQ(fd, f.descriptor());
}
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TEST(file_test, move_from_temporary_in_assignment) {
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int fd = 0xdead;
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file f;
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f = open_buffered_file(fd);
EXPECT_EQ(fd, f.descriptor());
}
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TEST(file_test, move_from_temporary_in_assignment_closes_file) {
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int fd = 0xdead;
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file f = open_file();
int old_fd = f.descriptor();
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f = open_buffered_file(fd);
EXPECT_TRUE(isclosed(old_fd));
}
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TEST(file_test, close_file_in_dtor) {
int fd = 0;
{
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file f = open_file();
fd = f.descriptor();
}
EXPECT_TRUE(isclosed(fd));
}
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TEST(file_test, close_error_in_dtor) {
std::unique_ptr<file> f(new file(open_file()));
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EXPECT_WRITE(
stderr,
{
// The close function must be called inside EXPECT_WRITE,
// otherwise the system may recycle closed file descriptor when
// redirecting the output in EXPECT_STDERR and the second close
// will break output redirection.
FMT_POSIX(close(f->descriptor()));
SUPPRESS_ASSERT(f.reset(nullptr));
},
system_error_message(EBADF, "cannot close file") + "\n");
}
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TEST(file_test, close) {
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file f = open_file();
int fd = f.descriptor();
f.close();
EXPECT_EQ(-1, f.descriptor());
EXPECT_TRUE(isclosed(fd));
}
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TEST(file_test, close_error) {
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file f = open_file();
FMT_POSIX(close(f.descriptor()));
EXPECT_SYSTEM_ERROR_NOASSERT(f.close(), EBADF, "cannot close file");
EXPECT_EQ(-1, f.descriptor());
}
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TEST(file_test, read) {
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file f = open_file();
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EXPECT_READ(f, file_content);
}
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TEST(file_test, read_error) {
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file f("test-file", file::WRONLY);
char buf;
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// We intentionally read from a file opened in the write-only mode to
// cause error.
EXPECT_SYSTEM_ERROR(f.read(&buf, 1), EBADF, "cannot read from file");
}
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TEST(file_test, write) {
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file read_end, write_end;
file::pipe(read_end, write_end);
write(write_end, "test");
write_end.close();
EXPECT_READ(read_end, "test");
}
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TEST(file_test, write_error) {
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file f("test-file", file::RDONLY);
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// We intentionally write to a file opened in the read-only mode to
// cause error.
EXPECT_SYSTEM_ERROR(f.write(" ", 1), EBADF, "cannot write to file");
}
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TEST(file_test, dup) {
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file f = open_file();
file copy = file::dup(f.descriptor());
EXPECT_NE(f.descriptor(), copy.descriptor());
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EXPECT_EQ(file_content, read(copy, std::strlen(file_content)));
}
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# ifndef __COVERITY__
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TEST(file_test, dup_error) {
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int value = -1;
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EXPECT_SYSTEM_ERROR_NOASSERT(file::dup(value), EBADF,
"cannot duplicate file descriptor -1");
}
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# endif
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TEST(file_test, dup2) {
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file f = open_file();
file copy = open_file();
f.dup2(copy.descriptor());
EXPECT_NE(f.descriptor(), copy.descriptor());
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EXPECT_READ(copy, file_content);
}
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TEST(file_test, dup2_error) {
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file f = open_file();
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EXPECT_SYSTEM_ERROR_NOASSERT(
f.dup2(-1), EBADF,
fmt::format("cannot duplicate file descriptor {} to -1", f.descriptor()));
}
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TEST(file_test, dup2_noexcept) {
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file f = open_file();
file copy = open_file();
std::error_code ec;
f.dup2(copy.descriptor(), ec);
EXPECT_EQ(ec.value(), 0);
EXPECT_NE(f.descriptor(), copy.descriptor());
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EXPECT_READ(copy, file_content);
}
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TEST(file_test, dup2_noexcept_error) {
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file f = open_file();
std::error_code ec;
SUPPRESS_ASSERT(f.dup2(-1, ec));
EXPECT_EQ(EBADF, ec.value());
}
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TEST(file_test, pipe) {
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file read_end, write_end;
file::pipe(read_end, write_end);
EXPECT_NE(-1, read_end.descriptor());
EXPECT_NE(-1, write_end.descriptor());
write(write_end, "test");
EXPECT_READ(read_end, "test");
}
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TEST(file_test, fdopen) {
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file read_end, write_end;
file::pipe(read_end, write_end);
int read_fd = read_end.descriptor();
EXPECT_EQ(read_fd, FMT_POSIX(fileno(read_end.fdopen("r").get())));
}
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#endif // FMT_USE_FCNTL