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Fix EnvPosix tests on Travis CI.

The previous attempt of having EnvPosix use O_CLOEXEC (close-on-exec()) when opening file descriptors added tests that relied on procfs, which is Linux-specific. These tests failed on macOS. Unfortunately, the test failures were not caught due to a (since fixed) error in our Travis CI configuration.

This CL re-structures the tests to only rely on POSIX features. Since there is no POSIX-compliant way to get a file name/path out of a file descriptor, this CL breaks up the O_CLOEXEC test into multiple tests, where each Env method that creates an FD gets its own test. This is intended to make it easier to find and fix errors in Env implementations.

This CL also fixes the implementation of NewLogger() to use O_CLOEXEC on macOS. The current implementation passes "we" to fopen(), but the macOS standard C library does not implement the "e" flag yet.

PiperOrigin-RevId: 247088953
ld
Victor Costan 5 jaren geleden
committed by Victor Costan
bovenliggende
commit
27dc99fb26
2 gewijzigde bestanden met toevoegingen van 280 en 87 verwijderingen
  1. +9
    -1
      util/env_posix.cc
  2. +271
    -86
      util/env_posix_test.cc

+ 9
- 1
util/env_posix.cc Bestand weergeven

@ -683,8 +683,16 @@ class PosixEnv : public Env {
}
Status NewLogger(const std::string& filename, Logger** result) override {
std::FILE* fp = std::fopen(filename.c_str(), "we");
int fd = ::open(filename.c_str(),
O_APPEND | O_WRONLY | O_CREAT | kOpenBaseFlags, 0644);
if (fd < 0) {
*result = nullptr;
return PosixError(filename, errno);
}
std::FILE* fp = ::fdopen(fd, "w");
if (fp == nullptr) {
::close(fd);
*result = nullptr;
return PosixError(filename, errno);
} else {

+ 271
- 86
util/env_posix_test.cc Bestand weergeven

@ -2,14 +2,167 @@
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. See the AUTHORS file for names of contributors.
#include <sys/resource.h>
#include <sys/wait.h>
#include <unistd.h>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <string>
#include <unordered_set>
#include <vector>
#include "leveldb/env.h"
#include "port/port.h"
#include "util/env_posix_test_helper.h"
#include "util/testharness.h"
#if HAVE_O_CLOEXEC
namespace {
// Exit codes for the helper process spawned by TestCloseOnExec* tests.
// Useful for debugging test failures.
constexpr int kTextCloseOnExecHelperExecFailedCode = 61;
constexpr int kTextCloseOnExecHelperDup2FailedCode = 62;
constexpr int kTextCloseOnExecHelperFoundOpenFdCode = 63;
// Global set by main() and read in TestCloseOnExec.
//
// The argv[0] value is stored in a std::vector instead of a std::string because
// std::string does not return a mutable pointer to its buffer until C++17.
//
// The vector stores the string pointed to by argv[0], plus the trailing null.
std::vector<char>* GetArgvZero() {
static std::vector<char> program_name;
return &program_name;
}
// Command-line switch used to run this test as the CloseOnExecSwitch helper.
static const char kTestCloseOnExecSwitch[] = "--test-close-on-exec-helper";
// Executed in a separate process by TestCloseOnExec* tests.
//
// main() delegates to this function when the test executable is launched with
// a special command-line switch. TestCloseOnExec* tests fork()+exec() the test
// executable and pass the special command-line switch.
//
// main() delegates to this function when the test executable is launched with
// a special command-line switch. TestCloseOnExec* tests fork()+exec() the test
// executable and pass the special command-line switch.
//
// When main() delegates to this function, the process probes whether a given
// file descriptor is open, and communicates the result via its exit code.
int TestCloseOnExecHelperMain(char* pid_arg) {
int fd = std::atoi(pid_arg);
// When given the same file descriptor twice, dup2() returns -1 if the
// file descriptor is closed, or the given file descriptor if it is open.
if (::dup2(fd, fd) == fd) {
std::fprintf(stderr, "Unexpected open fd %d\n", fd);
return kTextCloseOnExecHelperFoundOpenFdCode;
}
// Double-check that dup2() is saying the file descriptor is closed.
if (errno != EBADF) {
std::fprintf(stderr, "Unexpected errno after calling dup2 on fd %d: %s\n",
fd, std::strerror(errno));
return kTextCloseOnExecHelperDup2FailedCode;
}
return 0;
}
// File descriptors are small non-negative integers.
//
// Returns void so the implementation can use ASSERT_EQ.
void GetMaxFileDescriptor(int* result_fd) {
// Get the maximum file descriptor number.
::rlimit fd_rlimit;
ASSERT_EQ(0, ::getrlimit(RLIMIT_NOFILE, &fd_rlimit));
*result_fd = fd_rlimit.rlim_cur;
}
// Iterates through all possible FDs and returns the currently open ones.
//
// Returns void so the implementation can use ASSERT_EQ.
void GetOpenFileDescriptors(std::unordered_set<int>* open_fds) {
int max_fd = 0;
GetMaxFileDescriptor(&max_fd);
for (int fd = 0; fd < max_fd; ++fd) {
if (::dup2(fd, fd) != fd) {
// When given the same file descriptor twice, dup2() returns -1 if the
// file descriptor is closed, or the given file descriptor if it is open.
//
// Double-check that dup2() is saying the fd is closed.
ASSERT_EQ(EBADF, errno)
<< "dup2() should set errno to EBADF on closed file descriptors";
continue;
}
open_fds->insert(fd);
}
}
// Finds an FD open since a previous call to GetOpenFileDescriptors().
//
// |baseline_open_fds| is the result of a previous GetOpenFileDescriptors()
// call. Assumes that exactly one FD was opened since that call.
//
// Returns void so the implementation can use ASSERT_EQ.
void GetNewlyOpenedFileDescriptor(
const std::unordered_set<int>& baseline_open_fds, int* result_fd) {
std::unordered_set<int> open_fds;
GetOpenFileDescriptors(&open_fds);
for (int fd : baseline_open_fds) {
ASSERT_EQ(1, open_fds.count(fd))
<< "Previously opened file descriptor was closed during test setup";
open_fds.erase(fd);
}
ASSERT_EQ(1, open_fds.size())
<< "Expected exactly one newly opened file descriptor during test setup";
*result_fd = *open_fds.begin();
}
// Check that a fork()+exec()-ed child process does not have an extra open FD.
void CheckCloseOnExecDoesNotLeakFDs(
const std::unordered_set<int>& baseline_open_fds) {
// Prepare the argument list for the child process.
// execv() wants mutable buffers.
char switch_buffer[sizeof(kTestCloseOnExecSwitch)];
std::memcpy(switch_buffer, kTestCloseOnExecSwitch,
sizeof(kTestCloseOnExecSwitch));
int probed_fd;
GetNewlyOpenedFileDescriptor(baseline_open_fds, &probed_fd);
std::string fd_string = std::to_string(probed_fd);
std::vector<char> fd_buffer(fd_string.begin(), fd_string.end());
fd_buffer.emplace_back('\0');
// The helper process is launched with the command below.
// env_posix_tests --test-close-on-exec-helper 3
char* child_argv[] = {GetArgvZero()->data(), switch_buffer, fd_buffer.data(),
nullptr};
constexpr int kForkInChildProcessReturnValue = 0;
int child_pid = fork();
if (child_pid == kForkInChildProcessReturnValue) {
::execv(child_argv[0], child_argv);
std::fprintf(stderr, "Error spawning child process: %s\n", strerror(errno));
std::exit(kTextCloseOnExecHelperExecFailedCode);
}
int child_status = 0;
ASSERT_EQ(child_pid, ::waitpid(child_pid, &child_status, 0));
ASSERT_TRUE(WIFEXITED(child_status))
<< "The helper process did not exit with an exit code";
ASSERT_EQ(0, WEXITSTATUS(child_status))
<< "The helper process encountered an error";
}
} // namespace
#endif // HAVE_O_CLOEXEC
namespace leveldb {
static const int kReadOnlyFileLimit = 4;
@ -58,106 +211,138 @@ TEST(EnvPosixTest, TestOpenOnRead) {
ASSERT_OK(env_->DeleteFile(test_file));
}
#if defined(HAVE_O_CLOEXEC)
#if HAVE_O_CLOEXEC
TEST(EnvPosixTest, TestCloseOnExec) {
// Test that file handles are not inherited by child processes.
TEST(EnvPosixTest, TestCloseOnExecSequentialFile) {
std::unordered_set<int> open_fds;
GetOpenFileDescriptors(&open_fds);
// Open file handles with each of the open methods.
std::string test_dir;
ASSERT_OK(env_->GetTestDirectory(&test_dir));
std::vector<std::string> test_files = {
test_dir + "/close_on_exec_seq.txt",
test_dir + "/close_on_exec_rand.txt",
test_dir + "/close_on_exec_write.txt",
test_dir + "/close_on_exec_append.txt",
test_dir + "/close_on_exec_lock.txt",
test_dir + "/close_on_exec_log.txt",
};
for (const std::string& test_file : test_files) {
const char kFileData[] = "0123456789";
ASSERT_OK(WriteStringToFile(env_, kFileData, test_file));
}
leveldb::SequentialFile* seqFile = nullptr;
leveldb::RandomAccessFile* randFile = nullptr;
leveldb::WritableFile* writeFile = nullptr;
leveldb::WritableFile* appendFile = nullptr;
leveldb::FileLock* lockFile = nullptr;
leveldb::Logger* logFile = nullptr;
ASSERT_OK(env_->NewSequentialFile(test_files[0], &seqFile));
ASSERT_OK(env_->NewRandomAccessFile(test_files[1], &randFile));
ASSERT_OK(env_->NewWritableFile(test_files[2], &writeFile));
ASSERT_OK(env_->NewAppendableFile(test_files[3], &appendFile));
ASSERT_OK(env_->LockFile(test_files[4], &lockFile));
ASSERT_OK(env_->NewLogger(test_files[5], &logFile));
// Fork a child process and wait for it to complete.
int pid = fork();
if (pid == 0) {
const char* const child[] = {"/proc/self/exe", "-cloexec-child", nullptr};
execv(child[0], const_cast<char* const*>(child));
printf("Error spawning child process: %s\n", strerror(errno));
exit(6);
std::string file_path = test_dir + "/close_on_exec_sequential.txt";
ASSERT_OK(WriteStringToFile(env_, "0123456789", file_path));
leveldb::SequentialFile* file = nullptr;
ASSERT_OK(env_->NewSequentialFile(file_path, &file));
CheckCloseOnExecDoesNotLeakFDs(open_fds);
delete file;
ASSERT_OK(env_->DeleteFile(file_path));
}
TEST(EnvPosixTest, TestCloseOnExecRandomAccessFile) {
std::unordered_set<int> open_fds;
GetOpenFileDescriptors(&open_fds);
std::string test_dir;
ASSERT_OK(env_->GetTestDirectory(&test_dir));
std::string file_path = test_dir + "/close_on_exec_random_access.txt";
ASSERT_OK(WriteStringToFile(env_, "0123456789", file_path));
// Exhaust the RandomAccessFile mmap limit. This way, the test
// RandomAccessFile instance below is backed by a file descriptor, not by an
// mmap region.
leveldb::RandomAccessFile* mmapped_files[kReadOnlyFileLimit] = {nullptr};
for (int i = 0; i < kReadOnlyFileLimit; i++) {
ASSERT_OK(env_->NewRandomAccessFile(file_path, &mmapped_files[i]));
}
int status;
waitpid(pid, &status, 0);
ASSERT_EQ(0, WEXITSTATUS(status));
// cleanup
ASSERT_OK(env_->UnlockFile(lockFile));
delete seqFile;
delete randFile;
delete writeFile;
delete appendFile;
delete logFile;
for (const std::string& test_file : test_files) {
ASSERT_OK(env_->DeleteFile(test_file));
leveldb::RandomAccessFile* file = nullptr;
ASSERT_OK(env_->NewRandomAccessFile(file_path, &file));
CheckCloseOnExecDoesNotLeakFDs(open_fds);
delete file;
for (int i = 0; i < kReadOnlyFileLimit; i++) {
delete mmapped_files[i];
}
ASSERT_OK(env_->DeleteFile(file_path));
}
#endif // defined(HAVE_O_CLOEXEC)
int CloexecChild() {
// Checks for open file descriptors in the range 3..FD_SETSIZE.
for (int i = 3; i < FD_SETSIZE; i++) {
int dup_result = dup2(i, i);
if (dup_result != -1) {
printf("Unexpected open file %d\n", i);
char nbuf[28];
snprintf(nbuf, 28, "/proc/self/fd/%d", i);
char dbuf[1024];
int result = readlink(nbuf, dbuf, 1024);
if (0 < result && result < 1024) {
dbuf[result] = 0;
printf("File descriptor %d is %s\n", i, dbuf);
if (strstr(dbuf, "close_on_exec_") == nullptr) {
continue;
}
} else if (result >= 1024) {
printf("(file name length is too long)\n");
} else {
printf("Couldn't get file name: %s\n", strerror(errno));
}
return 3;
} else {
int e = errno;
if (e != EBADF) {
printf("Unexpected result reading file handle %d: %s\n", i,
strerror(errno));
return 4;
}
}
}
return 0;
TEST(EnvPosixTest, TestCloseOnExecWritableFile) {
std::unordered_set<int> open_fds;
GetOpenFileDescriptors(&open_fds);
std::string test_dir;
ASSERT_OK(env_->GetTestDirectory(&test_dir));
std::string file_path = test_dir + "/close_on_exec_writable.txt";
ASSERT_OK(WriteStringToFile(env_, "0123456789", file_path));
leveldb::WritableFile* file = nullptr;
ASSERT_OK(env_->NewWritableFile(file_path, &file));
CheckCloseOnExecDoesNotLeakFDs(open_fds);
delete file;
ASSERT_OK(env_->DeleteFile(file_path));
}
TEST(EnvPosixTest, TestCloseOnExecAppendableFile) {
std::unordered_set<int> open_fds;
GetOpenFileDescriptors(&open_fds);
std::string test_dir;
ASSERT_OK(env_->GetTestDirectory(&test_dir));
std::string file_path = test_dir + "/close_on_exec_appendable.txt";
ASSERT_OK(WriteStringToFile(env_, "0123456789", file_path));
leveldb::WritableFile* file = nullptr;
ASSERT_OK(env_->NewAppendableFile(file_path, &file));
CheckCloseOnExecDoesNotLeakFDs(open_fds);
delete file;
ASSERT_OK(env_->DeleteFile(file_path));
}
TEST(EnvPosixTest, TestCloseOnExecLockFile) {
std::unordered_set<int> open_fds;
GetOpenFileDescriptors(&open_fds);
std::string test_dir;
ASSERT_OK(env_->GetTestDirectory(&test_dir));
std::string file_path = test_dir + "/close_on_exec_lock.txt";
ASSERT_OK(WriteStringToFile(env_, "0123456789", file_path));
leveldb::FileLock* lock = nullptr;
ASSERT_OK(env_->LockFile(file_path, &lock));
CheckCloseOnExecDoesNotLeakFDs(open_fds);
ASSERT_OK(env_->UnlockFile(lock));
ASSERT_OK(env_->DeleteFile(file_path));
}
TEST(EnvPosixTest, TestCloseOnExecLogger) {
std::unordered_set<int> open_fds;
GetOpenFileDescriptors(&open_fds);
std::string test_dir;
ASSERT_OK(env_->GetTestDirectory(&test_dir));
std::string file_path = test_dir + "/close_on_exec_logger.txt";
ASSERT_OK(WriteStringToFile(env_, "0123456789", file_path));
leveldb::Logger* file = nullptr;
ASSERT_OK(env_->NewLogger(file_path, &file));
CheckCloseOnExecDoesNotLeakFDs(open_fds);
delete file;
ASSERT_OK(env_->DeleteFile(file_path));
}
#endif // HAVE_O_CLOEXEC
} // namespace leveldb
int main(int argc, char** argv) {
// Check if this is the child process for TestCloseOnExec
if (argc > 1 && strcmp(argv[1], "-cloexec-child") == 0) {
return leveldb::CloexecChild();
#if HAVE_O_CLOEXEC
// Check if we're invoked as a helper program, or as the test suite.
for (int i = 1; i < argc; ++i) {
if (!std::strcmp(argv[i], kTestCloseOnExecSwitch)) {
return TestCloseOnExecHelperMain(argv[i + 1]);
}
}
// Save argv[0] early, because googletest may modify argv.
GetArgvZero()->assign(argv[0], argv[0] + std::strlen(argv[0]) + 1);
#endif // HAVE_O_CLOEXEC
// All tests currently run with the same read-only file limits.
leveldb::EnvPosixTest::SetFileLimits(leveldb::kReadOnlyFileLimit,
leveldb::kMMapLimit);

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