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|
//===- unittest/Support/ProgramTest.cpp -----------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/Program.h"
#include "llvm/Config/llvm-config.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/ConvertUTF.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/Signals.h"
#include "gtest/gtest.h"
#include <stdlib.h>
#include <thread>
#if defined(__APPLE__)
# include <crt_externs.h>
#elif !defined(_MSC_VER)
// Forward declare environ in case it's not provided by stdlib.h.
extern char **environ;
#endif
#if defined(LLVM_ON_UNIX)
#include <unistd.h>
void sleep_for(unsigned int seconds) {
sleep(seconds);
}
#elif defined(_WIN32)
#include <windows.h>
void sleep_for(unsigned int seconds) {
Sleep(seconds * 1000);
}
#else
#error sleep_for is not implemented on your platform.
#endif
#define ASSERT_NO_ERROR(x) \
if (std::error_code ASSERT_NO_ERROR_ec = x) { \
SmallString<128> MessageStorage; \
raw_svector_ostream Message(MessageStorage); \
Message << #x ": did not return errc::success.\n" \
<< "error number: " << ASSERT_NO_ERROR_ec.value() << "\n" \
<< "error message: " << ASSERT_NO_ERROR_ec.message() << "\n"; \
GTEST_FATAL_FAILURE_(MessageStorage.c_str()); \
} else { \
}
// From TestMain.cpp.
extern const char *TestMainArgv0;
namespace {
using namespace llvm;
using namespace sys;
static cl::opt<std::string>
ProgramTestStringArg1("program-test-string-arg1");
static cl::opt<std::string>
ProgramTestStringArg2("program-test-string-arg2");
class ProgramEnvTest : public testing::Test {
std::vector<StringRef> EnvTable;
std::vector<std::string> EnvStorage;
protected:
void SetUp() override {
auto EnvP = [] {
#if defined(_WIN32)
_wgetenv(L"TMP"); // Populate _wenviron, initially is null
return _wenviron;
#elif defined(__APPLE__)
return *_NSGetEnviron();
#else
return environ;
#endif
}();
ASSERT_TRUE(EnvP);
auto prepareEnvVar = [this](decltype(*EnvP) Var) -> StringRef {
#if defined(_WIN32)
// On Windows convert UTF16 encoded variable to UTF8
auto Len = wcslen(Var);
ArrayRef<char> Ref{reinterpret_cast<char const *>(Var),
Len * sizeof(*Var)};
EnvStorage.emplace_back();
auto convStatus = convertUTF16ToUTF8String(Ref, EnvStorage.back());
EXPECT_TRUE(convStatus);
return EnvStorage.back();
#else
(void)this;
return StringRef(Var);
#endif
};
while (*EnvP != nullptr) {
auto S = prepareEnvVar(*EnvP);
if (!StringRef(S).starts_with("GTEST_"))
EnvTable.emplace_back(S);
++EnvP;
}
}
void TearDown() override {
EnvTable.clear();
EnvStorage.clear();
}
void addEnvVar(StringRef Var) { EnvTable.emplace_back(Var); }
ArrayRef<StringRef> getEnviron() const { return EnvTable; }
};
#ifdef _WIN32
void checkSeparators(StringRef Path) {
char UndesiredSeparator = sys::path::get_separator()[0] == '/' ? '\\' : '/';
ASSERT_EQ(Path.find(UndesiredSeparator), StringRef::npos);
}
TEST_F(ProgramEnvTest, CreateProcessLongPath) {
if (getenv("LLVM_PROGRAM_TEST_LONG_PATH"))
exit(0);
// getMainExecutable returns an absolute path; prepend the long-path prefix.
SmallString<128> MyAbsExe(
sys::fs::getMainExecutable(TestMainArgv0, &ProgramTestStringArg1));
checkSeparators(MyAbsExe);
// Force a path with backslashes, when we are going to prepend the \\?\
// prefix.
sys::path::native(MyAbsExe, sys::path::Style::windows_backslash);
std::string MyExe;
if (!StringRef(MyAbsExe).starts_with("\\\\?\\"))
MyExe.append("\\\\?\\");
MyExe.append(std::string(MyAbsExe.begin(), MyAbsExe.end()));
StringRef ArgV[] = {MyExe,
"--gtest_filter=ProgramEnvTest.CreateProcessLongPath"};
// Add LLVM_PROGRAM_TEST_LONG_PATH to the environment of the child.
addEnvVar("LLVM_PROGRAM_TEST_LONG_PATH=1");
// Redirect stdout to a long path.
SmallString<128> TestDirectory;
ASSERT_NO_ERROR(
fs::createUniqueDirectory("program-redirect-test", TestDirectory));
SmallString<256> LongPath(TestDirectory);
LongPath.push_back('\\');
// MAX_PATH = 260
LongPath.append(260 - TestDirectory.size(), 'a');
std::string Error;
bool ExecutionFailed;
std::optional<StringRef> Redirects[] = {std::nullopt, LongPath.str(),
std::nullopt};
int RC = ExecuteAndWait(MyExe, ArgV, getEnviron(), Redirects,
/*secondsToWait=*/ 10, /*memoryLimit=*/ 0, &Error,
&ExecutionFailed);
EXPECT_FALSE(ExecutionFailed) << Error;
EXPECT_EQ(0, RC);
// Remove the long stdout.
ASSERT_NO_ERROR(fs::remove(Twine(LongPath)));
ASSERT_NO_ERROR(fs::remove(Twine(TestDirectory)));
}
#endif
TEST_F(ProgramEnvTest, CreateProcessTrailingSlash) {
if (getenv("LLVM_PROGRAM_TEST_CHILD")) {
if (ProgramTestStringArg1 == "has\\\\ trailing\\" &&
ProgramTestStringArg2 == "has\\\\ trailing\\") {
exit(0); // Success! The arguments were passed and parsed.
}
exit(1);
}
std::string my_exe =
sys::fs::getMainExecutable(TestMainArgv0, &ProgramTestStringArg1);
StringRef argv[] = {
my_exe,
"--gtest_filter=ProgramEnvTest.CreateProcessTrailingSlash",
"-program-test-string-arg1",
"has\\\\ trailing\\",
"-program-test-string-arg2",
"has\\\\ trailing\\"};
// Add LLVM_PROGRAM_TEST_CHILD to the environment of the child.
addEnvVar("LLVM_PROGRAM_TEST_CHILD=1");
std::string error;
bool ExecutionFailed;
// Redirect stdout and stdin to NUL, but let stderr through.
#ifdef _WIN32
StringRef nul("NUL");
#else
StringRef nul("/dev/null");
#endif
std::optional<StringRef> redirects[] = {nul, nul, std::nullopt};
int rc = ExecuteAndWait(my_exe, argv, getEnviron(), redirects,
/*secondsToWait=*/ 10, /*memoryLimit=*/ 0, &error,
&ExecutionFailed);
EXPECT_FALSE(ExecutionFailed) << error;
EXPECT_EQ(0, rc);
}
TEST_F(ProgramEnvTest, TestExecuteNoWait) {
using namespace llvm::sys;
if (getenv("LLVM_PROGRAM_TEST_EXECUTE_NO_WAIT")) {
sleep_for(/*seconds*/ 1);
exit(0);
}
std::string Executable =
sys::fs::getMainExecutable(TestMainArgv0, &ProgramTestStringArg1);
StringRef argv[] = {Executable,
"--gtest_filter=ProgramEnvTest.TestExecuteNoWait"};
// Add LLVM_PROGRAM_TEST_EXECUTE_NO_WAIT to the environment of the child.
addEnvVar("LLVM_PROGRAM_TEST_EXECUTE_NO_WAIT=1");
std::string Error;
bool ExecutionFailed;
ProcessInfo PI1 = ExecuteNoWait(Executable, argv, getEnviron(), {}, 0, &Error,
&ExecutionFailed);
ASSERT_FALSE(ExecutionFailed) << Error;
ASSERT_NE(PI1.Pid, ProcessInfo::InvalidPid) << "Invalid process id";
unsigned LoopCount = 0;
// Test that Wait() with SecondsToWait=std::nullopt works. In this case,
// LoopCount should only be incremented once.
while (true) {
++LoopCount;
ProcessInfo WaitResult =
llvm::sys::Wait(PI1, /*SecondsToWait=*/std::nullopt, &Error);
ASSERT_TRUE(Error.empty());
if (WaitResult.Pid == PI1.Pid)
break;
}
EXPECT_EQ(LoopCount, 1u) << "LoopCount should be 1";
ProcessInfo PI2 = ExecuteNoWait(Executable, argv, getEnviron(),
/*Redirects*/ {}, /*MemoryLimit*/ 0, &Error,
&ExecutionFailed);
ASSERT_FALSE(ExecutionFailed) << Error;
ASSERT_NE(PI2.Pid, ProcessInfo::InvalidPid) << "Invalid process id";
// Test that Wait() with SecondsToWait=0 performs a non-blocking wait. In this
// case, LoopCount should be greater than 1 (more than one increment occurs).
while (true) {
++LoopCount;
ProcessInfo WaitResult = llvm::sys::Wait(PI2, /*SecondsToWait=*/0, &Error);
ASSERT_TRUE(Error.empty());
if (WaitResult.Pid == PI2.Pid)
break;
}
ASSERT_GT(LoopCount, 1u) << "LoopCount should be >1";
}
TEST_F(ProgramEnvTest, TestExecuteNoWaitDetached) {
using namespace llvm::sys;
if (getenv("LLVM_PROGRAM_TEST_EXECUTE_NO_WAIT_DETACHED")) {
sleep_for(/*seconds=*/5);
char *Detached = getenv("LLVM_PROGRAM_TEST_EXECUTE_NO_WAIT_DETACHED_TRUE");
#if _WIN32
HANDLE StdHandle = GetStdHandle(STD_OUTPUT_HANDLE);
if (Detached && (StdHandle == INVALID_HANDLE_VALUE || StdHandle == NULL))
exit(100);
if (!Detached && (StdHandle != INVALID_HANDLE_VALUE && StdHandle != NULL))
exit(200);
#else
int ParentSID = std::stoi(
std::string(getenv("LLVM_PROGRAM_TEST_EXECUTE_NO_WAIT_DETACHED_SID")));
pid_t ChildSID = ::getsid(0);
if (ChildSID == -1) {
llvm::errs() << "Could not get process SID: " << strerror(errno) << '\n';
exit(1);
}
if (Detached && (ChildSID != ParentSID))
exit(100);
if (!Detached && (ChildSID == ParentSID))
exit(200);
#endif
exit(0);
}
std::string Executable =
sys::fs::getMainExecutable(TestMainArgv0, &ProgramTestStringArg1);
StringRef argv[] = {
Executable, "--gtest_filter=ProgramEnvTest.TestExecuteNoWaitDetached"};
addEnvVar("LLVM_PROGRAM_TEST_EXECUTE_NO_WAIT_DETACHED=1");
#if _WIN32
// Depending on how the test is run it may already be detached from a
// console. Temporarily allocate a new console. If a console already
// exists AllocConsole will harmlessly fail and return false
BOOL AllocConsoleSuccess = AllocConsole();
// Confirm existence of console
HANDLE StdHandle = GetStdHandle(STD_OUTPUT_HANDLE);
ASSERT_TRUE(StdHandle != INVALID_HANDLE_VALUE && StdHandle != NULL);
#else
pid_t SID = ::getsid(0);
ASSERT_NE(SID, -1);
std::string SIDEnvVar =
"LLVM_PROGRAM_TEST_EXECUTE_NO_WAIT_DETACHED_SID=" + std::to_string(SID);
addEnvVar(SIDEnvVar);
#endif
// DetachProcess = true
{
std::string Error;
bool ExecutionFailed;
std::vector<llvm::StringRef> Env = getEnviron();
Env.emplace_back("LLVM_PROGRAM_TEST_EXECUTE_NO_WAIT_DETACHED_TRUE=1");
ProcessInfo PI1 =
ExecuteNoWait(Executable, argv, Env, {}, 0, &Error, &ExecutionFailed,
nullptr, /*DetachProcess=*/true);
ASSERT_FALSE(ExecutionFailed) << Error;
ASSERT_NE(PI1.Pid, ProcessInfo::InvalidPid) << "Invalid process id";
ProcessInfo WaitResult = Wait(PI1, std::nullopt, &Error);
ASSERT_EQ(WaitResult.ReturnCode, 100);
}
// DetachProcess = false
{
std::string Error;
bool ExecutionFailed;
ProcessInfo PI2 =
ExecuteNoWait(Executable, argv, getEnviron(), {}, 0, &Error,
&ExecutionFailed, nullptr, /*DetachProcess=*/false);
ASSERT_FALSE(ExecutionFailed) << Error;
ASSERT_NE(PI2.Pid, ProcessInfo::InvalidPid) << "Invalid process id";
ProcessInfo WaitResult = Wait(PI2, std::nullopt, &Error);
ASSERT_EQ(WaitResult.ReturnCode, 200);
}
#if _WIN32
// If console was allocated then free the console
if (AllocConsoleSuccess) {
BOOL FreeConsoleSuccess = FreeConsole();
ASSERT_NE(FreeConsoleSuccess, 0);
}
#endif
}
TEST_F(ProgramEnvTest, TestExecuteAndWaitTimeout) {
using namespace llvm::sys;
if (getenv("LLVM_PROGRAM_TEST_TIMEOUT")) {
sleep_for(/*seconds*/ 10);
exit(0);
}
std::string Executable =
sys::fs::getMainExecutable(TestMainArgv0, &ProgramTestStringArg1);
StringRef argv[] = {
Executable, "--gtest_filter=ProgramEnvTest.TestExecuteAndWaitTimeout"};
// Add LLVM_PROGRAM_TEST_TIMEOUT to the environment of the child.
addEnvVar("LLVM_PROGRAM_TEST_TIMEOUT=1");
std::string Error;
bool ExecutionFailed;
int RetCode =
ExecuteAndWait(Executable, argv, getEnviron(), {}, /*SecondsToWait=*/1,
/*MemoryLimit*/ 0, &Error, &ExecutionFailed);
ASSERT_EQ(-2, RetCode);
}
TEST_F(ProgramEnvTest, TestExecuteNoWaitTimeoutPolling) {
using namespace llvm::sys;
if (getenv("LLVM_PROGRAM_TEST_TIMEOUT")) {
sleep_for(/*seconds*/ 5);
exit(0);
}
std::string Executable =
sys::fs::getMainExecutable(TestMainArgv0, &ProgramTestStringArg1);
StringRef argv[] = {
Executable,
"--gtest_filter=ProgramEnvTest.TestExecuteNoWaitTimeoutPolling"};
// Add LLVM_PROGRAM_TEST_TIMEOUT to the environment of the child.
addEnvVar("LLVM_PROGRAM_TEST_TIMEOUT=1");
std::string Error;
bool ExecutionFailed;
ProcessInfo PI0 = ExecuteNoWait(Executable, argv, getEnviron(),
/*Redirects=*/{}, /*MemoryLimit=*/0, &Error,
&ExecutionFailed);
ASSERT_FALSE(ExecutionFailed) << Error;
ASSERT_NE(PI0.Pid, ProcessInfo::InvalidPid) << "Invalid process id";
// Check that we don't kill the process with a non-0 SecondsToWait if Polling.
unsigned LoopCount = 0;
ProcessInfo WaitResult;
do {
++LoopCount;
WaitResult = llvm::sys::Wait(PI0, /*SecondsToWait=*/1, &Error,
/*ProcStats=*/nullptr,
/*Polling=*/true);
ASSERT_TRUE(Error.empty()) << Error;
} while (WaitResult.Pid != PI0.Pid);
ASSERT_GT(LoopCount, 1u) << "LoopCount should be >1";
}
TEST(ProgramTest, TestExecuteNegative) {
std::string Executable = "i_dont_exist";
StringRef argv[] = {Executable};
{
std::string Error;
bool ExecutionFailed;
int RetCode = ExecuteAndWait(Executable, argv, std::nullopt, {}, 0, 0,
&Error, &ExecutionFailed);
EXPECT_LT(RetCode, 0) << "On error ExecuteAndWait should return 0 or "
"positive value indicating the result code";
EXPECT_FALSE(Error.empty());
// Note ExecutionFailed may or may not be false. When using fork, the error
// is produced on the wait for the child, not the execution point.
}
{
std::string Error;
bool ExecutionFailed;
ProcessInfo PI = ExecuteNoWait(Executable, argv, std::nullopt, {}, 0,
&Error, &ExecutionFailed);
if (ExecutionFailed) {
EXPECT_EQ(PI.Pid, ProcessInfo::InvalidPid)
<< "On error ExecuteNoWait should return an invalid ProcessInfo";
EXPECT_FALSE(Error.empty());
} else {
std::string WaitErrMsg;
EXPECT_NE(PI.Pid, ProcessInfo::InvalidPid);
ProcessInfo WaitPI = Wait(PI, std::nullopt, &WaitErrMsg);
EXPECT_EQ(WaitPI.Pid, PI.Pid);
EXPECT_LT(WaitPI.ReturnCode, 0);
EXPECT_FALSE(WaitErrMsg.empty());
}
}
}
#ifdef _WIN32
const char utf16le_text[] =
"\x6c\x00\x69\x00\x6e\x00\x67\x00\xfc\x00\x69\x00\xe7\x00\x61\x00";
const char utf16be_text[] =
"\x00\x6c\x00\x69\x00\x6e\x00\x67\x00\xfc\x00\x69\x00\xe7\x00\x61";
#endif
const char utf8_text[] = "\x6c\x69\x6e\x67\xc3\xbc\x69\xc3\xa7\x61";
TEST(ProgramTest, TestWriteWithSystemEncoding) {
SmallString<128> TestDirectory;
ASSERT_NO_ERROR(fs::createUniqueDirectory("program-test", TestDirectory));
errs() << "Test Directory: " << TestDirectory << '\n';
errs().flush();
SmallString<128> file_pathname(TestDirectory);
path::append(file_pathname, "international-file.txt");
// Only on Windows we should encode in UTF16. For other systems, use UTF8
ASSERT_NO_ERROR(sys::writeFileWithEncoding(file_pathname.c_str(), utf8_text,
sys::WEM_UTF16));
int fd = 0;
ASSERT_NO_ERROR(fs::openFileForRead(file_pathname.c_str(), fd));
#if defined(_WIN32)
char buf[18];
ASSERT_EQ(::read(fd, buf, 18), 18);
const char *utf16_text;
if (strncmp(buf, "\xfe\xff", 2) == 0) { // UTF16-BE
utf16_text = utf16be_text;
} else if (strncmp(buf, "\xff\xfe", 2) == 0) { // UTF16-LE
utf16_text = utf16le_text;
} else {
FAIL() << "Invalid BOM in UTF-16 file";
}
ASSERT_EQ(strncmp(&buf[2], utf16_text, 16), 0);
#else
char buf[10];
ASSERT_EQ(::read(fd, buf, 10), 10);
ASSERT_EQ(strncmp(buf, utf8_text, 10), 0);
#endif
::close(fd);
ASSERT_NO_ERROR(fs::remove(file_pathname.str()));
ASSERT_NO_ERROR(fs::remove(TestDirectory.str()));
}
TEST_F(ProgramEnvTest, TestExecuteAndWaitStatistics) {
using namespace llvm::sys;
if (getenv("LLVM_PROGRAM_TEST_STATISTICS"))
exit(0);
std::string Executable =
sys::fs::getMainExecutable(TestMainArgv0, &ProgramTestStringArg1);
StringRef argv[] = {
Executable, "--gtest_filter=ProgramEnvTest.TestExecuteAndWaitStatistics"};
// Add LLVM_PROGRAM_TEST_STATISTICS to the environment of the child.
addEnvVar("LLVM_PROGRAM_TEST_STATISTICS=1");
std::string Error;
bool ExecutionFailed;
std::optional<ProcessStatistics> ProcStat;
int RetCode = ExecuteAndWait(Executable, argv, getEnviron(), {}, 0, 0, &Error,
&ExecutionFailed, &ProcStat);
ASSERT_EQ(0, RetCode);
ASSERT_TRUE(ProcStat);
ASSERT_GE(ProcStat->UserTime, std::chrono::microseconds(0));
ASSERT_GE(ProcStat->TotalTime, ProcStat->UserTime);
}
TEST_F(ProgramEnvTest, TestLockFile) {
using namespace llvm::sys;
if (const char *LockedFile = getenv("LLVM_PROGRAM_TEST_LOCKED_FILE")) {
// Child process.
int FD2;
ASSERT_NO_ERROR(fs::openFileForReadWrite(LockedFile, FD2,
fs::CD_OpenExisting, fs::OF_None));
std::error_code ErrC = fs::tryLockFile(FD2, std::chrono::seconds(5));
ASSERT_NO_ERROR(ErrC);
ASSERT_NO_ERROR(fs::unlockFile(FD2));
close(FD2);
exit(0);
}
// Create file that will be locked.
SmallString<64> LockedFile;
int FD1;
ASSERT_NO_ERROR(
fs::createTemporaryFile("TestLockFile", "temp", FD1, LockedFile));
std::string Executable =
sys::fs::getMainExecutable(TestMainArgv0, &ProgramTestStringArg1);
StringRef argv[] = {Executable, "--gtest_filter=ProgramEnvTest.TestLockFile"};
// Add LLVM_PROGRAM_TEST_LOCKED_FILE to the environment of the child.
std::string EnvVar = "LLVM_PROGRAM_TEST_LOCKED_FILE=";
EnvVar += LockedFile.str();
addEnvVar(EnvVar);
// Lock the file.
ASSERT_NO_ERROR(fs::tryLockFile(FD1));
std::string Error;
bool ExecutionFailed;
ProcessInfo PI2 = ExecuteNoWait(Executable, argv, getEnviron(), {}, 0, &Error,
&ExecutionFailed);
ASSERT_FALSE(ExecutionFailed) << Error;
ASSERT_TRUE(Error.empty());
ASSERT_NE(PI2.Pid, ProcessInfo::InvalidPid) << "Invalid process id";
// Wait some time to give the child process a chance to start.
std::this_thread::sleep_for(std::chrono::milliseconds(100));
ASSERT_NO_ERROR(fs::unlockFile(FD1));
ProcessInfo WaitResult = llvm::sys::Wait(PI2, /*SecondsToWait=*/5, &Error);
ASSERT_TRUE(Error.empty());
ASSERT_EQ(0, WaitResult.ReturnCode);
ASSERT_EQ(WaitResult.Pid, PI2.Pid);
sys::fs::remove(LockedFile);
}
TEST_F(ProgramEnvTest, TestExecuteWithNoStacktraceHandler) {
using namespace llvm::sys;
if (getenv("LLVM_PROGRAM_TEST_NO_STACKTRACE_HANDLER")) {
sys::PrintStackTrace(errs());
exit(0);
}
std::string Executable =
sys::fs::getMainExecutable(TestMainArgv0, &ProgramTestStringArg1);
StringRef argv[] = {
Executable,
"--gtest_filter=ProgramEnvTest.TestExecuteWithNoStacktraceHandler"};
addEnvVar("LLVM_PROGRAM_TEST_NO_STACKTRACE_HANDLER=1");
std::string Error;
bool ExecutionFailed;
int RetCode = ExecuteAndWait(Executable, argv, getEnviron(), {}, 0, 0, &Error,
&ExecutionFailed);
EXPECT_FALSE(ExecutionFailed) << Error;
ASSERT_EQ(0, RetCode);
}
} // end anonymous namespace
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