common/subprocess_unittest.cc - aosp/platform/system/update_engine - Git at Google

 //
 // Copyright (C) 2012 The Android Open Source Project
 //
 // 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.
 //

 #include "update_engine/common/subprocess.h"

 #include <fcntl.h>
 #include <poll.h>
 #include <sys/types.h>
 #include <unistd.h>

 #include <set>
 #include <string>
 #include <vector>

 #include <base/bind.h>
 #include <base/files/scoped_temp_dir.h>
 #include <base/location.h>
 #include <base/message_loop/message_loop.h>
 #include <base/strings/string_util.h>
 #include <base/strings/stringprintf.h>
 #include <base/time/time.h>
 #include <brillo/bind_lambda.h>
 #include <brillo/message_loops/base_message_loop.h>
 #include <brillo/message_loops/message_loop.h>
 #include <brillo/message_loops/message_loop_utils.h>
 #include <brillo/strings/string_utils.h>
 #include <brillo/unittest_utils.h>
 #include <gtest/gtest.h>

 #include "update_engine/common/test_utils.h"
 #include "update_engine/common/utils.h"

 using base::TimeDelta;
 using brillo::MessageLoop;
 using std::string;
 using std::vector;

 namespace {

 #ifdef __ANDROID__
 #define kBinPath "/system/bin"
 #define kUsrBinPath "/system/bin"
 #else
 #define kBinPath "/bin"
 #define kUsrBinPath "/usr/bin"
 #endif  // __ANDROID__

 }  // namespace

 namespace chromeos_update_engine {

 class SubprocessTest : public ::testing::Test {
  protected:
   void SetUp() override {
     loop_.SetAsCurrent();
     async_signal_handler_.Init();
     subprocess_.Init(&async_signal_handler_);
   }

   base::MessageLoopForIO base_loop_;
   brillo::BaseMessageLoop loop_{&base_loop_};
   brillo::AsynchronousSignalHandler async_signal_handler_;
   Subprocess subprocess_;
 };

 namespace {

 void ExpectedResults(int expected_return_code, const string& expected_output,
                      int return_code, const string& output) {
   EXPECT_EQ(expected_return_code, return_code);
   EXPECT_EQ(expected_output, output);
   MessageLoop::current()->BreakLoop();
 }

 void ExpectedEnvVars(int return_code, const string& output) {
   EXPECT_EQ(0, return_code);
   const std::set<string> allowed_envs = {"LD_LIBRARY_PATH", "PATH"};
   for (string key_value : brillo::string_utils::Split(output, "\n")) {
     auto key_value_pair = brillo::string_utils::SplitAtFirst(
         key_value, "=", true);
     EXPECT_NE(allowed_envs.end(), allowed_envs.find(key_value_pair.first));
   }
   MessageLoop::current()->BreakLoop();
 }

 void ExpectedDataOnPipe(const Subprocess* subprocess,
                         pid_t* pid,
                         int child_fd,
                         const string& child_fd_data,
                         int expected_return_code,
                         int return_code,
                         const string& /* output */) {
   EXPECT_EQ(expected_return_code, return_code);

   // Verify that we can read the data from our end of |child_fd|.
   int fd = subprocess->GetPipeFd(*pid, child_fd);
   EXPECT_NE(-1, fd);
   vector<char> buf(child_fd_data.size() + 1);
   EXPECT_EQ(static_cast<ssize_t>(child_fd_data.size()),
             HANDLE_EINTR(read(fd, buf.data(), buf.size())));
   EXPECT_EQ(child_fd_data,
             string(buf.begin(), buf.begin() + child_fd_data.size()));

   MessageLoop::current()->BreakLoop();
 }

 }  // namespace

 TEST_F(SubprocessTest, IsASingleton) {
   EXPECT_EQ(&subprocess_, &Subprocess::Get());
 }

 TEST_F(SubprocessTest, InactiveInstancesDontChangeTheSingleton) {
   std::unique_ptr<Subprocess> another_subprocess(new Subprocess());
   EXPECT_EQ(&subprocess_, &Subprocess::Get());
   another_subprocess.reset();
   EXPECT_EQ(&subprocess_, &Subprocess::Get());
 }

 TEST_F(SubprocessTest, SimpleTest) {
   EXPECT_TRUE(subprocess_.Exec({kBinPath "/false"},
                                base::Bind(&ExpectedResults, 1, "")));
   loop_.Run();
 }

 TEST_F(SubprocessTest, EchoTest) {
   EXPECT_TRUE(subprocess_.Exec(
       {kBinPath "/sh", "-c", "echo this is stdout; echo this is stderr >&2"},
       base::Bind(&ExpectedResults, 0, "this is stdout\nthis is stderr\n")));
   loop_.Run();
 }

 TEST_F(SubprocessTest, StderrNotIncludedInOutputTest) {
   EXPECT_TRUE(subprocess_.ExecFlags(
       {kBinPath "/sh", "-c", "echo on stdout; echo on stderr >&2"},
       0,
       {},
       base::Bind(&ExpectedResults, 0, "on stdout\n")));
   loop_.Run();
 }

 TEST_F(SubprocessTest, PipeRedirectFdTest) {
   pid_t pid;
   pid = subprocess_.ExecFlags(
       {kBinPath "/sh", "-c", "echo on pipe >&3"},
       0,
       {3},
       base::Bind(&ExpectedDataOnPipe, &subprocess_, &pid, 3, "on pipe\n", 0));
   EXPECT_NE(0, pid);

   // Wrong file descriptor values should return -1.
   EXPECT_EQ(-1, subprocess_.GetPipeFd(pid, 123));
   loop_.Run();
   // Calling GetPipeFd() after the callback runs is invalid.
   EXPECT_EQ(-1, subprocess_.GetPipeFd(pid, 3));
 }

 // Test that a pipe file descriptor open in the parent is not open in the child.
 TEST_F(SubprocessTest, PipeClosedWhenNotRedirectedTest) {
   brillo::ScopedPipe pipe;

   // test_subprocess will return with the errno of fstat, which should be EBADF
   // if the passed file descriptor is closed in the child.
   const vector<string> cmd = {
       test_utils::GetBuildArtifactsPath("test_subprocess"),
       "fstat",
       std::to_string(pipe.writer)};
   EXPECT_TRUE(subprocess_.ExecFlags(
       cmd, 0, {}, base::Bind(&ExpectedResults, EBADF, "")));
   loop_.Run();
 }

 TEST_F(SubprocessTest, EnvVarsAreFiltered) {
   EXPECT_TRUE(
       subprocess_.Exec({kUsrBinPath "/env"}, base::Bind(&ExpectedEnvVars)));
   loop_.Run();
 }

 TEST_F(SubprocessTest, SynchronousTrueSearchsOnPath) {
   int rc = -1;
   EXPECT_TRUE(Subprocess::SynchronousExecFlags(
       {"true"}, Subprocess::kSearchPath, &rc, nullptr));
   EXPECT_EQ(0, rc);
 }

 TEST_F(SubprocessTest, SynchronousEchoTest) {
   vector<string> cmd = {
       kBinPath "/sh",
       "-c",
       "echo -n stdout-here; echo -n stderr-there >&2"};
   int rc = -1;
   string stdout;
   ASSERT_TRUE(Subprocess::SynchronousExec(cmd, &rc, &stdout));
   EXPECT_EQ(0, rc);
   EXPECT_EQ("stdout-herestderr-there", stdout);
 }

 TEST_F(SubprocessTest, SynchronousEchoNoOutputTest) {
   int rc = -1;
   ASSERT_TRUE(Subprocess::SynchronousExec(
       {kBinPath "/sh", "-c", "echo test"}, &rc, nullptr));
   EXPECT_EQ(0, rc);
 }

 namespace {
 void CallbackBad(int return_code, const string& output) {
   ADD_FAILURE() << "should never be called.";
 }
 }  // namespace

 // Test that you can cancel a program that's already running.
 TEST_F(SubprocessTest, CancelTest) {
   base::ScopedTempDir tempdir;
   ASSERT_TRUE(tempdir.CreateUniqueTempDir());
   string fifo_path = tempdir.path().Append("fifo").value();
   EXPECT_EQ(0, mkfifo(fifo_path.c_str(), 0666));

   // Start a process, make sure it is running and try to cancel it. We write
   // two bytes to the fifo, the first one marks that the program is running and
   // the second one marks that the process waited for a timeout and was not
   // killed. We should read the first byte but not the second one.
   vector<string> cmd = {
       kBinPath "/sh",
       "-c",
       base::StringPrintf(
           // The 'sleep' launched below could be left behind as an orphaned
           // process when the 'sh' process is terminated by SIGTERM. As a
           // remedy, trap SIGTERM and kill the 'sleep' process, which requires
           // launching 'sleep' in background and then waiting for it.
           "cleanup() { kill \"${sleep_pid}\"; exit 0; }; "
           "trap cleanup TERM; "
           "sleep 60 & "
           "sleep_pid=$!; "
           "printf X >\"%s\"; "
           "wait; "
           "printf Y >\"%s\"; "
           "exit 1",
           fifo_path.c_str(),
           fifo_path.c_str())};
   uint32_t tag = Subprocess::Get().Exec(cmd, base::Bind(&CallbackBad));
   EXPECT_NE(0U, tag);

   int fifo_fd = HANDLE_EINTR(open(fifo_path.c_str(), O_RDONLY));
   EXPECT_GE(fifo_fd, 0);

   loop_.WatchFileDescriptor(FROM_HERE,
                             fifo_fd,
                             MessageLoop::WatchMode::kWatchRead,
                             false,
                             base::Bind([fifo_fd, tag] {
                               char c;
                               EXPECT_EQ(1, HANDLE_EINTR(read(fifo_fd, &c, 1)));
                               EXPECT_EQ('X', c);
                               LOG(INFO) << "Killing tag " << tag;
                               Subprocess::Get().KillExec(tag);
                             }));

   // This test would leak a callback that runs when the child process exits
   // unless we wait for it to run.
   brillo::MessageLoopRunUntil(
       &loop_,
       TimeDelta::FromSeconds(120),
       base::Bind([] { return Subprocess::Get().subprocess_records_.empty(); }));
   EXPECT_TRUE(Subprocess::Get().subprocess_records_.empty());
   // Check that there isn't anything else to read from the pipe.
   char c;
   EXPECT_EQ(0, HANDLE_EINTR(read(fifo_fd, &c, 1)));
   IGNORE_EINTR(close(fifo_fd));
 }

 }  // namespace chromeos_update_engine
	//
	// Copyright (C) 2012 The Android Open Source Project
	//
	// 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.
	//

	#include "update_engine/common/subprocess.h"

	#include <fcntl.h>
	#include <poll.h>
	#include <sys/types.h>
	#include <unistd.h>

	#include <set>
	#include <string>
	#include <vector>

	#include <base/bind.h>
	#include <base/files/scoped_temp_dir.h>
	#include <base/location.h>
	#include <base/message_loop/message_loop.h>
	#include <base/strings/string_util.h>
	#include <base/strings/stringprintf.h>
	#include <base/time/time.h>
	#include <brillo/bind_lambda.h>
	#include <brillo/message_loops/base_message_loop.h>
	#include <brillo/message_loops/message_loop.h>
	#include <brillo/message_loops/message_loop_utils.h>
	#include <brillo/strings/string_utils.h>
	#include <brillo/unittest_utils.h>
	#include <gtest/gtest.h>

	#include "update_engine/common/test_utils.h"
	#include "update_engine/common/utils.h"

	using base::TimeDelta;
	using brillo::MessageLoop;
	using std::string;
	using std::vector;

	namespace {

	#ifdef __ANDROID__
	#define kBinPath "/system/bin"
	#define kUsrBinPath "/system/bin"
	#else
	#define kBinPath "/bin"
	#define kUsrBinPath "/usr/bin"
	#endif // __ANDROID__

	} // namespace

	namespace chromeos_update_engine {

	class SubprocessTest : public ::testing::Test {
	protected:
	void SetUp() override {
	loop_.SetAsCurrent();
	async_signal_handler_.Init();
	subprocess_.Init(&async_signal_handler_);
	}

	base::MessageLoopForIO base_loop_;
	brillo::BaseMessageLoop loop_{&base_loop_};
	brillo::AsynchronousSignalHandler async_signal_handler_;
	Subprocess subprocess_;
	};

	namespace {

	void ExpectedResults(int expected_return_code, const string& expected_output,
	int return_code, const string& output) {
	EXPECT_EQ(expected_return_code, return_code);
	EXPECT_EQ(expected_output, output);
	MessageLoop::current()->BreakLoop();
	}

	void ExpectedEnvVars(int return_code, const string& output) {
	EXPECT_EQ(0, return_code);
	const std::set<string> allowed_envs = {"LD_LIBRARY_PATH", "PATH"};
	for (string key_value : brillo::string_utils::Split(output, "\n")) {
	auto key_value_pair = brillo::string_utils::SplitAtFirst(
	key_value, "=", true);
	EXPECT_NE(allowed_envs.end(), allowed_envs.find(key_value_pair.first));
	}
	MessageLoop::current()->BreakLoop();
	}

	void ExpectedDataOnPipe(const Subprocess* subprocess,
	pid_t* pid,
	int child_fd,
	const string& child_fd_data,
	int expected_return_code,
	int return_code,
	const string& /* output */) {
	EXPECT_EQ(expected_return_code, return_code);

	// Verify that we can read the data from our end of \|child_fd\|.
	int fd = subprocess->GetPipeFd(*pid, child_fd);
	EXPECT_NE(-1, fd);
	vector<char> buf(child_fd_data.size() + 1);
	EXPECT_EQ(static_cast<ssize_t>(child_fd_data.size()),
	HANDLE_EINTR(read(fd, buf.data(), buf.size())));
	EXPECT_EQ(child_fd_data,
	string(buf.begin(), buf.begin() + child_fd_data.size()));

	MessageLoop::current()->BreakLoop();
	}

	} // namespace

	TEST_F(SubprocessTest, IsASingleton) {
	EXPECT_EQ(&subprocess_, &Subprocess::Get());
	}

	TEST_F(SubprocessTest, InactiveInstancesDontChangeTheSingleton) {
	std::unique_ptr<Subprocess> another_subprocess(new Subprocess());
	EXPECT_EQ(&subprocess_, &Subprocess::Get());
	another_subprocess.reset();
	EXPECT_EQ(&subprocess_, &Subprocess::Get());
	}

	TEST_F(SubprocessTest, SimpleTest) {
	EXPECT_TRUE(subprocess_.Exec({kBinPath "/false"},
	base::Bind(&ExpectedResults, 1, "")));
	loop_.Run();
	}

	TEST_F(SubprocessTest, EchoTest) {
	EXPECT_TRUE(subprocess_.Exec(
	{kBinPath "/sh", "-c", "echo this is stdout; echo this is stderr >&2"},
	base::Bind(&ExpectedResults, 0, "this is stdout\nthis is stderr\n")));
	loop_.Run();
	}

	TEST_F(SubprocessTest, StderrNotIncludedInOutputTest) {
	EXPECT_TRUE(subprocess_.ExecFlags(
	{kBinPath "/sh", "-c", "echo on stdout; echo on stderr >&2"},
	0,
	{},
	base::Bind(&ExpectedResults, 0, "on stdout\n")));
	loop_.Run();
	}

	TEST_F(SubprocessTest, PipeRedirectFdTest) {
	pid_t pid;
	pid = subprocess_.ExecFlags(
	{kBinPath "/sh", "-c", "echo on pipe >&3"},
	0,
	{3},
	base::Bind(&ExpectedDataOnPipe, &subprocess_, &pid, 3, "on pipe\n", 0));
	EXPECT_NE(0, pid);

	// Wrong file descriptor values should return -1.
	EXPECT_EQ(-1, subprocess_.GetPipeFd(pid, 123));
	loop_.Run();
	// Calling GetPipeFd() after the callback runs is invalid.
	EXPECT_EQ(-1, subprocess_.GetPipeFd(pid, 3));
	}

	// Test that a pipe file descriptor open in the parent is not open in the child.
	TEST_F(SubprocessTest, PipeClosedWhenNotRedirectedTest) {
	brillo::ScopedPipe pipe;

	// test_subprocess will return with the errno of fstat, which should be EBADF
	// if the passed file descriptor is closed in the child.
	const vector<string> cmd = {
	test_utils::GetBuildArtifactsPath("test_subprocess"),
	"fstat",
	std::to_string(pipe.writer)};
	EXPECT_TRUE(subprocess_.ExecFlags(
	cmd, 0, {}, base::Bind(&ExpectedResults, EBADF, "")));
	loop_.Run();
	}

	TEST_F(SubprocessTest, EnvVarsAreFiltered) {
	EXPECT_TRUE(
	subprocess_.Exec({kUsrBinPath "/env"}, base::Bind(&ExpectedEnvVars)));
	loop_.Run();
	}

	TEST_F(SubprocessTest, SynchronousTrueSearchsOnPath) {
	int rc = -1;
	EXPECT_TRUE(Subprocess::SynchronousExecFlags(
	{"true"}, Subprocess::kSearchPath, &rc, nullptr));
	EXPECT_EQ(0, rc);
	}

	TEST_F(SubprocessTest, SynchronousEchoTest) {
	vector<string> cmd = {
	kBinPath "/sh",
	"-c",
	"echo -n stdout-here; echo -n stderr-there >&2"};
	int rc = -1;
	string stdout;
	ASSERT_TRUE(Subprocess::SynchronousExec(cmd, &rc, &stdout));
	EXPECT_EQ(0, rc);
	EXPECT_EQ("stdout-herestderr-there", stdout);
	}

	TEST_F(SubprocessTest, SynchronousEchoNoOutputTest) {
	int rc = -1;
	ASSERT_TRUE(Subprocess::SynchronousExec(
	{kBinPath "/sh", "-c", "echo test"}, &rc, nullptr));
	EXPECT_EQ(0, rc);
	}

	namespace {
	void CallbackBad(int return_code, const string& output) {
	ADD_FAILURE() << "should never be called.";
	}
	} // namespace

	// Test that you can cancel a program that's already running.
	TEST_F(SubprocessTest, CancelTest) {
	base::ScopedTempDir tempdir;
	ASSERT_TRUE(tempdir.CreateUniqueTempDir());
	string fifo_path = tempdir.path().Append("fifo").value();
	EXPECT_EQ(0, mkfifo(fifo_path.c_str(), 0666));

	// Start a process, make sure it is running and try to cancel it. We write
	// two bytes to the fifo, the first one marks that the program is running and
	// the second one marks that the process waited for a timeout and was not
	// killed. We should read the first byte but not the second one.
	vector<string> cmd = {
	kBinPath "/sh",
	"-c",
	base::StringPrintf(
	// The 'sleep' launched below could be left behind as an orphaned
	// process when the 'sh' process is terminated by SIGTERM. As a
	// remedy, trap SIGTERM and kill the 'sleep' process, which requires
	// launching 'sleep' in background and then waiting for it.
	"cleanup() { kill \"${sleep_pid}\"; exit 0; }; "
	"trap cleanup TERM; "
	"sleep 60 & "
	"sleep_pid=$!; "
	"printf X >\"%s\"; "
	"wait; "
	"printf Y >\"%s\"; "
	"exit 1",
	fifo_path.c_str(),
	fifo_path.c_str())};
	uint32_t tag = Subprocess::Get().Exec(cmd, base::Bind(&CallbackBad));
	EXPECT_NE(0U, tag);

	int fifo_fd = HANDLE_EINTR(open(fifo_path.c_str(), O_RDONLY));
	EXPECT_GE(fifo_fd, 0);

	loop_.WatchFileDescriptor(FROM_HERE,
	fifo_fd,
	MessageLoop::WatchMode::kWatchRead,
	false,
	base::Bind([fifo_fd, tag] {
	char c;
	EXPECT_EQ(1, HANDLE_EINTR(read(fifo_fd, &c, 1)));
	EXPECT_EQ('X', c);
	LOG(INFO) << "Killing tag " << tag;
	Subprocess::Get().KillExec(tag);
	}));

	// This test would leak a callback that runs when the child process exits
	// unless we wait for it to run.
	brillo::MessageLoopRunUntil(
	&loop_,
	TimeDelta::FromSeconds(120),
	base::Bind([] { return Subprocess::Get().subprocess_records_.empty(); }));
	EXPECT_TRUE(Subprocess::Get().subprocess_records_.empty());
	// Check that there isn't anything else to read from the pipe.
	char c;
	EXPECT_EQ(0, HANDLE_EINTR(read(fifo_fd, &c, 1)));
	IGNORE_EINTR(close(fifo_fd));
	}

	} // namespace chromeos_update_engine