/*
* Copyright (C) 2015 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 "shell_service.h"
#include <gtest/gtest.h>
#include <signal.h>
#include <string>
#include <vector>
#include <android-base/strings.h>
#include "adb.h"
#include "adb_io.h"
#include "sysdeps.h"
class ShellServiceTest : public ::testing::Test {
public:
static void SetUpTestCase() {
// This is normally done in main.cpp.
saved_sigpipe_handler_ = signal(SIGPIPE, SIG_IGN);
}
static void TearDownTestCase() {
signal(SIGPIPE, saved_sigpipe_handler_);
}
// Helpers to start and cleanup a subprocess. Cleanup normally does not
// need to be called manually unless multiple subprocesses are run from
// a single test.
void StartTestSubprocess(const char* command, SubprocessType type,
SubprocessProtocol protocol);
void CleanupTestSubprocess();
virtual void TearDown() override {
void CleanupTestSubprocess();
}
static sighandler_t saved_sigpipe_handler_;
int subprocess_fd_ = -1;
int shell_exit_receiver_fd_ = -1, saved_shell_exit_fd_;
};
sighandler_t ShellServiceTest::saved_sigpipe_handler_ = nullptr;
void ShellServiceTest::StartTestSubprocess(
const char* command, SubprocessType type, SubprocessProtocol protocol) {
// We want to intercept the shell exit message to make sure it's sent.
saved_shell_exit_fd_ = SHELL_EXIT_NOTIFY_FD;
int fd[2];
ASSERT_TRUE(adb_socketpair(fd) >= 0);
SHELL_EXIT_NOTIFY_FD = fd[0];
shell_exit_receiver_fd_ = fd[1];
subprocess_fd_ = StartSubprocess(command, nullptr, type, protocol);
ASSERT_TRUE(subprocess_fd_ >= 0);
}
void ShellServiceTest::CleanupTestSubprocess() {
if (subprocess_fd_ >= 0) {
// Subprocess should send its FD to SHELL_EXIT_NOTIFY_FD for cleanup.
int notified_fd = -1;
ASSERT_TRUE(ReadFdExactly(shell_exit_receiver_fd_, ¬ified_fd,
sizeof(notified_fd)));
ASSERT_EQ(notified_fd, subprocess_fd_);
adb_close(subprocess_fd_);
subprocess_fd_ = -1;
// Restore SHELL_EXIT_NOTIFY_FD.
adb_close(SHELL_EXIT_NOTIFY_FD);
adb_close(shell_exit_receiver_fd_);
shell_exit_receiver_fd_ = -1;
SHELL_EXIT_NOTIFY_FD = saved_shell_exit_fd_;
}
}
namespace {
// Reads raw data from |fd| until it closes or errors.
std::string ReadRaw(int fd) {
char buffer[1024];
char *cur_ptr = buffer, *end_ptr = buffer + sizeof(buffer);
while (1) {
int bytes = adb_read(fd, cur_ptr, end_ptr - cur_ptr);
if (bytes <= 0) {
return std::string(buffer, cur_ptr);
}
cur_ptr += bytes;
}
}
// Reads shell protocol data from |fd| until it closes or errors. Fills
// |stdout| and |stderr| with their respective data, and returns the exit code
// read from the protocol or -1 if an exit code packet was not received.
int ReadShellProtocol(int fd, std::string* stdout, std::string* stderr) {
int exit_code = -1;
stdout->clear();
stderr->clear();
ShellProtocol* protocol = new ShellProtocol(fd);
while (protocol->Read()) {
switch (protocol->id()) {
case ShellProtocol::kIdStdout:
stdout->append(protocol->data(), protocol->data_length());
break;
case ShellProtocol::kIdStderr:
stderr->append(protocol->data(), protocol->data_length());
break;
case ShellProtocol::kIdExit:
EXPECT_EQ(-1, exit_code) << "Multiple exit packets received";
EXPECT_EQ(1u, protocol->data_length());
exit_code = protocol->data()[0];
break;
default:
ADD_FAILURE() << "Unidentified packet ID: " << protocol->id();
}
}
delete protocol;
return exit_code;
}
// Checks if each line in |lines| exists in the same order in |output|. Blank
// lines in |output| are ignored for simplicity.
bool ExpectLinesEqual(const std::string& output,
const std::vector<std::string>& lines) {
auto output_lines = android::base::Split(output, "\r\n");
size_t i = 0;
for (const std::string& line : lines) {
// Skip empty lines in output.
while (i < output_lines.size() && output_lines[i].empty()) {
++i;
}
if (i >= output_lines.size()) {
ADD_FAILURE() << "Ran out of output lines";
return false;
}
EXPECT_EQ(line, output_lines[i]);
++i;
}
while (i < output_lines.size() && output_lines[i].empty()) {
++i;
}
EXPECT_EQ(i, output_lines.size()) << "Found unmatched output lines";
return true;
}
} // namespace
// Tests a raw subprocess with no protocol.
TEST_F(ShellServiceTest, RawNoProtocolSubprocess) {
// [ -t 0 ] checks if stdin is connected to a terminal.
ASSERT_NO_FATAL_FAILURE(StartTestSubprocess(
"echo foo; echo bar >&2; [ -t 0 ]; echo $?",
SubprocessType::kRaw, SubprocessProtocol::kNone));
// [ -t 0 ] == 0 means we have a terminal (PTY). Even when requesting a raw subprocess, without
// the shell protocol we should always force a PTY to ensure proper cleanup.
ExpectLinesEqual(ReadRaw(subprocess_fd_), {"foo", "bar", "0"});
}
// Tests a PTY subprocess with no protocol.
TEST_F(ShellServiceTest, PtyNoProtocolSubprocess) {
// [ -t 0 ] checks if stdin is connected to a terminal.
ASSERT_NO_FATAL_FAILURE(StartTestSubprocess(
"echo foo; echo bar >&2; [ -t 0 ]; echo $?",
SubprocessType::kPty, SubprocessProtocol::kNone));
// [ -t 0 ] == 0 means we have a terminal (PTY).
ExpectLinesEqual(ReadRaw(subprocess_fd_), {"foo", "bar", "0"});
}
// Tests a raw subprocess with the shell protocol.
TEST_F(ShellServiceTest, RawShellProtocolSubprocess) {
ASSERT_NO_FATAL_FAILURE(StartTestSubprocess(
"echo foo; echo bar >&2; echo baz; exit 24",
SubprocessType::kRaw, SubprocessProtocol::kShell));
std::string stdout, stderr;
EXPECT_EQ(24, ReadShellProtocol(subprocess_fd_, &stdout, &stderr));
ExpectLinesEqual(stdout, {"foo", "baz"});
ExpectLinesEqual(stderr, {"bar"});
}
// Tests a PTY subprocess with the shell protocol.
TEST_F(ShellServiceTest, PtyShellProtocolSubprocess) {
ASSERT_NO_FATAL_FAILURE(StartTestSubprocess(
"echo foo; echo bar >&2; echo baz; exit 50",
SubprocessType::kPty, SubprocessProtocol::kShell));
// PTY always combines stdout and stderr but the shell protocol should
// still give us an exit code.
std::string stdout, stderr;
EXPECT_EQ(50, ReadShellProtocol(subprocess_fd_, &stdout, &stderr));
ExpectLinesEqual(stdout, {"foo", "bar", "baz"});
ExpectLinesEqual(stderr, {});
}
// Tests an interactive PTY session.
TEST_F(ShellServiceTest, InteractivePtySubprocess) {
ASSERT_NO_FATAL_FAILURE(StartTestSubprocess(
"", SubprocessType::kPty, SubprocessProtocol::kShell));
// Use variable substitution so echoed input is different from output.
const char* commands[] = {"TEST_STR=abc123",
"echo --${TEST_STR}--",
"exit"};
ShellProtocol* protocol = new ShellProtocol(subprocess_fd_);
for (std::string command : commands) {
// Interactive shell requires a newline to complete each command.
command.push_back('\n');
memcpy(protocol->data(), command.data(), command.length());
ASSERT_TRUE(protocol->Write(ShellProtocol::kIdStdin, command.length()));
}
delete protocol;
std::string stdout, stderr;
EXPECT_EQ(0, ReadShellProtocol(subprocess_fd_, &stdout, &stderr));
// An unpredictable command prompt makes parsing exact output difficult but
// it should at least contain echoed input and the expected output.
for (const char* command : commands) {
EXPECT_FALSE(stdout.find(command) == std::string::npos);
}
EXPECT_FALSE(stdout.find("--abc123--") == std::string::npos);
}
// Tests closing raw subprocess stdin.
TEST_F(ShellServiceTest, CloseClientStdin) {
ASSERT_NO_FATAL_FAILURE(StartTestSubprocess(
"cat; echo TEST_DONE",
SubprocessType::kRaw, SubprocessProtocol::kShell));
std::string input = "foo\nbar";
ShellProtocol* protocol = new ShellProtocol(subprocess_fd_);
memcpy(protocol->data(), input.data(), input.length());
ASSERT_TRUE(protocol->Write(ShellProtocol::kIdStdin, input.length()));
ASSERT_TRUE(protocol->Write(ShellProtocol::kIdCloseStdin, 0));
delete protocol;
std::string stdout, stderr;
EXPECT_EQ(0, ReadShellProtocol(subprocess_fd_, &stdout, &stderr));
ExpectLinesEqual(stdout, {"foo", "barTEST_DONE"});
ExpectLinesEqual(stderr, {});
}
// Tests that nothing breaks when the stdin/stdout pipe closes.
TEST_F(ShellServiceTest, CloseStdinStdoutSubprocess) {
ASSERT_NO_FATAL_FAILURE(StartTestSubprocess(
"exec 0<&-; exec 1>&-; echo bar >&2",
SubprocessType::kRaw, SubprocessProtocol::kShell));
std::string stdout, stderr;
EXPECT_EQ(0, ReadShellProtocol(subprocess_fd_, &stdout, &stderr));
ExpectLinesEqual(stdout, {});
ExpectLinesEqual(stderr, {"bar"});
}
// Tests that nothing breaks when the stderr pipe closes.
TEST_F(ShellServiceTest, CloseStderrSubprocess) {
ASSERT_NO_FATAL_FAILURE(StartTestSubprocess(
"exec 2>&-; echo foo",
SubprocessType::kRaw, SubprocessProtocol::kShell));
std::string stdout, stderr;
EXPECT_EQ(0, ReadShellProtocol(subprocess_fd_, &stdout, &stderr));
ExpectLinesEqual(stdout, {"foo"});
ExpectLinesEqual(stderr, {});
}