adb/test_adb.py - third_party/android/platform/system/core - Git at Google

 #!/usr/bin/env python
 #
 # 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.
 #
 """Tests for the adb program itself.

 This differs from things in test_device.py in that there is no API for these
 things. Most of these tests involve specific error messages or the help text.
 """
 from __future__ import print_function

 import contextlib
 import os
 import random
 import socket
 import struct
 import subprocess
 import threading
 import unittest

 import adb


 class NonApiTest(unittest.TestCase):
     """Tests for ADB that aren't a part of the AndroidDevice API."""

     def test_help(self):
         """Make sure we get _something_ out of help."""
         out = subprocess.check_output(
             ['adb', 'help'], stderr=subprocess.STDOUT)
         self.assertGreater(len(out), 0)

     def test_version(self):
         """Get a version number out of the output of adb."""
         lines = subprocess.check_output(['adb', 'version']).splitlines()
         version_line = lines[0]
         self.assertRegexpMatches(
             version_line, r'^Android Debug Bridge version \d+\.\d+\.\d+$')
         if len(lines) == 2:
             # Newer versions of ADB have a second line of output for the
             # version that includes a specific revision (git SHA).
             revision_line = lines[1]
             self.assertRegexpMatches(
                 revision_line, r'^Revision [0-9a-f]{12}-android$')

     def test_tcpip_error_messages(self):
         p = subprocess.Popen(['adb', 'tcpip'], stdout=subprocess.PIPE,
                              stderr=subprocess.STDOUT)
         out, _ = p.communicate()
         self.assertEqual(1, p.returncode)
         self.assertIn('requires an argument', out)

         p = subprocess.Popen(['adb', 'tcpip', 'foo'], stdout=subprocess.PIPE,
                              stderr=subprocess.STDOUT)
         out, _ = p.communicate()
         self.assertEqual(1, p.returncode)
         self.assertIn('invalid port', out)

     # Helper method that reads a pipe until it is closed, then sets the event.
     def _read_pipe_and_set_event(self, pipe, event):
         x = pipe.read()
         event.set()

     # Test that launch_server() does not let the adb server inherit
     # stdin/stdout/stderr handles which can cause callers of adb.exe to hang.
     # This test also runs fine on unix even though the impetus is an issue
     # unique to Windows.
     def test_handle_inheritance(self):
         # This test takes 5 seconds to run on Windows: if there is no adb server
         # running on the the port used below, adb kill-server tries to make a
         # TCP connection to a closed port and that takes 1 second on Windows;
         # adb start-server does the same TCP connection which takes another
         # second, and it waits 3 seconds after starting the server.

         # Start adb client with redirected stdin/stdout/stderr to check if it
         # passes those redirections to the adb server that it starts. To do
         # this, run an instance of the adb server on a non-default port so we
         # don't conflict with a pre-existing adb server that may already be
         # setup with adb TCP/emulator connections. If there is a pre-existing
         # adb server, this also tests whether multiple instances of the adb
         # server conflict on adb.log.

         port = 5038
         # Kill any existing server on this non-default port.
         subprocess.check_output(['adb', '-P', str(port), 'kill-server'],
                                 stderr=subprocess.STDOUT)

         try:
             # Run the adb client and have it start the adb server.
             p = subprocess.Popen(['adb', '-P', str(port), 'start-server'],
                                  stdin=subprocess.PIPE, stdout=subprocess.PIPE,
                                  stderr=subprocess.PIPE)

             # Start threads that set events when stdout/stderr are closed.
             stdout_event = threading.Event()
             stdout_thread = threading.Thread(
                     target=self._read_pipe_and_set_event,
                     args=(p.stdout, stdout_event))
             stdout_thread.daemon = True
             stdout_thread.start()

             stderr_event = threading.Event()
             stderr_thread = threading.Thread(
                     target=self._read_pipe_and_set_event,
                     args=(p.stderr, stderr_event))
             stderr_thread.daemon = True
             stderr_thread.start()

             # Wait for the adb client to finish. Once that has occurred, if
             # stdin/stderr/stdout are still open, it must be open in the adb
             # server.
             p.wait()

             # Try to write to stdin which we expect is closed. If it isn't
             # closed, we should get an IOError. If we don't get an IOError,
             # stdin must still be open in the adb server. The adb client is
             # probably letting the adb server inherit stdin which would be
             # wrong.
             with self.assertRaises(IOError):
                 p.stdin.write('x')

             # Wait a few seconds for stdout/stderr to be closed (in the success
             # case, this won't wait at all). If there is a timeout, that means
             # stdout/stderr were not closed and and they must be open in the adb
             # server, suggesting that the adb client is letting the adb server
             # inherit stdout/stderr which would be wrong.
             self.assertTrue(stdout_event.wait(5), "adb stdout not closed")
             self.assertTrue(stderr_event.wait(5), "adb stderr not closed")
         finally:
             # If we started a server, kill it.
             subprocess.check_output(['adb', '-P', str(port), 'kill-server'],
                                     stderr=subprocess.STDOUT)

     # Use SO_LINGER to cause TCP RST segment to be sent on socket close.
     def _reset_socket_on_close(self, sock):
         # The linger structure is two shorts on Windows, but two ints on Unix.
         linger_format = 'hh' if os.name == 'nt' else 'ii'
         l_onoff = 1
         l_linger = 0

         sock.setsockopt(socket.SOL_SOCKET, socket.SO_LINGER,
                         struct.pack(linger_format, l_onoff, l_linger))
         # Verify that we set the linger structure properly by retrieving it.
         linger = sock.getsockopt(socket.SOL_SOCKET, socket.SO_LINGER, 16)
         self.assertEqual((l_onoff, l_linger),
                          struct.unpack_from(linger_format, linger))

     def test_emu_kill(self):
         """Ensure that adb emu kill works.

         Bug: https://code.google.com/p/android/issues/detail?id=21021
         """
         port = 12345

         with contextlib.closing(
                 socket.socket(socket.AF_INET, socket.SOCK_STREAM)) as listener:
             # Use SO_REUSEADDR so subsequent runs of the test can grab the port
             # even if it is in TIME_WAIT.
             listener.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
             listener.bind(('127.0.0.1', port))
             listener.listen(4)

             # Now that listening has started, start adb emu kill, telling it to
             # connect to our mock emulator.
             p = subprocess.Popen(
                 ['adb', '-s', 'emulator-' + str(port), 'emu', 'kill'],
                 stderr=subprocess.STDOUT)

             accepted_connection, addr = listener.accept()
             with contextlib.closing(accepted_connection) as conn:
                 # If WSAECONNABORTED (10053) is raised by any socket calls,
                 # then adb probably isn't reading the data that we sent it.
                 conn.sendall('Android Console: type \'help\' for a list ' +
                                 'of commands\r\n')
                 conn.sendall('OK\r\n')

                 with contextlib.closing(conn.makefile()) as f:
                     self.assertEqual('kill\n', f.readline())
                     self.assertEqual('quit\n', f.readline())

                 conn.sendall('OK: killing emulator, bye bye\r\n')

                 # Use SO_LINGER to send TCP RST segment to test whether adb
                 # ignores WSAECONNRESET on Windows. This happens with the
                 # real emulator because it just calls exit() without closing
                 # the socket or calling shutdown(SD_SEND). At process
                 # termination, Windows sends a TCP RST segment for every
                 # open socket that shutdown(SD_SEND) wasn't used on.
                 self._reset_socket_on_close(conn)

             # Wait for adb to finish, so we can check return code.
             p.communicate()

             # If this fails, adb probably isn't ignoring WSAECONNRESET when
             # reading the response from the adb emu kill command (on Windows).
             self.assertEqual(0, p.returncode)

     def test_connect_ipv4_ipv6(self):
         """Ensure that `adb connect localhost:1234` will try both IPv4 and IPv6.

         Bug: http://b/30313466
         """
         ipv4 = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
         ipv4.bind(('127.0.0.1', 0))
         ipv4.listen(1)

         ipv6 = socket.socket(socket.AF_INET6, socket.SOCK_STREAM)
         try:
             ipv6.bind(('::1', ipv4.getsockname()[1] + 1))
             ipv6.listen(1)
         except socket.error:
             print("IPv6 not available, skipping")
             return

         for s in (ipv4, ipv6):
             port = s.getsockname()[1]
             output = subprocess.check_output(
                 ['adb', 'connect', 'localhost:{}'.format(port)])

             self.assertEqual(
                 output.strip(), 'connected to localhost:{}'.format(port))
             s.close()


 def main():
     random.seed(0)
     if len(adb.get_devices()) > 0:
         suite = unittest.TestLoader().loadTestsFromName(__name__)
         unittest.TextTestRunner(verbosity=3).run(suite)
     else:
         print('Test suite must be run with attached devices')


 if __name__ == '__main__':
     main()
	#!/usr/bin/env python
	#
	# 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.
	#
	"""Tests for the adb program itself.

	This differs from things in test_device.py in that there is no API for these
	things. Most of these tests involve specific error messages or the help text.
	"""
	from __future__ import print_function

	import contextlib
	import os
	import random
	import socket
	import struct
	import subprocess
	import threading
	import unittest

	import adb


	class NonApiTest(unittest.TestCase):
	"""Tests for ADB that aren't a part of the AndroidDevice API."""

	def test_help(self):
	"""Make sure we get _something_ out of help."""
	out = subprocess.check_output(
	['adb', 'help'], stderr=subprocess.STDOUT)
	self.assertGreater(len(out), 0)

	def test_version(self):
	"""Get a version number out of the output of adb."""
	lines = subprocess.check_output(['adb', 'version']).splitlines()
	version_line = lines[0]
	self.assertRegexpMatches(
	version_line, r'^Android Debug Bridge version \d+\.\d+\.\d+$')
	if len(lines) == 2:
	# Newer versions of ADB have a second line of output for the
	# version that includes a specific revision (git SHA).
	revision_line = lines[1]
	self.assertRegexpMatches(
	revision_line, r'^Revision [0-9a-f]{12}-android$')

	def test_tcpip_error_messages(self):
	p = subprocess.Popen(['adb', 'tcpip'], stdout=subprocess.PIPE,
	stderr=subprocess.STDOUT)
	out, _ = p.communicate()
	self.assertEqual(1, p.returncode)
	self.assertIn('requires an argument', out)

	p = subprocess.Popen(['adb', 'tcpip', 'foo'], stdout=subprocess.PIPE,
	stderr=subprocess.STDOUT)
	out, _ = p.communicate()
	self.assertEqual(1, p.returncode)
	self.assertIn('invalid port', out)

	# Helper method that reads a pipe until it is closed, then sets the event.
	def _read_pipe_and_set_event(self, pipe, event):
	x = pipe.read()
	event.set()

	# Test that launch_server() does not let the adb server inherit
	# stdin/stdout/stderr handles which can cause callers of adb.exe to hang.
	# This test also runs fine on unix even though the impetus is an issue
	# unique to Windows.
	def test_handle_inheritance(self):
	# This test takes 5 seconds to run on Windows: if there is no adb server
	# running on the the port used below, adb kill-server tries to make a
	# TCP connection to a closed port and that takes 1 second on Windows;
	# adb start-server does the same TCP connection which takes another
	# second, and it waits 3 seconds after starting the server.

	# Start adb client with redirected stdin/stdout/stderr to check if it
	# passes those redirections to the adb server that it starts. To do
	# this, run an instance of the adb server on a non-default port so we
	# don't conflict with a pre-existing adb server that may already be
	# setup with adb TCP/emulator connections. If there is a pre-existing
	# adb server, this also tests whether multiple instances of the adb
	# server conflict on adb.log.

	port = 5038
	# Kill any existing server on this non-default port.
	subprocess.check_output(['adb', '-P', str(port), 'kill-server'],
	stderr=subprocess.STDOUT)

	try:
	# Run the adb client and have it start the adb server.
	p = subprocess.Popen(['adb', '-P', str(port), 'start-server'],
	stdin=subprocess.PIPE, stdout=subprocess.PIPE,
	stderr=subprocess.PIPE)

	# Start threads that set events when stdout/stderr are closed.
	stdout_event = threading.Event()
	stdout_thread = threading.Thread(
	target=self._read_pipe_and_set_event,
	args=(p.stdout, stdout_event))
	stdout_thread.daemon = True
	stdout_thread.start()

	stderr_event = threading.Event()
	stderr_thread = threading.Thread(
	target=self._read_pipe_and_set_event,
	args=(p.stderr, stderr_event))
	stderr_thread.daemon = True
	stderr_thread.start()

	# Wait for the adb client to finish. Once that has occurred, if
	# stdin/stderr/stdout are still open, it must be open in the adb
	# server.
	p.wait()

	# Try to write to stdin which we expect is closed. If it isn't
	# closed, we should get an IOError. If we don't get an IOError,
	# stdin must still be open in the adb server. The adb client is
	# probably letting the adb server inherit stdin which would be
	# wrong.
	with self.assertRaises(IOError):
	p.stdin.write('x')

	# Wait a few seconds for stdout/stderr to be closed (in the success
	# case, this won't wait at all). If there is a timeout, that means
	# stdout/stderr were not closed and and they must be open in the adb
	# server, suggesting that the adb client is letting the adb server
	# inherit stdout/stderr which would be wrong.
	self.assertTrue(stdout_event.wait(5), "adb stdout not closed")
	self.assertTrue(stderr_event.wait(5), "adb stderr not closed")
	finally:
	# If we started a server, kill it.
	subprocess.check_output(['adb', '-P', str(port), 'kill-server'],
	stderr=subprocess.STDOUT)

	# Use SO_LINGER to cause TCP RST segment to be sent on socket close.
	def _reset_socket_on_close(self, sock):
	# The linger structure is two shorts on Windows, but two ints on Unix.
	linger_format = 'hh' if os.name == 'nt' else 'ii'
	l_onoff = 1
	l_linger = 0

	sock.setsockopt(socket.SOL_SOCKET, socket.SO_LINGER,
	struct.pack(linger_format, l_onoff, l_linger))
	# Verify that we set the linger structure properly by retrieving it.
	linger = sock.getsockopt(socket.SOL_SOCKET, socket.SO_LINGER, 16)
	self.assertEqual((l_onoff, l_linger),
	struct.unpack_from(linger_format, linger))

	def test_emu_kill(self):
	"""Ensure that adb emu kill works.

	Bug: https://code.google.com/p/android/issues/detail?id=21021
	"""
	port = 12345

	with contextlib.closing(
	socket.socket(socket.AF_INET, socket.SOCK_STREAM)) as listener:
	# Use SO_REUSEADDR so subsequent runs of the test can grab the port
	# even if it is in TIME_WAIT.
	listener.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
	listener.bind(('127.0.0.1', port))
	listener.listen(4)

	# Now that listening has started, start adb emu kill, telling it to
	# connect to our mock emulator.
	p = subprocess.Popen(
	['adb', '-s', 'emulator-' + str(port), 'emu', 'kill'],
	stderr=subprocess.STDOUT)

	accepted_connection, addr = listener.accept()
	with contextlib.closing(accepted_connection) as conn:
	# If WSAECONNABORTED (10053) is raised by any socket calls,
	# then adb probably isn't reading the data that we sent it.
	conn.sendall('Android Console: type \'help\' for a list ' +
	'of commands\r\n')
	conn.sendall('OK\r\n')

	with contextlib.closing(conn.makefile()) as f:
	self.assertEqual('kill\n', f.readline())
	self.assertEqual('quit\n', f.readline())

	conn.sendall('OK: killing emulator, bye bye\r\n')

	# Use SO_LINGER to send TCP RST segment to test whether adb
	# ignores WSAECONNRESET on Windows. This happens with the
	# real emulator because it just calls exit() without closing
	# the socket or calling shutdown(SD_SEND). At process
	# termination, Windows sends a TCP RST segment for every
	# open socket that shutdown(SD_SEND) wasn't used on.
	self._reset_socket_on_close(conn)

	# Wait for adb to finish, so we can check return code.
	p.communicate()

	# If this fails, adb probably isn't ignoring WSAECONNRESET when
	# reading the response from the adb emu kill command (on Windows).
	self.assertEqual(0, p.returncode)

	def test_connect_ipv4_ipv6(self):
	"""Ensure that `adb connect localhost:1234` will try both IPv4 and IPv6.

	Bug: http://b/30313466
	"""
	ipv4 = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
	ipv4.bind(('127.0.0.1', 0))
	ipv4.listen(1)

	ipv6 = socket.socket(socket.AF_INET6, socket.SOCK_STREAM)
	try:
	ipv6.bind(('::1', ipv4.getsockname()[1] + 1))
	ipv6.listen(1)
	except socket.error:
	print("IPv6 not available, skipping")
	return

	for s in (ipv4, ipv6):
	port = s.getsockname()[1]
	output = subprocess.check_output(
	['adb', 'connect', 'localhost:{}'.format(port)])

	self.assertEqual(
	output.strip(), 'connected to localhost:{}'.format(port))
	s.close()


	def main():
	random.seed(0)
	if len(adb.get_devices()) > 0:
	suite = unittest.TestLoader().loadTestsFromName(__name__)
	unittest.TextTestRunner(verbosity=3).run(suite)
	else:
	print('Test suite must be run with attached devices')


	if __name__ == '__main__':
	main()