#!/usr/bin/env python # -*- coding: utf-8 -*- # # 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. # from __future__ import print_function import hashlib import os import posixpath import random import shlex import shutil import subprocess import tempfile import unittest import mock import adb def requires_root(func): def wrapper(self, *args): if self.device.get_prop('ro.debuggable') != '1': raise unittest.SkipTest('requires rootable build') was_root = self.device.shell(['id', '-un']).strip() == 'root' if not was_root: self.device.root() self.device.wait() try: func(self, *args) finally: if not was_root: self.device.unroot() self.device.wait() return wrapper class GetDeviceTest(unittest.TestCase): def setUp(self): self.android_serial = os.getenv('ANDROID_SERIAL') if 'ANDROID_SERIAL' in os.environ: del os.environ['ANDROID_SERIAL'] def tearDown(self): if self.android_serial is not None: os.environ['ANDROID_SERIAL'] = self.android_serial else: if 'ANDROID_SERIAL' in os.environ: del os.environ['ANDROID_SERIAL'] @mock.patch('adb.device.get_devices') def test_explicit(self, mock_get_devices): mock_get_devices.return_value = ['foo', 'bar'] device = adb.get_device('foo') self.assertEqual(device.serial, 'foo') @mock.patch('adb.device.get_devices') def test_from_env(self, mock_get_devices): mock_get_devices.return_value = ['foo', 'bar'] os.environ['ANDROID_SERIAL'] = 'foo' device = adb.get_device() self.assertEqual(device.serial, 'foo') @mock.patch('adb.device.get_devices') def test_arg_beats_env(self, mock_get_devices): mock_get_devices.return_value = ['foo', 'bar'] os.environ['ANDROID_SERIAL'] = 'bar' device = adb.get_device('foo') self.assertEqual(device.serial, 'foo') @mock.patch('adb.device.get_devices') def test_no_such_device(self, mock_get_devices): mock_get_devices.return_value = ['foo', 'bar'] self.assertRaises(adb.DeviceNotFoundError, adb.get_device, ['baz']) os.environ['ANDROID_SERIAL'] = 'baz' self.assertRaises(adb.DeviceNotFoundError, adb.get_device) @mock.patch('adb.device.get_devices') def test_unique_device(self, mock_get_devices): mock_get_devices.return_value = ['foo'] device = adb.get_device() self.assertEqual(device.serial, 'foo') @mock.patch('adb.device.get_devices') def test_no_unique_device(self, mock_get_devices): mock_get_devices.return_value = ['foo', 'bar'] self.assertRaises(adb.NoUniqueDeviceError, adb.get_device) class DeviceTest(unittest.TestCase): def setUp(self): self.device = adb.get_device() class ShellTest(DeviceTest): def test_cat(self): """Check that we can at least cat a file.""" out = self.device.shell(['cat', '/proc/uptime']).strip() elements = out.split() self.assertEqual(len(elements), 2) uptime, idle = elements self.assertGreater(float(uptime), 0.0) self.assertGreater(float(idle), 0.0) def test_throws_on_failure(self): self.assertRaises(subprocess.CalledProcessError, self.device.shell, ['false']) def test_output_not_stripped(self): out = self.device.shell(['echo', 'foo']) self.assertEqual(out, 'foo' + self.device.linesep) def test_shell_nocheck_failure(self): rc, out = self.device.shell_nocheck(['false']) self.assertNotEqual(rc, 0) self.assertEqual(out, '') def test_shell_nocheck_output_not_stripped(self): rc, out = self.device.shell_nocheck(['echo', 'foo']) self.assertEqual(rc, 0) self.assertEqual(out, 'foo' + self.device.linesep) def test_can_distinguish_tricky_results(self): # If result checking on ADB shell is naively implemented as # `adb shell ; echo $?`, we would be unable to distinguish the # output from the result for a cmd of `echo -n 1`. rc, out = self.device.shell_nocheck(['echo', '-n', '1']) self.assertEqual(rc, 0) self.assertEqual(out, '1') def test_line_endings(self): """Ensure that line ending translation is not happening in the pty. Bug: http://b/19735063 """ output = self.device.shell(['uname']) self.assertEqual(output, 'Linux' + self.device.linesep) def test_pty_logic(self): """Verify PTY logic for shells. Interactive shells should use a PTY, non-interactive should not. Bug: http://b/21215503 """ proc = subprocess.Popen( self.device.adb_cmd + ['shell'], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.STDOUT) # [ -t 0 ] is used (rather than `tty`) to provide portability. This # gives an exit code of 0 iff stdin is connected to a terminal. # # Closing host-side stdin doesn't currently trigger the interactive # shell to exit so we need to explicitly add an exit command to # close the session from the device side, and append \n to complete # the interactive command. result = proc.communicate('[ -t 0 ]; echo x$?; exit 0\n')[0] partition = result.rpartition('x') self.assertEqual(partition[1], 'x') self.assertEqual(int(partition[2]), 0) exit_code = self.device.shell_nocheck(['[ -t 0 ]'])[0] self.assertEqual(exit_code, 1) class ArgumentEscapingTest(DeviceTest): def test_shell_escaping(self): """Make sure that argument escaping is somewhat sane.""" # http://b/19734868 # Note that this actually matches ssh(1)'s behavior --- it's # converted to `sh -c echo hello; echo world` which sh interprets # as `sh -c echo` (with an argument to that shell of "hello"), # and then `echo world` back in the first shell. result = self.device.shell( shlex.split("sh -c 'echo hello; echo world'")) result = result.splitlines() self.assertEqual(['', 'world'], result) # If you really wanted "hello" and "world", here's what you'd do: result = self.device.shell( shlex.split(r'echo hello\;echo world')).splitlines() self.assertEqual(['hello', 'world'], result) # http://b/15479704 result = self.device.shell(shlex.split("'true && echo t'")).strip() self.assertEqual('t', result) result = self.device.shell( shlex.split("sh -c 'true && echo t'")).strip() self.assertEqual('t', result) # http://b/20564385 result = self.device.shell(shlex.split('FOO=a BAR=b echo t')).strip() self.assertEqual('t', result) result = self.device.shell(shlex.split(r'echo -n 123\;uname')).strip() self.assertEqual('123Linux', result) def test_install_argument_escaping(self): """Make sure that install argument escaping works.""" # http://b/20323053 tf = tempfile.NamedTemporaryFile('wb', suffix='-text;ls;1.apk') self.assertIn("-text;ls;1.apk", self.device.install(tf.name)) # http://b/3090932 tf = tempfile.NamedTemporaryFile('wb', suffix="-Live Hold'em.apk") self.assertIn("-Live Hold'em.apk", self.device.install(tf.name)) class RootUnrootTest(DeviceTest): def _test_root(self): message = self.device.root() if 'adbd cannot run as root in production builds' in message: return self.device.wait() self.assertEqual('root', self.device.shell(['id', '-un']).strip()) def _test_unroot(self): self.device.unroot() self.device.wait() self.assertEqual('shell', self.device.shell(['id', '-un']).strip()) def test_root_unroot(self): """Make sure that adb root and adb unroot work, using id(1).""" if self.device.get_prop('ro.debuggable') != '1': raise unittest.SkipTest('requires rootable build') original_user = self.device.shell(['id', '-un']).strip() try: if original_user == 'root': self._test_unroot() self._test_root() elif original_user == 'shell': self._test_root() self._test_unroot() finally: if original_user == 'root': self.device.root() else: self.device.unroot() self.device.wait() class TcpIpTest(DeviceTest): def test_tcpip_failure_raises(self): """adb tcpip requires a port. Bug: http://b/22636927 """ self.assertRaises( subprocess.CalledProcessError, self.device.tcpip, '') self.assertRaises( subprocess.CalledProcessError, self.device.tcpip, 'foo') class SystemPropertiesTest(DeviceTest): def test_get_prop(self): self.assertEqual(self.device.get_prop('init.svc.adbd'), 'running') @requires_root def test_set_prop(self): prop_name = 'foo.bar' self.device.shell(['setprop', prop_name, '""']) self.device.set_prop(prop_name, 'qux') self.assertEqual( self.device.shell(['getprop', prop_name]).strip(), 'qux') def compute_md5(string): hsh = hashlib.md5() hsh.update(string) return hsh.hexdigest() def get_md5_prog(device): """Older platforms (pre-L) had the name md5 rather than md5sum.""" try: device.shell(['md5sum', '/proc/uptime']) return 'md5sum' except subprocess.CalledProcessError: return 'md5' class HostFile(object): def __init__(self, handle, checksum): self.handle = handle self.checksum = checksum self.full_path = handle.name self.base_name = os.path.basename(self.full_path) class DeviceFile(object): def __init__(self, checksum, full_path): self.checksum = checksum self.full_path = full_path self.base_name = posixpath.basename(self.full_path) def make_random_host_files(in_dir, num_files): min_size = 1 * (1 << 10) max_size = 16 * (1 << 10) files = [] for _ in xrange(num_files): file_handle = tempfile.NamedTemporaryFile(dir=in_dir, delete=False) size = random.randrange(min_size, max_size, 1024) rand_str = os.urandom(size) file_handle.write(rand_str) file_handle.flush() file_handle.close() md5 = compute_md5(rand_str) files.append(HostFile(file_handle, md5)) return files def make_random_device_files(device, in_dir, num_files): min_size = 1 * (1 << 10) max_size = 16 * (1 << 10) files = [] for file_num in xrange(num_files): size = random.randrange(min_size, max_size, 1024) base_name = 'device_tmpfile' + str(file_num) full_path = posixpath.join(in_dir, base_name) device.shell(['dd', 'if=/dev/urandom', 'of={}'.format(full_path), 'bs={}'.format(size), 'count=1']) dev_md5, _ = device.shell([get_md5_prog(device), full_path]).split() files.append(DeviceFile(dev_md5, full_path)) return files class FileOperationsTest(DeviceTest): SCRATCH_DIR = '/data/local/tmp' DEVICE_TEMP_FILE = SCRATCH_DIR + '/adb_test_file' DEVICE_TEMP_DIR = SCRATCH_DIR + '/adb_test_dir' def _test_push(self, local_file, checksum): self.device.shell(['rm', '-rf', self.DEVICE_TEMP_FILE]) self.device.push(local=local_file, remote=self.DEVICE_TEMP_FILE) dev_md5, _ = self.device.shell([get_md5_prog(self.device), self.DEVICE_TEMP_FILE]).split() self.assertEqual(checksum, dev_md5) self.device.shell(['rm', '-f', self.DEVICE_TEMP_FILE]) def test_push(self): """Push a randomly generated file to specified device.""" kbytes = 512 tmp = tempfile.NamedTemporaryFile(mode='wb', delete=False) rand_str = os.urandom(1024 * kbytes) tmp.write(rand_str) tmp.close() self._test_push(tmp.name, compute_md5(rand_str)) os.remove(tmp.name) # TODO: write push directory test. def _test_pull(self, remote_file, checksum): tmp_write = tempfile.NamedTemporaryFile(mode='wb', delete=False) tmp_write.close() self.device.pull(remote=remote_file, local=tmp_write.name) with open(tmp_write.name, 'rb') as tmp_read: host_contents = tmp_read.read() host_md5 = compute_md5(host_contents) self.assertEqual(checksum, host_md5) os.remove(tmp_write.name) def test_pull(self): """Pull a randomly generated file from specified device.""" kbytes = 512 self.device.shell(['rm', '-rf', self.DEVICE_TEMP_FILE]) cmd = ['dd', 'if=/dev/urandom', 'of={}'.format(self.DEVICE_TEMP_FILE), 'bs=1024', 'count={}'.format(kbytes)] self.device.shell(cmd) dev_md5, _ = self.device.shell( [get_md5_prog(self.device), self.DEVICE_TEMP_FILE]).split() self._test_pull(self.DEVICE_TEMP_FILE, dev_md5) self.device.shell_nocheck(['rm', self.DEVICE_TEMP_FILE]) def test_pull_dir(self): """Pull a randomly generated directory of files from the device.""" host_dir = tempfile.mkdtemp() self.device.shell(['rm', '-rf', self.DEVICE_TEMP_DIR]) self.device.shell(['mkdir', '-p', self.DEVICE_TEMP_DIR]) # Populate device directory with random files. temp_files = make_random_device_files( self.device, in_dir=self.DEVICE_TEMP_DIR, num_files=32) self.device.pull(remote=self.DEVICE_TEMP_DIR, local=host_dir) for temp_file in temp_files: host_path = os.path.join(host_dir, temp_file.base_name) with open(host_path, 'rb') as host_file: host_md5 = compute_md5(host_file.read()) self.assertEqual(host_md5, temp_file.checksum) self.device.shell(['rm', '-rf', self.DEVICE_TEMP_DIR]) if host_dir is not None: shutil.rmtree(host_dir) def test_sync(self): """Sync a randomly generated directory of files to specified device.""" base_dir = tempfile.mkdtemp() # Create mirror device directory hierarchy within base_dir. full_dir_path = base_dir + self.DEVICE_TEMP_DIR os.makedirs(full_dir_path) # Create 32 random files within the host mirror. temp_files = make_random_host_files(in_dir=full_dir_path, num_files=32) # Clean up any trash on the device. device = adb.get_device(product=base_dir) device.shell(['rm', '-rf', self.DEVICE_TEMP_DIR]) device.sync('data') # Confirm that every file on the device mirrors that on the host. for temp_file in temp_files: device_full_path = posixpath.join(self.DEVICE_TEMP_DIR, temp_file.base_name) dev_md5, _ = device.shell( [get_md5_prog(self.device), device_full_path]).split() self.assertEqual(temp_file.checksum, dev_md5) self.device.shell(['rm', '-rf', self.DEVICE_TEMP_DIR]) shutil.rmtree(base_dir + self.DEVICE_TEMP_DIR) def test_unicode_paths(self): """Ensure that we can support non-ASCII paths, even on Windows.""" name = u'로보카 폴리'.encode('utf-8') ## push. tf = tempfile.NamedTemporaryFile('wb', suffix=name) self.device.push(tf.name, '/data/local/tmp/adb-test-{}'.format(name)) self.device.shell(['rm', '-f', '/data/local/tmp/adb-test-*']) # pull. cmd = ['touch', '"/data/local/tmp/adb-test-{}"'.format(name)] self.device.shell(cmd) tf = tempfile.NamedTemporaryFile('wb', suffix=name) self.device.pull('/data/local/tmp/adb-test-{}'.format(name), tf.name) 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()