b7e79af048
adb on Windows uses \r\n line-endings, so take that into account when parsing output for the exit code. Change-Id: I6a3d7c5ca455b0f0f7dae174866857e0aeee9926 Signed-off-by: Spencer Low <CompareAndSwap@gmail.com>
263 lines
8.4 KiB
Python
263 lines
8.4 KiB
Python
#
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# Copyright (C) 2015 The Android Open Source Project
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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#
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import logging
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import os
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import re
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import subprocess
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class FindDeviceError(RuntimeError):
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pass
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class DeviceNotFoundError(FindDeviceError):
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def __init__(self, serial):
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self.serial = serial
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super(DeviceNotFoundError, self).__init__(
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'No device with serial {}'.format(serial))
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class NoUniqueDeviceError(FindDeviceError):
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def __init__(self):
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super(NoUniqueDeviceError, self).__init__('No unique device')
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def get_devices():
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with open(os.devnull, 'wb') as devnull:
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subprocess.check_call(['adb', 'start-server'], stdout=devnull,
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stderr=devnull)
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out = subprocess.check_output(['adb', 'devices']).splitlines()
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# The first line of `adb devices` just says "List of attached devices", so
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# skip that.
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devices = []
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for line in out[1:]:
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if not line.strip():
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continue
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if 'offline' in line:
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continue
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serial, _ = re.split(r'\s+', line, maxsplit=1)
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devices.append(serial)
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return devices
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def _get_unique_device(product=None):
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devices = get_devices()
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if len(devices) != 1:
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raise NoUniqueDeviceError()
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return AndroidDevice(devices[0], product)
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def _get_device_by_serial(serial, product=None):
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for device in get_devices():
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if device == serial:
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return AndroidDevice(serial, product)
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raise DeviceNotFoundError(serial)
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def get_device(serial=None, product=None):
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"""Get a uniquely identified AndroidDevice if one is available.
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Raises:
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DeviceNotFoundError:
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The serial specified by `serial` or $ANDROID_SERIAL is not
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connected.
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NoUniqueDeviceError:
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Neither `serial` nor $ANDROID_SERIAL was set, and the number of
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devices connected to the system is not 1. Having 0 connected
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devices will also result in this error.
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Returns:
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An AndroidDevice associated with the first non-None identifier in the
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following order of preference:
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1) The `serial` argument.
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2) The environment variable $ANDROID_SERIAL.
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3) The single device connnected to the system.
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"""
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if serial is not None:
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return _get_device_by_serial(serial, product)
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android_serial = os.getenv('ANDROID_SERIAL')
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if android_serial is not None:
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return _get_device_by_serial(android_serial, product)
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return _get_unique_device(product)
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class AndroidDevice(object):
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# Delimiter string to indicate the start of the exit code.
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_RETURN_CODE_DELIMITER = 'x'
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# Follow any shell command with this string to get the exit
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# status of a program since this isn't propagated by adb.
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#
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# The delimiter is needed because `printf 1; echo $?` would print
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# "10", and we wouldn't be able to distinguish the exit code.
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_RETURN_CODE_PROBE_STRING = 'echo "{0}$?"'.format(_RETURN_CODE_DELIMITER)
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# Maximum search distance from the output end to find the delimiter.
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# adb on Windows returns \r\n even if adbd returns \n.
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_RETURN_CODE_SEARCH_LENGTH = len('{0}255\r\n'.format(_RETURN_CODE_DELIMITER))
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def __init__(self, serial, product=None):
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self.serial = serial
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self.product = product
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self.adb_cmd = ['adb']
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if self.serial is not None:
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self.adb_cmd.extend(['-s', serial])
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if self.product is not None:
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self.adb_cmd.extend(['-p', product])
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self._linesep = None
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@property
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def linesep(self):
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if self._linesep is None:
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self._linesep = subprocess.check_output(self.adb_cmd +
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['shell', 'echo'])
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return self._linesep
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def _make_shell_cmd(self, user_cmd):
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return (self.adb_cmd + ['shell'] + user_cmd +
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['; ' + self._RETURN_CODE_PROBE_STRING])
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def _parse_shell_output(self, out):
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"""Finds the exit code string from shell output.
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Args:
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out: Shell output string.
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Returns:
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An (exit_code, output_string) tuple. The output string is
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cleaned of any additional stuff we appended to find the
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exit code.
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Raises:
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RuntimeError: Could not find the exit code in |out|.
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"""
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search_text = out
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if len(search_text) > self._RETURN_CODE_SEARCH_LENGTH:
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# We don't want to search over massive amounts of data when we know
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# the part we want is right at the end.
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search_text = search_text[-self._RETURN_CODE_SEARCH_LENGTH:]
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partition = search_text.rpartition(self._RETURN_CODE_DELIMITER)
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if partition[1] == '':
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raise RuntimeError('Could not find exit status in shell output.')
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result = int(partition[2])
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# partition[0] won't contain the full text if search_text was truncated,
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# pull from the original string instead.
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out = out[:-len(partition[1]) - len(partition[2])]
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return result, out
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def _simple_call(self, cmd):
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logging.info(' '.join(self.adb_cmd + cmd))
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return subprocess.check_output(
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self.adb_cmd + cmd, stderr=subprocess.STDOUT)
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def shell(self, cmd):
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logging.info(' '.join(self.adb_cmd + ['shell'] + cmd))
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cmd = self._make_shell_cmd(cmd)
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out = subprocess.check_output(cmd)
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rc, out = self._parse_shell_output(out)
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if rc != 0:
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error = subprocess.CalledProcessError(rc, cmd)
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error.out = out
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raise error
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return out
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def shell_nocheck(self, cmd):
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cmd = self._make_shell_cmd(cmd)
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logging.info(' '.join(cmd))
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p = subprocess.Popen(
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cmd, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
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out, _ = p.communicate()
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return self._parse_shell_output(out)
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def install(self, filename, replace=False):
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cmd = ['install']
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if replace:
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cmd.append('-r')
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cmd.append(filename)
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return self._simple_call(cmd)
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def push(self, local, remote):
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return self._simple_call(['push', local, remote])
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def pull(self, remote, local):
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return self._simple_call(['pull', remote, local])
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def sync(self, directory=None):
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cmd = ['sync']
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if directory is not None:
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cmd.append(directory)
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return self._simple_call(cmd)
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def forward(self, local, remote):
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return self._simple_call(['forward', local, remote])
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def tcpip(self, port):
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return self._simple_call(['tcpip', port])
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def usb(self):
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return self._simple_call(['usb'])
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def reboot(self):
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return self._simple_call(['reboot'])
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def root(self):
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return self._simple_call(['root'])
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def unroot(self):
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return self._simple_call(['unroot'])
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def forward_remove(self, local):
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return self._simple_call(['forward', '--remove', local])
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def forward_remove_all(self):
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return self._simple_call(['forward', '--remove-all'])
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def connect(self, host):
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return self._simple_call(['connect', host])
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def disconnect(self, host):
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return self._simple_call(['disconnect', host])
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def reverse(self, remote, local):
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return self._simple_call(['reverse', remote, local])
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def reverse_remove_all(self):
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return self._simple_call(['reverse', '--remove-all'])
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def reverse_remove(self, remote):
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return self._simple_call(['reverse', '--remove', remote])
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def wait(self):
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return self._simple_call(['wait-for-device'])
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def get_prop(self, prop_name):
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output = self.shell(['getprop', prop_name]).splitlines()
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if len(output) != 1:
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raise RuntimeError('Too many lines in getprop output:\n' +
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'\n'.join(output))
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value = output[0]
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if not value.strip():
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return None
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return value
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def set_prop(self, prop_name, value):
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self.shell(['setprop', prop_name, value])
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