# Copyright 2014 Google Inc. All rights reserved. # # 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. """Common code for ADB and Fastboot. Common usb browsing, and usb communication. """ import logging import platform import socket import threading import weakref import select import serial import libusb1 import usb1 from adb import usb_exceptions DEFAULT_TIMEOUT_MS = 10000 _LOG = logging.getLogger('android_usb') def GetInterface(setting): """Get the class, subclass, and protocol for the given USB setting.""" return (setting.getClass(), setting.getSubClass(), setting.getProtocol()) def InterfaceMatcher(clazz, subclass, protocol): """Returns a matcher that returns the setting with the given interface.""" interface = (clazz, subclass, protocol) def Matcher(device): for setting in device.iterSettings(): if GetInterface(setting) == interface: return setting return Matcher class UsbHandle(object): """USB communication object. Not thread-safe. Handles reading and writing over USB with the proper endpoints, exceptions, and interface claiming. Important methods: FlushBuffers() BulkRead(int length) BulkWrite(bytes data) """ _HANDLE_CACHE = weakref.WeakValueDictionary() _HANDLE_CACHE_LOCK = threading.Lock() def __init__(self, device, setting, usb_info=None, timeout_ms=None): """Initialize USB Handle. Arguments: device: libusb_device to connect to. setting: libusb setting with the correct endpoints to communicate with. usb_info: String describing the usb path/serial/device, for debugging. timeout_ms: Timeout in milliseconds for all I/O. """ self._setting = setting self._device = device self._handle = None self._usb_info = usb_info or '' self._timeout_ms = timeout_ms if timeout_ms else DEFAULT_TIMEOUT_MS self._max_read_packet_len = 0 @property def usb_info(self): try: sn = self.serial_number except libusb1.USBError: sn = '' if sn and sn != self._usb_info: return '%s %s' % (self._usb_info, sn) return self._usb_info def Open(self): """Opens the USB device for this setting, and claims the interface.""" # Make sure we close any previous handle open to this usb device. port_path = tuple(self.port_path) with self._HANDLE_CACHE_LOCK: old_handle = self._HANDLE_CACHE.get(port_path) if old_handle is not None: old_handle.Close() self._read_endpoint = None self._write_endpoint = None for endpoint in self._setting.iterEndpoints(): address = endpoint.getAddress() if address & libusb1.USB_ENDPOINT_DIR_MASK: self._read_endpoint = address self._max_read_packet_len = endpoint.getMaxPacketSize() else: self._write_endpoint = address assert self._read_endpoint is not None assert self._write_endpoint is not None handle = self._device.open() iface_number = self._setting.getNumber() try: if (platform.system() != 'Windows' and handle.kernelDriverActive(iface_number)): handle.detachKernelDriver(iface_number) except libusb1.USBError as e: if e.value == libusb1.LIBUSB_ERROR_NOT_FOUND: _LOG.warning('Kernel driver not found for interface: %s.', iface_number) else: raise handle.claimInterface(iface_number) self._handle = handle self._interface_number = iface_number with self._HANDLE_CACHE_LOCK: self._HANDLE_CACHE[port_path] = self # When this object is deleted, make sure it's closed. weakref.ref(self, self.Close) @property def serial_number(self): return self._device.getSerialNumber() @property def port_path(self): return [self._device.getBusNumber()] + self._device.getPortNumberList() def Close(self): if self._handle is None: return try: self._handle.releaseInterface(self._interface_number) self._handle.close() except libusb1.USBError: _LOG.info('USBError while closing handle %s: ', self.usb_info, exc_info=True) finally: self._handle = None def Timeout(self, timeout_ms): return timeout_ms if timeout_ms is not None else self._timeout_ms def FlushBuffers(self): while True: try: self.BulkRead(self._max_read_packet_len, timeout_ms=10) except usb_exceptions.ReadFailedError as e: if e.usb_error.value == libusb1.LIBUSB_ERROR_TIMEOUT: break raise def BulkWrite(self, data, timeout_ms=None): if self._handle is None: raise usb_exceptions.WriteFailedError( 'This handle has been closed, probably due to another being opened.', None) try: return self._handle.bulkWrite( self._write_endpoint, data, timeout=self.Timeout(timeout_ms)) except libusb1.USBError as e: raise usb_exceptions.WriteFailedError( 'Could not send data to %s (timeout %sms)' % ( self.usb_info, self.Timeout(timeout_ms)), e) def BulkRead(self, length, timeout_ms=None): if self._handle is None: raise usb_exceptions.ReadFailedError( 'This handle has been closed, probably due to another being opened.', None) try: # python-libusb1 > 1.6 exposes bytearray()s now instead of bytes/str. # To support older and newer versions, we ensure everything's bytearray() # from here on out. return bytearray(self._handle.bulkRead( self._read_endpoint, length, timeout=self.Timeout(timeout_ms))) except libusb1.USBError as e: raise usb_exceptions.ReadFailedError( 'Could not receive data from %s (timeout %sms)' % ( self.usb_info, self.Timeout(timeout_ms)), e) def BulkReadAsync(self, length, timeout_ms=None): # See: https://pypi.python.org/pypi/libusb1 "Asynchronous I/O" section return @classmethod def PortPathMatcher(cls, port_path): """Returns a device matcher for the given port path.""" if isinstance(port_path, str): # Convert from sysfs path to port_path. port_path = [int(part) for part in SYSFS_PORT_SPLIT_RE.split(port_path)] return lambda device: device.port_path == port_path @classmethod def SerialMatcher(cls, serial): """Returns a device matcher for the given serial.""" return lambda device: device.serial_number == serial @classmethod def FindAndOpen(cls, setting_matcher, port_path=None, serial=None, timeout_ms=None): dev = cls.Find( setting_matcher, port_path=port_path, serial=serial, timeout_ms=timeout_ms) dev.Open() dev.FlushBuffers() return dev @classmethod def Find(cls, setting_matcher, port_path=None, serial=None, timeout_ms=None): """Gets the first device that matches according to the keyword args.""" if port_path: device_matcher = cls.PortPathMatcher(port_path) usb_info = port_path elif serial: device_matcher = cls.SerialMatcher(serial) usb_info = serial else: device_matcher = None usb_info = 'first' return cls.FindFirst(setting_matcher, device_matcher, usb_info=usb_info, timeout_ms=timeout_ms) @classmethod def FindFirst(cls, setting_matcher, device_matcher=None, **kwargs): """Find and return the first matching device. Args: setting_matcher: See cls.FindDevices. device_matcher: See cls.FindDevices. **kwargs: See cls.FindDevices. Returns: An instance of UsbHandle. Raises: DeviceNotFoundError: Raised if the device is not available. """ try: return next(cls.FindDevices( setting_matcher, device_matcher=device_matcher, **kwargs)) except StopIteration: raise usb_exceptions.DeviceNotFoundError( 'No device available, or it is in the wrong configuration.') @classmethod def FindDevices(cls, setting_matcher, device_matcher=None, usb_info='', timeout_ms=None): """Find and yield the devices that match. Args: setting_matcher: Function that returns the setting to use given a usb1.USBDevice, or None if the device doesn't have a valid setting. device_matcher: Function that returns True if the given UsbHandle is valid. None to match any device. usb_info: Info string describing device(s). timeout_ms: Default timeout of commands in milliseconds. Yields: UsbHandle instances """ ctx = usb1.USBContext() for device in ctx.getDeviceList(skip_on_error=True): setting = setting_matcher(device) if setting is None: continue handle = cls(device, setting, usb_info=usb_info, timeout_ms=timeout_ms) if device_matcher is None or device_matcher(handle): yield handle class SerialHandle(object): def __init__(self, serial, timeout_ms=None): if isinstance(serial, (bytes, bytearray)): serial = serial.decode('utf-8') if ',' in serial: self.port, self.speed = serial.split(',') else: self.port = serial self.speed = 115200 self._connection = None self._serial_number = '%s,%s' % (self.port, self.speed) self._timeout_ms = float(timeout_ms) if timeout_ms else None self._connect() def _connect(self): timeout = self.TimeoutSeconds(self._timeout_ms) self._connection = serial.Serial(self.port, self.speed, timeout=timeout) @property def serial_number(self): return self._serial_number def BulkWrite(self, data, timeout=None): t = self.TimeoutSeconds(timeout) _, writeable, _ = select.select([], [self._connection], [], t) if writeable: return self._connection.write(data) msg = 'Sending data to {} timed out after {}s. No data was sent.'.format( self.serial_number, t) raise serial.SerialTimeoutException(msg) def BulkRead(self, numbytes, timeout=None): t = self.TimeoutSeconds(timeout) readable, _, _ = select.select([self._connection], [], [], t) if readable: return self._connection.read(numbytes) msg = 'Reading from {} timed out (Timeout {}s)'.format( self._serial_number, t) #raise serial.TcpTimeoutException(msg) def Timeout(self, timeout_ms): return float(timeout_ms) if timeout_ms is not None else self._timeout_ms def TimeoutSeconds(self, timeout_ms): timeout = self.Timeout(timeout_ms) return timeout / 1000.0 if timeout is not None else timeout def Close(self): return self._connection.close() class TcpHandle(object): """TCP connection object. Provides same interface as UsbHandle. """ def __init__(self, serial, timeout_ms=None): """Initialize the TCP Handle. Arguments: serial: Android device serial of the form host or host:port. Host may be an IP address or a host name. """ # if necessary, convert serial to a unicode string if isinstance(serial, (bytes, bytearray)): serial = serial.decode('utf-8') if ':' in serial: self.host, self.port = serial.split(':') else: self.host = serial self.port = "5555" self._connection = None self._serial_number = '%s:%s' % (self.host, self.port) self._timeout_ms = float(timeout_ms) if timeout_ms else None self._connect() def _connect(self): timeout = self.TimeoutSeconds(self._timeout_ms) self._connection = socket.create_connection((self.host, self.port), timeout=timeout) if timeout: self._connection.setblocking(0) @property def serial_number(self): return self._serial_number def BulkWrite(self, data, timeout=None): t = self.TimeoutSeconds(timeout) _, writeable, _ = select.select([], [self._connection], [], t) if writeable: return self._connection.send(data) msg = 'Sending data to {} timed out after {}s. No data was sent.'.format( self.serial_number, t) raise usb_exceptions.TcpTimeoutException(msg) def BulkRead(self, numbytes, timeout=None): t = self.TimeoutSeconds(timeout) readable, _, _ = select.select([self._connection], [], [], t) if readable: return self._connection.recv(numbytes) msg = 'Reading from {} timed out (Timeout {}s)'.format( self._serial_number, t) raise usb_exceptions.TcpTimeoutException(msg) def Timeout(self, timeout_ms): return float(timeout_ms) if timeout_ms is not None else self._timeout_ms def TimeoutSeconds(self, timeout_ms): timeout = self.Timeout(timeout_ms) return timeout / 1000.0 if timeout is not None else timeout def Close(self): return self._connection.close()