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#!/usr/bin/env python
import inspect
import os
import unittest
from multiprocessing import Process, Pipe
from pickle import dumps
import six
from framework import VppTestCase
class SerializableClassCopy(object):
"""
Empty class used as a basis for a serializable copy of another class.
"""
pass
class RemoteClassAttr(object):
"""
Wrapper around attribute of a remotely executed class.
"""
def __init__(self, remote, attr):
self._path = [attr] if attr else []
self._remote = remote
def path_to_str(self):
return '.'.join(self._path)
def get_remote_value(self):
return self._remote._remote_exec(RemoteClass.GET, self.path_to_str())
def __repr__(self):
return self._remote._remote_exec(RemoteClass.REPR, self.path_to_str())
def __str__(self):
return self._remote._remote_exec(RemoteClass.STR, self.path_to_str())
def __getattr__(self, attr):
if attr[0] == '_':
raise AttributeError
self._path.append(attr)
return self
def __setattr__(self, attr, val):
if attr[0] == '_':
super(RemoteClassAttr, self).__setattr__(attr, val)
return
self._path.append(attr)
self._remote._remote_exec(RemoteClass.SETATTR, self.path_to_str(),
True, value=val)
def __call__(self, *args, **kwargs):
return self._remote._remote_exec(RemoteClass.CALL, self.path_to_str(),
True, *args, **kwargs)
class RemoteClass(Process):
"""
This class can wrap around and adapt the interface of another class,
and then delegate its execution to a newly forked child process.
Usage:
# Create a remotely executed instance of MyClass
object = RemoteClass(MyClass, arg1='foo', arg2='bar')
object.start_remote()
# Access the object normally as if it was an instance of your class.
object.my_attribute = 20
print object.my_attribute
print object.my_method(object.my_attribute)
object.my_attribute.nested_attribute = 'test'
# If you need the value of a remote attribute, use .get_remote_value
method. This method is automatically called when needed in the context
of a remotely executed class. E.g.:
if (object.my_attribute.get_remote_value() > 20):
object.my_attribute2 = object.my_attribute
# Destroy the instance
object.quit_remote()
object.terminate()
"""
GET = 0 # Get attribute remotely
CALL = 1 # Call method remotely
SETATTR = 2 # Set attribute remotely
REPR = 3 # Get representation of a remote object
STR = 4 # Get string representation of a remote object
QUIT = 5 # Quit remote execution
PIPE_PARENT = 0 # Parent end of the pipe
PIPE_CHILD = 1 # Child end of the pipe
DEFAULT_TIMEOUT = 2 # default timeout for an operation to execute
def __init__(self, cls, *args, **kwargs):
super(RemoteClass, self).__init__()
self._cls = cls
self._args = args
self._kwargs = kwargs
self._timeout = RemoteClass.DEFAULT_TIMEOUT
self._pipe = Pipe() # pipe for input/output arguments
def __repr__(self):
return six.reprlib(RemoteClassAttr(self, None))
def __str__(self):
return str(RemoteClassAttr(self, None))
def __call__(self, *args, **kwargs):
return self.RemoteClassAttr(self, None)()
def __getattr__(self, attr):
if attr[0] == '_' or not self.is_alive():
if hasattr(super(RemoteClass, self), '__getattr__'):
return super(RemoteClass, self).__getattr__(attr)
raise AttributeError
return RemoteClassAttr(self, attr)
def __setattr__(self, attr, val):
if attr[0] == '_' or not self.is_alive():
super(RemoteClass, self).__setattr__(attr, val)
return
setattr(RemoteClassAttr(self, None), attr, val)
def _remote_exec(self, op, path=None, ret=True, *args, **kwargs):
"""
Execute given operation on a given, possibly nested, member remotely.
"""
# automatically resolve remote objects in the arguments
mutable_args = list(args)
for i, val in enumerate(mutable_args):
if isinstance(val, RemoteClass) or \
isinstance(val, RemoteClassAttr):
mutable_args[i] = val.get_remote_value()
args = tuple(mutable_args)
for key, val in kwargs.iteritems():
if isinstance(val, RemoteClass) or \
isinstance(val, RemoteClassAttr):
kwargs[key] = val.get_remote_value()
# send request
args = self._make_serializable(args)
kwargs = self._make_serializable(kwargs)
self._pipe[RemoteClass.PIPE_PARENT].send((op, path, args, kwargs))
if not ret:
# no return value expected
return None
timeout = self._timeout
# adjust timeout specifically for the .sleep method
if path.split('.')[-1] == 'sleep':
if args and isinstance(args[0], (long, int)):
timeout += args[0]
elif 'timeout' in kwargs:
timeout += kwargs['timeout']
if not self._pipe[RemoteClass.PIPE_PARENT].poll(timeout):
return None
try:
rv = self._pipe[RemoteClass.PIPE_PARENT].recv()
rv = self._deserialize(rv)
return rv
except EOFError:
return None
def _get_local_object(self, path):
"""
Follow the path to obtain a reference on the addressed nested attribute
"""
obj = self._instance
for attr in path:
obj = getattr(obj, attr)
return obj
def _get_local_value(self, path):
try:
return self._get_local_object(path)
except AttributeError:
return None
def _call_local_method(self, path, *args, **kwargs):
try:
method = self._get_local_object(path)
return method(*args, **kwargs)
except AttributeError:
return None
def _set_local_attr(self, path, value):
try:
obj = self._get_local_object(path[:-1])
setattr(obj, path[-1], value)
except AttributeError:
pass
return None
def _get_local_repr(self, path):
try:
obj = self._get_local_object(path)
return six.reprlib(obj)
except AttributeError:
return None
def _get_local_str(self, path):
try:
obj = self._get_local_object(path)
return str(obj)
except AttributeError:
return None
def _serializable(self, obj):
""" Test if the given object is serializable """
try:
dumps(obj)
return True
except:
return False
def _make_obj_serializable(self, obj):
"""
Make a serializable copy of an object.
Members which are difficult/impossible to serialize are stripped.
"""
if self._serializable(obj):
return obj # already serializable
copy = SerializableClassCopy()
# copy at least serializable attributes and properties
for name, member in inspect.getmembers(obj):
if name[0] == '_': # skip private members
continue
if callable(member) and not isinstance(member, property):
continue
if not self._serializable(member):
continue
setattr(copy, name, member)
return copy
def _make_serializable(self, obj):
"""
Make a serializable copy of an object or a list/tuple of objects.
Members which are difficult/impossible to serialize are stripped.
"""
if (type(obj) is list) or (type(obj) is tuple):
rv = []
for item in obj:
rv.append(self._make_serializable(item))
if type(obj) is tuple:
rv = tuple(rv)
return rv
else:
return self._make_obj_serializable(obj)
def _deserialize_obj(self, obj):
return obj
def _deserialize(self, obj):
if (type(obj) is list) or (type(obj) is tuple):
rv = []
for item in obj:
rv.append(self._deserialize(item))
if type(obj) is tuple:
rv = tuple(rv)
return rv
else:
return self._deserialize_obj(obj)
def start_remote(self):
""" Start remote execution """
self.start()
def quit_remote(self):
""" Quit remote execution """
self._remote_exec(RemoteClass.QUIT, None, False)
def get_remote_value(self):
""" Get value of a remotely held object """
return RemoteClassAttr(self, None).get_remote_value()
def set_request_timeout(self, timeout):
""" Change request timeout """
self._timeout = timeout
def run(self):
"""
Create instance of the wrapped class and execute operations
on it as requested by the parent process.
"""
self._instance = self._cls(*self._args, **self._kwargs)
while True:
try:
rv = None
# get request from the parent process
(op, path, args,
kwargs) = self._pipe[RemoteClass.PIPE_CHILD].recv()
args = self._deserialize(args)
kwargs = self._deserialize(kwargs)
path = path.split('.') if path else []
if op == RemoteClass.GET:
rv = self._get_local_value(path)
elif op == RemoteClass.CALL:
rv = self._call_local_method(path, *args, **kwargs)
elif op == RemoteClass.SETATTR and 'value' in kwargs:
self._set_local_attr(path, kwargs['value'])
elif op == RemoteClass.REPR:
rv = self._get_local_repr(path)
elif op == RemoteClass.STR:
rv = self._get_local_str(path)
elif op == RemoteClass.QUIT:
break
else:
continue
# send return value
if not self._serializable(rv):
rv = self._make_serializable(rv)
self._pipe[RemoteClass.PIPE_CHILD].send(rv)
except EOFError:
break
self._instance = None # destroy the instance
@unittest.skip("Remote Vpp Test Case Class")
class RemoteVppTestCase(VppTestCase):
""" Re-use VppTestCase to create remote VPP segment
In your test case:
@classmethod
def setUpClass(cls):
# fork new process before clinet connects to VPP
cls.remote_test = RemoteClass(RemoteVppTestCase)
# start remote process
cls.remote_test.start_remote()
# set up your test case
super(MyTestCase, cls).setUpClass()
# set up remote test
cls.remote_test.setUpClass(cls.tempdir)
@classmethod
def tearDownClass(cls):
# tear down remote test
cls.remote_test.tearDownClass()
# stop remote process
cls.remote_test.quit_remote()
# tear down your test case
super(MyTestCase, cls).tearDownClass()
"""
def __init__(self):
super(RemoteVppTestCase, self).__init__("emptyTest")
def __del__(self):
if hasattr(self, "vpp"):
cls.vpp.poll()
if cls.vpp.returncode is None:
cls.vpp.terminate()
cls.vpp.communicate()
@classmethod
def setUpClass(cls, tempdir):
# disable features unsupported in remote VPP
orig_env = dict(os.environ)
if 'STEP' in os.environ:
del os.environ['STEP']
if 'DEBUG' in os.environ:
del os.environ['DEBUG']
cls.tempdir_prefix = os.path.basename(tempdir) + "/"
super(RemoteVppTestCase, cls).setUpClass()
os.environ = orig_env
@unittest.skip("Empty test")
def emptyTest(self):
""" Do nothing """
pass
def setTestFunctionInfo(self, name, doc):
"""
Store the name and documentation string of currently executed test
in the main VPP for logging purposes.
"""
self._testMethodName = name
self._testMethodDoc = doc
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