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import datetime
import re
import socket
import sys
import time
import traceback
import types
from xml.etree.ElementTree import iterparse
from supervisor.compat import xmlrpclib
from supervisor.compat import StringIO
from supervisor.compat import urlparse
from supervisor.compat import as_bytes
from supervisor.compat import as_string
from supervisor.compat import encodestring
from supervisor.compat import decodestring
from supervisor.compat import httplib
from supervisor.compat import PY2
from supervisor.medusa.http_server import get_header
from supervisor.medusa.xmlrpc_handler import xmlrpc_handler
from supervisor.medusa import producers
from supervisor.http import NOT_DONE_YET
class Faults:
UNKNOWN_METHOD = 1
INCORRECT_PARAMETERS = 2
BAD_ARGUMENTS = 3
SIGNATURE_UNSUPPORTED = 4
SHUTDOWN_STATE = 6
BAD_NAME = 10
BAD_SIGNAL = 11
NO_FILE = 20
NOT_EXECUTABLE = 21
FAILED = 30
ABNORMAL_TERMINATION = 40
SPAWN_ERROR = 50
ALREADY_STARTED = 60
NOT_RUNNING = 70
SUCCESS = 80
ALREADY_ADDED = 90
STILL_RUNNING = 91
CANT_REREAD = 92
def getFaultDescription(code):
for faultname in Faults.__dict__:
if getattr(Faults, faultname) == code:
return faultname
return 'UNKNOWN'
class RPCError(Exception):
def __init__(self, code, extra=None):
self.code = code
self.text = getFaultDescription(code)
if extra is not None:
self.text = '%s: %s' % (self.text, extra)
def __str__(self):
return 'code=%r, text=%r' % (self.code, self.text)
class DeferredXMLRPCResponse:
""" A medusa producer that implements a deferred callback; requires
a subclass of asynchat.async_chat that handles NOT_DONE_YET sentinel """
CONNECTION = re.compile ('Connection: (.*)', re.IGNORECASE)
def __init__(self, request, callback):
self.callback = callback
self.request = request
self.finished = False
self.delay = float(callback.delay)
def more(self):
if self.finished:
return ''
try:
try:
value = self.callback()
if value is NOT_DONE_YET:
return NOT_DONE_YET
except RPCError as err:
value = xmlrpclib.Fault(err.code, err.text)
body = xmlrpc_marshal(value)
self.finished = True
return self.getresponse(body)
except:
tb = traceback.format_exc()
self.request.channel.server.logger.log(
"XML-RPC response callback error", tb
)
self.finished = True
self.request.error(500)
def getresponse(self, body):
self.request['Content-Type'] = 'text/xml'
self.request['Content-Length'] = len(body)
self.request.push(body)
connection = get_header(self.CONNECTION, self.request.header)
close_it = 0
if self.request.version == '1.0':
if connection == 'keep-alive':
self.request['Connection'] = 'Keep-Alive'
else:
close_it = 1
elif self.request.version == '1.1':
if connection == 'close':
close_it = 1
elif self.request.version is None:
close_it = 1
outgoing_header = producers.simple_producer (
self.request.build_reply_header())
if close_it:
self.request['Connection'] = 'close'
# prepend the header
self.request.outgoing.insert(0, outgoing_header)
outgoing_producer = producers.composite_producer(self.request.outgoing)
# apply a few final transformations to the output
self.request.channel.push_with_producer (
# globbing gives us large packets
producers.globbing_producer (
# hooking lets us log the number of bytes sent
producers.hooked_producer (
outgoing_producer,
self.request.log
)
)
)
self.request.channel.current_request = None
if close_it:
self.request.channel.close_when_done()
def xmlrpc_marshal(value):
ismethodresponse = not isinstance(value, xmlrpclib.Fault)
if ismethodresponse:
if not isinstance(value, tuple):
value = (value,)
body = xmlrpclib.dumps(value, methodresponse=ismethodresponse)
else:
body = xmlrpclib.dumps(value)
return body
class SystemNamespaceRPCInterface:
def __init__(self, namespaces):
self.namespaces = {}
for name, inst in namespaces:
self.namespaces[name] = inst
self.namespaces['system'] = self
def _listMethods(self):
methods = {}
for ns_name in self.namespaces:
namespace = self.namespaces[ns_name]
for method_name in namespace.__class__.__dict__:
# introspect; any methods that don't start with underscore
# are published
func = getattr(namespace, method_name)
if callable(func):
if not method_name.startswith('_'):
sig = '%s.%s' % (ns_name, method_name)
methods[sig] = str(func.__doc__)
return methods
def listMethods(self):
""" Return an array listing the available method names
@return array result An array of method names available (strings).
"""
methods = self._listMethods()
keys = list(methods.keys())
keys.sort()
return keys
def methodHelp(self, name):
""" Return a string showing the method's documentation
@param string name The name of the method.
@return string result The documentation for the method name.
"""
methods = self._listMethods()
for methodname in methods.keys():
if methodname == name:
return methods[methodname]
raise RPCError(Faults.SIGNATURE_UNSUPPORTED)
def methodSignature(self, name):
""" Return an array describing the method signature in the
form [rtype, ptype, ptype...] where rtype is the return data type
of the method, and ptypes are the parameter data types that the
method accepts in method argument order.
@param string name The name of the method.
@return array result The result.
"""
methods = self._listMethods()
for method in methods:
if method == name:
rtype = None
ptypes = []
parsed = gettags(methods[method])
for thing in parsed:
if thing[1] == 'return': # tag name
rtype = thing[2] # datatype
elif thing[1] == 'param': # tag name
ptypes.append(thing[2]) # datatype
if rtype is None:
raise RPCError(Faults.SIGNATURE_UNSUPPORTED)
return [rtype] + ptypes
raise RPCError(Faults.SIGNATURE_UNSUPPORTED)
def multicall(self, calls):
"""Process an array of calls, and return an array of
results. Calls should be structs of the form {'methodName':
string, 'params': array}. Each result will either be a
single-item array containing the result value, or a struct of
the form {'faultCode': int, 'faultString': string}. This is
useful when you need to make lots of small calls without lots
of round trips.
@param array calls An array of call requests
@return array result An array of results
"""
remaining_calls = calls[:] # [{'methodName':x, 'params':x}, ...]
callbacks = [] # always empty or 1 callback function only
results = [] # results of completed calls
# args are only to fool scoping and are never passed by caller
def multi(remaining_calls=remaining_calls,
callbacks=callbacks,
results=results):
# if waiting on a callback, call it, then remove it if it's done
if callbacks:
try:
value = callbacks[0]()
except RPCError as exc:
value = {'faultCode': exc.code,
'faultString': exc.text}
except:
info = sys.exc_info()
errmsg = "%s:%s" % (info[0], info[1])
value = {'faultCode': Faults.FAILED,
'faultString': 'FAILED: ' + errmsg}
if value is not NOT_DONE_YET:
callbacks.pop(0)
results.append(value)
# if we don't have a callback now, pop calls and call them in
# order until one returns a callback.
while (not callbacks) and remaining_calls:
call = remaining_calls.pop(0)
name = call.get('methodName', None)
params = call.get('params', [])
try:
if name is None:
raise RPCError(Faults.INCORRECT_PARAMETERS,
'No methodName')
if name == 'system.multicall':
raise RPCError(Faults.INCORRECT_PARAMETERS,
'Recursive system.multicall forbidden')
# make the call, may return a callback or not
root = AttrDict(self.namespaces)
value = traverse(root, name, params)
except RPCError as exc:
value = {'faultCode': exc.code,
'faultString': exc.text}
except:
info = sys.exc_info()
errmsg = "%s:%s" % (info[0], info[1])
value = {'faultCode': Faults.FAILED,
'faultString': 'FAILED: ' + errmsg}
if isinstance(value, types.FunctionType):
callbacks.append(value)
else:
results.append(value)
# we are done when there's no callback and no more calls queued
if callbacks or remaining_calls:
return NOT_DONE_YET
else:
return results
multi.delay = 0.05
# optimization: multi() is called here instead of just returning
# multi in case all calls complete and we can return with no delay.
value = multi()
if value is NOT_DONE_YET:
return multi
else:
return value
class AttrDict(dict):
# hack to make a dict's getattr equivalent to its getitem
def __getattr__(self, name):
return self.get(name)
class RootRPCInterface:
def __init__(self, subinterfaces):
for name, rpcinterface in subinterfaces:
setattr(self, name, rpcinterface)
def capped_int(value):
i = int(value)
if i < xmlrpclib.MININT:
i = xmlrpclib.MININT
elif i > xmlrpclib.MAXINT:
i = xmlrpclib.MAXINT
return i
def make_datetime(text):
return datetime.datetime(
*time.strptime(text, "%Y%m%dT%H:%M:%S")[:6]
)
class supervisor_xmlrpc_handler(xmlrpc_handler):
path = '/RPC2'
IDENT = 'Supervisor XML-RPC Handler'
unmarshallers = {
"int": lambda x: int(x.text),
"i4": lambda x: int(x.text),
"boolean": lambda x: x.text == "1",
"string": lambda x: x.text or "",
"double": lambda x: float(x.text),
"dateTime.iso8601": lambda x: make_datetime(x.text),
"array": lambda x: x[0].text,
"data": lambda x: [v.text for v in x],
"struct": lambda x: dict([(k.text or "", v.text) for k, v in x]),
"base64": lambda x: as_string(decodestring(as_bytes(x.text or ""))),
"param": lambda x: x[0].text,
}
def __init__(self, supervisord, subinterfaces):
self.rpcinterface = RootRPCInterface(subinterfaces)
self.supervisord = supervisord
def loads(self, data):
params = method = None
for action, elem in iterparse(StringIO(data)):
unmarshall = self.unmarshallers.get(elem.tag)
if unmarshall:
data = unmarshall(elem)
elem.clear()
elem.text = data
elif elem.tag == "value":
try:
data = elem[0].text
except IndexError:
data = elem.text or ""
elem.clear()
elem.text = data
elif elem.tag == "methodName":
method = elem.text
elif elem.tag == "params":
params = tuple([v.text for v in elem])
return params, method
def match(self, request):
return request.uri.startswith(self.path)
def continue_request(self, data, request):
logger = self.supervisord.options.logger
try:
try:
# on 2.x, the Expat parser doesn't like Unicode which actually
# contains non-ASCII characters. It's a bit of a kludge to
# do it conditionally here, but it's down to how underlying
# libs behave
if PY2:
data = data.encode('ascii', 'xmlcharrefreplace')
params, method = self.loads(data)
except:
logger.error(
'XML-RPC request data %r is invalid: unmarshallable' %
(data,)
)
request.error(400)
return
# no <methodName> in the request or name is an empty string
if not method:
logger.error(
'XML-RPC request data %r is invalid: no method name' %
(data,)
)
request.error(400)
return
# we allow xml-rpc clients that do not send empty <params>
# when there are no parameters for the method call
if params is None:
params = ()
try:
logger.trace('XML-RPC method called: %s()' % method)
value = self.call(method, params)
logger.trace('XML-RPC method %s() returned successfully' %
method)
except RPCError as err:
# turn RPCError reported by method into a Fault instance
value = xmlrpclib.Fault(err.code, err.text)
logger.trace('XML-RPC method %s() returned fault: [%d] %s' % (
method,
err.code, err.text))
if isinstance(value, types.FunctionType):
# returning a function from an RPC method implies that
# this needs to be a deferred response (it needs to block).
pushproducer = request.channel.push_with_producer
pushproducer(DeferredXMLRPCResponse(request, value))
else:
# if we get anything but a function, it implies that this
# response doesn't need to be deferred, we can service it
# right away.
body = as_bytes(xmlrpc_marshal(value))
request['Content-Type'] = 'text/xml'
request['Content-Length'] = len(body)
request.push(body)
request.done()
except:
tb = traceback.format_exc()
logger.critical(
"Handling XML-RPC request with data %r raised an unexpected "
"exception: %s" % (data, tb)
)
# internal error, report as HTTP server error
request.error(500)
def call(self, method, params):
return traverse(self.rpcinterface, method, params)
def traverse(ob, method, params):
dotted_parts = method.split('.')
# security (CVE-2017-11610, don't allow object traversal)
if len(dotted_parts) != 2:
raise RPCError(Faults.UNKNOWN_METHOD)
namespace, method = dotted_parts
# security (don't allow methods that start with an underscore to
# be called remotely)
if method.startswith('_'):
raise RPCError(Faults.UNKNOWN_METHOD)
rpcinterface = getattr(ob, namespace, None)
if rpcinterface is None:
raise RPCError(Faults.UNKNOWN_METHOD)
func = getattr(rpcinterface, method, None)
if not isinstance(func, types.MethodType):
raise RPCError(Faults.UNKNOWN_METHOD)
try:
return func(*params)
except TypeError:
raise RPCError(Faults.INCORRECT_PARAMETERS)
class SupervisorTransport(xmlrpclib.Transport):
"""
Provides a Transport for xmlrpclib that uses
httplib.HTTPConnection in order to support persistent
connections. Also support basic auth and UNIX domain socket
servers.
"""
connection = None
def __init__(self, username=None, password=None, serverurl=None):
xmlrpclib.Transport.__init__(self)
self.username = username
self.password = password
self.verbose = False
self.serverurl = serverurl
if serverurl.startswith('http://'):
parsed = urlparse.urlparse(serverurl)
host, port = parsed.hostname, parsed.port
if port is None:
port = 80
def get_connection(host=host, port=port):
return httplib.HTTPConnection(host, port)
self._get_connection = get_connection
elif serverurl.startswith('unix://'):
def get_connection(serverurl=serverurl):
# we use 'localhost' here because domain names must be
# < 64 chars (or we'd use the serverurl filename)
conn = UnixStreamHTTPConnection('localhost')
conn.socketfile = serverurl[7:]
return conn
self._get_connection = get_connection
else:
raise ValueError('Unknown protocol for serverurl %s' % serverurl)
def close(self):
if self.connection:
self.connection.close()
self.connection = None
def request(self, host, handler, request_body, verbose=0):
request_body = as_bytes(request_body)
if not self.connection:
self.connection = self._get_connection()
self.headers = {
"User-Agent" : self.user_agent,
"Content-Type" : "text/xml",
"Accept": "text/xml"
}
# basic auth
if self.username is not None and self.password is not None:
unencoded = "%s:%s" % (self.username, self.password)
encoded = as_string(encodestring(as_bytes(unencoded)))
encoded = encoded.replace('\n', '')
encoded = encoded.replace('\012', '')
self.headers["Authorization"] = "Basic %s" % encoded
self.headers["Content-Length"] = str(len(request_body))
self.connection.request('POST', handler, request_body, self.headers)
r = self.connection.getresponse()
if r.status != 200:
self.connection.close()
self.connection = None
raise xmlrpclib.ProtocolError(host + handler,
r.status,
r.reason,
'' )
data = r.read()
data = as_string(data)
# on 2.x, the Expat parser doesn't like Unicode which actually
# contains non-ASCII characters
data = data.encode('ascii', 'xmlcharrefreplace')
p, u = self.getparser()
p.feed(data)
p.close()
return u.close()
class UnixStreamHTTPConnection(httplib.HTTPConnection):
def connect(self): # pragma: no cover
self.sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
# we abuse the host parameter as the socketname
self.sock.connect(self.socketfile)
def gettags(comment):
""" Parse documentation strings into JavaDoc-like tokens """
tags = []
tag = None
datatype = None
name = None
tag_lineno = lineno = 0
tag_text = []
for line in comment.split('\n'):
line = line.strip()
if line.startswith("@"):
tags.append((tag_lineno, tag, datatype, name, '\n'.join(tag_text)))
parts = line.split(None, 3)
if len(parts) == 1:
datatype = ''
name = ''
tag_text = []
elif len(parts) == 2:
datatype = parts[1]
name = ''
tag_text = []
elif len(parts) == 3:
datatype = parts[1]
name = parts[2]
tag_text = []
elif len(parts) == 4:
datatype = parts[1]
name = parts[2]
tag_text = [parts[3].lstrip()]
tag = parts[0][1:]
tag_lineno = lineno
else:
if line:
tag_text.append(line)
lineno += 1
tags.append((tag_lineno, tag, datatype, name, '\n'.join(tag_text)))
return tags