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# coding: utf-8
"""
A MANAGESIEVE client.
A protocol for securely managing Sieve scripts on a remote server.
This protocol allows a user to have multiple scripts, and also alerts
a user to syntactically flawed scripts.
Implementation based on RFC 5804.
"""
from __future__ import print_function
import base64
import re
import socket
import ssl
from future.utils import python_2_unicode_compatible
import six
from .digest_md5 import DigestMD5
from . import tools
CRLF = b"\r\n"
KNOWN_CAPABILITIES = [u"IMPLEMENTATION", u"SASL", u"SIEVE",
u"STARTTLS", u"NOTIFY", u"LANGUAGE",
u"VERSION"]
SUPPORTED_AUTH_MECHS = [u"DIGEST-MD5", u"PLAIN", u"LOGIN"]
class Error(Exception):
pass
@python_2_unicode_compatible
class Response(Exception):
def __init__(self, code, data):
self.code = code
self.data = data
def __str__(self):
return "%s %s" % (self.code, self.data)
@python_2_unicode_compatible
class Literal(Exception):
def __init__(self, value):
self.value = value
def __str__(self):
return "{%d}" % self.value
def authentication_required(meth):
"""Simple class method decorator.
Checks if the client is currently connected.
:param meth: the original called method
"""
def check(cls, *args, **kwargs):
if cls.authenticated:
return meth(cls, *args, **kwargs)
raise Error("Authentication required")
return check
class Client(object):
read_size = 4096
read_timeout = 5
def __init__(self, srvaddr, srvport=4190, debug=False):
self.srvaddr = srvaddr
self.srvport = srvport
self.__debug = debug
self.sock = None
self.__read_buffer = b""
self.authenticated = False
self.errcode = None
self.__capabilities = {}
self.__respcode_expr = re.compile(br"(OK|NO|BYE)\s*(.+)?")
self.__error_expr = re.compile(br'(\([\w/-]+\))?\s*(".+")')
self.__size_expr = re.compile(br"\{(\d+)\+?\}")
self.__active_expr = re.compile(br"ACTIVE", re.IGNORECASE)
def __del__(self):
if self.sock is not None:
self.sock.close()
self.sock = None
def __dprint(self, message):
if not self.__debug:
return
print("DEBUG: %s" % message)
def __read_block(self, size):
"""Read a block of 'size' bytes from the server.
An internal buffer is used to read data from the server. If
enough data is available from it, we return that data.
Eventually, we try to grab the missing part from the server
for Client.read_timeout seconds. If no data can be
retrieved, it is considered as a fatal error and an 'Error'
exception is raised.
:param size: number of bytes to read
:rtype: string
:returns: the read block (can be empty)
"""
buf = b""
if len(self.__read_buffer):
limit = (
size if size <= len(self.__read_buffer) else
len(self.__read_buffer)
)
buf = self.__read_buffer[:limit]
self.__read_buffer = self.__read_buffer[limit:]
size -= limit
if not size:
return buf
try:
buf += self.sock.recv(size)
except (socket.timeout, ssl.SSLError):
raise Error("Failed to read %d bytes from the server" % size)
self.__dprint(buf)
return buf
def __read_line(self):
"""Read one line from the server.
An internal buffer is used to read data from the server
(blocks of Client.read_size bytes). If the buffer
is not empty, we try to find an entire line to return.
If we failed, we try to read new content from the server for
Client.read_timeout seconds. If no data can be
retrieved, it is considered as a fatal error and an 'Error'
exception is raised.
:rtype: string
:return: the read line
"""
ret = b""
while True:
try:
pos = self.__read_buffer.index(CRLF)
ret = self.__read_buffer[:pos]
self.__read_buffer = self.__read_buffer[pos + len(CRLF):]
break
except ValueError:
pass
try:
nval = self.sock.recv(self.read_size)
self.__dprint(nval)
if not len(nval):
break
self.__read_buffer += nval
except (socket.timeout, ssl.SSLError):
raise Error("Failed to read data from the server")
if len(ret):
m = self.__size_expr.match(ret)
if m:
raise Literal(int(m.group(1)))
m = self.__respcode_expr.match(ret)
if m:
if m.group(1) == b"BYE":
raise Error("Connection closed by server")
if m.group(1) == b"NO":
self.__parse_error(m.group(2))
raise Response(m.group(1), m.group(2))
return ret
def __read_response(self, nblines=-1):
"""Read a response from the server.
In the usual case, we read lines until we find one that looks
like a response (OK|NO|BYE\s*(.+)?).
If *nblines* > 0, we read excactly nblines before returning.
:param nblines: number of lines to read (default : -1)
:rtype: tuple
:return: a tuple of the form (code, data, response). If
nblines is provided, code and data can be equal to None.
"""
resp, code, data = (b"", None, None)
cpt = 0
while True:
try:
line = self.__read_line()
except Response as inst:
code = inst.code
data = inst.data
break
except Literal as inst:
resp += self.__read_block(inst.value)
if not resp.endswith(CRLF):
resp += self.__read_line() + CRLF
continue
if not len(line):
continue
resp += line + CRLF
cpt += 1
if nblines != -1 and cpt == nblines:
break
return (code, data, resp)
def __prepare_args(self, args):
"""Format command arguments before sending them.
Command arguments of type string must be quoted, the only
exception concerns size indication (of the form {\d\+?}).
:param args: list of arguments
:return: a list for transformed arguments
"""
ret = []
for a in args:
if isinstance(a, six.binary_type):
if self.__size_expr.match(a):
ret += [a]
else:
ret += [b'"' + a + b'"']
continue
ret += [bytes(str(a).encode("utf-8"))]
return ret
def __send_command(
self, name, args=None, withcontent=False, extralines=None,
nblines=-1):
"""Send a command to the server.
If args is not empty, we concatenate the given command with
the content of this list. If extralines is not empty, they are
sent one by one to the server. (CLRF are automatically
appended to them)
We wait for a response just after the command has been sent.
:param name: the command to sent
:param args: a list of arguments for this command
:param withcontent: tells the function to return the server's response
or not
:param extralines: a list of extra lines to sent after the command
:param nblines: the number of response lines to read (all by default)
:returns: a tuple of the form (code, data[, response])
"""
tosend = name.encode("utf-8")
if args:
tosend += b" " + b" ".join(self.__prepare_args(args))
self.__dprint(b"Command: " + tosend)
self.sock.sendall(tosend + CRLF)
if extralines:
for l in extralines:
self.sock.sendall(l + CRLF)
code, data, content = self.__read_response(nblines)
if isinstance(code, six.binary_type):
code = code.decode("utf-8")
data = data.decode("utf-8")
if withcontent:
return (code, data, content)
return (code, data)
def __get_capabilities(self):
code, data, capabilities = self.__read_response()
if code == "NO":
return False
for l in capabilities.splitlines():
parts = l.split(None, 1)
cname = parts[0].strip(b'"').decode("utf-8")
if cname not in KNOWN_CAPABILITIES:
continue
self.__capabilities[cname] = (
parts[1].strip(b'"').decode("utf-8")
if len(parts) > 1 else None
)
return True
def __parse_error(self, text):
"""Parse an error received from the server.
if text corresponds to a size indication, we grab the
remaining content from the server.
Otherwise, we try to match an error of the form \(\w+\)?\s*".+"
On succes, the two public members errcode and errmsg are
filled with the parsing results.
:param text: the response to parse
"""
m = self.__size_expr.match(text)
if m is not None:
self.errcode = b""
self.errmsg = self.__read_block(int(m.group(1)) + 2)
return
m = self.__error_expr.match(text)
if m is None:
raise Error("Bad error message")
if m.group(1) is not None:
self.errcode = m.group(1).strip(b"()")
else:
self.errcode = b""
self.errmsg = m.group(2).strip(b'"')
def _plain_authentication(self, login, password, authz_id=b""):
"""SASL PLAIN authentication
:param login: username
:param password: clear password
:return: True on success, False otherwise.
"""
if isinstance(login, six.text_type):
login = login.encode("utf-8")
if isinstance(password, six.text_type):
password = password.encode("utf-8")
params = base64.b64encode(b'\0'.join([authz_id, login, password]))
code, data = self.__send_command("AUTHENTICATE", [b"PLAIN", params])
if code == "OK":
return True
return False
def _login_authentication(self, login, password, authz_id=""):
"""SASL LOGIN authentication
:param login: username
:param password: clear password
:return: True on success, False otherwise.
"""
extralines = [b'"%s"' % base64.b64encode(login.encode("utf-8")),
b'"%s"' % base64.b64encode(password.encode("utf-8"))]
code, data = self.__send_command("AUTHENTICATE", [b"LOGIN"],
extralines=extralines)
if code == "OK":
return True
return False
def _digest_md5_authentication(self, login, password, authz_id=""):
"""SASL DIGEST-MD5 authentication
:param login: username
:param password: clear password
:return: True on success, False otherwise.
"""
code, data, challenge = \
self.__send_command("AUTHENTICATE", [b"DIGEST-MD5"],
withcontent=True, nblines=1)
dmd5 = DigestMD5(challenge, "sieve/%s" % self.srvaddr)
code, data, challenge = self.__send_command(
'"%s"' % dmd5.response(login, password, authz_id),
withcontent=True, nblines=1
)
if not challenge:
return False
if not dmd5.check_last_challenge(login, password, challenge):
self.errmsg = "Bad challenge received from server"
return False
code, data = self.__send_command('""')
if code == "OK":
return True
return False
def __authenticate(self, login, password, authz_id=b"", authmech=None):
"""AUTHENTICATE command
Actually, it is just a wrapper to the real commands (one by
mechanism). We try all supported mechanisms (from the
strongest to the weakest) until we find one supported by the
server.
Then we try to authenticate (only once).
:param login: username
:param password: clear password
:param authz_id: authorization ID
:param authmech: prefered authentication mechanism
:return: True on success, False otherwise
"""
if "SASL" not in self.__capabilities:
raise Error("SASL not supported by the server")
srv_mechanisms = self.get_sasl_mechanisms()
if authmech is None or authmech not in SUPPORTED_AUTH_MECHS:
mech_list = SUPPORTED_AUTH_MECHS
else:
mech_list = [authmech]
for mech in mech_list:
if mech not in srv_mechanisms:
continue
mech = mech.lower().replace("-", "_")
auth_method = getattr(self, "_%s_authentication" % mech)
if auth_method(login, password, authz_id):
self.authenticated = True
return True
return False
self.errmsg = b"No suitable mechanism found"
return False
def __starttls(self, keyfile=None, certfile=None):
"""STARTTLS command
See MANAGESIEVE specifications, section 2.2.
:param keyfile: an eventual private key to use
:param certfile: an eventual certificate to use
:rtype: boolean
"""
if not self.has_tls_support():
raise Error("STARTTLS not supported by the server")
code, data = self.__send_command("STARTTLS")
if code != "OK":
return False
try:
nsock = ssl.wrap_socket(self.sock, keyfile, certfile)
except ssl.SSLError as e:
raise Error("SSL error: %s" % str(e))
self.sock = nsock
self.__capabilities = {}
self.__get_capabilities()
return True
def get_implementation(self):
"""Returns the IMPLEMENTATION value.
It is read from server capabilities. (see the CAPABILITY
command)
:rtype: string
"""
return self.__capabilities["IMPLEMENTATION"]
def get_sasl_mechanisms(self):
"""Returns the supported authentication mechanisms.
They're read from server capabilities. (see the CAPABILITY
command)
:rtype: list of string
"""
return self.__capabilities["SASL"].split()
def has_tls_support(self):
"""Tells if the server has STARTTLS support or not.
It is read from server capabilities. (see the CAPABILITY
command)
:rtype: boolean
"""
return "STARTTLS" in self.__capabilities
def get_sieve_capabilities(self):
"""Returns the SIEVE extensions supported by the server.
They're read from server capabilities. (see the CAPABILITY
command)
:rtype: string
"""
if isinstance(self.__capabilities["SIEVE"], six.string_types):
self.__capabilities["SIEVE"] = self.__capabilities["SIEVE"].split()
return self.__capabilities["SIEVE"]
def connect(
self, login, password, authz_id=b"", starttls=False,
authmech=None):
"""Establish a connection with the server.
This function must be used. It read the server capabilities
and wraps calls to STARTTLS and AUTHENTICATE commands.
:param login: username
:param password: clear password
:param starttls: use a TLS connection or not
:param authmech: prefered authenticate mechanism
:rtype: boolean
"""
try:
self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
self.sock.connect((self.srvaddr, self.srvport))
self.sock.settimeout(Client.read_timeout)
except socket.error as msg:
raise Error("Connection to server failed: %s" % str(msg))
if not self.__get_capabilities():
raise Error("Failed to read capabilities from server")
if starttls and not self.__starttls():
return False
if self.__authenticate(login, password, authz_id, authmech):
return True
return False
def logout(self):
"""Disconnect from the server
See MANAGESIEVE specifications, section 2.3
"""
self.__send_command("LOGOUT")
def capability(self):
"""Ask server capabilities.
See MANAGESIEVE specifications, section 2.4 This command does
not affect capabilities recorded by this client.
:rtype: string
"""
code, data, capabilities = (
self.__send_command("CAPABILITY", withcontent=True))
if code == "OK":
return capabilities
return None
@authentication_required
def havespace(self, scriptname, scriptsize):
"""Ask for available space.
See MANAGESIEVE specifications, section 2.5
:param scriptname: script's name
:param scriptsize: script's size
:rtype: boolean
"""
code, data = self.__send_command(
"HAVESPACE", [scriptname.encode("utf-8"), scriptsize])
if code == "OK":
return True
return False
@authentication_required
def listscripts(self):
"""List available scripts.
See MANAGESIEVE specifications, section 2.7
:returns: a 2-uple (active script, [script1, ...])
"""
code, data, listing = self.__send_command(
"LISTSCRIPTS", withcontent=True)
if code == "NO":
return None
ret = []
active_script = None
for l in listing.splitlines():
if self.__size_expr.match(l):
continue
m = re.match(br'"([^"]+)"\s*(.+)', l)
if m is None:
ret += [l.strip(b'"').decode("utf-8")]
continue
script = m.group(1).decode("utf-8")
if self.__active_expr.match(m.group(2)):
active_script = script
continue
ret += [script]
self.__dprint(ret)
return (active_script, ret)
@authentication_required
def getscript(self, name):
"""Download a script from the server
See MANAGESIEVE specifications, section 2.9
:param name: script's name
:rtype: string
:returns: the script's content on succes, None otherwise
"""
code, data, content = self.__send_command(
"GETSCRIPT", [name.encode("utf-8")], withcontent=True)
if code == "OK":
lines = content.splitlines()
if self.__size_expr.match(lines[0]) is not None:
lines = lines[1:]
return u"\n".join([line.decode("utf-8") for line in lines])
return None
@authentication_required
def putscript(self, name, content):
"""Upload a script to the server
See MANAGESIEVE specifications, section 2.6
:param name: script's name
:param content: script's content
:rtype: boolean
"""
content = tools.to_bytes(content)
content = tools.to_bytes("{%d+}" % len(content)) + CRLF + content
code, data = (
self.__send_command("PUTSCRIPT", [name.encode("utf-8"), content]))
if code == "OK":
return True
return False
@authentication_required
def deletescript(self, name):
"""Delete a script from the server
See MANAGESIEVE specifications, section 2.10
:param name: script's name
:rtype: boolean
"""
code, data = self.__send_command(
"DELETESCRIPT", [name.encode("utf-8")])
if code == "OK":
return True
return False
@authentication_required
def renamescript(self, oldname, newname):
"""Rename a script on the server
See MANAGESIEVE specifications, section 2.11.1
As this command is optional, we emulate it if the server does
not support it.
:param oldname: current script's name
:param newname: new script's name
:rtype: boolean
"""
if "VERSION" in self.__capabilities:
code, data = self.__send_command(
"RENAMESCRIPT",
[oldname.encode("utf-8"), newname.encode("utf-8")])
if code == "OK":
return True
return False
(active_script, scripts) = self.listscripts()
condition = (
oldname != active_script and
(scripts is None or oldname not in scripts)
)
if condition:
self.errmsg = b"Old script does not exist"
return False
if newname in scripts:
self.errmsg = b"New script already exists"
return False
oldscript = self.getscript(oldname)
if oldscript is None:
return False
if not self.putscript(newname, oldscript):
return False
if active_script == oldname:
if not self.setactive(newname):
return False
if not self.deletescript(oldname):
return False
return True
@authentication_required
def setactive(self, scriptname):
"""Define the active script
See MANAGESIEVE specifications, section 2.8
If scriptname is empty, the current active script is disabled,
ie. there will be no active script anymore.
:param scriptname: script's name
:rtype: boolean
"""
code, data = self.__send_command(
"SETACTIVE", [scriptname.encode("utf-8")])
if code == "OK":
return True
return False
@authentication_required
def checkscript(self, content):
"""Check whether a script is valid
See MANAGESIEVE specifications, section 2.12
:param name: script's content
:rtype: boolean
"""
if "VERSION" not in self.__capabilities:
raise NotImplementedError(
"server does not support CHECKSCRIPT command")
content = tools.to_bytes(
u"{%d+}%s%s" % (len(content), str(CRLF), content))
code, data = self.__send_command("CHECKSCRIPT", [content])
if code == "OK":
return True
return False