# $Id$
"""RPKI "left-right" protocol."""
import base64, lxml.etree, time, traceback
import rpki.sax_utils, rpki.resource_set, rpki.x509, rpki.sql, rpki.exceptions
import rpki.https, rpki.up_down, rpki.relaxng
xmlns = "http://www.hactrn.net/uris/rpki/left-right-spec/"
nsmap = { None : xmlns }
class base_elt(object):
"""Virtual base type for left-right message elements."""
attributes = ()
elements = ()
booleans = ()
def startElement(self, stack, name, attrs):
"""Default startElement() handler: just process attributes."""
self.read_attrs(attrs)
def endElement(self, stack, name, text):
"""Default endElement() handler: just pop the stack."""
stack.pop()
def read_attrs(self, attrs):
"""Template-driven attribute reader."""
for key in self.attributes:
val = attrs.get(key, None)
if isinstance(val, str) and val.isdigit():
val = long(val)
setattr(self, key, val)
for key in self.booleans:
setattr(self, key, attrs.get(key, False))
def make_elt(self):
"""XML element constructor."""
elt = lxml.etree.Element("{%s}%s" % (xmlns, self.element_name), nsmap = nsmap)
for key in self.attributes:
val = getattr(self, key, None)
if val is not None:
elt.set(key, str(val))
for key in self.booleans:
if getattr(self, key, False):
elt.set(key, "yes")
return elt
def make_b64elt(self, elt, name, value = None):
"""Constructor for Base64-encoded subelement."""
if value is None:
value = getattr(self, name, None)
if value is not None:
lxml.etree.SubElement(elt, "{%s}%s" % (xmlns, name), nsmap = nsmap).text = base64.b64encode(value)
def __str__(self):
"""Convert a base_elt object to string format."""
lxml.etree.tostring(self.toXML(), pretty_print = True, encoding = "us-ascii")
class data_elt(base_elt, rpki.sql.sql_persistant):
"""Virtual class for top-level left-right protocol data elements."""
def sql_decode(self, vals):
"""Decode SQL form of a data_elt object."""
rpki.sql.sql_persistant.sql_decode(self, vals)
if "cms_ta" in vals:
self.cms_ta = rpki.x509.X509(DER = vals["cms_ta"])
if "https_ta" in vals:
self.https_ta = rpki.x509.X509(DER = vals["https_ta"])
if "private_key_id" in vals:
self.private_key_id = rpki.x509.RSA(DER = vals["private_key_id"])
if "public_key" in vals:
self.public_key = rpki.x509.RSA(DER = vals["public_key"])
def sql_encode(self):
"""Encode SQL form of a data_elt object."""
d = rpki.sql.sql_persistant.sql_encode(self)
for i in ("cms_ta", "https_ta", "private_key_id", "public_key"):
if i in d and d[i] is not None:
d[i] = d[i].get_DER()
return d
def make_reply(self, r_pdu = None):
"""Construct a reply PDU."""
if r_pdu is None:
r_pdu = self.__class__()
r_pdu.self_id = self.self_id
setattr(r_pdu, self.sql_template.index, getattr(self, self.sql_template.index))
r_pdu.action = self.action
r_pdu.type = "reply"
return r_pdu
def serve_pre_save_hook(self, q_pdu, r_pdu):
"""Overridable hook."""
pass
def serve_post_save_hook(self, q_pdu, r_pdu):
"""Overridable hook."""
pass
def serve_create(self, gctx, r_msg):
"""Handle a create action."""
r_pdu = self.make_reply()
self.serve_pre_save_hook(self, r_pdu)
self.sql_store(gctx)
setattr(r_pdu, self.sql_template.index, getattr(self, self.sql_template.index))
self.serve_post_save_hook(self, r_pdu)
r_msg.append(r_pdu)
def serve_fetch_one(self, gctx):
"""Find the object on which a get, set, or destroy method should
operate. This is a separate method because the self object needs
to override it.
"""
return self.sql_fetch_where1(gctx, "%s = %s AND self_id = %s" % (self.sql_template.index, getattr(self, self.sql_template.index), self.self_id))
def serve_set(self, gctx, r_msg):
"""Handle a set action."""
db_pdu = self.serve_fetch_one(gctx)
if db_pdu is not None:
r_pdu = self.make_reply()
for a in db_pdu.sql_template.columns[1:]:
v = getattr(self, a)
if v is not None:
setattr(db_pdu, a, v)
db_pdu.sql_mark_dirty()
db_pdu.serve_pre_save_hook(self, r_pdu)
db_pdu.sql_store(gctx)
db_pdu.serve_post_save_hook(self, r_pdu)
r_msg.append(r_pdu)
else:
r_msg.append(make_error_report(self))
def serve_get(self, gctx, r_msg):
"""Handle a get action."""
r_pdu = self.serve_fetch_one(gctx)
if r_pdu is not None:
self.make_reply(r_pdu)
r_msg.append(r_pdu)
else:
r_msg.append(make_error_report(self))
def serve_list(self, gctx, r_msg):
"""Handle a list action for non-self objects."""
for r_pdu in self.sql_fetch_where(gctx, "self_id = %s" % self.self_id):
self.make_reply(r_pdu)
r_msg.append(r_pdu)
def serve_destroy(self, gctx, r_msg):
"""Handle a destroy action."""
db_pdu = self.serve_fetch_one(gctx)
if db_pdu is not None:
db_pdu.sql_delete(gctx)
r_msg.append(self.make_reply())
else:
r_msg.append(make_error_report(self))
def serve_dispatch(self, gctx, r_msg):
"""Action dispatch handler."""
dispatch = { "create" : self.serve_create,
"set" : self.serve_set,
"get" : self.serve_get,
"list" : self.serve_list,
"destroy" : self.serve_destroy }
if self.type != "query" or self.action not in dispatch:
raise rpki.exceptions.BadQuery, "Unexpected query: type %s, action %s" % (self.type, self.action)
dispatch[self.action](gctx, r_msg)
class extension_preference_elt(base_elt):
"""Container for extension preferences."""
element_name = "extension_preference"
attributes = ("name",)
def startElement(self, stack, name, attrs):
"""Handle elements."""
assert name == "extension_preference", "Unexpected name %s, stack %s" % (name, stack)
self.read_attrs(attrs)
def endElement(self, stack, name, text):
"""Handle elements."""
self.value = text
stack.pop()
def toXML(self):
"""Generate elements."""
elt = self.make_elt()
elt.text = self.value
return elt
class self_elt(data_elt):
""" element."""
element_name = "self"
attributes = ("action", "type", "self_id", "crl_interval")
elements = ("extension_preference",)
booleans = ("rekey", "reissue", "revoke", "run_now", "publish_world_now", "clear_extension_preferences")
sql_template = rpki.sql.template("self", "self_id", "use_hsm", "crl_interval")
self_id = None
use_hsm = False
crl_interval = None
def __init__(self):
"""Initialize a self_elt."""
self.prefs = []
def sql_fetch_hook(self, gctx):
"""Extra SQL fetch actions for self_elt -- handle extension preferences."""
gctx.cur.execute("SELECT pref_name, pref_value FROM self_pref WHERE self_id = %s", self.self_id)
for name, value in gctx.cur.fetchall():
e = extension_preference_elt()
e.name = name
e.value = value
self.prefs.append(e)
def sql_insert_hook(self, gctx):
"""Extra SQL insert actions for self_elt -- handle extension preferences."""
if self.prefs:
gctx.cur.executemany("INSERT self_pref (self_id, pref_name, pref_value) VALUES (%s, %s, %s)",
((e.name, e.value, self.self_id) for e in self.prefs))
def sql_delete_hook(self, gctx):
"""Extra SQL delete actions for self_elt -- handle extension preferences."""
gctx.cur.execute("DELETE FROM self_pref WHERE self_id = %s", self.self_id)
def serve_pre_save_hook(self, q_pdu, r_pdu):
"""Extra server actions for self_elt -- handle extension preferences."""
if self is not q_pdu:
if q_pdu.clear_extension_preferences:
self.prefs = []
self.prefs.extend(pdu.prefs)
def serve_post_save_hook(self, q_pdu, r_pdu):
"""Extra server actions for self_elt."""
if self.rekey or self.reissue or self.revoke or self.run_now or self.publish_world_now:
raise NotImplementedError, \
"Unimplemented control %s" % ", ".join(b for b in ("rekey", "reissue", "revoke",
"run_now", "publish_world_now")
if getattr(self, b))
def serve_fetch_one(self, gctx):
"""Find the self object on which a get, set, or destroy method
should operate.
"""
return self.sql_fetch(gctx, self.self_id)
def serve_list(self, gctx, r_msg):
"""Handle a list action for self objects. This is different from
the list action for all other objects, where list only works
within a given self_id context.
"""
for r_pdu in self.sql_fetch_all(gctx):
self.make_reply(r_pdu)
r_msg.append(r_pdu)
def startElement(self, stack, name, attrs):
"""Handle element."""
if name == "extension_preference":
pref = extension_preference_elt()
self.prefs.append(pref)
stack.append(pref)
pref.startElement(stack, name, attrs)
else:
assert name == "self", "Unexpected name %s, stack %s" % (name, stack)
self.read_attrs(attrs)
def endElement(self, stack, name, text):
"""Handle element."""
assert name == "self", "Unexpected name %s, stack %s" % (name, stack)
stack.pop()
def toXML(self):
"""Generate element."""
elt = self.make_elt()
elt.extend([i.toXML() for i in self.prefs])
return elt
def client_poll(self, gctx):
"""Run the regular client poll cycle with each of this self's parents in turn."""
for parent in parent_elt.sql_fetch_where(gctx, "self_id = %s" % self.self_id):
r_pdu = rpki.up_down.list_pdu.query(gctx, parent)
ca_map = dict((ca.parent_resource_class, ca)
for ca in rpki.sql.ca_obj.sql_fetch_where(gctx, "parent_id = %s" % parent.parent_id))
for rc in r_pdu.payload.classes:
if rc.class_name in ca_map:
ca = ca_map[rc.class_name]
del ca_map[rc.class_name]
ca.check_for_updates(gctx, parent, rc)
else:
rpki.sql.ca_obj.create(gctx, parent, rc)
for ca in ca_map.values():
ca.delete(gctx, parent) # CA not listed by parent
rpki.sql.sql_sweep(gctx)
class bsc_elt(data_elt):
""" (Business Signing Context) element."""
element_name = "bsc"
attributes = ("action", "type", "self_id", "bsc_id", "key_type", "hash_alg", "key_length")
elements = ('signing_cert',)
booleans = ("generate_keypair", "clear_signing_certs")
sql_template = rpki.sql.template("bsc", "bsc_id", "self_id", "public_key", "private_key_id", "hash_alg")
pkcs10_cert_request = None
public_key = None
private_key_id = None
def __init__(self):
"""Initialize bsc_elt."""
self.signing_cert = rpki.x509.X509_chain()
def sql_fetch_hook(self, gctx):
"""Extra SQL fetch actions for bsc_elt -- handle signing certs."""
gctx.cur.execute("SELECT cert FROM bsc_cert WHERE bsc_id = %s", self.bsc_id)
self.signing_cert[:] = [rpki.x509.X509(DER = x) for (x,) in gctx.cur.fetchall()]
def sql_insert_hook(self, gctx):
"""Extra SQL insert actions for bsc_elt -- handle signing certs."""
if self.signing_cert:
gctx.cur.executemany("INSERT bsc_cert (cert, bsc_id) VALUES (%s, %s)",
((x.get_DER(), self.bsc_id) for x in self.signing_cert))
def sql_delete_hook(self, gctx):
"""Extra SQL delete actions for bsc_elt -- handle signing certs."""
gctx.cur.execute("DELETE FROM bsc_cert WHERE bsc_id = %s", self.bsc_id)
def serve_pre_save_hook(self, q_pdu, r_pdu):
"""Extra server actions for bsc_elt -- handle signing certs and key generation."""
if self is not q_pdu:
if q_pdu.clear_signing_certs:
self.signing_cert[:] = []
self.signing_cert.extend(q_pdu.signing_cert)
if q_pdu.generate_keypair:
#
# Hard wire 2048-bit RSA with SHA-256 in schema for now.
# Assume no HSM for now.
#
keypair = rpki.x509.RSA()
keypair.generate()
self.private_key_id = keypair
self.public_key = keypair.get_RSApublic()
r_pdu.pkcs10_cert_request = rpki.x509.PKCS10.create(keypair)
def startElement(self, stack, name, attrs):
"""Handle element."""
if not name in ("signing_cert", "public_key", "pkcs10_cert_request"):
assert name == "bsc", "Unexpected name %s, stack %s" % (name, stack)
self.read_attrs(attrs)
def endElement(self, stack, name, text):
"""Handle element."""
if name == "signing_cert":
self.signing_cert.append(rpki.x509.X509(Base64 = text))
elif name == "public_key":
self.public_key = rpki.x509.RSApublic(Base64 = text)
elif name == "pkcs10_cert_request":
self.pkcs10_cert_request = rpki.x509.PKCS10(Base64 = text)
else:
assert name == "bsc", "Unexpected name %s, stack %s" % (name, stack)
stack.pop()
def toXML(self):
"""Generate element."""
elt = self.make_elt()
for cert in self.signing_cert:
self.make_b64elt(elt, "signing_cert", cert.get_DER())
if self.pkcs10_cert_request is not None:
self.make_b64elt(elt, "pkcs10_cert_request", self.pkcs10_cert_request.get_DER())
if self.public_key is not None:
self.make_b64elt(elt, "public_key", self.public_key.get_DER())
return elt
class parent_elt(data_elt):
""" element."""
element_name = "parent"
attributes = ("action", "type", "self_id", "parent_id", "bsc_id", "repository_id",
"peer_contact_uri", "sia_base")
elements = ("cms_ta", "https_ta")
booleans = ("rekey", "reissue", "revoke")
sql_template = rpki.sql.template("parent", "parent_id", "self_id", "bsc_id", "repository_id",
"cms_ta", "https_ta", "peer_contact_uri", "sia_base")
cms_ta = None
https_ta = None
def serve_post_save_hook(self, q_pdu, r_pdu):
"""Extra server actions for parent_elt."""
if self.rekey or self.reissue or self.revoke:
raise NotImplementedError, \
"Unimplemented control %s" % ", ".join(b for b in ("rekey","reissue","revoke")
if getattr(self, b))
def startElement(self, stack, name, attrs):
"""Handle element."""
if name not in ("cms_ta", "https_ta"):
assert name == "parent", "Unexpected name %s, stack %s" % (name, stack)
self.read_attrs(attrs)
def endElement(self, stack, name, text):
"""Handle element."""
if name == "cms_ta":
self.cms_ta = rpki.x509.X509(Base64 = text)
elif name == "https_ta":
self.https_ta = rpki.x509.X509(Base64 = text)
else:
assert name == "parent", "Unexpected name %s, stack %s" % (name, stack)
stack.pop()
def toXML(self):
"""Generate element."""
elt = self.make_elt()
if self.cms_ta and not self.cms_ta.empty():
self.make_b64elt(elt, "cms_ta", self.cms_ta.get_DER())
if self.https_ta and not self.https_ta.empty():
self.make_b64elt(elt, "https_ta", self.https_ta.get_DER())
return elt
def query_up_down(self, gctx, q_pdu):
"""Client code for sending one up-down query PDU to this parent.
I haven't figured out yet whether this method should do something
clever like dispatching via a method in the response PDU payload,
or just hand back the whole response to the caller. In the long
run this will have to become event driven with a context object
that has methods of its own, but as this method is common code for
several different queries and I don't yet know what the response
processing looks like, it's too soon to tell what will make sense.
For now, keep this dead simple lock step, rewrite it later.
"""
bsc = bsc_elt.sql_fetch(gctx, self.bsc_id)
if bsc is None:
raise rpki.exceptions.BSCNotFound, "Could not find BSC %s" % self.bsc_id
q_msg = rpki.up_down.message_pdu.make_query(q_pdu)
q_elt = q_msg.toXML()
rpki.relaxng.up_down.assertValid(q_elt)
q_cms = rpki.cms.xml_sign(q_elt, bsc.private_key_id, bsc.signing_cert, encoding = "UTF-8")
r_cms = rpki.https.client(x509TrustList = rpki.x509.X509_chain(self.https_ta),
privateKey = gctx.https_key,
certChain = gctx.https_certs,
msg = q_cms,
url = self.peer_contact_uri)
r_elt = rpki.cms.xml_verify(r_cms, self.cms_ta)
rpki.relaxng.up_down.assertValid(r_elt)
return rpki.up_down.sax_handler.saxify(r_elt)
class child_elt(data_elt):
""" element."""
element_name = "child"
attributes = ("action", "type", "self_id", "child_id", "bsc_id")
elements = ("cms_ta",)
booleans = ("reissue", )
sql_template = rpki.sql.template("child", "child_id", "self_id", "bsc_id", "cms_ta")
cms_ta = None
def serve_post_save_hook(self, q_pdu, r_pdu):
"""Extra server actions for child_elt."""
if self.reissue:
raise NotImplementedError, \
"Unimplemented control %s" % ", ".join(b for b in ("reissue",) if getattr(self, b))
def startElement(self, stack, name, attrs):
"""Handle element."""
if name != "cms_ta":
assert name == "child", "Unexpected name %s, stack %s" % (name, stack)
self.read_attrs(attrs)
def endElement(self, stack, name, text):
"""Handle element."""
if name == "cms_ta":
self.cms_ta = rpki.x509.X509(Base64 = text)
else:
assert name == "child", "Unexpected name %s, stack %s" % (name, stack)
stack.pop()
def toXML(self):
"""Generate element."""
elt = self.make_elt()
if self.cms_ta:
self.make_b64elt(elt, "cms_ta", self.cms_ta.get_DER())
return elt
def serve_up_down(self, gctx, query):
"""Outer layer of server handling for one up-down PDU from this child."""
bsc = bsc_elt.sql_fetch(gctx, self.bsc_id)
if bsc is None:
raise rpki.exceptions.BSCNotFound, "Could not find BSC %s" % self.bsc_id
q_elt = rpki.cms.xml_verify(query, self.cms_ta)
rpki.relaxng.up_down.assertValid(q_elt)
q_msg = rpki.up_down.sax_handler.saxify(q_elt)
if q_msg.sender != str(self.child_id):
raise rpki.exceptions.BadSender, "Unexpected XML sender %s" % q_msg.sender
try:
r_msg = q_msg.serve_top_level(gctx, self)
except Exception, data:
traceback.print_exc()
r_msg = q_msg.serve_error(data)
#
# Exceptions from this point on are problematic, as we have no
# sane way of reporting errors in the error reporting mechanism.
# May require refactoring, ignore the issue for now.
#
r_elt = r_msg.toXML()
try:
rpki.relaxng.up_down.assertValid(r_elt)
except:
print lxml.etree.tostring(r_elt, pretty_print = True, encoding = "UTF-8")
traceback.print_exc()
raise
return rpki.cms.xml_sign(r_elt, bsc.private_key_id, bsc.signing_cert, encoding = "UTF-8")
class repository_elt(data_elt):
""" element."""
element_name = "repository"
attributes = ("action", "type", "self_id", "repository_id", "bsc_id", "peer_contact_uri")
elements = ("cms_ta", "https_ta")
sql_template = rpki.sql.template("repository", "repository_id", "self_id", "bsc_id", "cms_ta",
"peer_contact_uri")
cms_ta = None
https_ta = None
def startElement(self, stack, name, attrs):
"""Handle element."""
if name not in ("cms_ta", "https_ta"):
assert name == "repository", "Unexpected name %s, stack %s" % (name, stack)
self.read_attrs(attrs)
def endElement(self, stack, name, text):
"""Handle element."""
if name == "cms_ta":
self.cms_ta = rpki.x509.X509(Base64 = text)
elif name == "https_ta":
self.https_ta = rpki.x509.X509(Base64 = text)
else:
assert name == "repository", "Unexpected name %s, stack %s" % (name, stack)
stack.pop()
def toXML(self):
"""Generate element."""
elt = self.make_elt()
if self.cms_ta:
self.make_b64elt(elt, "cms_ta", self.cms_ta.get_DER())
if self.https_ta:
self.make_b64elt(elt, "https_ta", self.https_ta.get_DER())
return elt
def publish(self, *things):
"""Placeholder for publication operation (not yet written)."""
for thing in things:
print "Should publish %s to repository %s" % (repr(thing), repr(self))
def withdraw(self, *things):
"""Placeholder for publication withdrawal operation (not yet written)."""
for thing in things:
print "Should withdraw %s from repository %s" % (repr(thing), repr(self))
class route_origin_elt(data_elt):
""" element."""
element_name = "route_origin"
attributes = ("action", "type", "self_id", "route_origin_id", "as_number", "ipv4", "ipv6")
booleans = ("suppress_publication",)
sql_template = rpki.sql.template("route_origin", "route_origin_id", "self_id", "as_number",
"ca_detail_id", "roa")
ca_detail_id = None
roa = None
def sql_fetch_hook(self, gctx):
"""Extra SQL fetch actions for route_origin_elt -- handle address ranges."""
self.ipv4 = rpki.resource_set.resource_set_ipv4.from_sql(gctx.cur, """
SELECT start_ip, end_ip FROM route_origin_range
WHERE route_origin_id = %s AND start_ip NOT LIKE '%:%'
""", self.route_origin_id)
self.ipv6 = rpki.resource_set.resource_set_ipv6.from_sql(gctx.cur, """
SELECT start_ip, end_ip FROM route_origin_range
WHERE route_origin_id = %s AND start_ip LIKE '%:%'
""", self.route_origin_id)
def sql_insert_hook(self, gctx):
"""Extra SQL insert actions for route_origin_elt -- handle address ranges."""
if self.ipv4 + self.ipv6:
gctx.cur.executemany("""
INSERT route_origin_range (route_origin_id, start_ip, end_ip)
VALUES (%s, %s, %s)""",
((self.route_origin_id, x.min, x.max) for x in self.ipv4 + self.ipv6))
def sql_delete_hook(self, gctx):
"""Extra SQL delete actions for route_origin_elt -- handle address ranges."""
gctx.cur.execute("DELETE FROM route_origin_range WHERE route_origin_id = %s", self.route_origin_id)
def serve_post_save_hook(self, q_pdu, r_pdu):
"""Extra server actions for route_origin_elt."""
if self.suppress_publication:
raise NotImplementedError, \
"Unimplemented control %s" % ", ".join(b for b in ("suppress_publication",) if getattr(self, b))
def startElement(self, stack, name, attrs):
"""Handle element."""
assert name == "route_origin", "Unexpected name %s, stack %s" % (name, stack)
self.read_attrs(attrs)
if self.as_number is not None:
self.as_number = long(self.as_number)
if self.ipv4 is not None:
self.ipv4 = rpki.resource_set.resource_set_ipv4(self.ipv4)
if self.ipv6 is not None:
self.ipv6 = rpki.resource_set.resource_set_ipv6(self.ipv4)
def endElement(self, stack, name, text):
"""Handle element."""
assert name == "route_origin", "Unexpected name %s, stack %s" % (name, stack)
stack.pop()
def toXML(self):
"""Generate element."""
return self.make_elt()
class list_resources_elt(base_elt):
""" element."""
element_name = "list_resources"
attributes = ("type", "self_id", "child_id", "valid_until", "as", "ipv4", "ipv6", "subject_name")
valid_until = None
def startElement(self, stack, name, attrs):
"""Handle element."""
assert name == "list_resources", "Unexpected name %s, stack %s" % (name, stack)
self.read_attrs(attrs)
if isinstance(self.valid_until, str):
self.valid_until = int(time.mktime(time.strptime(self.valid_until, "%Y-%m-%dT%H:%M:%SZ")))
if self.as is not None:
self.as = rpki.resource_set.resource_set_as(self.as)
if self.ipv4 is not None:
self.ipv4 = rpki.resource_set.resource_set_ipv4(self.ipv4)
if self.ipv6 is not None:
self.ipv6 = rpki.resource_set.resource_set_ipv6(self.ipv6)
def toXML(self):
"""Generate element."""
elt = self.make_elt()
if isinstance(self.valid_until, int):
elt.set("valid_until", time.strftime("%Y-%m-%dT%H:%M:%SZ", time.localtime(self.valid_until)))
return elt
class report_error_elt(base_elt):
""" element."""
element_name = "report_error"
attributes = ("self_id", "error_code")
def startElement(self, stack, name, attrs):
"""Handle element."""
assert name == self.element_name, "Unexpected name %s, stack %s" % (name, stack)
self.read_attrs(attrs)
def toXML(self):
"""Generate element."""
return self.make_elt()
class msg(list):
"""Left-right PDU."""
## @var version
# Protocol version
version = 1
## @var pdus
# Dispatch table of PDUs for this protocol.
pdus = dict((x.element_name, x)
for x in (self_elt, child_elt, parent_elt, bsc_elt, repository_elt,
route_origin_elt, list_resources_elt, report_error_elt))
def startElement(self, stack, name, attrs):
"""Handle left-right PDU."""
if name == "msg":
assert self.version == int(attrs["version"])
else:
elt = self.pdus[name]()
self.append(elt)
stack.append(elt)
elt.startElement(stack, name, attrs)
def endElement(self, stack, name, text):
"""Handle left-right PDU."""
assert name == "msg", "Unexpected name %s, stack %s" % (name, stack)
assert len(stack) == 1
stack.pop()
def __str__(self):
"""Convert msg object to string."""
lxml.etree.tostring(self.toXML(), pretty_print = True, encoding = "us-ascii")
def toXML(self):
"""Generate left-right PDU."""
elt = lxml.etree.Element("{%s}msg" % (xmlns), nsmap = nsmap, version = str(self.version))
elt.extend([i.toXML() for i in self])
return elt
def serve_top_level(self, gctx):
"""Serve one msg PDU."""
r_msg = self.__class__()
for q_pdu in self:
q_pdu.serve_dispatch(gctx, r_msg)
return r_msg
class sax_handler(rpki.sax_utils.handler):
"""SAX handler for Left-Right protocol."""
## @var pdu
# Top-level PDU class
pdu = msg
def create_top_level(self, name, attrs):
"""Top-level PDU for this protocol is ."""
assert name == "msg" and attrs["version"] == "1"
return self.pdu()
def irdb_query(gctx, self_id, child_id = None):
"""Perform an IRDB callback query. In the long run this should not
be a blocking routine, it should instead issue a query and set up a
handler to receive the response. For the moment, though, we are
doing simple lock step and damn the torpedos. Not yet doing
anything useful with validity interval or subject name. Most likely
this function should really be wrapped up in a class that carries
both the query result and also the intermediate state needed for the
event-driven code that this function will need to become.
"""
q_msg = msg()
q_msg.append(list_resources_elt())
q_msg[0].type = "query"
q_msg[0].self_id = self_id
q_msg[0].child_id = child_id
q_elt = q_msg.toXML()
rpki.relaxng.left_right.assertValid(q_elt)
q_cms = rpki.cms.xml_sign(q_elt, gctx.cms_key, gctx.cms_certs)
r_cms = rpki.https.client(privateKey = gctx.https_key,
certChain = gctx.https_certs,
x509TrustList = gctx.https_tas,
url = gctx.irdb_url,
msg = q_cms)
r_elt = rpki.cms.xml_verify(r_cms, gctx.cms_ta_irdb)
rpki.relaxng.left_right.assertValid(r_elt)
r_msg = rpki.left_right.sax_handler.saxify(r_elt)
if len(r_msg) == 0 or not isinstance(r_msg[0], list_resources_elt) or r_msg[0].type != "reply":
raise rpki.exceptions.BadIRDBReply, "Unexpected response to IRDB query: %s" % r_msg.toXML()
return rpki.resource_set.resource_bag(r_msg[0].as,
r_msg[0].ipv4,
r_msg[0].ipv6)