def gen_class(t, parent, obj_type, template=None):
if not parent in class_to_members_map.keys():
doc_info = "Unknown parent action/instruction class: " + parent
else:
doc_info = "Data members inherited from " + parent + ":\n"
for var in class_to_members_map[parent]:
doc_info += " @arg " + var + "\n"
if obj_type == "action":
name = "OFPAT_" + t.upper()
else:
name = "OFPIT_" + t.upper()
if template is None:
template = template_no_list
to_print = re.sub('--TYPE--', t, template)
to_print = re.sub('--OBJ_TYPE--', obj_type, to_print)
to_print = re.sub('--PARENT_TYPE--', parent, to_print)
to_print = re.sub('--ACT_INST_NAME--', name, to_print)
to_print = re.sub('--DOC_INFO--', doc_info, to_print)
print to_print
def gen_class(t, parent, obj_type, template=None):
if not parent in class_to_members_map.keys():
doc_info = "Unknown parent action/instruction class: " + parent
else:
doc_info = "Data members inherited from " + parent + ":\n"
for var in class_to_members_map[parent]:
doc_info += " @arg " + var + "\n"
if obj_type == "action":
name = "OFPAT_" + t.upper()
else:
name = "OFPIT_" + t.upper()
if template is None:
template = template_no_list
to_print = re.sub('--TYPE--', t, template)
to_print = re.sub('--OBJ_TYPE--', obj_type, to_print)
to_print = re.sub('--PARENT_TYPE--', parent, to_print)
to_print = re.sub('--ACT_INST_NAME--', name, to_print)
to_print = re.sub('--DOC_INFO--', doc_info, to_print)
print to_print
--DOC_INFO--
\"""
def __init__(self):
--PARENT_TYPE--.__init__(self)
self.type = --ACTION_NAME--
self.len = self.__len__()
def show(self, prefix=''):
outstr = prefix + "action_--TYPE--\\n"
outstr += --PARENT_TYPE--.show(self, prefix)
return outstr
"""
if __name__ == '__main__':
for (t, parent) in action_class_map.items():
if not parent in class_to_members_map.keys():
doc_info = "Unknown parent action class: " + parent
else:
doc_info = "Data members inherited from " + parent + ":\n"
for var in class_to_members_map[parent]:
doc_info += " @arg " + var + "\n"
action_name = "OFPAT_" + t.upper()
to_print = re.sub('--TYPE--', t, template)
to_print = re.sub('--PARENT_TYPE--', parent, to_print)
to_print = re.sub('--ACTION_NAME--', action_name, to_print)
to_print = re.sub('--DOC_INFO--', doc_info, to_print)
print to_print
# Generate a list of action classes
print "action_class_list = ("
prev = None
def gen_message_wrapper(msg):
"""
Generate a wrapper for the given message based on above info
@param msg String identifying the message name for the class
"""
msg_name = "OFPT_" + msg.upper()
parent = message_class_map[msg]
has_match = False
has_list = False # Has trailing list
has_core_members = False
has_string = False # Has trailing string
if parent != 'ofp_header':
has_core_members = True
if msg in match_members:
has_match = True
if msg in list_members.keys():
(list_var, list_type) = list_members[msg]
has_list = True
if msg in string_members:
has_string = True
if has_core_members:
print "class " + msg + "(" + parent + "):"
else:
print "class " + msg + "(object):"
_p1('"""')
_p1("Wrapper class for " + msg)
print
_p1("OpenFlow message header: length, version, xid, type")
_p1("@arg length: The total length of the message")
_p1("@arg version: The OpenFlow version (" + str(OFP_VERSION) + ")")
_p1("@arg xid: The transaction ID")
_p1("@arg type: The message type (" + msg_name + "=" +
str(eval(msg_name)) + ")")
print
if has_core_members and parent in class_to_members_map.keys():
_p1("Data members inherited from " + parent + ":")
for var in class_to_members_map[parent]:
_p1("@arg " + var)
if has_list:
if list_type == None:
_p1("@arg " + list_var + ": Variable length array of TBD")
else:
_p1("@arg " + list_var + ": Object of type " + list_type);
if has_string:
_p1("@arg data: Binary string following message members")
print
_p1('"""')
print
_p1("def __init__(self):")
if has_core_members:
_p2(parent + ".__init__(self)")
_p2("self.header = ofp_header()")
_p2("self.header.type = " + msg_name)
if has_match:
_p2("self.match_fields = match_list()")
if has_list:
if list_type == None:
_p2('self.' + list_var + ' = []')
else:
_p2('self.' + list_var + ' = ' + list_type + '()')
if has_string:
_p2('self.data = ""')
print """
def pack(self):
\"""
Pack object into string
@return The packed string which can go on the wire
\"""
self.header.length = len(self)
packed = self.header.pack()
"""
# Have to special case the action length calculation for pkt out
if msg == 'packet_out':
_p2('self.actions_len = len(self.actions)')
if has_core_members:
_p2("packed += " + parent + ".pack(self)")
if has_match:
_p2('packed += self.match_fields.pack()')
_p2('self.match.length = len(self.match_fields)')
if has_list:
if list_type == None:
_p2('for obj in self.' + list_var + ':')
_p3('packed += obj.pack()')
else:
_p2('packed += self.' + list_var + '.pack()')
if has_string:
_p2('packed += self.data')
_p2("return packed")
print """
def unpack(self, binary_string):
\"""
Unpack object from a binary string
@param binary_string The wire protocol byte string holding the object
represented as an array of bytes.
@return The remainder of binary_string that was not parsed.
\"""
binary_string = self.header.unpack(binary_string)
"""
if has_core_members:
_p2("binary_string = " + parent + ".unpack(self, binary_string)")
if has_list:
if msg == "features_reply": # Special case port parsing
# For now, cheat and assume the rest of the message is port list
_p2("while len(binary_string) >= OFP_PORT_BYTES:")
_p3("new_port = ofp_port()")
_p3("binary_string = new_port.unpack(binary_string)")
_p3("self.ports.append(new_port)")
elif list_type == None:
_p2("for obj in self." + list_var + ":")
_p3("binary_string = obj.unpack(binary_string)")
elif msg == "packet_out": # Special case this
_p2('binary_string = self.actions.unpack(' +
'binary_string, bytes=self.actions_len)')
else:
_p2("binary_string = self." + list_var + ".unpack(binary_string)")
if has_string:
_p2("self.data = binary_string")
_p2("binary_string = ''")
else:
_p2("# Fixme: If no self.data, add check for data remaining")
_p2("return binary_string")
print """
def __len__(self):
\"""
Return the length of this object once packed into a string
@return An integer representing the number bytes in the packed
string.
\"""
length = OFP_HEADER_BYTES
"""
if has_core_members:
_p2("length += " + parent + ".__len__(self)")
if has_list:
if list_type == None:
_p2("for obj in self." + list_var + ":")
_p3("length += len(obj)")
else:
_p2("length += len(self." + list_var + ")")
if has_string:
_p2("length += len(self.data)")
_p2("return length")
print """
def show(self, prefix=''):
\"""
Generate a string (with multiple lines) describing the contents
of the object in a readable manner
@param prefix Pre-pended at the beginning of each line.
\"""
"""
_p2("outstr = prefix + '" + msg + " (" + msg_name + ")\\n'")
_p2("prefix += ' '")
_p2("outstr += prefix + 'ofp header\\n'")
_p2("outstr += self.header.show(prefix + ' ')")
if has_core_members:
_p2("outstr += " + parent + ".show(self, prefix)")
if has_list:
if list_type == None:
_p2('outstr += prefix + "Array ' + list_var + '\\n"')
_p2('for obj in self.' + list_var +':')
_p3("outstr += obj.show(prefix + ' ')")
else:
_p2('outstr += prefix + "List ' + list_var + '\\n"')
_p2('outstr += self.' + list_var + ".show(prefix + ' ')")
if has_string:
_p2("outstr += prefix + 'data is of length ' + str(len(self.data)) + '\\n'")
_p2("##@todo Fix this circular reference")
_p2("# if len(self.data) > 0:")
_p3("# obj = of_message_parse(self.data)")
_p3("# if obj != None:")
_p4("# outstr += obj.show(prefix)")
_p3("# else:")
_p4('# outstr += prefix + "Unable to parse data\\n"')
_p2('return outstr')
print """
def __eq__(self, other):
\"""
Return True if self and other hold the same data
@param other Other object in comparison
\"""
if type(self) != type(other): return False
if not self.header.__eq__(other.header): return False
"""
if has_core_members:
_p2("if not " + parent + ".__eq__(self, other): return False")
if has_string:
_p2("if self.data != other.data: return False")
if has_list:
_p2("if self." + list_var + " != other." + list_var + ": return False")
_p2("return True")
print """
--DOC_INFO--
\"""
def __init__(self):
--PARENT_TYPE--.__init__(self)
self.type = --ACTION_NAME--
self.len = self.__len__()
def show(self, prefix=''):
outstr = prefix + "action_--TYPE--\\n"
outstr += --PARENT_TYPE--.show(self, prefix)
return outstr
"""
if __name__ == '__main__':
for (t, parent) in action_class_map.items():
if not parent in class_to_members_map.keys():
doc_info = "Unknown parent action class: " + parent
else:
doc_info = "Data members inherited from " + parent + ":\n"
for var in class_to_members_map[parent]:
doc_info += " @arg " + var + "\n"
action_name = "OFPAT_" + t.upper()
to_print = re.sub('--TYPE--', t, template)
to_print = re.sub('--PARENT_TYPE--', parent, to_print)
to_print = re.sub('--ACTION_NAME--', action_name, to_print)
to_print = re.sub('--DOC_INFO--', doc_info, to_print)
print to_print
# Generate a list of action classes
print "action_class_list = ("
prev = None
def gen_message_wrapper(msg):
"""
Generate a wrapper for the given message based on above info
@param msg String identifying the message name for the class
"""
msg_name = "OFPT_" + msg.upper()
parent = message_class_map[msg]
has_list = False # Has trailing list
has_core_members = False
has_string = False # Has trailing string
if parent != 'ofp_header':
has_core_members = True
if msg in list_members.keys():
(list_var, list_type) = list_members[msg]
has_list = True
if msg in string_members:
has_string = True
if has_core_members:
print "class " + msg + "(" + parent + "):"
else:
print "class " + msg + ":"
_p1('"""')
_p1("Wrapper class for " + msg)
print
_p1("OpenFlow message header: length, version, xid, type")
_p1("@arg length: The total length of the message")
_p1("@arg version: The OpenFlow version (" + str(OFP_VERSION) + ")")
_p1("@arg xid: The transaction ID")
_p1("@arg type: The message type (" + msg_name + "=" +
str(eval(msg_name)) + ")")
print
if has_core_members and parent in class_to_members_map.keys():
_p1("Data members inherited from " + parent + ":")
for var in class_to_members_map[parent]:
_p1("@arg " + var)
if has_list:
if list_type == None:
_p1("@arg " + list_var + ": Variable length array of TBD")
else:
_p1("@arg " + list_var + ": Object of type " + list_type)
if has_string:
_p1("@arg data: Binary string following message members")
print
_p1('"""')
print
_p1("def __init__(self):")
if has_core_members:
_p2(parent + ".__init__(self)")
_p2("self.header = ofp_header()")
_p2("self.header.type = " + msg_name)
if has_list:
if list_type == None:
_p2('self.' + list_var + ' = []')
else:
_p2('self.' + list_var + ' = ' + list_type + '()')
if has_string:
_p2('self.data = ""')
print """
def pack(self):
\"""
Pack object into string
@return The packed string which can go on the wire
\"""
self.header.length = len(self)
packed = self.header.pack()
"""
# Have to special case the action length calculation for pkt out
if msg == 'packet_out':
_p2('self.actions_len = len(self.actions)')
if has_core_members:
_p2("packed += " + parent + ".pack(self)")
if has_list:
if list_type == None:
_p2('for obj in self.' + list_var + ':')
_p3('packed += obj.pack()')
else:
_p2('packed += self.' + list_var + '.pack()')
if has_string:
_p2('packed += self.data')
_p2("return packed")
print """
def unpack(self, binary_string):
\"""
Unpack object from a binary string
@param binary_string The wire protocol byte string holding the object
represented as an array of bytes.
@return The remainder of binary_string that was not parsed.
\"""
binary_string = self.header.unpack(binary_string)
"""
if has_core_members:
_p2("binary_string = " + parent + ".unpack(self, binary_string)")
if has_list:
if msg == "features_reply": # Special case port parsing
# For now, cheat and assume the rest of the message is port list
_p2("while len(binary_string) >= OFP_PHY_PORT_BYTES:")
_p3("new_port = ofp_phy_port()")
_p3("binary_string = new_port.unpack(binary_string)")
_p3("self.ports.append(new_port)")
elif list_type == None:
_p2("for obj in self." + list_var + ":")
_p3("binary_string = obj.unpack(binary_string)")
elif msg == "packet_out": # Special case this
_p2('binary_string = self.actions.unpack(' +
'binary_string, bytes=self.actions_len)')
elif msg == "flow_mod": # Special case this
_p2("ai_len = self.header.length - (OFP_FLOW_MOD_BYTES + " +
"OFP_HEADER_BYTES)")
_p2("binary_string = self.actions.unpack(binary_string, " +
"bytes=ai_len)")
else:
_p2("binary_string = self." + list_var + ".unpack(binary_string)")
if has_string:
_p2("self.data = binary_string")
_p2("binary_string = ''")
else:
_p2("# Fixme: If no self.data, add check for data remaining")
_p2("return binary_string")
print """
def __len__(self):
\"""
Return the length of this object once packed into a string
@return An integer representing the number bytes in the packed
string.
\"""
length = OFP_HEADER_BYTES
"""
if has_core_members:
_p2("length += " + parent + ".__len__(self)")
if has_list:
if list_type == None:
_p2("for obj in self." + list_var + ":")
_p3("length += len(obj)")
else:
_p2("length += len(self." + list_var + ")")
if has_string:
_p2("length += len(self.data)")
_p2("return length")
print """
def show(self, prefix=''):
\"""
Generate a string (with multiple lines) describing the contents
of the object in a readable manner
@param prefix Pre-pended at the beginning of each line.
\"""
"""
_p2("outstr = prefix + '" + msg + " (" + msg_name + ")\\n'")
_p2("prefix += ' '")
_p2("outstr += prefix + 'ofp header\\n'")
_p2("outstr += self.header.show(prefix + ' ')")
if has_core_members:
_p2("outstr += " + parent + ".show(self, prefix)")
if has_list:
if list_type == None:
_p2('outstr += prefix + "Array ' + list_var + '\\n"')
_p2('for obj in self.' + list_var + ':')
_p3("outstr += obj.show(prefix + ' ')")
else:
_p2('outstr += prefix + "List ' + list_var + '\\n"')
_p2('outstr += self.' + list_var + ".show(prefix + ' ')")
if has_string:
_p2("outstr += prefix + 'data is of length ' + str(len(self.data)) + '\\n'"
)
_p2("##@todo Fix this circular reference")
_p2("# if len(self.data) > 0:")
_p3("# obj = of_message_parse(self.data)")
_p3("# if obj != None:")
_p4("# outstr += obj.show(prefix)")
_p3("# else:")
_p4('# outstr += prefix + "Unable to parse data\\n"')
_p2('return outstr')
print """
def __eq__(self, other):
\"""
Return True if self and other hold the same data
@param other Other object in comparison
\"""
if type(self) != type(other): return False
if not self.header.__eq__(other.header): return False
"""
if has_core_members:
_p2("if not " + parent + ".__eq__(self, other): return False")
if has_string:
_p2("if self.data != other.data: return False")
if has_list:
_p2("if self." + list_var + " != other." + list_var + ": return False")
_p2("return True")
print """
