| # Copyright 2013, Big Switch Networks, Inc. |
| # |
| # LoxiGen is licensed under the Eclipse Public License, version 1.0 (EPL), with |
| # the following special exception: |
| # |
| # LOXI Exception |
| # |
| # As a special exception to the terms of the EPL, you may distribute libraries |
| # generated by LoxiGen (LoxiGen Libraries) under the terms of your choice, provided |
| # that copyright and licensing notices generated by LoxiGen are not altered or removed |
| # from the LoxiGen Libraries and the notice provided below is (i) included in |
| # the LoxiGen Libraries, if distributed in source code form and (ii) included in any |
| # documentation for the LoxiGen Libraries, if distributed in binary form. |
| # |
| # Notice: "Copyright 2013, Big Switch Networks, Inc. This library was generated by the LoxiGen Compiler." |
| # |
| # You may not use this file except in compliance with the EPL or LOXI Exception. You may obtain |
| # a copy of the EPL at: |
| # |
| # http://www.eclipse.org/legal/epl-v10.html |
| # |
| # Unless required by applicable law or agreed to in writing, software |
| # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT |
| # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the |
| # EPL for the specific language governing permissions and limitations |
| # under the EPL. |
| |
| # Prototype of an Intermediate Object model for the java code generator |
| # A lot of this stuff could/should probably be merged with the python utilities |
| |
| import collections |
| from collections import namedtuple, defaultdict, OrderedDict |
| import logging |
| import os |
| import pdb |
| import re |
| |
| from generic_utils import find, memoize, OrderedSet, OrderedDefaultDict |
| import of_g |
| from loxi_ir import * |
| import loxi_front_end.type_maps as type_maps |
| import loxi_utils.loxi_utils as loxi_utils |
| import py_gen.util as py_utils |
| import test_data |
| |
| import java_gen.java_type as java_type |
| from java_gen.java_type import erase_type_annotation |
| |
| class JavaModel(object): |
| # registry for enums that should not be generated |
| # set(${java_enum_name}) |
| enum_blacklist = set(("OFDefinitions", "OFPortNo", "OFVlanId", "OFGroup")) |
| # registry for enum *entry* that should not be generated |
| # map: ${java_enum_name} -> set(${java_entry_entry_name}) |
| enum_entry_blacklist = defaultdict(lambda: set(), OFFlowWildcards=set([ "NW_DST_BITS", "NW_SRC_BITS", "NW_SRC_SHIFT", "NW_DST_SHIFT" ])) |
| |
| # registry of interfaces that should not be generated |
| # set(java_names) |
| # OFUint structs are there for god-knows what in loci. We certainly don't need them. |
| interface_blacklist = set( ("OFUint8", "OFUint32",)) |
| # registry of interface properties that should not be generated |
| # map: $java_type -> set(java_name_property) |
| read_blacklist = defaultdict(lambda: set(), OFExperimenter=set(('data','subtype')), OFActionExperimenter=set(('data',))) |
| # map: $java_type -> set(java_name_property) |
| write_blacklist = defaultdict(lambda: set(), OFOxm=set(('typeLen',)), OFAction=set(('type',)), OFInstruction=set(('type',)), OFFlowMod=set(('command', )), OFExperimenter=set(('data','subtype')), OFActionExperimenter=set(('data',))) |
| # interfaces that are virtual |
| virtual_interfaces = set(['OFOxm', 'OFInstruction', 'OFFlowMod', 'OFBsnVport' ]) |
| |
| OxmMapEntry = namedtuple("OxmMapEntry", ["type_name", "value", "masked" ]) |
| oxm_map = { "OFOxmInPort": OxmMapEntry("OFPort", "IN_PORT", False), |
| "OFOxmInPortMasked": OxmMapEntry("OFPort", "IN_PORT", True), |
| "OFOxmInPhyPort": OxmMapEntry("OFPort", "IN_PHY_PORT", False), |
| "OFOxmInPhyPortMasked": OxmMapEntry("OFPort", "IN_PHY_PORT", True), |
| "OFOxmMetadata": OxmMapEntry("OFMetadata", "METADATA", False), |
| "OFOxmMetadataMasked": OxmMapEntry("OFMetadata", "METADATA", True), |
| "OFOxmEthDst": OxmMapEntry("MacAddress", "ETH_DST", False), |
| "OFOxmEthDstMasked": OxmMapEntry("MacAddress", "ETH_DST", True), |
| "OFOxmEthSrc": OxmMapEntry("MacAddress", "ETH_SRC", False), |
| "OFOxmEthSrcMasked": OxmMapEntry("MacAddress", "ETH_SRC", True), |
| "OFOxmEthType": OxmMapEntry("EthType", "ETH_TYPE", False), |
| "OFOxmEthTypeMasked": OxmMapEntry("EthType", "ETH_TYPE", True), |
| "OFOxmVlanVid": OxmMapEntry("VlanVid", "VLAN_VID", False), |
| "OFOxmVlanVidMasked": OxmMapEntry("VlanVid", "VLAN_VID", True), |
| "OFOxmVlanPcp": OxmMapEntry("VlanPcp", "VLAN_PCP", False), |
| "OFOxmVlanPcpMasked": OxmMapEntry("VlanPcp", "VLAN_PCP", True), |
| "OFOxmIpDscp": OxmMapEntry("IpDscp", "IP_DSCP", False), |
| "OFOxmIpDscpMasked": OxmMapEntry("IpDscp", "IP_DSCP", True), |
| "OFOxmIpEcn": OxmMapEntry("IpEcn", "IP_ECN", False), |
| "OFOxmIpEcnMasked": OxmMapEntry("IpEcn", "IP_ECN", True), |
| "OFOxmIpProto": OxmMapEntry("IpProtocol", "IP_PROTO", False), |
| "OFOxmIpProtoMasked": OxmMapEntry("IpProtocol", "IP_PROTO", True), |
| "OFOxmIpv4Src": OxmMapEntry("IPv4Address", "IPV4_SRC", False), |
| "OFOxmIpv4SrcMasked": OxmMapEntry("IPv4Address", "IPV4_SRC", True), |
| "OFOxmIpv4Dst": OxmMapEntry("IPv4Address", "IPV4_DST", False), |
| "OFOxmIpv4DstMasked": OxmMapEntry("IPv4Address", "IPV4_DST", True), |
| "OFOxmTcpSrc": OxmMapEntry("TransportPort", "TCP_SRC", False), |
| "OFOxmTcpSrcMasked": OxmMapEntry("TransportPort", "TCP_SRC", True), |
| "OFOxmTcpDst": OxmMapEntry("TransportPort", "TCP_DST", False), |
| "OFOxmTcpDstMasked": OxmMapEntry("TransportPort", "TCP_DST", True), |
| "OFOxmUdpSrc": OxmMapEntry("TransportPort", "UDP_SRC", False), |
| "OFOxmUdpSrcMasked": OxmMapEntry("TransportPort", "UDP_SRC", True), |
| "OFOxmUdpDst": OxmMapEntry("TransportPort", "UDP_DST", False), |
| "OFOxmUdpDstMasked": OxmMapEntry("TransportPort", "UDP_DST", True), |
| "OFOxmSctpSrc": OxmMapEntry("TransportPort", "SCTP_SRC", False), |
| "OFOxmSctpSrcMasked": OxmMapEntry("TransportPort", "SCTP_SRC", True), |
| "OFOxmSctpDst": OxmMapEntry("TransportPort", "SCTP_DST", False), |
| "OFOxmSctpDstMasked": OxmMapEntry("TransportPort", "SCTP_DST", True), |
| "OFOxmIcmpv4Type": OxmMapEntry("ICMPv4Type", "ICMPV4_TYPE", False), |
| "OFOxmIcmpv4TypeMasked": OxmMapEntry("ICMPv4Type", "ICMPV4_TYPE", True), |
| "OFOxmIcmpv4Code": OxmMapEntry("ICMPv4Code", "ICMPV4_CODE", False), |
| "OFOxmIcmpv4CodeMasked": OxmMapEntry("ICMPv4Code", "ICMPV4_CODE", True), |
| "OFOxmArpOp": OxmMapEntry("ArpOpcode", "ARP_OP", False), |
| "OFOxmArpOpMasked": OxmMapEntry("ArpOpcode", "ARP_OP", True), |
| "OFOxmArpSpa": OxmMapEntry("IPv4Address", "ARP_SPA", False), |
| "OFOxmArpSpaMasked": OxmMapEntry("IPv4Address", "ARP_SPA", True), |
| "OFOxmArpTpa": OxmMapEntry("IPv4Address", "ARP_TPA", False), |
| "OFOxmArpTpaMasked": OxmMapEntry("IPv4Address", "ARP_TPA", True), |
| "OFOxmArpSha": OxmMapEntry("MacAddress", "ARP_SHA", False), |
| "OFOxmArpShaMasked": OxmMapEntry("MacAddress", "ARP_SHA", True), |
| "OFOxmArpTha": OxmMapEntry("MacAddress", "ARP_THA", False), |
| "OFOxmArpThaMasked": OxmMapEntry("MacAddress", "ARP_THA", True), |
| "OFOxmIpv6Src": OxmMapEntry("IPv6Address", "IPV6_SRC", False), |
| "OFOxmIpv6SrcMasked": OxmMapEntry("IPv6Address", "IPV6_SRC", True), |
| "OFOxmIpv6Dst": OxmMapEntry("IPv6Address", "IPV6_DST", False), |
| "OFOxmIpv6DstMasked": OxmMapEntry("IPv6Address", "IPV6_DST", True), |
| "OFOxmIpv6Flabel": OxmMapEntry("IPv6FlowLabel", "IPV6_FLABEL", False), |
| "OFOxmIpv6FlabelMasked": OxmMapEntry("IPv6FlowLabel", "IPV6_FLABEL", True), |
| "OFOxmIcmpv6Type": OxmMapEntry("U8", "ICMPV6_TYPE", False), |
| "OFOxmIcmpv6TypeMasked": OxmMapEntry("U8", "ICMPV6_TYPE", True), |
| "OFOxmIcmpv6Code": OxmMapEntry("U8", "ICMPV6_CODE", False), |
| "OFOxmIcmpv6CodeMasked": OxmMapEntry("U8", "ICMPV6_CODE", True), |
| "OFOxmIpv6NdTarget": OxmMapEntry("IPv6Address", "IPV6_ND_TARGET", False), |
| "OFOxmIpv6NdTargetMasked": OxmMapEntry("IPv6Address", "IPV6_ND_TARGET", True), |
| "OFOxmIpv6NdSll": OxmMapEntry("MacAddress", "IPV6_ND_SLL", False), |
| "OFOxmIpv6NdSllMasked": OxmMapEntry("MacAddress", "IPV6_ND_SLL", True), |
| "OFOxmIpv6NdTll": OxmMapEntry("MacAddress", "IPV6_ND_TLL", False), |
| "OFOxmIpv6NdTllMasked": OxmMapEntry("MacAddress", "IPV6_ND_TLL", True), |
| "OFOxmMplsLabel": OxmMapEntry("U32", "MPLS_LABEL", False), |
| "OFOxmMplsLabelMasked": OxmMapEntry("U32", "MPLS_LABEL", True), |
| "OFOxmMplsTc": OxmMapEntry("U8", "MPLS_TC", False), |
| "OFOxmMplsTcMasked": OxmMapEntry("U8", "MPLS_TC", True), |
| "OFOxmBsnInPorts128": OxmMapEntry("OFBitMask128", "BSN_IN_PORTS_128", False), |
| "OFOxmBsnInPorts128Masked": OxmMapEntry("OFBitMask128", "BSN_IN_PORTS_128", True), |
| "OFOxmBsnLagId": OxmMapEntry("LagId", "BSN_LAG_ID", False), |
| "OFOxmBsnLagIdMasked": OxmMapEntry("LagId", "BSN_LAG_ID", True), |
| } |
| |
| # Registry of nullable properties: |
| # ${java_class_name} -> set(${java_property_name}) |
| nullable_map = defaultdict(lambda: set(), |
| ) |
| |
| # represents a subgroup of a bitmask enum that is actualy a normal enumerable within a masked part of the enum |
| # e.g., the flags STP.* in OF1.0 port state are bit mask entries, but instead enumerables according to the mask "STP_MASK" |
| # name: a name for the group |
| # mask: java name of the enum entry that defines the mask |
| # members: set of names of the members of the group |
| MaskedEnumGroup = namedtuple("MaskedEnumGroup", ("name", "mask", "members")) |
| |
| # registry of MaskedEnumGroups (see above). |
| # map: ${java_enum_name}: tuple(MaskedEnumGroup) |
| masked_enum_groups = defaultdict(lambda: (), |
| OFPortState = (MaskedEnumGroup("stp_flags", mask="STP_MASK", members=set(("STP_LISTEN", "STP_LEARN", "STP_FORWARD", "STP_BLOCK"))), ), |
| OFConfigFlags = ( |
| MaskedEnumGroup("frag_flags", mask="FRAG_MASK", members=set(("FRAG_NORMAL", "FRAG_DROP", "FRAG_REASM"))), |
| ), |
| OFTableConfig = ( |
| MaskedEnumGroup("table_miss_flags", mask="TABLE_MISS_MASK", members=set(("TABLE_MISS_CONTROLLER", "TABLE_MISS_CONTINUE", "TABLE_MISS_DROP"))), |
| ), |
| ) |
| |
| # represents a metadata property associated with an EnumClass |
| # name: |
| class OFEnumPropertyMetadata(namedtuple("OFEnumPropertyMetadata", ("name", "type", "value"))): |
| """ |
| represents a metadata property associated with an Enum Class |
| @param name name of metadata property |
| @param type java_type instance describing the type |
| @value: Generator function f(entry) that generates the value |
| """ |
| @property |
| def variable_name(self): |
| return self.name[0].lower() + self.name[1:] |
| |
| @property |
| def getter_name(self): |
| prefix = "is" if self.type == java_type.boolean else "get" |
| return prefix+self.name |
| |
| """ Metadata container. """ |
| OFEnumMetadata = namedtuple("OFEnumMetadata", ("properties", "to_string")) |
| |
| def gen_port_speed(enum_entry): |
| """ Generator function for OFortFeatures.PortSpeed""" |
| splits = enum_entry.name.split("_") |
| if len(splits)>=2: |
| m = re.match(r'\d+[MGTP]B', splits[1]) |
| if m: |
| return "PortSpeed.SPEED_{}".format(splits[1]) |
| return "PortSpeed.SPEED_NONE"; |
| |
| def gen_stp_state(enum_entry): |
| """ Generator function for OFPortState.StpState""" |
| splits = enum_entry.name.split("_") |
| if len(splits)>=1: |
| if splits[0] == "STP": |
| return "true" |
| return "false" |
| |
| # registry for metadata properties for enums |
| # map: ${java_enum_name}: OFEnumMetadata |
| enum_metadata_map = defaultdict(lambda: JavaModel.OFEnumMetadata((), None), |
| OFPortFeatures = OFEnumMetadata((OFEnumPropertyMetadata("PortSpeed", java_type.port_speed, gen_port_speed),), None), |
| OFPortState = OFEnumMetadata((OFEnumPropertyMetadata("StpState", java_type.boolean, gen_stp_state),), None), |
| ) |
| |
| @property |
| @memoize |
| def versions(self): |
| return OrderedSet( JavaOFVersion(raw_version) for raw_version in of_g.target_version_list ) |
| |
| @property |
| @memoize |
| def interfaces(self): |
| version_map_per_class = collections.OrderedDict() |
| |
| for raw_version, of_protocol in of_g.ir.items(): |
| jversion = JavaOFVersion(of_protocol.wire_version) |
| |
| for of_class in of_protocol.classes: |
| if not of_class.name in version_map_per_class: |
| version_map_per_class[of_class.name] = collections.OrderedDict() |
| |
| version_map_per_class[of_class.name][jversion] = of_class |
| |
| interfaces = [] |
| for class_name, version_map in version_map_per_class.items(): |
| interfaces.append(JavaOFInterface(class_name, version_map)) |
| |
| interfaces = [ i for i in interfaces if i.name not in self.interface_blacklist ] |
| |
| return interfaces |
| |
| @memoize |
| def interface_by_name(self, name): |
| return find(lambda i: erase_type_annotation(i.name) == erase_type_annotation(name), self.interfaces) |
| |
| @property |
| @memoize |
| def all_classes(self): |
| return [clazz for interface in self.interfaces for clazz in interface.versioned_classes] |
| |
| @property |
| @memoize |
| def enums(self): |
| name_version_enum_map = OrderedDefaultDict(lambda: OrderedDict()) |
| |
| for version in self.versions: |
| of_protocol = of_g.ir[version.int_version] |
| for enum in of_protocol.enums: |
| name_version_enum_map[enum.name][version] = enum |
| |
| enums = [ JavaEnum(name, version_enum_map) for name, version_enum_map, |
| in name_version_enum_map.items() ] |
| |
| # inelegant - need java name here |
| enums = [ enum for enum in enums if enum.name not in self.enum_blacklist ] |
| return enums |
| |
| @memoize |
| def enum_by_name(self, name): |
| res = find(lambda e: e.name == name, self.enums) |
| if not res: |
| raise KeyError("Could not find enum with name %s" % name) |
| return res |
| |
| @property |
| @memoize |
| def of_factories(self): |
| prefix = "org.projectfloodlight.openflow.protocol" |
| |
| factories = OrderedDict() |
| |
| sub_factory_classes = ("OFAction", "OFInstruction", "OFMeterBand", "OFOxm", "OFQueueProp") |
| for base_class in sub_factory_classes: |
| package = base_class[2:].lower() |
| remove_prefix = base_class[2].lower() + base_class[3:] |
| |
| # HACK need to have a better way to deal with parameterized base classes |
| annotated_base_class = base_class + "<?>" if base_class == "OFOxm" else base_class |
| |
| factories[base_class] = OFFactory(package="%s.%s" % (prefix, package), |
| name=base_class + "s", members=[], remove_prefix=remove_prefix, base_class=annotated_base_class, sub_factories={}, xid_generator=False) |
| |
| factories[""] = OFFactory( |
| package=prefix, |
| name="OFFactory", |
| remove_prefix="", |
| members=[], base_class="OFMessage", sub_factories=OrderedDict( |
| ("{}{}s".format(n[2].lower(), n[3:]), "{}s".format(n)) for n in sub_factory_classes ), |
| xid_generator=True) |
| |
| for i in self.interfaces: |
| for n, factory in factories.items(): |
| if n == "": |
| factory.members.append(i) |
| break |
| else: |
| super_class = self.interface_by_name(n) |
| if i.is_instance_of(super_class): |
| factory.members.append(i) |
| break |
| return factories.values() |
| |
| @memoize |
| def factory_of(self, interface): |
| for factory in self.of_factories: |
| if interface in factory.members: |
| return factory |
| return None |
| |
| def generate_class(self, clazz): |
| """ return wether or not to generate implementation class clazz. |
| Now true for everything except OFTableModVer10. |
| @param clazz JavaOFClass instance |
| """ |
| if clazz.interface.name.startswith("OFMatchV"): |
| return True |
| elif clazz.name == "OFTableModVer10": |
| # tablemod ver 10 is a hack and has no oftype defined |
| return False |
| if loxi_utils.class_is_message(clazz.interface.c_name): |
| return True |
| if loxi_utils.class_is_oxm(clazz.interface.c_name): |
| return True |
| if loxi_utils.class_is_action(clazz.interface.c_name): |
| return True |
| if loxi_utils.class_is_instruction(clazz.interface.c_name): |
| return True |
| else: |
| return True |
| |
| |
| class OFFactory(namedtuple("OFFactory", ("package", "name", "members", "remove_prefix", "base_class", "sub_factories", "xid_generator"))): |
| @property |
| def factory_classes(self): |
| return [ OFFactoryClass( |
| package="org.projectfloodlight.openflow.protocol.ver{}".format(version.of_version), |
| name="{}Ver{}".format(self.name, version.of_version), |
| interface=self, |
| version=version |
| ) for version in model.versions ] |
| |
| def method_name(self, member, builder=True): |
| n = member.variable_name |
| if n.startswith(self.remove_prefix): |
| n = n[len(self.remove_prefix):] |
| n = n[0].lower() + n[1:] |
| if builder: |
| return "build" + n[0].upper() + n[1:] |
| else: |
| return n |
| |
| def of_version(self, version): |
| for fc in self.factory_classes: |
| if fc.version == version: |
| return fc |
| return None |
| |
| OFGenericClass = namedtuple("OFGenericClass", ("package", "name")) |
| class OFFactoryClass(namedtuple("OFFactoryClass", ("package", "name", "interface", "version"))): |
| @property |
| def base_class(self): |
| return self.interface.base_class |
| |
| @property |
| def versioned_base_class(self): |
| base_class_interface = model.interface_by_name(self.interface.base_class) |
| if base_class_interface and base_class_interface.has_version(self.version): |
| return base_class_interface.versioned_class(self.version) |
| else: |
| return None |
| |
| model = JavaModel() |
| |
| ####################################################################### |
| ### OFVersion |
| ####################################################################### |
| |
| class JavaOFVersion(object): |
| """ Models a version of OpenFlow. contains methods to convert the internal |
| Loxi version to a java constant / a string """ |
| def __init__(self, int_version): |
| self.int_version = int(int_version) |
| |
| @property |
| def of_version(self): |
| return "1" + str(int(self.int_version) - 1) |
| |
| @property |
| def constant_version(self): |
| return "OF_" + self.of_version |
| |
| def __repr__(self): |
| return "JavaOFVersion(%d)" % self.int_version |
| |
| def __str__(self): |
| return of_g.param_version_names[self.int_version] |
| |
| def __hash__(self): |
| return hash(self.int_version) |
| |
| def __eq__(self, other): |
| if other is None or type(self) != type(other): |
| return False |
| return (self.int_version,) == (other.int_version,) |
| |
| ####################################################################### |
| ### Interface |
| ####################################################################### |
| |
| class JavaOFInterface(object): |
| """ Models an OpenFlow Message class for the purpose of the java class. |
| Version agnostic, in contrast to the loxi_ir python model. |
| """ |
| def __init__(self, c_name, version_map): |
| """" |
| @param c_name: loxi style name (e.g., of_flow_add) |
| @param version_map map of { JavaOFVersion: OFClass (from loxi_ir) } |
| """ |
| self.c_name = c_name |
| self.version_map = version_map |
| # name: the Java Type name, e.g., OFFlowAdd |
| self.name = java_type.name_c_to_caps_camel(c_name) if c_name != "of_header" else "OFMessage" |
| # variable_name name to use for variables of this type. i.e., flowAdd |
| self.variable_name = self.name[2].lower() + self.name[3:] |
| self.title_name = self.variable_name[0].upper() + self.variable_name[1:] |
| # name for use in constants: FLOW_ADD |
| self.constant_name = c_name.upper().replace("OF_", "") |
| |
| pck_suffix, parent_interface, self.type_annotation = self.class_info() |
| self.package = "org.projectfloodlight.openflow.protocol.%s" % pck_suffix if pck_suffix else "org.projectfloodlight.openflow.protocol" |
| if self.name != parent_interface: |
| self.parent_interface = parent_interface |
| else: |
| self.parent_interface = None |
| |
| @property |
| @memoize |
| def all_parent_interfaces(self): |
| return [ "OFObject" ] + \ |
| ([ self.parent_interface ] if self.parent_interface else [] )+ \ |
| self.additional_parent_interfaces |
| @property |
| @memoize |
| def additional_parent_interfaces(self): |
| if loxi_utils.class_is_message(self.c_name) and not self.is_virtual: |
| m = re.match(r'(.*)Request$', self.name) |
| if m: |
| reply_name = m.group(1) + "Reply" |
| if model.interface_by_name(reply_name): |
| return ["OFRequest<%s>" % reply_name ] |
| return [] |
| |
| |
| def is_instance_of(self, other_class): |
| if self == other_class: |
| return True |
| parent = self.super_class |
| if parent is None: |
| return False |
| else: |
| return parent.is_instance_of(other_class) |
| |
| @property |
| def super_class(self): |
| if not self.parent_interface: |
| return None |
| else: |
| return model.interface_by_name(self.parent_interface) |
| |
| |
| def inherited_declaration(self, type_spec="?"): |
| if self.type_annotation: |
| return "%s<%s>" % (self.name, type_spec) |
| else: |
| return "%s" % self.name |
| |
| @property |
| def type_variable(self): |
| if self.type_annotation: |
| return "<T>" |
| else: |
| return ""; |
| |
| def class_info(self): |
| """ return tuple of (package_prefix, parent_class) for the current JavaOFInterface""" |
| # FIXME: This duplicates inheritance information that is now available in the loxi_ir |
| # model (note, that the loxi model is on versioned classes). Should check/infer the |
| # inheritance information from the versioned lox_ir classes. |
| if re.match(r'OFStatsRequest$', self.name): |
| return ("", "OFMessage", "T extends OFStatsReply") |
| elif re.match(r'OF.+StatsRequest$', self.name): |
| return ("", "OFStatsRequest<{}>".format(re.sub(r'Request$', 'Reply', self.name)), None) |
| elif re.match(r'OF.+StatsReply$', self.name): |
| return ("", "OFStatsReply", None) |
| elif re.match(r'OF.+ErrorMsg$', self.name): |
| return ("", "OFErrorMsg", None) |
| elif re.match(r'OFFlow(Add|Modify(Strict)?|Delete(Strict)?)$', self.name): |
| return ("", "OFFlowMod", None) |
| elif loxi_utils.class_is_message(self.c_name) and re.match(r'OFBsn.+$', self.name) and self.name != "OFBsnHeader": |
| return ("", "OFBsnHeader", None) |
| elif loxi_utils.class_is_message(self.c_name) and re.match(r'OFNicira.+$', self.name) and self.name != "OFNiciraHeader": |
| return ("", "OFNiciraHeader", None) |
| elif self.name == "OFBsnHeader" or self.name =="OFNiciraHeader": |
| return ("", "OFExperimenter", None) |
| elif re.match(r'OFMatch.*', self.name): |
| return ("", "Match", None) |
| elif loxi_utils.class_is_message(self.c_name): |
| return ("", "OFMessage", None) |
| elif loxi_utils.class_is_action(self.c_name): |
| if re.match(r'OFActionBsn.+', self.name): |
| return ("action", "OFActionBsn", None) |
| elif re.match(r'OFActionNicira.+', self.name): |
| return ("action", "OFActionNicira", None) |
| elif self.name == "OFActionBsn" or self.name == "OFActionNicira": |
| return ("action", "OFActionExperimenter", None) |
| else: |
| return ("action", "OFAction", None) |
| elif re.match(r'OFBsnVport.+$', self.name): |
| return ("", "OFBsnVport", None) |
| elif self.name == "OFOxm": |
| return ("oxm", None, "T extends OFValueType<T>") |
| elif loxi_utils.class_is_oxm(self.c_name): |
| if self.name in model.oxm_map: |
| return ("oxm", "OFOxm<%s>" % model.oxm_map[self.name].type_name, None) |
| else: |
| return ("oxm", "OFOxm", None) |
| elif loxi_utils.class_is_instruction(self.c_name): |
| return ("instruction", "OFInstruction", None) |
| elif loxi_utils.class_is_meter_band(self.c_name): |
| return ("meterband", "OFMeterBand", None) |
| elif loxi_utils.class_is_queue_prop(self.c_name): |
| return ("queueprop", "OFQueueProp", None) |
| elif loxi_utils.class_is_hello_elem(self.c_name): |
| return ("", "OFHelloElem", None) |
| elif loxi_utils.class_is_table_feature_prop(self.c_name): |
| return ("", "OFTableFeatureProp", None) |
| else: |
| return ("", None, None) |
| |
| @property |
| @memoize |
| def writeable_members(self): |
| return [ m for m in self.members if m.is_writeable ] |
| |
| @memoize |
| def member_by_name(self, name): |
| return find(lambda m: m.name == name, self.members) |
| |
| @property |
| @memoize |
| def members(self): |
| return self.ir_model_members + self.virtual_members |
| |
| @property |
| @memoize |
| def ir_model_members(self): |
| """return a list of all members to be exposed by this interface. Corresponds to |
| the union of the members of the vesioned classes without length, fieldlength |
| and pads (those are handled automatically during (de)serialization and not exposed""" |
| all_versions = [] |
| member_map = collections.OrderedDict() |
| |
| for (version, of_class) in self.version_map.items(): |
| for of_member in of_class.members: |
| if isinstance(of_member, OFLengthMember) or \ |
| isinstance(of_member, OFFieldLengthMember) or \ |
| isinstance(of_member, OFPadMember): |
| continue |
| if of_member.name not in member_map: |
| member_map[of_member.name] = JavaMember.for_of_member(self, of_member) |
| |
| return tuple(m for m in member_map.values() if m.name not in model.read_blacklist[self.name]) |
| |
| @property |
| def virtual_members(self): |
| virtual_members = [] |
| if self.name == "OFOxm": |
| virtual_members += [ |
| JavaVirtualMember(self, "value", java_type.generic_t), |
| JavaVirtualMember(self, "mask", java_type.generic_t), |
| JavaVirtualMember(self, "matchField", java_type.make_match_field_jtype("T")), |
| JavaVirtualMember(self, "masked", java_type.boolean), |
| ] |
| elif self.parent_interface and self.parent_interface.startswith("OFOxm"): |
| field_type = java_type.make_match_field_jtype(model.oxm_map[self.name].type_name) \ |
| if self.name in model.oxm_map \ |
| else java_type.make_match_field_jtype() |
| |
| virtual_members += [ |
| JavaVirtualMember(self, "matchField", field_type), |
| JavaVirtualMember(self, "masked", java_type.boolean), |
| ] |
| if not find(lambda x: x.name == "mask", self.ir_model_members): |
| virtual_members.append(JavaVirtualMember(self, "mask", find(lambda x: x.name == "value", self.ir_model_members).java_type)) |
| |
| if not find(lambda m: m.name == "version", self.ir_model_members): |
| virtual_members.append(JavaVirtualMember(self, "version", java_type.of_version)) |
| |
| return tuple(virtual_members) |
| |
| @property |
| @memoize |
| def is_virtual(self): |
| """ Is this interface virtual. If so, do not generate a builder interface """ |
| return self.name in model.virtual_interfaces or all(ir_class.virtual for ir_class in self.version_map.values()) |
| |
| @property |
| def is_universal(self): |
| """ Is this interface universal, i.e., does it exist in all OF versions? """ |
| return len(self.all_versions) == len(model.versions) |
| |
| @property |
| @memoize |
| def all_versions(self): |
| """ return list of all versions that this interface exists in """ |
| return self.version_map.keys() |
| |
| def has_version(self, version): |
| return version in self.version_map |
| |
| def versioned_class(self, version): |
| return JavaOFClass(self, version, self.version_map[version]) |
| |
| @property |
| @memoize |
| def versioned_classes(self): |
| return [ self.versioned_class(version) for version in self.all_versions ] |
| |
| ####################################################################### |
| ### (Versioned) Classes |
| ####################################################################### |
| |
| class JavaOFClass(object): |
| """ Models an OpenFlow Message class for the purpose of the java class. |
| Version specific child of a JavaOFInterface |
| """ |
| def __init__(self, interface, version, ir_class): |
| """ |
| @param interface JavaOFInterface instance of the parent interface |
| @param version JavaOFVersion |
| @param ir_class OFClass from loxi_ir |
| """ |
| self.interface = interface |
| self.ir_class = ir_class |
| self.c_name = self.ir_class.name |
| self.version = version |
| self.constant_name = self.c_name.upper().replace("OF_", "") |
| self.package = "org.projectfloodlight.openflow.protocol.ver%s" % version.of_version |
| self.generated = False |
| |
| @property |
| @memoize |
| def unit_test(self): |
| return JavaUnitTestSet(self) |
| |
| @property |
| def name(self): |
| return "%sVer%s" % (self.interface.name, self.version.of_version) |
| |
| @property |
| def variable_name(self): |
| return self.name[2].lower() + self.name[3:] |
| |
| @property |
| def length(self): |
| if self.is_fixed_length: |
| return self.min_length |
| else: |
| raise Exception("No fixed length for class %s, version %s" % (self.name, self.version)) |
| |
| @property |
| def min_length(self): |
| """ @return the minimum wire length of an instance of this class in bytes """ |
| id_tuple = (self.ir_class.name, self.version.int_version) |
| return of_g.base_length[id_tuple] if id_tuple in of_g.base_length else -1 |
| |
| @property |
| def is_fixed_length(self): |
| """ true iff this class serializes to a fixed length on the wire """ |
| return (self.ir_class.name, self.version.int_version) in of_g.is_fixed_length and \ |
| not self.is_virtual |
| |
| def all_properties(self): |
| return self.interface.members |
| |
| def get_member(self, name): |
| for m in self.members: |
| if m.name == name: |
| return m |
| |
| @property |
| @memoize |
| def data_members(self): |
| return [ prop for prop in self.members if prop.is_data ] |
| |
| @property |
| @memoize |
| def fixed_value_members(self): |
| return [ prop for prop in self.members if prop.is_fixed_value ] |
| |
| @property |
| @memoize |
| def public_members(self): |
| return [ prop for prop in self.members if prop.is_public ] |
| |
| @property |
| @memoize |
| def members(self): |
| return self.ir_model_members + self.virtual_members |
| |
| @property |
| @memoize |
| def ir_model_members(self): |
| members = [ JavaMember.for_of_member(self, of_member) for of_member in self.ir_class.members ] |
| return tuple(members) |
| |
| @property |
| def virtual_members(self): |
| virtual_members = [] |
| if self.interface.parent_interface and self.interface.parent_interface.startswith("OFOxm"): |
| if self.interface.name in model.oxm_map: |
| oxm_entry = model.oxm_map[self.interface.name] |
| virtual_members += [ |
| JavaVirtualMember(self, "matchField", java_type.make_match_field_jtype(oxm_entry.type_name), "MatchField.%s" % oxm_entry.value), |
| JavaVirtualMember(self, "masked", java_type.boolean, "true" if oxm_entry.masked else "false"), |
| ] |
| else: |
| virtual_members += [ |
| JavaVirtualMember(self, "matchField", java_type.make_match_field_jtype(), "null"), |
| JavaVirtualMember(self, "masked", java_type.boolean, "false"), |
| ] |
| |
| if not find(lambda m: m.name == "version", self.ir_model_members): |
| virtual_members.append(JavaVirtualMember(self, "version", java_type.of_version, "OFVersion.%s" % self.version.constant_version)) |
| |
| return tuple(virtual_members) |
| |
| def all_versions(self): |
| return [ JavaOFVersion(int_version) |
| for int_version in of_g.unified[self.c_name] |
| if int_version != 'union' and int_version != 'object_id' ] |
| |
| def version_is_inherited(self, version): |
| return 'use_version' in of_g.unified[self.ir_class.name][version.int_version] |
| |
| def inherited_from(self, version): |
| return JavaOFVersion(of_g.unified[self.ir_class.name][version.int_version]['use_version']) |
| |
| @property |
| def is_virtual(self): |
| return self.ir_class.virtual # type_maps.class_is_virtual(self.c_name) or self.ir_class.virtual |
| |
| @property |
| def discriminator(self): |
| return find(lambda m: isinstance(m, OFDiscriminatorMember), self.ir_class.members) |
| |
| @property |
| def is_extension(self): |
| return type_maps.message_is_extension(self.c_name, -1) |
| |
| @property |
| def align(self): |
| return int(self.ir_class.params['align']) if 'align' in self.ir_class.params else 0 |
| |
| @property |
| def length_includes_align(self): |
| return self.ir_class.params['length_includes_align'] == "True" if 'length_includes_align' in self.ir_class.params else False |
| |
| @property |
| @memoize |
| def superclass(self): |
| return find(lambda c: c.version == self.version and c.c_name == self.ir_class.superclass, model.all_classes) |
| |
| @property |
| @memoize |
| def subclasses(self): |
| return [ c for c in model.all_classes if c.version == self.version and c.ir_class.superclass == self.c_name ] |
| |
| ####################################################################### |
| ### Member |
| ####################################################################### |
| |
| |
| class JavaMember(object): |
| """ Models a property (member) of an openflow class. """ |
| def __init__(self, msg, name, java_type, member): |
| self.msg = msg |
| self.name = name |
| self.java_type = java_type |
| self.member = member |
| self.c_name = self.member.name if(hasattr(self.member, "name")) else "" |
| |
| @property |
| def title_name(self): |
| return self.name[0].upper() + self.name[1:] |
| |
| @property |
| def constant_name(self): |
| return self.c_name.upper() |
| |
| @property |
| def getter_name(self): |
| return ("is" if self.java_type.public_type == "boolean" else "get") + self.title_name |
| |
| @property |
| def setter_name(self): |
| return "set" + self.title_name |
| |
| @property |
| def default_name(self): |
| if self.is_fixed_value: |
| return self.constant_name |
| else: |
| return "DEFAULT_"+self.constant_name |
| |
| @property |
| def default_value(self): |
| if self.is_fixed_value: |
| return self.enum_value |
| else: |
| default = self.java_type.default_op(self.msg.version) |
| if default == "null" and not self.is_nullable: |
| return None |
| else: |
| return default |
| |
| @property |
| def enum_value(self): |
| if self.name == "version": |
| return "OFVersion.%s" % self.msg.version.constant_version |
| |
| java_type = self.java_type.public_type; |
| try: |
| global model |
| enum = model.enum_by_name(java_type) |
| entry = enum.entry_by_version_value(self.msg.version, self.value) |
| return "%s.%s" % ( enum.name, entry.name) |
| except KeyError, e: |
| print e.message |
| return self.value |
| |
| @property |
| def is_pad(self): |
| return isinstance(self.member, OFPadMember) |
| |
| def is_type_value(self, version=None): |
| if(version==None): |
| return any(self.is_type_value(version) for version in self.msg.all_versions) |
| try: |
| return self.c_name in get_type_values(self.msg.c_name, version.int_version) |
| except: |
| return False |
| |
| @property |
| def is_field_length_value(self): |
| return isinstance(self.member, OFFieldLengthMember) |
| |
| @property |
| def is_discriminator(self): |
| return isinstance(self.member, OFDiscriminatorMember) |
| |
| @property |
| def is_length_value(self): |
| return isinstance(self.member, OFLengthMember) |
| |
| @property |
| def is_public(self): |
| return not (self.is_pad or self.is_length_value) |
| |
| @property |
| def is_data(self): |
| return isinstance(self.member, OFDataMember) and self.name != "version" |
| |
| @property |
| def is_fixed_value(self): |
| return hasattr(self.member, "value") or self.name == "version" \ |
| or ( self.name == "length" and self.msg.is_fixed_length) \ |
| or ( self.name == "len" and self.msg.is_fixed_length) |
| |
| @property |
| def value(self): |
| if self.name == "version": |
| return self.msg.version.int_version |
| elif self.name == "length" or self.name == "len": |
| return self.msg.length |
| else: |
| return self.java_type.format_value(self.member.value) |
| |
| @property |
| def priv_value(self): |
| if self.name == "version": |
| return self.java_type.format_value(self.msg.version.int_version, pub_type=False) |
| elif self.name == "length" or self.name == "len": |
| return self.java_type.format_value(self.msg.length, pub_type=False) |
| else: |
| return self.java_type.format_value(self.member.value, pub_type=False) |
| |
| |
| @property |
| def is_writeable(self): |
| return self.is_data and not self.name in model.write_blacklist[self.msg.name] |
| |
| def get_type_value_info(self, version): |
| return get_type_values(msg.c_name, version.int_version)[self.c_name] |
| |
| @property |
| def length(self): |
| if hasattr(self.member, "length"): |
| return self.member.length |
| else: |
| count, base = loxi_utils.type_dec_to_count_base(self.member.type) |
| return of_g.of_base_types[base]['bytes'] * count |
| |
| @staticmethod |
| def for_of_member(java_class, member): |
| if isinstance(member, OFPadMember): |
| return JavaMember(None, "", None, member) |
| else: |
| if member.name == 'len': |
| name = 'length' |
| elif member.name == 'value_mask': |
| name = 'mask' |
| elif member.name == 'group_id': |
| name = 'group' |
| else: |
| name = java_type.name_c_to_camel(member.name) |
| j_type = java_type.convert_to_jtype(java_class.c_name, member.name, member.oftype) |
| return JavaMember(java_class, name, j_type, member) |
| |
| @property |
| def is_universal(self): |
| if not self.msg.c_name in of_g.unified: |
| print("%s not self.unified" % self.msg.c_name) |
| return False |
| for version in of_g.unified[self.msg.c_name]: |
| if version == 'union' or version =='object_id': |
| continue |
| if 'use_version' in of_g.unified[self.msg.c_name][version]: |
| continue |
| |
| if not self.member.name in (f['name'] for f in of_g.unified[self.msg.c_name][version]['members']): |
| return False |
| return True |
| |
| @property |
| def is_virtual(self): |
| return False |
| |
| def __hash__(self): |
| return hash(self.name) |
| |
| def __eq__(self, other): |
| if other is None or type(self) != type(other): |
| return False |
| return (self.name,) == (other.name,) |
| |
| @property |
| def is_nullable(self): |
| return self.name in model.nullable_map[self.msg.name] |
| |
| |
| class JavaVirtualMember(JavaMember): |
| """ Models a virtual property (member) of an openflow class that is not backed by a loxi ir member """ |
| def __init__(self, msg, name, java_type, value=None): |
| JavaMember.__init__(self, msg, name, java_type, member=None) |
| self._value = value |
| |
| @property |
| def is_fixed_value(self): |
| return True |
| |
| @property |
| def value(self): |
| return self._value |
| |
| @property |
| def priv_value(self): |
| return self._value |
| |
| |
| @property |
| def is_universal(self): |
| return True |
| |
| @property |
| def is_virtual(self): |
| return True |
| |
| ####################################################################### |
| ### Unit Test |
| ####################################################################### |
| |
| class JavaUnitTestSet(object): |
| def __init__(self, java_class): |
| self.java_class = java_class |
| first_data_file_name = "of{version}/{name}.data".format(version=java_class.version.of_version, |
| name=java_class.c_name[3:]) |
| glob_file_name = "of{version}/{name}__*.data".format(version=java_class.version.of_version, |
| name=java_class.c_name[3:]) |
| test_class_name = self.java_class.name + "Test" |
| self.test_units = [] |
| if test_data.exists(first_data_file_name): |
| self.test_units.append(JavaUnitTest(java_class, first_data_file_name, test_class_name)) |
| |
| i = 1 |
| for f in test_data.glob(glob_file_name): |
| m = re.match(".*__(.*).data", f) |
| if m: |
| suffix = java_type.name_c_to_caps_camel(m.group(1)) |
| else: |
| suffix = str(i) |
| i += 1 |
| test_class_name = self.java_class.name + suffix + "Test" |
| self.test_units.append(JavaUnitTest(java_class, f, test_class_name)) |
| |
| @property |
| def package(self): |
| return self.java_class.package |
| |
| @property |
| def has_test_data(self): |
| return len(self.test_units) > 0 |
| |
| @property |
| def length(self): |
| return len(self.test_units) |
| |
| def get_test_unit(self, i): |
| return self.test_units[i] |
| |
| |
| class JavaUnitTest(object): |
| def __init__(self, java_class, file_name=None, test_class_name=None): |
| self.java_class = java_class |
| if file_name is None: |
| self.data_file_name = "of{version}/{name}.data".format(version=java_class.version.of_version, |
| name=java_class.c_name[3:]) |
| else: |
| self.data_file_name = file_name |
| if test_class_name is None: |
| self.test_class_name = self.java_class.name + "Test" |
| else: |
| self.test_class_name = test_class_name |
| |
| @property |
| def package(self): |
| return self.java_class.package |
| |
| @property |
| def name(self): |
| return self.test_class_name |
| |
| @property |
| def interface(self): |
| return self.java_class.interface |
| |
| @property |
| def has_test_data(self): |
| return test_data.exists(self.data_file_name) |
| |
| @property |
| @memoize |
| def test_data(self): |
| return test_data.read(self.data_file_name) |
| |
| |
| ####################################################################### |
| ### Enums |
| ####################################################################### |
| |
| class JavaEnum(object): |
| def __init__(self, c_name, version_enum_map): |
| self.c_name = c_name |
| |
| self.name = "OF" + java_type.name_c_to_caps_camel("_".join(c_name.split("_")[1:])) |
| |
| # Port_features has constants that start with digits |
| self.name_prefix = "PF_" if self.name == "OFPortFeatures" else "" |
| |
| self.version_enums = version_enum_map |
| |
| entry_name_version_value_map = OrderedDefaultDict(lambda: OrderedDict()) |
| for version, ir_enum in version_enum_map.items(): |
| for ir_entry in ir_enum.entries: |
| entry_name_version_value_map[ir_entry.name][version] = ir_entry.value |
| |
| self.entries = [ JavaEnumEntry(self, name, version_value_map) |
| for (name, version_value_map) in entry_name_version_value_map.items() ] |
| |
| self.entries = [ e for e in self.entries if e.name not in model.enum_entry_blacklist[self.name] ] |
| self.package = "org.projectfloodlight.openflow.protocol" |
| |
| self.metadata = model.enum_metadata_map[self.name] |
| |
| def wire_type(self, version): |
| ir_enum = self.version_enums[version] |
| if "wire_type" in ir_enum.params: |
| return java_type.convert_enum_wire_type_to_jtype(ir_enum.params["wire_type"]) |
| else: |
| return java_type.u8 |
| |
| @property |
| @memoize |
| def is_bitmask(self): |
| return any(ir_enum.is_bitmask for ir_enum in self.version_enums.values()) |
| |
| @property |
| def versions(self): |
| return self.version_enums.keys() |
| |
| @memoize |
| def entry_by_name(self, name): |
| res = find(lambda e: e.name == name, self.entries) |
| if res: |
| return res |
| else: |
| raise KeyError("Enum %s: no entry with name %s" % (self.name, name)) |
| |
| @memoize |
| def entry_by_c_name(self, name): |
| res = find(lambda e: e.c_name == name, self.entries) |
| if res: |
| return res |
| else: |
| raise KeyError("Enum %s: no entry with c_name %s" % (self.name, name)) |
| |
| @memoize |
| def entry_by_version_value(self, version, value): |
| res = find(lambda e: e.values[version] == value if version in e.values else False, self.entries) |
| if res: |
| return res |
| else: |
| raise KeyError("Enum %s: no entry with version %s, value %s" % (self.name, version, value)) |
| |
| # values: Map JavaVersion->Value |
| class JavaEnumEntry(object): |
| def __init__(self, enum, name, values): |
| self.enum = enum |
| self.name = enum.name_prefix + "_".join(name.split("_")[1:]).upper() |
| self.values = values |
| |
| @property |
| def constructor_params(self): |
| return [ m.value(self) for m in self.enum.metadata.properties ] |
| |
| def has_value(self, version): |
| return version in self.values |
| |
| def value(self, version): |
| return self.values[version] |
| |
| def format_value(self, version): |
| res = self.enum.wire_type(version).format_value(self.values[version]) |
| return res |
| |
| def all_values(self, versions, not_present=None): |
| return [ self.values[version] if version in self.values else not_present for version in versions ] |
| |
| @property |
| @memoize |
| def masked_enum_group(self): |
| group = find(lambda g: self.name in g.members, model.masked_enum_groups[self.enum.name]) |
| return group |
| |
| @property |
| @memoize |
| def is_mask(self): |
| return any(self.name == g.mask for g in model.masked_enum_groups[self.enum.name]) |