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:: # 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.
::
:: import of_g
:: ir = of_g.ir
:: include('_copyright.lua')
:: include('_ofreader.lua')
:: include('_oftype_readers.lua')
p_of = Proto ("of", "OpenFlow")
local openflow_versions = {
:: for (version, name) in of_g.param_version_names.items():
[${version}] = "${name}",
:: #endfor
}
:: for version, ofproto in ir.items():
:: for enum in ofproto.enums:
local enum_v${version}_${enum.name} = {
:: for (name, value) in enum.values:
[${value}] = "${name}",
:: #endfor
}
:: #endfor
:: #endfor
fields = {}
:: for field in fields:
:: if field.type in ["uint8", "uint16", "uint32", "uint64"]:
fields[${repr(field.fullname)}] = ProtoField.${field.type}("${field.fullname}", "${field.name}", base.${field.base}, ${field.enum_table})
:: elif field.type in ["ipv4", "ipv6", "ether", "bytes", "stringz"]:
fields[${repr(field.fullname)}] = ProtoField.${field.type}("${field.fullname}", "${field.name}")
:: else:
:: raise NotImplementedError("unknown Wireshark type " + field.type)
:: #endif
:: #endfor
p_of.fields = {
:: for field in fields:
fields[${repr(field.fullname)}],
:: #endfor
}
-- Subclass maps for virtual classes
:: for version, ofproto in ir.items():
:: for ofclass in ofproto.classes:
:: if ofclass.virtual:
${ofclass.name}_v${version}_dissectors = {}
:: #endif
:: #endfor
:: #endfor
--- Dissectors for each class
:: for version, ofproto in ir.items():
:: for ofclass in ofproto.classes:
:: name = 'dissect_%s_v%d' % (ofclass.name, version)
:: include('_ofclass_dissector.lua', name=name, ofclass=ofclass, version=version)
:: if ofclass.superclass:
:: discriminator = ofproto.class_by_name(ofclass.superclass).discriminator
:: discriminator_value = ofclass.member_by_name(discriminator.name).value
${ofclass.superclass}_v${version}_dissectors[${discriminator_value}] = ${name}
:: #endif
:: #endfor
:: #endfor
local of_message_dissectors = {
:: for version in ir:
[${version}] = of_header_v${version}_dissectors,
:: #endfor
}
local of_oxm_dissectors = {
:: for version in ir:
[${version}] = of_oxm_v${version}_dissectors,
:: #endfor
}
local of_action_dissectors = {
:: for version in ir:
[${version}] = of_action_v${version}_dissectors,
:: #endfor
}
local of_instruction_dissectors = {
:: for version in ir:
[${version}] = of_instruction_v${version}_dissectors,
:: #endfor
}
local of_bucket_dissectors = {
:: for version in ir:
[${version}] = dissect_of_bucket_v${version},
:: #endfor
}
local of_port_desc_dissectors = {
:: for version in ir:
[${version}] = dissect_of_port_desc_v${version},
:: #endfor
}
local of_stats_reply_dissectors = {
:: for version in ir:
[${version}] = of_stats_reply_v${version}_dissectors,
:: #endfor
}
local of_stats_request_dissectors = {
:: for version in ir:
[${version}] = of_stats_request_v${version}_dissectors,
:: #endfor
}
local of_flow_stats_entry_dissectors = {
:: for version in ir:
[${version}] = dissect_of_flow_stats_entry_v${version},
:: #endfor
}
local of_port_stats_entry_dissectors = {
:: for version in ir:
[${version}] = dissect_of_port_stats_entry_v${version},
:: #endfor
}
local of_table_stats_entry_dissectors = {
:: for version in ir:
[${version}] = dissect_of_table_stats_entry_v${version},
:: #endfor
}
local of_queue_stats_entry_dissectors = {
:: for version in ir:
[${version}] = dissect_of_queue_stats_entry_v${version},
:: #endfor
}
function dissect_of_message(buf, root)
local reader = OFReader.new(buf)
local subtree = root:add(p_of, buf(0))
local version_val = buf(0,1):uint()
local type_val = buf(1,1):uint()
local protocol = "OF ?"
if openflow_versions[version_val] then
protocol = "OF " .. openflow_versions[version_val]
end
local info = "unknown"
if type_val == 19 then
local stats_type = buf(8,2):uint()
info = of_stats_reply_dissectors[version_val][stats_type](reader,subtree)
elseif type_val == 18 then
local stats_type = buf(8,2):uint()
info = of_stats_request_dissectors[version_val][stats_type](reader,subtree)
elseif of_message_dissectors[version_val] and of_message_dissectors[version_val][type_val] then
info = of_message_dissectors[version_val][type_val](reader, subtree)
end
return protocol, info
end
function dissect_of_oxm(reader, subtree, version_val)
local type_val = reader.peek(0,4):uint()
local info = "unknown"
if of_oxm_dissectors[version_val] and of_oxm_dissectors[version_val][type_val] then
info = of_oxm_dissectors[version_val][type_val](reader, subtree)
end
return info
end
function dissect_of_action(reader, subtree, version_val)
local type_val = reader.peek(0,2):uint()
local info = "unknown"
if of_action_dissectors[version_val] and of_action_dissectors[version_val][type_val] then
info = of_action_dissectors[version_val][type_val](reader, subtree)
end
return info
end
function dissect_of_instruction(reader, subtree, version_val)
local type_val = reader.peek(0,2):uint()
local info = "unknown"
if of_instruction_dissectors[version_val] and of_instruction_dissectors[version_val][type_val] then
info = of_instruction_dissectors[version_val][type_val](reader, subtree)
end
return info
end
function dissect_of_bucket(reader, subtree, version_val)
local info = "unknown"
if of_bucket_dissectors[version_val] then
info = of_bucket_dissectors[version_val](reader, subtree)
end
return info
end
function dissect_of_port_desc(reader, subtree, version_val)
local info = "unknown"
if of_port_desc_dissectors[version_val] then
info = of_port_desc_dissectors[version_val](reader, subtree)
end
return info
end
function dissect_of_flow_stats_entry(reader, subtree, version_val)
local info = "unknown"
if of_flow_stats_entry_dissectors[version_val] then
info = of_flow_stats_entry_dissectors[version_val](reader, subtree)
end
return info
end
function dissect_of_port_stats_entry(reader, subtree, version_val)
local info = "unknown"
if of_port_stats_entry_dissectors[version_val] then
info = of_port_stats_entry_dissectors[version_val](reader, subtree)
end
return info
end
function dissect_of_table_stats_entry(reader, subtree, version_val)
local info = "unknown"
if of_table_stats_entry_dissectors[version_val] then
info = of_table_stats_entry_dissectors[version_val](reader, subtree)
end
return info
end
function dissect_of_queue_stats_entry(reader, subtree, version_val)
local info = "unknown"
if of_queue_stats_entry_dissectors[version_val] then
info = of_queue_stats_entry_dissectors[version_val](reader, subtree)
end
return info
end
-- of dissector function
function p_of.dissector (buf, pkt, root)
local offset = 0
repeat
if buf:len() - offset >= 4 then
msg_len = buf(offset+2,2):uint()
if offset + msg_len > buf:len() then
-- we don't have all the data we need yet
pkt.desegment_len = offset + msg_len - buf:len()
return
end
protocol, info = dissect_of_message(buf(offset, msg_len), root)
if offset == 0 then
pkt.cols.protocol:clear()
pkt.cols.info:clear()
else
pkt.cols.protocol:append(" + ")
pkt.cols.info:append(" + ")
end
pkt.cols.protocol:append(protocol)
pkt.cols.info:append(info)
offset = offset + msg_len
else
-- we don't have all of length field yet
pkt.desegment_len = DESEGMENT_ONE_MORE_SEGMENT
return
end
until offset >= buf:len()
end
-- Initialization routine
function p_of.init()
end
-- register a chained dissector for OpenFlow port numbers
local tcp_dissector_table = DissectorTable.get("tcp.port")
tcp_dissector_table:add(6633, p_of)
tcp_dissector_table:add(6653, p_of)