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# Copyright 2017-present Open Networking Foundation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# 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 License for the specific language governing permissions and
# limitations under the License.
# Copyright (c) 2008 The Board of Trustees of The Leland Stanford Junior University
# Copyright (c) 2011, 2012 Open Networking Foundation
# Copyright (c) 2012, 2013 Big Switch Networks, Inc.
# See the file LICENSE.pyloxi which should have been included in the source distribution
# Automatically generated by LOXI from template module.py
# Do not modify
import struct
import loxi
import util
import loxi.generic_util
import sys
ofp = sys.modules['loxi.of14']
class port_stats_prop(loxi.OFObject):
subtypes = {}
def __init__(self, type=None):
if type != None:
self.type = type
else:
self.type = 0
return
def pack(self):
packed = []
packed.append(struct.pack("!H", self.type))
packed.append(struct.pack("!H", 0)) # placeholder for length at index 1
length = sum([len(x) for x in packed])
packed[1] = struct.pack("!H", length)
return ''.join(packed)
@staticmethod
def unpack(reader):
subtype, = reader.peek('!H', 0)
subclass = port_stats_prop.subtypes.get(subtype)
if subclass:
return subclass.unpack(reader)
obj = port_stats_prop()
obj.type = reader.read("!H")[0]
_length = reader.read("!H")[0]
orig_reader = reader
reader = orig_reader.slice(_length, 4)
return obj
def __eq__(self, other):
if type(self) != type(other): return False
if self.type != other.type: return False
return True
def pretty_print(self, q):
q.text("port_stats_prop {")
with q.group():
with q.indent(2):
q.breakable()
q.breakable()
q.text('}')
class ethernet(port_stats_prop):
type = 0
def __init__(self, rx_frame_err=None, rx_over_err=None, rx_crc_err=None, collisions=None):
if rx_frame_err != None:
self.rx_frame_err = rx_frame_err
else:
self.rx_frame_err = 0
if rx_over_err != None:
self.rx_over_err = rx_over_err
else:
self.rx_over_err = 0
if rx_crc_err != None:
self.rx_crc_err = rx_crc_err
else:
self.rx_crc_err = 0
if collisions != None:
self.collisions = collisions
else:
self.collisions = 0
return
def pack(self):
packed = []
packed.append(struct.pack("!H", self.type))
packed.append(struct.pack("!H", 0)) # placeholder for length at index 1
packed.append('\x00' * 4)
packed.append(struct.pack("!Q", self.rx_frame_err))
packed.append(struct.pack("!Q", self.rx_over_err))
packed.append(struct.pack("!Q", self.rx_crc_err))
packed.append(struct.pack("!Q", self.collisions))
length = sum([len(x) for x in packed])
packed[1] = struct.pack("!H", length)
return ''.join(packed)
@staticmethod
def unpack(reader):
obj = ethernet()
_type = reader.read("!H")[0]
assert(_type == 0)
_length = reader.read("!H")[0]
orig_reader = reader
reader = orig_reader.slice(_length, 4)
reader.skip(4)
obj.rx_frame_err = reader.read("!Q")[0]
obj.rx_over_err = reader.read("!Q")[0]
obj.rx_crc_err = reader.read("!Q")[0]
obj.collisions = reader.read("!Q")[0]
return obj
def __eq__(self, other):
if type(self) != type(other): return False
if self.rx_frame_err != other.rx_frame_err: return False
if self.rx_over_err != other.rx_over_err: return False
if self.rx_crc_err != other.rx_crc_err: return False
if self.collisions != other.collisions: return False
return True
def pretty_print(self, q):
q.text("ethernet {")
with q.group():
with q.indent(2):
q.breakable()
q.text("rx_frame_err = ");
q.text("%#x" % self.rx_frame_err)
q.text(","); q.breakable()
q.text("rx_over_err = ");
q.text("%#x" % self.rx_over_err)
q.text(","); q.breakable()
q.text("rx_crc_err = ");
q.text("%#x" % self.rx_crc_err)
q.text(","); q.breakable()
q.text("collisions = ");
q.text("%#x" % self.collisions)
q.breakable()
q.text('}')
port_stats_prop.subtypes[0] = ethernet
class experimenter(port_stats_prop):
subtypes = {}
type = 65535
def __init__(self, experimenter=None, exp_type=None, experimenter_data=None):
if experimenter != None:
self.experimenter = experimenter
else:
self.experimenter = 0
if exp_type != None:
self.exp_type = exp_type
else:
self.exp_type = 0
if experimenter_data != None:
self.experimenter_data = experimenter_data
else:
self.experimenter_data = ''
return
def pack(self):
packed = []
packed.append(struct.pack("!H", self.type))
packed.append(struct.pack("!H", 0)) # placeholder for length at index 1
packed.append(struct.pack("!L", self.experimenter))
packed.append(struct.pack("!L", self.exp_type))
packed.append(self.experimenter_data)
length = sum([len(x) for x in packed])
packed[1] = struct.pack("!H", length)
return ''.join(packed)
@staticmethod
def unpack(reader):
subtype, = reader.peek('!L', 4)
subclass = experimenter.subtypes.get(subtype)
if subclass:
return subclass.unpack(reader)
obj = experimenter()
_type = reader.read("!H")[0]
assert(_type == 65535)
_length = reader.read("!H")[0]
orig_reader = reader
reader = orig_reader.slice(_length, 4)
obj.experimenter = reader.read("!L")[0]
obj.exp_type = reader.read("!L")[0]
obj.experimenter_data = str(reader.read_all())
return obj
def __eq__(self, other):
if type(self) != type(other): return False
if self.experimenter != other.experimenter: return False
if self.exp_type != other.exp_type: return False
if self.experimenter_data != other.experimenter_data: return False
return True
def pretty_print(self, q):
q.text("experimenter {")
with q.group():
with q.indent(2):
q.breakable()
q.text("exp_type = ");
q.text("%#x" % self.exp_type)
q.text(","); q.breakable()
q.text("experimenter_data = ");
q.pp(self.experimenter_data)
q.breakable()
q.text('}')
port_stats_prop.subtypes[65535] = experimenter
class optical(port_stats_prop):
type = 1
def __init__(self, flags=None, tx_freq_lmda=None, tx_offset=None, tx_grid_span=None, rx_freq_lmda=None, rx_offset=None, rx_grid_span=None, tx_pwr=None, rx_pwr=None, bias_current=None, temperature=None):
if flags != None:
self.flags = flags
else:
self.flags = 0
if tx_freq_lmda != None:
self.tx_freq_lmda = tx_freq_lmda
else:
self.tx_freq_lmda = 0
if tx_offset != None:
self.tx_offset = tx_offset
else:
self.tx_offset = 0
if tx_grid_span != None:
self.tx_grid_span = tx_grid_span
else:
self.tx_grid_span = 0
if rx_freq_lmda != None:
self.rx_freq_lmda = rx_freq_lmda
else:
self.rx_freq_lmda = 0
if rx_offset != None:
self.rx_offset = rx_offset
else:
self.rx_offset = 0
if rx_grid_span != None:
self.rx_grid_span = rx_grid_span
else:
self.rx_grid_span = 0
if tx_pwr != None:
self.tx_pwr = tx_pwr
else:
self.tx_pwr = 0
if rx_pwr != None:
self.rx_pwr = rx_pwr
else:
self.rx_pwr = 0
if bias_current != None:
self.bias_current = bias_current
else:
self.bias_current = 0
if temperature != None:
self.temperature = temperature
else:
self.temperature = 0
return
def pack(self):
packed = []
packed.append(struct.pack("!H", self.type))
packed.append(struct.pack("!H", 0)) # placeholder for length at index 1
packed.append('\x00' * 4)
packed.append(struct.pack("!L", self.flags))
packed.append(struct.pack("!L", self.tx_freq_lmda))
packed.append(struct.pack("!L", self.tx_offset))
packed.append(struct.pack("!L", self.tx_grid_span))
packed.append(struct.pack("!L", self.rx_freq_lmda))
packed.append(struct.pack("!L", self.rx_offset))
packed.append(struct.pack("!L", self.rx_grid_span))
packed.append(struct.pack("!H", self.tx_pwr))
packed.append(struct.pack("!H", self.rx_pwr))
packed.append(struct.pack("!H", self.bias_current))
packed.append(struct.pack("!H", self.temperature))
length = sum([len(x) for x in packed])
packed[1] = struct.pack("!H", length)
return ''.join(packed)
@staticmethod
def unpack(reader):
obj = optical()
_type = reader.read("!H")[0]
assert(_type == 1)
_length = reader.read("!H")[0]
orig_reader = reader
reader = orig_reader.slice(_length, 4)
reader.skip(4)
obj.flags = reader.read("!L")[0]
obj.tx_freq_lmda = reader.read("!L")[0]
obj.tx_offset = reader.read("!L")[0]
obj.tx_grid_span = reader.read("!L")[0]
obj.rx_freq_lmda = reader.read("!L")[0]
obj.rx_offset = reader.read("!L")[0]
obj.rx_grid_span = reader.read("!L")[0]
obj.tx_pwr = reader.read("!H")[0]
obj.rx_pwr = reader.read("!H")[0]
obj.bias_current = reader.read("!H")[0]
obj.temperature = reader.read("!H")[0]
return obj
def __eq__(self, other):
if type(self) != type(other): return False
if self.flags != other.flags: return False
if self.tx_freq_lmda != other.tx_freq_lmda: return False
if self.tx_offset != other.tx_offset: return False
if self.tx_grid_span != other.tx_grid_span: return False
if self.rx_freq_lmda != other.rx_freq_lmda: return False
if self.rx_offset != other.rx_offset: return False
if self.rx_grid_span != other.rx_grid_span: return False
if self.tx_pwr != other.tx_pwr: return False
if self.rx_pwr != other.rx_pwr: return False
if self.bias_current != other.bias_current: return False
if self.temperature != other.temperature: return False
return True
def pretty_print(self, q):
q.text("optical {")
with q.group():
with q.indent(2):
q.breakable()
q.text("flags = ");
q.text("%#x" % self.flags)
q.text(","); q.breakable()
q.text("tx_freq_lmda = ");
q.text("%#x" % self.tx_freq_lmda)
q.text(","); q.breakable()
q.text("tx_offset = ");
q.text("%#x" % self.tx_offset)
q.text(","); q.breakable()
q.text("tx_grid_span = ");
q.text("%#x" % self.tx_grid_span)
q.text(","); q.breakable()
q.text("rx_freq_lmda = ");
q.text("%#x" % self.rx_freq_lmda)
q.text(","); q.breakable()
q.text("rx_offset = ");
q.text("%#x" % self.rx_offset)
q.text(","); q.breakable()
q.text("rx_grid_span = ");
q.text("%#x" % self.rx_grid_span)
q.text(","); q.breakable()
q.text("tx_pwr = ");
q.text("%#x" % self.tx_pwr)
q.text(","); q.breakable()
q.text("rx_pwr = ");
q.text("%#x" % self.rx_pwr)
q.text(","); q.breakable()
q.text("bias_current = ");
q.text("%#x" % self.bias_current)
q.text(","); q.breakable()
q.text("temperature = ");
q.text("%#x" % self.temperature)
q.breakable()
q.text('}')
port_stats_prop.subtypes[1] = optical