"src_start_ip": "20.0.0.1",
"dst_start_ip": "10.0.0.0",
"dst_end_ip": "10.0.39.15",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
"src_start_ip": "60.0.0.1",
"dst_start_ip": "50.0.0.0",
"dst_end_ip": "50.0.39.15",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
"src_start_ip": "20.0.0.1",
"dst_start_ip": "10.0.0.0",
"dst_end_ip": "10.1.134.159",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
"src_start_ip": "60.0.0.1",
"dst_start_ip": "50.0.0.0",
"dst_end_ip": "50.1.134.159",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
"src_start_ip": "20.0.0.1",
"dst_start_ip": "10.0.0.0",
"dst_end_ip": "10.15.66.63",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
"src_start_ip": "60.0.0.1",
"dst_start_ip": "50.0.0.0",
"dst_end_ip": "50.15.66.63",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
-# Copyright (c) 2024 Cisco and/or its affiliates.
+# Copyright (c) 2023 Cisco and/or its affiliates.
#
# SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
#
{
"src_start_ip": "10.0.0.1",
"dst_start_ip": "20.0.0.0",
- "dst_end_ip": "20.0.39.15",
+ "dst_end_ip": "20.0.39.15"
},
# Direction E --> W:
{
"src_start_ip": "20.0.0.1",
"dst_start_ip": "10.0.0.0",
- "dst_end_ip": "10.0.39.15",
- },
+ "dst_end_ip": "10.0.39.15"
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
min_value=self.pkt_data[i]["dst_start_ip"],
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
-# Copyright (c) 2024 Cisco and/or its affiliates.
+# Copyright (c) 2023 Cisco and/or its affiliates.
#
# SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
#
{
"src_start_ip": "10.0.0.1",
"dst_start_ip": "20.0.0.0",
- "dst_end_ip": "20.0.39.15",
+ "dst_end_ip": "20.0.39.15"
},
# Direction W --> E:
{
"src_start_ip": "30.0.0.1",
"dst_start_ip": "40.0.0.0",
- "dst_end_ip": "40.0.39.15",
+ "dst_end_ip": "40.0.39.15"
},
# Direction W --> E:
{
"src_start_ip": "50.0.0.1",
"dst_start_ip": "60.0.0.0",
- "dst_end_ip": "60.0.39.15",
+ "dst_end_ip": "60.0.39.15"
},
# Direction E --> W:
{
"src_start_ip": "20.0.0.1",
"dst_start_ip": "10.0.0.0",
- "dst_end_ip": "10.0.39.15",
+ "dst_end_ip": "10.0.39.15"
},
# Direction E --> W:
{
"src_start_ip": "40.0.0.1",
"dst_start_ip": "30.0.0.0",
- "dst_end_ip": "30.0.39.15",
+ "dst_end_ip": "30.0.39.15"
},
# Direction E --> W:
{
"src_start_ip": "60.0.0.1",
"dst_start_ip": "50.0.0.0",
- "dst_end_ip": "50.0.39.15",
- },
+ "dst_end_ip": "50.0.39.15"
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
min_value=self.pkt_data[i]["dst_start_ip"],
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
-# Copyright (c) 2024 Cisco and/or its affiliates.
+# Copyright (c) 2023 Cisco and/or its affiliates.
#
# SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
#
{
"src_start_ip": "10.0.0.1",
"dst_start_ip": "20.0.0.0",
- "dst_end_ip": "20.1.134.159",
+ "dst_end_ip": "20.1.134.159"
},
# Direction E --> W:
{
"src_start_ip": "20.0.0.1",
"dst_start_ip": "10.0.0.0",
- "dst_end_ip": "10.1.134.159",
- },
+ "dst_end_ip": "10.1.134.159"
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
min_value=self.pkt_data[i]["dst_start_ip"],
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
-# Copyright (c) 2024 Cisco and/or its affiliates.
+# Copyright (c) 2023 Cisco and/or its affiliates.
#
# SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
#
{
"src_start_ip": "10.0.0.1",
"dst_start_ip": "20.0.0.0",
- "dst_end_ip": "20.1.134.159",
+ "dst_end_ip": "20.1.134.159"
},
# Direction W --> E:
{
"src_start_ip": "30.0.0.1",
"dst_start_ip": "40.0.0.0",
- "dst_end_ip": "40.1.134.159",
+ "dst_end_ip": "40.1.134.159"
},
# Direction W --> E:
{
"src_start_ip": "50.0.0.1",
"dst_start_ip": "60.0.0.0",
- "dst_end_ip": "60.1.134.159",
+ "dst_end_ip": "60.1.134.159"
},
# Direction E --> W:
{
"src_start_ip": "20.0.0.1",
"dst_start_ip": "10.0.0.0",
- "dst_end_ip": "10.1.134.159",
+ "dst_end_ip": "10.1.134.159"
},
# Direction E --> W:
{
"src_start_ip": "40.0.0.1",
"dst_start_ip": "30.0.0.0",
- "dst_end_ip": "30.1.134.159",
+ "dst_end_ip": "30.1.134.159"
},
# Direction E --> W:
{
"src_start_ip": "60.0.0.1",
"dst_start_ip": "50.0.0.0",
- "dst_end_ip": "50.1.134.159",
- },
+ "dst_end_ip": "50.1.134.159"
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
min_value=self.pkt_data[i]["dst_start_ip"],
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
-# Copyright (c) 2024 Cisco and/or its affiliates.
+# Copyright (c) 2023 Cisco and/or its affiliates.
#
# SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
#
{
"src_start_ip": "10.0.0.1",
"dst_start_ip": "20.0.0.0",
- "dst_end_ip": "20.15.66.63",
+ "dst_end_ip": "20.15.66.63"
},
# Direction E --> W:
{
"src_start_ip": "20.0.0.1",
"dst_start_ip": "10.0.0.0",
- "dst_end_ip": "10.15.66.63",
- },
+ "dst_end_ip": "10.15.66.63"
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
min_value=self.pkt_data[i]["dst_start_ip"],
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
-# Copyright (c) 2024 Cisco and/or its affiliates.
+# Copyright (c) 2023 Cisco and/or its affiliates.
#
# SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
#
{
"src_start_ip": "10.0.0.1",
"dst_start_ip": "20.0.0.0",
- "dst_end_ip": "20.15.66.63",
+ "dst_end_ip": "20.15.66.63"
},
# Direction W --> E:
{
"src_start_ip": "30.0.0.1",
"dst_start_ip": "40.0.0.0",
- "dst_end_ip": "40.15.66.63",
+ "dst_end_ip": "40.15.66.63"
},
# Direction W --> E:
{
"src_start_ip": "50.0.0.1",
"dst_start_ip": "60.0.0.0",
- "dst_end_ip": "60.15.66.63",
+ "dst_end_ip": "60.15.66.63"
},
# Direction E --> W:
{
"src_start_ip": "20.0.0.1",
"dst_start_ip": "10.0.0.0",
- "dst_end_ip": "10.15.66.63",
+ "dst_end_ip": "10.15.66.63"
},
# Direction E --> W:
{
"src_start_ip": "40.0.0.1",
"dst_start_ip": "30.0.0.0",
- "dst_end_ip": "30.15.66.63",
+ "dst_end_ip": "30.15.66.63"
},
# Direction E --> W:
{
"src_start_ip": "60.0.0.1",
"dst_start_ip": "50.0.0.0",
- "dst_end_ip": "50.15.66.63",
- },
+ "dst_end_ip": "50.15.66.63"
+ }
]
self.pkt_base = []
self.pkt_vm = []
"""
for i in range(len(self.pkt_data)):
self.pkt_base.append(
- Ether()
- / IP(
+ Ether() /
+ IP(
src=self.pkt_data[i]["src_start_ip"],
dst=self.pkt_data[i]["dst_start_ip"],
- proto=61,
+ proto=61
)
)
self.pkt_vm.append(
min_value=self.pkt_data[i]["dst_start_ip"],
max_value=self.pkt_data[i]["dst_end_ip"],
size=4,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="dst",
- pkt_offset="IP.dst",
+ pkt_offset="IP.dst"
),
STLVmFixIpv4(
- offset="IP",
- ),
+ offset="IP"
+ )
]
)
)
"src_start_ip": "2200::1",
"dst_start_ip": "2100::0",
"dst_end_ip": "2100::270F",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
max_value=base + count,
size=8,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)
"src_start_ip": "2600::1",
"dst_start_ip": "2500::0",
"dst_end_ip": "2500::270F",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
max_value=base + count,
size=8,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)
"src_start_ip": "2200::1",
"dst_start_ip": "2100::0",
"dst_end_ip": "2100::1:869F",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
max_value=base + count,
size=8,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)
"src_start_ip": "2600::1",
"dst_start_ip": "2500::0",
"dst_end_ip": "2500::1:869F",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
max_value=base + count,
size=8,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)
"src_start_ip": "2200::1",
"dst_start_ip": "2100::0",
"dst_end_ip": "2100::F:423F",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
max_value=base + count,
size=8,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)
"src_start_ip": "2600::1",
"dst_start_ip": "2500::0",
"dst_end_ip": "2500::F:423F",
- },
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
max_value=base + count,
size=8,
seed=i + 1,
- limit=(2**24 - 1),
+ limit=(2**24 - 1)
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)
{
"src_start_ip": "2100::1",
"dst_start_ip": "2200::0",
- "dst_end_ip": "2200::270F",
+ "dst_end_ip": "2200::270F"
},
# Direction E --> W:
{
"src_start_ip": "2200::1",
"dst_start_ip": "2100::0",
- "dst_end_ip": "2100::270F",
- },
+ "dst_end_ip": "2100::270F"
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
min_value=base,
max_value=base + count,
size=8,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)
{
"src_start_ip": "2100::1",
"dst_start_ip": "2200::0",
- "dst_end_ip": "2200::270F",
+ "dst_end_ip": "2200::270F"
},
# Direction W --> E:
{
"src_start_ip": "2300::1",
"dst_start_ip": "2400::0",
- "dst_end_ip": "2400::270F",
+ "dst_end_ip": "2400::270F"
},
# Direction W --> E:
{
"src_start_ip": "2500::1",
"dst_start_ip": "2600::0",
- "dst_end_ip": "2600::270F",
+ "dst_end_ip": "2600::270F"
},
# Direction E --> W:
{
"src_start_ip": "2200::1",
"dst_start_ip": "2100::0",
- "dst_end_ip": "2100::270F",
+ "dst_end_ip": "2100::270F"
},
# Direction E --> W:
{
"src_start_ip": "2400::1",
"dst_start_ip": "2300::0",
- "dst_end_ip": "2300::270F",
+ "dst_end_ip": "2300::270F"
},
# Direction E --> W:
{
"src_start_ip": "2600::1",
"dst_start_ip": "2500::0",
- "dst_end_ip": "2500::270F",
- },
+ "dst_end_ip": "2500::270F"
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
min_value=base,
max_value=base + count,
size=8,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)
{
"src_start_ip": "2100::1",
"dst_start_ip": "2200::0",
- "dst_end_ip": "2200::1:869F",
+ "dst_end_ip": "2200::1:869F"
},
# Direction E --> W:
{
"src_start_ip": "2200::1",
"dst_start_ip": "2100::0",
- "dst_end_ip": "2100::1:869F",
- },
+ "dst_end_ip": "2100::1:869F"
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
min_value=base,
max_value=base + count,
size=8,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)
{
"src_start_ip": "2100::1",
"dst_start_ip": "2200::0",
- "dst_end_ip": "2200::1:869F",
+ "dst_end_ip": "2200::1:869F"
},
# Direction W --> E:
{
"src_start_ip": "2300::1",
"dst_start_ip": "2400::0",
- "dst_end_ip": "2400::1:869F",
+ "dst_end_ip": "2400::1:869F"
},
# Direction W --> E:
{
"src_start_ip": "2500::1",
"dst_start_ip": "2600::0",
- "dst_end_ip": "2600::1:869F",
+ "dst_end_ip": "2600::1:869F"
},
# Direction E --> W:
{
"src_start_ip": "2200::1",
"dst_start_ip": "2100::0",
- "dst_end_ip": "2100::1:869F",
+ "dst_end_ip": "2100::1:869F"
},
# Direction E --> W:
{
"src_start_ip": "2400::1",
"dst_start_ip": "2300::0",
- "dst_end_ip": "2300::1:869F",
+ "dst_end_ip": "2300::1:869F"
},
# Direction E --> W:
{
"src_start_ip": "2600::1",
"dst_start_ip": "2500::0",
- "dst_end_ip": "2500::1:869F",
- },
+ "dst_end_ip": "2500::1:869F"
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
min_value=base,
max_value=base + count,
size=8,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)
{
"src_start_ip": "2100::1",
"dst_start_ip": "2200::0",
- "dst_end_ip": "2200::F:423F",
+ "dst_end_ip": "2200::F:423F"
},
# Direction E --> W:
{
"src_start_ip": "2200::1",
"dst_start_ip": "2100::0",
- "dst_end_ip": "2100::F:423F",
- },
+ "dst_end_ip": "2100::F:423F"
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
min_value=base,
max_value=base + count,
size=8,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)
{
"src_start_ip": "2100::1",
"dst_start_ip": "2200::0",
- "dst_end_ip": "2200::F:423F",
+ "dst_end_ip": "2200::F:423F"
},
# Direction W --> E:
{
"src_start_ip": "2300::1",
"dst_start_ip": "2400::0",
- "dst_end_ip": "2400::F:423F",
+ "dst_end_ip": "2400::F:423F"
},
# Direction W --> E:
{
"src_start_ip": "2500::1",
"dst_start_ip": "2600::0",
- "dst_end_ip": "2600::F:423F",
+ "dst_end_ip": "2600::F:423F"
},
# Direction E --> W:
{
"src_start_ip": "2200::1",
"dst_start_ip": "2100::0",
- "dst_end_ip": "2100::F:423F",
+ "dst_end_ip": "2100::F:423F"
},
# Direction E --> W:
{
"src_start_ip": "2400::1",
"dst_start_ip": "2300::0",
- "dst_end_ip": "2300::F:423F",
+ "dst_end_ip": "2300::F:423F"
},
# Direction E --> W:
{
"src_start_ip": "2600::1",
"dst_start_ip": "2500::0",
- "dst_end_ip": "2500::F:423F",
- },
+ "dst_end_ip": "2500::F:423F"
+ }
]
self.pkt_base = []
self.pkt_vm = []
for i in range(len(self.pkt_data)):
base, count = self._get_start_end_ipv6(
self.pkt_data[i]["dst_start_ip"],
- self.pkt_data[i]["dst_end_ip"],
+ self.pkt_data[i]["dst_end_ip"]
)
self.pkt_base.append(
- Ether()
- / IPv6(
+ Ether() /
+ IPv6(
src=self.pkt_data[i]["src_start_ip"],
- dst=self.pkt_data[i]["dst_start_ip"],
+ dst=self.pkt_data[i]["dst_start_ip"]
)
)
self.pkt_vm.append(
min_value=base,
max_value=base + count,
size=8,
- op="inc",
+ op="inc"
),
STLVmWrFlowVar(
fv_name="ipv6_dst",
pkt_offset="IPv6.dst",
- offset_fixup=8,
- ),
+ offset_fixup=8
+ )
]
)
)