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add sonic config render engine #178

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Jan 7, 2017
Merged

add sonic config render engine #178

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8eb6cbd
add sonic config render engine
taoyl-ms Jan 4, 2017
2cde061
config-engine: Fix according to CR and fit into build system
taoyl-ms Jan 6, 2017
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5 changes: 5 additions & 0 deletions rules/sonic-config.mk
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# sonic-config-engine package

SONIC_CONFIG_ENGINE = sonic-config-engine_1.0-1_all.deb
$(SONIC_CONFIG_ENGINE)_SRC_PATH = $(SRC_PATH)/sonic-config-engine
SONIC_PYTHON_STDEB_DEBS += $(SONIC_CONFIG_ENGINE)
381 changes: 381 additions & 0 deletions src/sonic-config-engine/minigraph.py
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#!/usr/bin/env python
import calendar
import os
import sys
import socket
import struct
import json
import copy
import ipaddr as ipaddress
from collections import defaultdict

from lxml import etree as ET
from lxml.etree import QName

DOCUMENTATION = '''
---
module: minigraph_facts
version_added: "1.9"
author: Guohan Lu (gulv@microsoft.com)
short_description: Retrive minigraph facts for a device.
description:
- Retrieve minigraph facts for a device, the facts will be
inserted to the ansible_facts key.
options:
host:
description:
- Set to target snmp server (normally {{inventory_hostname}})
required: true
'''

EXAMPLES = '''
# Gather minigraph facts
- name: Gathering minigraph facts about the device
minigraph_facts: host={{ hostname }}
'''

ns = "Microsoft.Search.Autopilot.Evolution"
ns1 = "http://schemas.datacontract.org/2004/07/Microsoft.Search.Autopilot.Evolution"
ns2 = "Microsoft.Search.Autopilot.NetMux"
ns3 = "http://www.w3.org/2001/XMLSchema-instance"

class minigraph_encoder(json.JSONEncoder):
def default(self, obj):
if isinstance(obj, (ipaddress.IPv4Network, ipaddress.IPv6Network, ipaddress.IPv4Address, ipaddress.IPv6Address)):
return str(obj)
return json.JSONEncoder.default(self, obj)

def parse_png(png, hname):
neighbors = {}
devices = {}
console_dev = ''
console_port = ''
mgmt_dev = ''
mgmt_port = ''
for child in png:
if child.tag == str(QName(ns, "DeviceInterfaceLinks")):
for link in child.findall(str(QName(ns, "DeviceLinkBase"))):
linktype = link.find(str(QName(ns, "ElementType"))).text
if linktype != "DeviceInterfaceLink" and linktype != "UnderlayInterfaceLink":
continue

enddevice = link.find(str(QName(ns, "EndDevice"))).text
endport = link.find(str(QName(ns, "EndPort"))).text
startdevice = link.find(str(QName(ns, "StartDevice"))).text
startport = link.find(str(QName(ns, "StartPort"))).text

if enddevice == hname:
neighbors[endport] = {'name': startdevice, 'port': startport}
else:
neighbors[startport] = {'name': enddevice, 'port': endport}
if child.tag == str(QName(ns, "Devices")):
for device in child.findall(str(QName(ns, "Device"))):
lo_addr = None
# don't shadow type()
d_type = None
mgmt_addr = None
hwsku = None
if str(QName(ns3, "type")) in device.attrib:
d_type = device.attrib[str(QName(ns3, "type"))]

for node in device:
if node.tag == str(QName(ns, "Address")):
lo_addr = node.find(str(QName(ns2, "IPPrefix"))).text.split('/')[0]
elif node.tag == str(QName(ns, "ManagementAddress")):
mgmt_addr = node.find(str(QName(ns2, "IPPrefix"))).text.split('/')[0]
elif node.tag == str(QName(ns, "Hostname")):
name = node.text
elif node.tag == str(QName(ns, "HwSku")):
hwsku = node.text

devices[name] = {'lo_addr': lo_addr, 'type': d_type, 'mgmt_addr': mgmt_addr, 'hwsku': hwsku}

if child.tag == str(QName(ns, "DeviceInterfaceLinks")):
for if_link in child.findall(str(QName(ns, 'DeviceLinkBase'))):
if str(QName(ns3, "type")) in if_link.attrib:
link_type = if_link.attrib[str(QName(ns3, "type"))]
if link_type == 'DeviceSerialLink':
for node in if_link:
if node.tag == str(QName(ns, "EndPort")):
console_port = node.text.split()[-1]
elif node.tag == str(QName(ns, "EndDevice")):
console_dev = node.text
elif link_type == 'DeviceMgmtLink':
for node in if_link:
if node.tag == str(QName(ns, "EndPort")):
mgmt_port = node.text.split()[-1]
elif node.tag == str(QName(ns, "EndDevice")):
mgmt_dev = node.text


return (neighbors, devices, console_dev, console_port, mgmt_dev, mgmt_port)


def parse_dpg(dpg, hname):
for child in dpg:
hostname = child.find(str(QName(ns, "Hostname")))
if hostname.text != hname:
continue

ipintfs = child.find(str(QName(ns, "IPInterfaces")))
intfs = []
vlan_map = {}
for ipintf in ipintfs.findall(str(QName(ns, "IPInterface"))):
intfname = ipintf.find(str(QName(ns, "AttachTo"))).text
ipprefix = ipintf.find(str(QName(ns, "Prefix"))).text
ipn = ipaddress.IPNetwork(ipprefix)
ipaddr = ipn.ip
prefix_len = ipn.prefixlen
addr_bits = ipn.max_prefixlen
subnet = ipaddress.IPNetwork(str(ipn.network) + '/' + str(prefix_len))
ipmask = ipn.netmask

intf = {'addr': ipaddr, 'subnet': subnet}
if isinstance(ipn, ipaddress.IPv4Network):
intf['mask'] = ipmask
else:
intf['mask'] = str(prefix_len)

if intfname[0:4] == "Vlan":
if intfname in vlan_map:
vlan_map[intfname].append(intf)

else:
vlan_map[intfname] = [intf]
else:
intf.update({'name': intfname, 'prefixlen': int(prefix_len)})

if port_alias_map.has_key(intfname):
intf['alias'] = port_alias_map[intfname]
else:
intf['alias'] = intfname

# TODO: remove peer_addr after dependency removed
ipaddr_val = int(ipn.ip)
peer_addr_val = None
if int(prefix_len) == addr_bits - 2:
if ipaddr_val & 0x3 == 1:
peer_addr_val = ipaddr_val + 1
else:
peer_addr_val = ipaddr_val - 1
elif int(prefix_len) == addr_bits - 1:
if ipaddr_val & 0x1 == 0:
peer_addr_val = ipaddr_val + 1
else:
peer_addr_val = ipaddr_val - 1

if peer_addr_val is not None:
intf['peer_addr'] = ipaddress.IPAddress(peer_addr_val)
intfs.append(intf)

pcintfs = child.find(str(QName(ns, "PortChannelInterfaces")))
pc_intfs = []
for pcintf in pcintfs.findall(str(QName(ns, "PortChannel"))):
pcintfname = pcintf.find(str(QName(ns, "Name"))).text
pcintfmbr = pcintf.find(str(QName(ns, "AttachTo"))).text
pcmbr_list = pcintfmbr.split(';', 1)
pc_intfs.append({'name': pcintfname, 'members': pcmbr_list})

lointfs = child.find(str(QName(ns, "LoopbackIPInterfaces")))
lo_intfs = []
for lointf in lointfs.findall(str(QName(ns1, "LoopbackIPInterface"))):
intfname = lointf.find(str(QName(ns, "AttachTo"))).text
ipprefix = lointf.find(str(QName(ns1, "PrefixStr"))).text
ipn = ipaddress.IPNetwork(ipprefix)
ipaddr = ipn.ip
prefix_len = ipn.prefixlen
ipmask = ipn.netmask
lo_intf = {'name': intfname, 'addr': ipaddr, 'prefixlen': prefix_len}
if isinstance(ipn, ipaddress.IPv4Network):
lo_intf['mask'] = ipmask
else:
lo_intf['mask'] = str(prefix_len)
lo_intfs.append(lo_intf)

mgmtintfs = child.find(str(QName(ns, "ManagementIPInterfaces")))
mgmt_intf = None
for mgmtintf in mgmtintfs.findall(str(QName(ns1, "ManagementIPInterface"))):
ipprefix = mgmtintf.find(str(QName(ns1, "PrefixStr"))).text
mgmtipn = ipaddress.IPNetwork(ipprefix)
ipaddr = mgmtipn.ip
prefix_len = str(mgmtipn.prefixlen)
ipmask = mgmtipn.netmask
gwaddr = ipaddress.IPAddress(int(mgmtipn.network) + 1)
mgmt_intf = {'addr': ipaddr, 'prefixlen': prefix_len, 'mask': ipmask, 'gwaddr': gwaddr}

vlanintfs = child.find(str(QName(ns, "VlanInterfaces")))
vlan_intfs = []
for vintf in vlanintfs.findall(str(QName(ns, "VlanInterface"))):
vintfname = vintf.find(str(QName(ns, "Name"))).text
vlanid = vintf.find(str(QName(ns, "VlanID"))).text
vintfmbr = vintf.find(str(QName(ns, "AttachTo"))).text
vmbr_list = vintfmbr.split(';'))
vlan_attributes = {'name': vintfname, 'members': vmbr_list, 'vlanid': vlanid}
for addrtuple in vlan_map.get(vintfname, []):
vlan_attributes.update(addrtuple)
vlan_intfs.append(copy.deepcopy(vlan_attributes))

return intfs, lo_intfs, mgmt_intf, vlan_intfs, pc_intfs
return None, None, None, None, None

def parse_cpg(cpg, hname):
bgp_sessions = []
myasn = None
for child in cpg:
tag = child.tag
if tag == str(QName(ns, "PeeringSessions")):
for session in child.findall(str(QName(ns, "BGPSession"))):
start_router = session.find(str(QName(ns, "StartRouter"))).text
start_peer = session.find(str(QName(ns, "StartPeer"))).text
end_router = session.find(str(QName(ns, "EndRouter"))).text
end_peer = session.find(str(QName(ns, "EndPeer"))).text
if end_router == hname:
bgp_sessions.append({
'name': start_router,
'addr': start_peer,
'peer_addr': end_peer
})
else:
bgp_sessions.append({
'name': end_router,
'addr': end_peer,
'peer_addr': start_peer
})
elif child.tag == str(QName(ns, "Routers")):
for router in child.findall(str(QName(ns1, "BGPRouterDeclaration"))):
asn = router.find(str(QName(ns1, "ASN"))).text
hostname = router.find(str(QName(ns1, "Hostname"))).text
if hostname == hname:
myasn = int(asn)
else:
for bgp_session in bgp_sessions:
if hostname == bgp_session['name']:
bgp_session['asn'] = int(asn)

return bgp_sessions, myasn


def get_console_info(devices, dev, port):
for k, v in devices.items():
if k == dev:
break
else:
return {}

ret_val = v
ret_val.update({
'ts_port': port,
'ts_dev': dev
})

return ret_val

def get_mgmt_info(devices, dev, port):
for k, v in devices.items():
if k == dev:
break
else:
return {}

ret_val = v
ret_val.update({
'mgmt_port': port,
'mgmt_dev': dev
})

return ret_val

def parse_xml(filename):
root = ET.parse(filename).getroot()
mini_graph_path = filename

u_neighbors = None
u_devices = None
hwsku = None
bgp_sessions = None
bgp_asn = None
intfs = None
vlan_intfs = None
pc_intfs = None
mgmt_intf = None
lo_intf = None
neighbors = None
devices = None
hostname = None

hwsku_qn = QName(ns, "HwSku")
hostname_qn = QName(ns, "Hostname")
for child in root:
if child.tag == str(hwsku_qn):
hwsku = child.text
if child.tag == str(hostname_qn):
hostname = child.text

# port_alias_map maps ngs port name to sonic port name
if hwsku == "Force10-S6000":
for i in range(0, 128, 4):
port_alias_map["fortyGigE0/%d" % i] = "Ethernet%d" % i
elif hwsku == "Arista-7050-QX32":
for i in range(1, 25):
port_alias_map["Ethernet%d/1" % i] = "Ethernet%d" % ((i - 1) * 4)
for i in range(25, 33):
port_alias_map["Ethernet%d" % i] = "Ethernet%d" % ((i - 1) * 4)

for child in root:
if child.tag == str(QName(ns, "DpgDec")):
(intfs, lo_intfs, mgmt_intf, vlan_intfs, pc_intfs) = parse_dpg(child, hostname)
elif child.tag == str(QName(ns, "CpgDec")):
(bgp_sessions, bgp_asn) = parse_cpg(child, hostname)
elif child.tag == str(QName(ns, "PngDec")):
(neighbors, devices, console_dev, console_port, mgmt_dev, mgmt_port) = parse_png(child, hostname)
elif child.tag == str(QName(ns, "UngDec")):
(u_neighbors, u_devices, _, _, _, _) = parse_png(child, hostname)

# Replace port with alias in Vlan interfaces members
for vlan in vlan_intfs:
for i,member in enumerate(vlan['members']):
vlan['members'][i] = port_alias_map[member]

# Convert vlan members into a space-delimited string
vlan['members'] = " ".join(vlan['members'])

# Replace port with alias in port channel interfaces members
for pc in pc_intfs:
for i,member in enumerate(pc['members']):
pc['members'][i] = port_alias_map[member]

Tree = lambda: defaultdict(Tree)

results = Tree()
results['minigraph_hwsku'] = hwsku
# sorting by lambdas are not easily done without custom filters.
# TODO: add jinja2 filter to accept a lambda to sort a list of dictionaries by attribute.
# TODO: alternatively (preferred), implement class containers for multiple-attribute entries, enabling sort by attr
results['minigraph_bgp'] = sorted(bgp_sessions, key=lambda x: x['addr'])
results['minigraph_bgp_asn'] = bgp_asn
# TODO: sort does not work properly on all interfaces of varying lengths. Need to sort by integer group(s).
results['minigraph_interfaces'] = sorted(intfs, key=lambda x: x['name'])
results['minigraph_vlan_interfaces'] = vlan_intfs
results['minigraph_portchannel_interfaces'] = pc_intfs
results['minigraph_mgmt_interface'] = mgmt_intf
results['minigraph_lo_interfaces'] = lo_intfs
results['minigraph_neighbors'] = neighbors
results['minigraph_devices'] = devices
results['minigraph_underlay_neighbors'] = u_neighbors
results['minigraph_underlay_devices'] = u_devices
results['minigraph_as_xml'] = mini_graph_path
results['minigraph_console'] = get_console_info(devices, console_dev, console_port)
results['minigraph_mgmt'] = get_mgmt_info(devices, mgmt_dev, mgmt_port)
results['inventory_hostname'] = hostname

return results


port_alias_map = {}


def print_parse_xml(filename):
results = parse_xml(filename)
print(json.dumps(results, indent=3, cls=minigraph_encoder))


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