def init(ver):
if ver == 'ipv4':
cps_utils.add_print_function('base-route/obj/entry/nh-list',
print_route_nhlist_func)
cps_utils.add_print_function('base-route/obj/entry/route-prefix',
print_route_prefix_func)
else:
cps_utils.add_print_function('base-route/obj/entry/nh-list',
print_ipv6_route_nhlist_func)
cps_utils.add_print_function('base-route/obj/entry/route-prefix',
print_ipv6_route_prefix_func)
def init(ver):
if ver == 'ipv4':
cps_utils.add_print_function(
'base-route/obj/entry/nh-list',
print_route_nhlist_func)
cps_utils.add_print_function(
'base-route/obj/entry/route-prefix',
print_route_prefix_func)
else:
cps_utils.add_print_function(
'base-route/obj/entry/nh-list',
print_ipv6_route_nhlist_func)
cps_utils.add_print_function(
'base-route/obj/entry/route-prefix',
print_ipv6_route_prefix_func)
cps.get([obj.get()], l)
for i in l:
cps_utils.print_obj(i)
def print_switch_uft_info(uft_data, switch_mode):
for mode in uft_data:
for key in uft_data[mode]:
value = cps_object.types.from_data(key, uft_data[mode][key])
print key + ' = ' + str(value)
def print_switch_details(args):
switch_mode=['base-switch/switching-entities/switching-entity/switch-mode']
for key, data in args.items():
if isinstance(data, dict):
''' UFT mode information are stored as a dictionary '''
print_switch_uft_info(data, switch_mode)
else:
value = cps_object.types.from_data(key,data)
if key in switch_mode:
if (value == 1):
print key + " = cut-through (1)"
if (value == 2):
print key + " = store-and-forward (2)"
else:
print key + ' = ' + str(value)
cps_utils.add_print_function (switch_key_string,print_switch_details)
ba.from_ba(obj['data'][oid], "uint64_t"))
val1 = ba.from_ba(
obj['data']['if/interfaces-state/interface/statistics/out-discards'],
"uint64_t")
val2 = ba.from_ba(
obj['data']['if/interfaces-state/interface/statistics/in-discards'],
"uint64_t")
print ' buffer-overrun errors: ', (val1 + val2)
print "\n\n"
def print_stats(obj):
if len(filters) != 0:
for item in filters:
if item in obj:
print '{:40s} {:d}'.format(
item.split("/")[-1], ba.from_ba(obj[item], "uint64_t"))
else:
for item in obj:
print item + ': ' + str(ba.from_ba(obj[item], "uint64_t"))
print "\n\n"
def add_filters(stat_filters):
for i in stat_filters:
filters.append(i)
cps_utils.add_print_function(stat_key_string[0], print_stats)
cps_utils.add_print_function(stat_key_string[1], print_stats)
import struct
import binascii
mirror_key_string = ["base-mirror/entry"]
def get_mirror_keys():
return mirror_key_string
def print_source_intf(dic):
for i, j in dic.items():
print "Source Interface ", struct.unpack("<L", j[16:20])[0], " <-> Direction ", struct.unpack("<L", j[36:40])[0]
def print_mirror_obj(dic):
print "======================================================================"
key = dic['key']
print "KEY : ", key
data = dic['data']
for i, j in data.items():
if isinstance(j, bytearray):
if len(j) == 4:
print i.split("/")[-1], ":", struct.unpack("<L", j[0:4])[0]
elif len(j) == 6:
print i.split("/")[-1], ":", binascii.hexlify(j)
if isinstance(j, dict):
parse_source_intf(j)
cps_utils.add_print_function(mirror_key_string[0], print_mirror_obj)
mirror_key_string = ["base-mirror/entry"]
def get_mirror_keys():
return mirror_key_string
def print_source_intf(dic):
for i, j in dic.items():
print "Source Interface ", struct.unpack(
"<L",
j[16:20])[0], " <-> Direction ", struct.unpack("<L", j[36:40])[0]
def print_mirror_obj(dic):
print "======================================================================"
key = dic['key']
print "KEY : ", key
data = dic['data']
for i, j in data.items():
if isinstance(j, bytearray):
if len(j) == 4:
print i.split("/")[-1], ":", struct.unpack("<L", j[0:4])[0]
elif len(j) == 6:
print i.split("/")[-1], ":", binascii.hexlify(j)
if isinstance(j, dict):
parse_source_intf(j)
cps_utils.add_print_function(mirror_key_string[0], print_mirror_obj)
