def _check_hg_port_breakout(hybrid_group_name, port_id, br_mode):
#Get Hybrid Group Object
resp = hg_utils.get_hg(str(hybrid_group_name))
assert len(resp) == 1
for o in resp:
assert o is not None
obj = cps_object.CPSObject(obj=o)
#Check if name is correct
hg_name = nas_if.get_cps_attr(obj, hg_utils.hg_attr('id'))
assert hg_name == str(hybrid_group_name)
port_list = nas_if.get_cps_attr(obj, hg_utils.hg_attr('port'))
for port_idx in port_list:
port = port_list[port_idx]
pr_id = port['port-id']
if str(pr_id) == str(port_id):
phy_mode = port['phy-mode']
breakout_mode = port['breakout-mode']
port_speed = port['port-speed']
breakout_option = (breakout_mode, port_speed)
breakout = nas_comm.yang.get_key(breakout_option,
'yang-breakout-port-speed')
assert str(breakout) == str(br_mode)
break
def _check_hg_profile(hybrid_group_name, profile_name):
#Get Hybrid Group Object
resp = hg_utils.get_hg(str(hybrid_group_name))
assert len(resp) == 1
for o in resp:
assert o is not None
obj = cps_object.CPSObject(obj=o)
#Check if name is correct
hg_name = nas_if.get_cps_attr(obj, hg_utils.hg_attr('id'))
assert hg_name == str(hybrid_group_name)
#Check profile Type
hg_profile = nas_if.get_cps_attr(obj, hg_utils.hg_attr('profile'))
assert hg_profile == str(profile_name)
def _get_hg_hdlr(methods, params):
'''CPS Get Helper for Hybrid Group'''
obj = cps_object.CPSObject(obj=params['filter'])
resp = params['list']
if obj.get_key() == hg_utils.hg_key:
hg_name = nas_if.get_cps_attr(obj, hg_utils.hg_attr('id'))
return _service_get_hg(hg_name, resp)
nas_if.log_err("Key Error: Hybrid Group Key issue")
return False
def create_hg_cps_obj(hg_obj):
'''Method to create a Hybrid Group object'''
if hg_obj is None:
return None
obj = cps_object.CPSObject(
module='base-pg/dell-pg/port-groups/hybrid-group',
qual='target',
data={
hg_utils.hg_attr('id'): hg_obj.name,
hg_utils.hg_attr('profile'):
hg_obj.get_hybrid_group_profile_mode()
})
for fpp_idx, fpp_num in enumerate(hg_obj.get_fp_ports()):
port = fp.find_front_panel_port(fpp_num)
obj.add_embed_attr([hg_utils.hg_attr('port'),
str(fpp_idx), 'port-id'], str(fpp_num), 6)
obj.add_embed_attr(
[hg_utils.hg_attr('port'),
str(fpp_idx), 'phy-mode'], port.get_phy_mode(), 6)
obj.add_embed_attr(
[hg_utils.hg_attr('port'),
str(fpp_idx), 'breakout-mode'], port.get_breakout_mode(), 6)
obj.add_embed_attr(
[hg_utils.hg_attr('port'),
str(fpp_idx), 'port-speed'], port.get_port_speed(), 6)
return obj
def apply_cps_config_to_hg(obj, hg_obj):
'''Method to configure a Hybrid Group'''
#Configure Profile Mode
rollback_list = []
prev_profile_mode = hg_obj.get_hybrid_group_profile_mode()
cur_profile_mode = nas_if.get_cps_attr(obj, hg_utils.hg_attr('profile'))
if cur_profile_mode is not None and prev_profile_mode != cur_profile_mode:
hg_obj.set_hybrid_group_profile_mode(cur_profile_mode)
# Configure Default Breakout for profile mode
port_list = hg_obj.get_fp_ports()
if port_list is not None:
for fpp_num in port_list:
port = fp.find_front_panel_port(fpp_num)
# Previous configuration
prev_br_mode = port.get_breakout_mode()
prev_port_speed = port.get_port_speed()
prev_phy_mode = port.get_phy_mode()
prev_port_profile_name = port.get_profile_type()
# Current configuration
hybrid_profile = port.get_hybrid_profile()
cur_port_profile_name = str(
hybrid_profile.get_port_profile(cur_profile_mode))
port.apply_port_profile(
fp.get_port_profile(cur_port_profile_name))
cur_phy_mode = port.get_def_phy_mode()
cur_br_mode = port.get_def_breakout()
cur_port_speed = port.get_default_phy_port_speed()
rollback_list.append((fpp_num, prev_br_mode, prev_port_speed,
prev_phy_mode, prev_port_profile_name))
# Apply configuration
rc = fp_utils.set_fp_port_config(fpp_num, cur_br_mode,
cur_port_speed, cur_phy_mode)
if rc is False or fpp_num not in hg_obj.get_fp_ports():
nas_if.log_err(
'failed to config fp_port %d, start rollback' %
fpp_num)
# Rollback
for (fpp, br_mode, port_speed, phy_mode,
port_profile_name) in rollback_list:
nas_if.log_info('rollback port %d config' % fpp)
port = fp.find_front_panel_port(fpp)
fp_utils.set_fp_port_config(fpp, br_mode, port_speed,
phy_mode)
port.apply_port_profile(
fp.get_port_profile(port_profile_name))
hg_obj.set_hybrid_group_profile_mode(prev_profile_mode)
return False
hwp_speed = pg_utils.get_hwp_speed(cur_br_mode, cur_port_speed,
cur_phy_mode)
port.set_hwp_speed(hwp_speed)
# Configure User Specified Breakout for profile mode
port_list = nas_if.get_cps_attr(obj, hg_utils.hg_attr('port'))
if port_list is not None:
for fpp_idx in port_list:
fpp_num = int(port_list[fpp_idx]['port-id'])
port = fp.find_front_panel_port(fpp_num)
# Current configuration
cur_phy_mode = port_list[fpp_idx]['phy-mode']
cur_br_mode = port_list[fpp_idx]['breakout-mode']
cur_port_speed = port_list[fpp_idx]['port-speed']
# Apply configuration
rc = fp_utils.set_fp_port_config(fpp_num, cur_br_mode,
cur_port_speed, cur_phy_mode)
if rc is False or fpp_num not in hg_obj.get_fp_ports():
nas_if.log_err('failed to config fp_port %d, start rollback' %
fpp_num)
# Rollback
for (fpp, br_mode, port_speed, phy_mode,
port_profile_name) in rollback_list:
nas_if.log_info('rollback port %d config' % fpp)
port = fp.find_front_panel_port(fpp)
fp_utils.set_fp_port_config(fpp, br_mode, port_speed,
phy_mode)
port.apply_port_profile(
fp.get_port_profile(port_profile_name))
hg_obj.set_hybrid_group_profile_mode(prev_profile_mode)
return False
hwp_speed = pg_utils.get_hwp_speed(cur_br_mode, cur_port_speed,
cur_phy_mode)
port.set_hwp_speed(hwp_speed)
return True
