def main(argv): filters = ["slot_id"] inputs = brcd_util.parse(argv, slot_test, filters, validate) session = brcd_util.getsession(inputs) result = _rpc_slot_test(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["dp_id", "slot"] inputs = brcd_util.parse(argv, global_lan_statistics, filters, validate) session = brcd_util.getsession(inputs) result = _show_global_lan_statistics(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["zone_object"] inputs = brcd_util.parse(argv, zone_operation_parameters, filters, validate) session = brcd_util.getsession(inputs) # Store the checksum before editing the zoneDB to use for the # cfgsave at the end current_effective = pyfos_zone.effective_configuration.get(session) result = do_zone_object_expunge(session, inputs['utilobject']) pyfos_util.response_print(result) # If the expunge operation succeeds, perform an implicit cfgsave # If the expunge operation fails, it should get automatically aborted # in the FOS Zone module, so no need to abort the transaction. if pyfos_util.is_success_resp(result): result = cfgsave.cfgsave(session, current_effective.peek_checksum()) # If the save operation fails, check to see if there is an open # transaction. If there is, then abort the transaction if pyfos_util.is_failed_resp(result): print("Expunge succeeded, but the cfgSave failed.") current_effective = pyfos_zone.effective_configuration.get(session) if current_effective.peek_transaction_token() != 0: pyfos_util.response_print(result) print("\nAborting the transaction.") result = cfgabort.cfgabort(session) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = [] inputs = brcd_util.parse(argv, lsan_device, filters, validate) session = brcd_util.getsession(inputs) result = _show_lsan_device(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["name", "group_feature", "feature_pattern"] inputs = brcd_util.parse(argv, group, filters) grp_obj = inputs['utilobject'] if grp_obj.peek_name() is None: print("Missing command line options") print(inputs['utilusage']) exit(1) if (grp_obj.peek_group_feature() is None or grp_obj.peek_feature_pattern() is None): print("Missing command line options") print(inputs['utilusage']) exit(1) # Login to switch session = brcd_util.getsession(inputs) result = grp_obj.patch(session) pyfos_util.response_print(result) # Log out pyfos_auth.logout(session)
def main(argv): # Parse inputs filters = [ "firmware_synchronization_enabled", "http_session_ttl", "ezserver_enabled" ] inputs = brcd_util.parse(argv, chassis_config_settings, filters, _validate_chassis_configuration) # Get object chassis_configuration_object = inputs['utilobject'] # Get session session = brcd_util.getsession(inputs) # Call function result = _set_chassis_configuration(session, chassis_configuration_object) if result is None: print(inputs['utilusage']) sys.exit(1) # Print response pyfos_util.response_print(result) # Log out pyfos_auth.logout(session)
def main(argv): filters = [] inputs = brcd_util.parse(argv, trunk_area, filters) session = brcd_util.getsession(inputs) result = trunk_area.get(session) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): # Print arguments # print(sys.argv[1:]) filters = [ 'certificate_entity', 'certificate_type', 'operation', 'certificate_name', 'remote_host_ip', 'remote_directory', 'protocol', 'remote_user_name', 'remote_user_password' ] inputs = brcd_util.parse(argv, security_certificate_action, filters) seccertmgmt_obj = inputs['utilobject'] # using variables instead of calling functions as the # function names are lengthy and difficult to fit the # the line length less than 80 chars for flake8. if (seccertmgmt_obj.peek_certificate_entity() is None or seccertmgmt_obj.peek_certificate_type() is None): print("Missing input(s)") print(inputs['utilusage']) sys.exit() session = brcd_util.getsession(inputs) result = _export_import_cert(inputs['session'], inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["name", "in_order_delivery_enabled"] inputs = brcd_util.parse(argv, fibrechannel_switch, filters, validate) session = brcd_util.getsession(inputs) result = _modify_fibrechannel_switch(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): # Parse inputs filters = [ "insistent_domain_id_enabled", "principal_selection_enabled", "principal_priority" ] inputs = brcd_util.parse(argv, fabric, filters, _validate_fabric_configuration) # Get object fabric_configuration_object = inputs['utilobject'] # Get session session = brcd_util.getsession(inputs) # Call function result = _set_fabric_configuration(session, fabric_configuration_object) if result is None: print(inputs['utilusage']) sys.exit(1) # Print response pyfos_util.response_print(result) # Log out pyfos_auth.logout(session)
def main(argv): filters = ["name", "gigabit_ethernet_member_ports_port"] inputs = brcd_util.parse(argv, portchannel, filters, validate) session = brcd_util.getsession(inputs) result = _rem_member_ports_from_portchannel(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["edge_fabric_id"] inputs = brcd_util.parse(argv, edge_fabric_alias, filters, validate) session = brcd_util.getsession(inputs) result = _delete_edge_fabric_alias(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["community_name", "community_group", "index"] inputs = brcd_util.parse(argv, v1_account, filters, validate) session = brcd_util.getsession(inputs) result = _modify_v1_account(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = [ "user_name", "minimum_password_age", "maximum_password_age", "warn_on_expire", "enforce_expire" ] inputs = brcd_util.parse(argv, user_specific_password_cfg, filters) user_specific_passrdcfg_obj = inputs['utilobject'] if user_specific_passrdcfg_obj.peek_user_name() is None: print("Missing command line options") print(inputs['utilusage']) exit(1) if (user_specific_passrdcfg_obj.peek_minimum_password_age() is None and user_specific_passrdcfg_obj.peek_maximum_password_age() is None and user_specific_passrdcfg_obj.peek_warn_on_expire() is None and user_specific_passrdcfg_obj.peek_hash_type() is None and user_specific_passrdcfg_obj.peek_enforce_expire() is None): print("Missing command line options") print(inputs['utilusage']) exit(1) session = brcd_util.getsession(inputs) result = user_specific_passrdcfg_obj.post(session) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = [] inputs = brcd_util.parse(argv, routing_configuration, filters, validate) session = brcd_util.getsession(inputs) result = _show_routing_configuration(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ['user_name', 'old_password', 'new_password'] inputs = brcd_util.parse(argv, password, filters, validate) session = brcd_util.getsession(inputs) result = _change_password(inputs['session'], inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): # Print arguments # print(sys.argv[1:]) filters = ['allow_user_name', 'rekey_interval'] inputs = brcd_util.parse(argv, sshutil, filters) sshutil_obj = inputs['utilobject'] # using variables instead of calling functions as the # function names are lengthy and difficult to fit the # the line length less than 80 chars for flake8. if sshutil_obj.peek_rekey_interval() is None: if sshutil_obj.peek_allow_user_name() is None: print("Missing input(s)") print(inputs['utilusage']) sys.exit() session = brcd_util.getsession(inputs) # pyfos_util.response_print(inputs['utilobject'].displaycustomcli()) result = _sshutil(inputs['session'], inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["name", "pod_license_state"] inputs = brcd_util.parse(argv, fibrechannel, filters, validate) session = brcd_util.getsession(inputs) result = _modify_fibrechannel(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = [ "activate_no_log_out", "authentication_mode", "primary_auth_log_messages" ] inputs = brcd_util.parse(argv, auth_spec, filters) server_obj = inputs['utilobject'] if (server_obj.peek_authentication_mode() is None and server_obj.peek_primary_auth_log_messages() is None and server_obj.peek_activate_no_log_out() is None): print("Missing command line options") print(inputs['utilusage']) exit(1) # Login to switch session = brcd_util.getsession(inputs) result = server_obj.patch(session) pyfos_util.response_print(result) # Log out pyfos_auth.logout(session)
def main(argv): filters = [ "priority", "out_unacknowledged_packets_sequence", "in_queued_packets_next_sequence", "slow_starts", "out_queued_packets_minimum_sequence", "in_window_size", "in_queued_packets_minimum_sequence", "out_packets", "connection_id", "in_window_size_maximum", "operation_mode", "arl_current", "out_queued_packets_next_sequence", "fast_retransmits", "slow_retransmits", "in_packets", "out_queued_packets_maximum_sequence", "out_window_size", "in_queued_out_of_order", "arl_next_reset_algorithm", "circuit_id", "rtt_variance", "in_bytes", "maximum_fast_retransmits", "source_port", "destination_port", "retransmits", "in_queued_out_of_order_maximum", "rtt_maximum", "retransmit_timeout", "duplicate_acknowledgement", "out_in_flight_packets", "maximum_retransmits", "in_queued_out_of_order_total", "connection_mss", "rtt", "ve_port", "arl_maximum", "in_queued_packets_maximum_sequence", "out_bytes", "in_window_scale", "congestion_window", "in_queued_packets", "out_window_scale", "rtt_variance_maximum", "arl_minimum", "slow_start_threshold", "ha_type" ] inputs = brcd_util.parse(argv, wan_statistics, filters, validate) session = brcd_util.getsession(inputs) result = _show_wan_statistics(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["config"] inputs = brcd_util.parse(argv, "auth-token-manager", filters, validate) session = brcd_util.getsession(inputs) result = _delete_auth_token_manager(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["name"] inputs = brcd_util.parse(argv, portchannel, filters, validate) session = brcd_util.getsession(inputs) result = _show_portchannel(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["name", "dynamic_load_sharing"] inputs = brcd_util.parse(argv, fibrechannel_switch, filters, validate) session = brcd_util.getsession(inputs) result = _modify_fibrechannel_switch(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["enabled_tlvs_tlv", "name"] inputs = brcd_util.parse(argv, lldp_profile, filters, validate) session = brcd_util.getsession(inputs) result = _create_lldp_profile(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["name", "protocol"] inputs = brcd_util.parse(argv, gigabitethernet, filters, validate) session = brcd_util.getsession(inputs) result = _modify_gigabitethernet(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["name", "auto_negotiation_enabled"] inputs = brcd_util.parse(argv, portchannel, filters, validate) session = brcd_util.getsession(inputs) result = _modify_portchannel(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = ["lsan_enforce_tags_tag", "lsan_speed_tag"] inputs = brcd_util.parse(argv, routing_configuration, filters, validate) session = brcd_util.getsession(inputs) result = _delete_routing_configuration(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)
def main(argv): filters = [ "name", "password", "role", "home_virtual_fabric", "virtual_fabric_role_id_list_role_id", "account_description", "account_enabled", "password_change_enforced", "access_start_time", "access_end_time", "chassis_access_role" ] inputs = brcd_util.parse(argv, user_config, filters) user_obj = inputs['utilobject'] if (user_obj.peek_name() is None or user_obj.peek_password() is None or user_obj.peek_role() is None or user_obj.peek_virtual_fabric_role_id_list_role_id() == "[]"): print("Missing command line options") print(inputs['utilusage']) exit(1) # Login to switch session = brcd_util.getsession(inputs) result = user_obj.post(session) pyfos_util.response_print(result) # Log out pyfos_auth.logout(session)
def main(argv): filters = [ "template_name", "action", "remote_user_name", "remote_host_ip", "remote_user_password", "remote_directory", "file_transfer_protocol_type" ] inputs = brcd_util.parse(argv, sec_crypto_cfg_template_action, filters) crypto_obj = inputs['utilobject'] if (crypto_obj.peek_action() is None or crypto_obj.peek_template_name() is None or crypto_obj.peek_remote_user_name() is None or crypto_obj.peek_remote_host_ip() is None or crypto_obj.peek_remote_user_password() is None or crypto_obj.peek_remote_directory() is None or crypto_obj.peek_file_transfer_protocol_type() is None): print("Missing command line options") print(inputs['utilusage']) exit(1) # Login to switch session = brcd_util.getsession(inputs) result = crypto_obj.patch(session) pyfos_util.response_print(result) # Log out pyfos_auth.logout(session)
def main(argv): filters = ["slot_port", "action"] inputs = brcd_util.parse(argv, lldp_operations, filters, validate) session = brcd_util.getsession(inputs) result = _rpc_lldp_operations(session, inputs['utilobject']) pyfos_util.response_print(result) pyfos_auth.logout(session)