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gerrit.onosproject.org / onos / 39597dba695e70e9a25df1d125c638e8ca72482b / . / models / polatis / src / main / yang / optical-switch@2018-03-22.yang
blob: 0fb4e415c0496d495fb720f7a886c8c5f93ae85e [file] [log] [blame]
module optical-switch {
namespace "http://www.polatis.com/yang/optical-switch";
prefix opsw;
import ietf-yang-types {
prefix yang;
}
import ietf-inet-types {
prefix inet;
}
organization "Polatis Limited";
contact
"Adam Hughes
Polatis Limited
332/2 Cambridge Science Park
Cambridge CB4 0WN
United Kingdom
Phone: +44 (0) 1223 424200
Email: yang-support@polatis.com";
description "Implements the data model for an Optical Circuit Switch";
revision "2018-03-22" {
description " 1. Added grouped ports container.
2. Defined a new typedef with 32 printable character length.
3. Added 'mandatory' form 'egress' leaf in cross-connects container
4. Removed operational state leaf from aps-notification";
}
revision "2017-08-04" {
description " 1. Removed the state and config data dependencies.
2. Added new port configuration containers for better performance.
3. Deprecated old ports/port container
4. Added RADIUS, NTP, Subswitches, AuditLog and Protocols feature";
}
revision "2017-02-09" {
description "Added APS container and notifications";
}
revision "2016-04-22" {
description "Added support for peer port configuration";
}
revision "2016-02-17" {
description "1. Added support for Variable Optical Attenuation
2. Defined new portFormat datatype to represent non-zero port Id.
3. Changed the default values of power-high-alarm from +100 to +25 and
and for power-low-alarm from -100 to -60.";
}
revision "2015-09-14" {
description "Initial revision.";
}
typedef namesFormat {
type string {
pattern "[ -~]{1,128}";
}
description "A non-empty string with up to 128 printable ASCII characters.";
}
typedef userNamesFormat {
type string {
pattern "[ -~]{1,32}";
}
description "A non-empty string with up to 32 printable ASCII characters.";
}
typedef namesFormatNullable {
type string {
pattern "[ -~]{0,128}";
}
description "A string with up to 128 printable ASCII characters.";
}
typedef groupNamesFormat {
type string {
pattern "[!-~]*";
}
description "A string containing printable, non-whitespace ASCII characters.";
}
typedef floatFormat2d {
type decimal64 {
fraction-digits 2;
}
description "Floating point number, restricted to 2 decimal places.";
}
typedef portFormat {
type uint32 {
range "1 .. 65535";
}
}
typedef PortStatus {
type enumeration {
enum PO_ENABLED { value 1; }
enum PO_DISABLED { value 2; }
enum PO_FAILED { value 3; }
}
description "PO_ENABLED means that light can pass through the port, shutters are open.
PO_DISABLED indicates the opposite. PO_FAILED is reported when the port cannot be used.
Only used in deprecated containers.";
}
typedef apsOperationalState {
type enumeration {
enum ON_WORKING { value 0; }
enum WORKING_FAIL { value 1; }
enum SWITCH_PROT { value 2; }
enum ON_PROTECT { value 3; }
enum PROTECT_FAIL { value 4; }
enum SWITCH_WORK { value 5; }
enum NOT_APPLICABLE { value 6; }
}
description "Describes the operational state of a working port in an APS service,
Ports in inactive services are in the NOT_APPLICABLE operational state.";
}
typedef apsFlags {
type bits {
bit GLP {position 0;}
bit FTP {position 1;}
bit FTW {position 2;}
bit MTP {position 3;}
bit MTW {position 4;}
bit DNR {position 5;}
}
description "Commands which can be applied to APS working ports:
GLP - Global Lockout of Protection
FTP - Force To Protection
FTW - Force To Working
MTP - Manual To Protection
MTW - Manual To Working
DNR - Do Not Revert
Only one of GLP, FTP, FTW, MTP, MTW may be set.
GLP on one port will apply GLP to all the ports in a service.";
}
typedef hostFormat {
type string {
pattern "[ -~]{1,64}";
}
description "A non-empty string with up to 64 printable ASCII characters.";
}
typedef secretFormat {
type string {
pattern "[a-zA-Z0-9]{1,128}";
}
description "A non-empty string with up to 128 alphanumeric characters.";
}
container product-information {
config false;
leaf manufacturer {
type string;
description "Name of the manufacturer";
}
leaf serial-number {
type string;
description "Unique number given to the product during manufacturing.";
}
leaf model-name {
type string;
description "Describes the product and the features that the product supports.";
}
leaf software-version {
type string;
description "Version of the software that is currently running on the optical switch";
}
}
container port-config {
list port {
key port-id;
leaf port-id {
type portFormat;
description "Unique ID for the port";
}
leaf status {
config false;
type enumeration {
enum UNSUPPORTED { value 0; }
enum ENABLED { value 1; }
enum DISABLED { value 2; }
enum FAILED { value 3; }
}
description "Status of the port. When 'status' is ENABLED the optical path is clear and the signal
passes through. When 'status' is DISABLED the optical signal is blocked.
When 'status' is UNSUPPORTED the port doesn't have the enable/disable feature.
When 'status' is FAILED the port has failed to report its state correctly. ";
}
leaf label {
type namesFormatNullable;
default "";
description "User configurable string to describe the port. The optical switch includes the label in notifications for the port.";
}
leaf peer-port {
type namesFormatNullable;
default "";
description "User configurable string to describe the remote port on another switch.
This information is set by the management interface to record network topology.";
}
}
}
rpc port-set-state {
input {
leaf-list port-enab {
type portFormat;
description "List of port-ids to enable.";
}
leaf-list port-disab {
type portFormat;
description "List of port-ids to disable.";
}
}
description "This RPC is used to enable or disable a port. When the port is disabled the
optical signal is blocked. When the port is enabled the optical path is clear and the
signal passes through.";
}
container opm-power {
config false;
list port {
key port-id;
leaf port-id {
type portFormat;
description "ID for the port with OPM";
}
leaf power {
type floatFormat2d;
description "Measured optical power, reported in dBm.";
}
}
}
container opm-config {
list port {
key port-id;
leaf port-id {
type portFormat;
description "ID for the port with OPM";
}
leaf wavelength {
type floatFormat2d {
range 1260.0..1640.0;
}
default 1550.0;
description "Wavelength against which the power measurements are calibrated.
Specified in nm.";
}
leaf offset {
type floatFormat2d {
range -100.0..100.0;
}
default 0;
description "Offset for the power measurement; the value is added to power
monitor measurements when reporting /opm-power/port/power.
Thus, specifying an offset can be used as a means of referencing the power
monitors against external meters.
It should be noted that the offset feature does NOT impact the behaviour
of the alarm or attenuation features:
alarm and attenuation settings always operate relative to the actual
power monitor readings, i.e. without any user-specified offsets.
Specified in dBm.";
}
leaf averaging-time {
type uint32 {
range "1..8";
}
default 4;
description "The period for which the power average is calculated. Each increment
in this value doubles the length of the time for which the OPM power readings are averaged.
Setting the value to 1 results in the shortest averaging period, around 10ms.
Setting the value to 8 results in the longest averaging period, 128 times greater.";
}
}
}
container opm-alarm-config {
list port {
key port-id;
leaf port-id {
type portFormat;
description "ID for the port with OPM";
}
leaf mode {
type enumeration {
enum POWER_ALARM_DISABLED;
enum POWER_ALARM_ENABLED;
}
default POWER_ALARM_DISABLED;
description "Power alarms or notifications from ports can be individually enabled or disabled.
When enabled, Loss of Signal (LOS) or Signal Degrade notifications are generated when power
levels cross the set thresholds. When disabled, notifications are not generated.";
}
leaf signal-low-threshold {
type floatFormat2d;
default -60.0;
description "The switch will generate loss of service notifications should the power
level go below this threshold. Specified in dBm.";
}
leaf signal-degrade-threshold {
type floatFormat2d;
default -60.0;
description "The switch will generate warning (signal degrade) notifications should the
power level go below this threshold. Specified in dBm.";
}
leaf signal-high-threshold {
type floatFormat2d;
default 25.0;
description "The switch will generate loss of service notifications should the power
level go above this threshold. Specified in dBm.";
}
leaf alarm-clear-holdoff {
type uint32;
default 0;
description "When the signal is restored, this is the minimum time in seconds
for which the optical power level needs to remain above the threshold to clear the alarm.";
}
}
}
container voa {
list port {
key port-id;
leaf port-id {
type portFormat;
description "ID for the port with VOA";
}
leaf atten-mode {
type enumeration {
enum VOA_MODE_NONE { value 0; }
enum VOA_MODE_RELATIVE { value 1; }
enum VOA_MODE_ABSOLUTE { value 2; }
enum VOA_MODE_CONVERGED { value 3; }
enum VOA_MODE_MAXIMUM { value 4; }
enum VOA_MODE_FIXED { value 5; }
}
default VOA_MODE_NONE;
description "VOA_MODE_NONE: Attenuation on the port is disabled. The light on the port will
have the actual power level. VOA_MODE_ABSOLUTE: The output power of the port will be limited
to the atten-level, and will remain at that level if the input power is sufficient.
VOA_MODE_RELATIVE: The output power will be limited to atten-level above the input power on
the reference port, and will remain at that level if the input power is sufficient.
VOA_MODE_CONVERGED: This is similar in behaviour to
ABSOLUTE mode, but once the attenuation converges to the desired level the switch freezes the
VOA control loop. This reduces noise caused by the control loop continually striving to improve
the attenuation. VOA_MODE_MAXIMUM: Port will achieve the maximum attenuation level. In this
case configured attenuation level is not used. VOA_MODE_FIXED: Disables closed loop updating
of the attenuation feature for the specified port. Following issuance of this command, the port
will continue to hold their current attenuation level without any optical feedback. Thus, any
changes in input power levels will no longer be tracked";
}
leaf atten-level {
when "../atten-mode = 'VOA_MODE_ABSOLUTE' or ../atten-mode = 'VOA_MODE_RELATIVE'" +
"or ../atten-mode = 'VOA_MODE_CONVERGED'";
type floatFormat2d;
default 0;
description "The attenuated output level configured for this port. Specified in dBm
(or dB for RELATIVE as it is an offset value with respect to reference port).";
}
leaf reference-port {
when "../atten-mode = 'VOA_MODE_RELATIVE'";
type uint32;
default 0;
description "Reference ingress port for attenuation (for use with relative attenuation only).
If this port is specified as zero then the connected ingress port is used. For attenuation states
other than RELATIVE this data is ignored. When reading this object, a value of zero is returned
for all modes other than RELATIVE. For relative attenuation, the value returned is the current
reference port in use.";
}
}
}
container ports {
status "deprecated";
list port {
key port-id;
leaf port-id {
type portFormat;
description "Unique Id for port";
}
leaf port-label {
type namesFormatNullable;
description "When set, notifications will include the label.";
}
leaf port-state {
type enumeration {
enum PC_ENABLED { value 1; }
enum PC_DISABLED { value 2; }
}
default PC_ENABLED;
description "State of a port shutter. When port is enabled, shutter is open and
when port is disabled, shutter is closed.";
}
leaf port-status {
config false;
type PortStatus;
description "Switch port status. The switch can report FAILED port status when the port fails to
correctly report its state";
}
leaf peer-port {
type namesFormatNullable;
description "This leaf describes the remote port on another switch to which this
port is connected physically through the optical fibres. Management interface can
set this parameter to configure the network topology.";
}
container opm {
description "Optical Power Monitor (OPM) measures the optical signal strength in the fibre.";
leaf lambda {
type floatFormat2d;
default 1550.0;
description "Wavelength against which the power measurements are calibrated.
Specified in nm.";
}
leaf power-high-alarm {
type floatFormat2d;
default 25.0;
description "The switch will generate notifications should the power level go beyond this
level. Specified in dBm.";
}
leaf power-low-alarm {
type floatFormat2d;
default -60.0;
description "The switch will generate notifications should the power level go below this
level. Specified in dBm.";
}
leaf power-high-warning-offset {
type floatFormat2d;
default 0;
description "The switch will generate (warning) notifications should the power go beyond
the set level. This warning offset is subtracted from power-high-alarm to get the warning threshold.
A zero value means that warnings are disabled. Specified in dBm.";
}
leaf power-low-warning-offset {
type floatFormat2d;
default 0;
description "The switch can generate (warning) notifications should the power go below
the set level. This warning offset is added into power-low-alarm to get the warning threshold.
A zero value means that warnings are disabled. Specified in dBm.";
}
leaf power-alarm-control {
type enumeration {
enum POWER_ALARM_DISABLED;
enum POWER_ALARM_SINGLE;
enum POWER_ALARM_CONTINUOUS;
}
default POWER_ALARM_DISABLED;
description "Power alarms or notifications from ports can be individually enabled or disabled.
When power-alarm-control is POWER_ALARM_SINGLE then only one alarm is generated, following
which power-alarm-control reverts to POWER_ALARM_DISABLED.
When power-alarm-control is POWER_ALARM_CONTINUOUS then power alarms are always generated
when power levels exceed the defined power alarm thresholds.";
}
leaf power-alarm-status {
config false;
type enumeration {
enum POWER_ALARM_STATUS_OFF;
enum POWER_ALARM_STATUS_ARMED;
enum POWER_ALARM_STATUS_TRIGGERED;
}
description "POWER_ALARM_STATUS_OFF - Power alarms are not enabled.
POWER_ALARM_STATUS_ARMED - Alarms can be generated.
POWER_ALARM_STATUS_TRIGGERED - Port has an active alarm. When the alarm
clears, power-alarm-status will change to
one of POWER_ALARM_STATUS_OFF or
POWER_ALARM_STATUS_ARMED depending on the
power-alarm-control mode.";
}
leaf power {
config false;
type floatFormat2d;
description "Power readings for this port. Specified in dBm.";
}
container voa {
description "Variable Optical Attenuation (VOA) functionality controls the the optical
power level of light on the port. It allows to set the desired attenuation level
that the port should achieve.";
leaf attenuation-level {
type floatFormat2d;
default 0;
description "The attenuated output level configured for this port. Specified in dBm
(or dB for RELATIVE as it is an offset value with respect to reference port).";
}
leaf attenuation-mode {
type enumeration {
enum VOA_ATTEN_MODE_NONE { value 1; }
enum VOA_ATTEN_MODE_ABSOLUTE { value 2; }
enum VOA_ATTEN_MODE_RELATIVE { value 3; }
enum VOA_ATTEN_MODE_VENDOR { value 128; }
}
default VOA_ATTEN_MODE_NONE;
description " VOA_ATTEN_MODE_NONE: Attenuation on the port is disabled. The light on the
port will have the actual power level. VOA_ATTEN_MODE_ABSOLUTE: Port will achieve the configured
attentuation level and power of the light on the port will have the absolute level configured.
VOA_ATTEN_MODE_RELATIVE: Port will achieve the attentuation with respect to the power of the light
of the reference port. The actual attenuation achieved depends on the configured level and power
of the light of the reference port. VOA_ATTEN_MODE_VENDOR: This is vendor specific mode.";
}
leaf attenuation-reference-port {
type uint32;
default 0;
description "Reference port for attenuation (for use with relative attenuation only). If this port
is specified as zero then the default reference port will be used. The default port is the ingress
to which the egress port being attenuated is connected. For attenuation states other than RELATIVE
this data is ignored. When reading this object, a value of zero is returned for all modes other
than RELATIVE. For relative attenuation, the value returned is the current reference port in use.";
}
}
}
}
}
container cross-connects {
list pair {
key ingress;
leaf ingress {
type portFormat;
description "Input port that makes the connection pair.";
}
leaf egress {
type portFormat;
mandatory true;
description "Output port that makes the connection pair.";
}
}
description "List of all cross connections in the system.";
}
grouping network-interface-group {
leaf ip-address {
type inet:ip-address;
description "IP address of the switch control plane.";
}
leaf gateway {
type inet:ip-address;
description "Gateway address for the switch control plane.";
}
leaf subnet {
type inet:ip-address;
description "Subnet to which the switch control plane belongs.";
}
leaf broadcast {
type inet:ip-address;
description "Broadcast IP address for the switch control plane.";
}
}
container system-config {
list interface-status {
config false;
key name;
leaf name {
type string;
description "Unique name of the network interface";
}
uses network-interface-group;
leaf hw-addr {
type yang:mac-address;
}
description "List of Switch network interface and their current running configuration.";
}
list interface {
key name;
unique ip-address;
leaf name {
type string;
description "Network interface identifier (eth0 or eth1)";
}
uses network-interface-group;
description "List of Switch network interfaces and their configuration.
On system restart, switch will start to use this configuration as their running
configuration.";
}
list user {
key name;
leaf name {
type userNamesFormat;
description "The user name string identifying this entry.";
}
leaf type {
type enumeration {
enum RADIUS_USER { value 1; }
enum LOCAL_USER { value 2; }
}
mandatory true;
description "When set to RADIUS_USER, the user will be authenticated against the radius-servers.
When set to LOCAL_USER, the user will be authenticated locally.";
}
leaf password {
when "../type != 'RADIUS_USER'";
type namesFormatNullable;
description "The password for this entry. May not be set to empty, but will report empty.";
}
list authorized-key {
when "../type != 'RADIUS_USER'";
key name;
description "A list of public SSH keys for this user. These keys are allowed for SSH
authentication, as described in RFC 4253.";
reference "RFC 4253: The Secure Shell (SSH) Transport Layer Protocol";
leaf name {
type string;
description "An arbitrary name for the SSH key.";
}
leaf algorithm {
type string;
mandatory true;
description "The public key algorithm name for this SSH key. Valid values are the
values in the IANA 'Secure Shell (SSH) Protocol Parameters' registry, Public Key
Algorithm Names.";
reference "IANA 'Secure Shell (SSH) Protocol Parameters' registry, Public Key
Algorithm Names";
}
leaf key-data {
type binary;
mandatory true;
description "The binary public key data for this SSH key, as specified by RFC 4253,
Section 6.6, i.e.: string certificate or public key format identifier byte[n]
key/certificate data.";
reference "RFC 4253: The Secure Shell (SSH) Transport Layer Protocol";
}
}
description "The list of local users configured on this device. This model is adopted from
System Management yang model. (https://tools.ietf.org/html/rfc7317)";
}
container activity-log
{
description "Controls the audit log feature, which allows users in the admin group to
monitor user actions. Actions can be monitored in four major areas (log-filter).
Users in the admin group can change the scope of messages seen by users not in
the admin group (log-access).";
leaf log-filter {
type bits {
bit SYSTEM {position 0;}
bit USER {position 1;}
bit OXC {position 2;}
bit OPM {position 3;}
}
description "Defines which activity log messages are sent.
USER - changes to 'user' container and user sessions;
OXC - changes to 'cross-connect' and 'aps' containers, and 'port-set-state' rpc;
OPM - changes to 'opm-config', 'opm-alarm-config' and 'voa' containers;
SYSTEM - changes to 'system-config' container, except 'users'.";
}
leaf log-access {
type enumeration {
enum NONE { value 0; }
enum SELF { value 1; }
enum ALL { value 2; }
}
default NONE;
description "Defines whether users not in the admin group will receive activity logs, as defined by 'log-filter'.
NONE prevents users seeing activity logs.
SELF allows users to see activity logs for their own actions.
ALL allows users to see activity logs for all users actions.
Users in the admin group always receive all activity logs.";
}
leaf logging-enabled {
type boolean;
default false;
description "When set to true, activity logs are generated.";
}
}
container radius-servers
{
description "The list of RADIUS servers; the order of the list determines the priority of usage.
When a RADIUS server is added to this list, users can be authenticated by the RADIUS server.";
list radius-server {
key "ip-address port";
leaf ip-address {
type inet:ip-address;
description "Address of a RADIUS server.";
}
leaf port {
type uint32;
description "TCP port of the RADIUS server; defaults to 1812.";
}
leaf secret {
type secretFormat;
mandatory true;
description "The secret used to authenticate with the RADIUS server.";
}
leaf timeout {
type uint32 {
range "1..30";
}
default 3;
description "Time in seconds that the system waits before trying the next RADIUS server in the list.";
}
}
}
container ntp-servers
{
description "The list of NTP servers checked for time synchronization.";
list ntp-server {
key ip-address;
leaf ip-address {
type inet:ip-address;
description "Address of a NTP server to use";
}
leaf minpoll {
type uint32 {
range "4..6";
}
default 6;
description "The minimum polling period. (4=16s, 5=32s, 6=64s)";
}
leaf maxpoll {
type uint32 {
range "10..17";
}
default 10;
description "The maximum polling period. (10=1024s, 11=2048s ... 17=131072s)";
}
leaf version {
type uint32 {
range "1..4";
}
default 4;
description "The protocol version of the NTP server.";
}
}
}
container remote-syslog
{
description "The system supports reporting notifications to a remote server
using the syslog protocol, according to RFC 3164. This feature is enabled
by configuring 'rname'.";
leaf rname {
type inet:ipv4-address;
description "IP Address of remote collector. When configured the feature is enabled.";
}
leaf rport {
type inet:port-number;
description "UDP port of the remote server. Default port is 514.";
}
leaf facility {
type enumeration {
enum USER { value 8; }
enum LOCAL0 { value 128; }
enum LOCAL1 { value 136; }
enum LOCAL2 { value 144; }
enum LOCAL3 { value 152; }
enum LOCAL4 { value 160; }
enum LOCAL5 { value 168; }
enum LOCAL6 { value 176; }
enum LOCAL7 { value 184; }
}
default USER;
description "The facility to send messages under. Used at the collector to categorize the messages for storage or forwarding.";
}
must "(boolean(rname) = true()) or (boolean(rport) = false())" { error-message "Cannot have port without name"; }
}
container openflow
{
leaf host {
type inet:ipv4-address;
description "IPv4 address of openflow. Use 0.0.0.0 to disable sending. This field will change to inet:host type.";
}
leaf port {
type inet:port-number;
description "Port of openflow. Delete to remove the port.";
}
// must "(boolean(host) = true() and string(host) != '0.0.0.0') or (boolean(port) = false() or port = 0)" { error-message "Cannot have port without a host"; }
description "The connection for openflow. Errors if openflow not supported.";
}
container protocols
{
description "Defines which protocol interfaces are enabled
or disabled based on the 'enabled' leaf. Changes are applied at the next NIC reboot.
Only one interface for RS232 or USB can be enabled at a time.
A protocol interface may not disable itself.";
list protocol {
key protocol-id;
leaf protocol-id {
type uint32; // TODO: change to enum.
description "Defines the protocol internally, and is consistent between switches and releases.";
}
leaf protocol-name {
config false;
type string;
description "Human readable name of the interface protocol.";
}
leaf protocol-type {
config false;
type string;
description "Human readable description of the physical interface.";
}
leaf protocol-port {
config false;
type uint32;
description "TCP or UDP port number, if needed.";
}
leaf enabled {
type boolean;
default true;
description "When true, this interface will respond to commands.";
}
}
}
leaf current-datetime {
config false;
type yang:date-and-time;
description "The current system date and time.";
}
leaf boot-datetime {
config false;
type yang:date-and-time;
description "The system date and time when the system last restarted.";
}
leaf alarm-clear-hysteresis {
type decimal64 {
fraction-digits 2;
range "1..5";
}
default 1;
description "Added to 'power-low-alarm' and subtracted from 'power-high-alarm'
to generate alarm clear notifications. Specified in dBm.";
}
}
// APS config and status
container aps
{
description "Automatic Protection Switching (APS) provides optical redundancy on the Polatis switch.
When the switch detects signal failure on the primary optical path, it automatically switches to an alternative
optical path. The switch also provides manual operations to change the optical paths.
APS consists of list of protection services, where each service is a list of working and protection ports.";
list protection-service
{
key sname;
leaf sname {
type namesFormat;
description "Protection Service name.";
}
leaf active
{
config false;
type boolean;
description "When the Protection Service is active, protection switching will
occur automatically and the 'aps-command' rpc may be used.
Changes to the protection service may only be made when not active (configuring).
Use the 'aps-activate' rpc to change between active and configuring.";
}
list working-port
{
key port-id;
leaf port-id
{
type portFormat;
description "ID for the port that carries the payload under normal conditions, and which is protected by APS.";
}
leaf client
{
type uint32;
mandatory true;
description "ID for the port to which the working or protection port is connected while the service is active.";
}
leaf priority
{
type uint32;
default 0;
description "Defines an order in which protection is applied to multiple working ports.
When multiple signals have failed, the first available protection port will
be assigned to the failed port with the lowest value for this leaf.";
}
leaf wtr-timeout
{
type uint32;
default 0;
description "Wait To Restore timeout value. The delay in seconds from the detection
of a valid signal on the working port to switching the client back from protection.";
}
leaf ovs
{
type boolean;
default false;
description "Override Valid Signal. Set to true to create 1+1 protection service.
When false, switching occurs only when a valid signal is detected on the protection port.";
}
leaf protecting-port
{
config false;
type uint32;
description "ID for the port which is currently protecting the working port. Zero if not protected.";
}
leaf operational-state
{
config false;
type apsOperationalState;
description "The current operational state of the protected signal.";
}
leaf user_command
{
config false;
type apsFlags;
description "APS flags applied to this port.";
}
}
leaf-list protection-port
{
type uint32;
description "List of IDs for ports to which the client may switch on signal failure
or in response to a user command.";
}
}
}
container subswitches {
description "The switch can be partitioned into virtual switches. Each has a set of users and ports.
Only those users may configure or cross connect those ports.";
list subswitch {
key "sname";
leaf sname {
type string;
description "The sub-switch name";
}
leaf-list username {
type string;
description "List of users with permission to control the sub-switch";
}
leaf-list port-id {
type uint32;
description "List of IDs for ports in the sub-switch";
}
}
}
container groups {
description "Ports can be grouped as a signal entity to perform one-shot configurations.
Two groups are connected if the ports in both groups are connected in the order defined by the user.";
list group {
key group-name;
leaf group-name {
type groupNamesFormat;
}
leaf-list ingress {
type portFormat;
ordered-by user;
description "The ordered list of IDs for input or reconfigurable ports.";
}
leaf-list egress {
type portFormat;
ordered-by user;
description "The ordered list of IDs for output ports.";
}
leaf connected-group {
type groupNamesFormat;
config false;
description "The name of the connected group or empty if the group is not connected";
}
}
}
rpc set-current-datetime {
description "Set the /system-config/current-datetime leaf to the specified value.
Also changes /system-config/boot-datetime, relative to current-datetime";
input {
leaf current-datetime {
type yang:date-and-time;
mandatory true;
description "The current system date and time.";
}
}
}
rpc system-restart {
description "Request to reboot the Network Interface Card (NIC).";
input {
leaf seconds {
type uint32;
default 0;
description "Reboots the interface card after the specified delay in seconds.
Value of 0 will reboot immediately, and in that case there won't be any response";
}
}
}
rpc system-restart-cancel {
description "Request to cancel the reboot. This has no effect when 'system-restart' was not requested.";
}
// APS rpcs and notification
rpc aps-command {
description "Applies an APS command to a service, or one or more working ports.";
input {
leaf mask {
type apsFlags;
mandatory true;
description "A list of APS flags to be set or cleared. APS flags in this leaf but not in the 'flags' leaf will be cleared.";
}
leaf flags {
type apsFlags;
mandatory true;
description "A list of APS flags that will be set on execution of the command. This field should only contain APS flags from the 'mask' leaf.";
}
choice parameter
{
description "When 'sname' is specified the command applies to all the working ports in the service. Otherwise, the command is applied to the listed ports.";
mandatory true;
leaf sname
{
type namesFormat;
}
list port
{
key port-id;
leaf port-id {
type portFormat;
}
leaf target-port-id
{
type uint32;
default 0;
description "Used with FTP and MTP, when the user chooses the port
that should be protecting the working port. Ignored otherwise.";
}
}
}
}
}
rpc aps-activate {
input {
leaf sname {
type namesFormat;
}
leaf active {
type boolean;
mandatory true;
}
}
description "Used to set a protection service to active or configuring.";
}
rpc radius-server-set-position {
description "Changes the precedence of RADIUS servers. 'ip-address' and 'port' form the key for the list.";
input {
leaf ip-address {
type inet:ip-address;
mandatory true;
description "IP address of the RADIUS server.";
}
leaf port {
type portFormat;
mandatory true;
description "Port of the RADIUS server.";
}
leaf position {
type int32 {
range "1..5";
}
mandatory true;
description "Target precedence. Value 1 has the highest precedence.";
}
}
}
notification aps-notification {
leaf notification-details {
type string;
description "Message indicating which APS service or ports are affected.";
}
description "This is the notification which is sent when APS switching happens.";
}
}