diff options
Diffstat (limited to 'src/plugins/yang/openconfig/openconfig-channel-monitor.yang')
-rw-r--r-- | src/plugins/yang/openconfig/openconfig-channel-monitor.yang | 330 |
1 files changed, 0 insertions, 330 deletions
diff --git a/src/plugins/yang/openconfig/openconfig-channel-monitor.yang b/src/plugins/yang/openconfig/openconfig-channel-monitor.yang deleted file mode 100644 index c898677..0000000 --- a/src/plugins/yang/openconfig/openconfig-channel-monitor.yang +++ /dev/null @@ -1,330 +0,0 @@ -module openconfig-channel-monitor { - - yang-version "1"; - - // namespace - namespace "http://openconfig.net/yang/channel-monitor"; - - prefix "oc-chan-monitor"; - - // import some basic types - import openconfig-extensions { prefix oc-ext; } - import openconfig-types { prefix oc-types; } - import openconfig-interfaces { prefix oc-if; } - import openconfig-platform { prefix oc-platform; } - import openconfig-transport-types { prefix oc-opt-types; } - - - // meta - organization "OpenConfig working group"; - - contact - "OpenConfig working group - www.openconfig.net"; - - description - "This model describes operational state data for an optical - channel monitor (OCM) for optical transport line system - elements such as wavelength routers (ROADMs) and amplifiers."; - - oc-ext:openconfig-version "0.3.1"; - - revision "2017-09-08" { - description - "Correct bug with OSC interfaces"; - reference "0.3.1"; - } - - revision "2017-07-08" { - description - "Support multiple OCMs, add refs to hw ports, "; - reference "0.3.0"; - } - - revision "2017-03-28" { - description - "Added min/max/avg stats, status for media channels, OCM, APS"; - reference "0.2.0"; - } - - revision "2016-09-14" { - description - "Initial revision"; - reference "0.1.0"; - } - - - - // grouping statements - - grouping media-channel-port-config { - description - "Configuration data for a media channel source/dest port"; - - leaf port-name { - type oc-if:base-interface-ref; - description - "Reference to the corresponding node interface"; - } - } - - grouping media-channel-port-state { - description - "Operational state data for a media channel source/dest port"; - } - - grouping media-channel-source-port-top { - description - "Top-level grouping for source of the media channel"; - - container source { - description - "Top-level container for media channel source"; - - container config { - description - "Configuration data for the media channel source"; - - uses media-channel-port-config; - } - - container state { - - config false; - - description - "Operational state data for the media channel source"; - - uses media-channel-port-config; - uses media-channel-port-state; - } - } - } - - grouping media-channel-dest-port-top { - description - "Top-level grouping for destination of the media channel"; - - container dest { - description - "Top-level container for media channel destination"; - - container config { - description - "Configuration data for the media channel destination"; - - uses media-channel-port-config; - } - - container state { - - config false; - - description - "Operational state data for the media channel destination"; - - uses media-channel-port-config; - uses media-channel-port-state; - } - } - } - - grouping media-channel-psd-state { - description - "Operational state data for the media channel PSD"; - - leaf lower-frequency { - type oc-opt-types:frequency-type; - description - "Lower frequency of the specified PSD"; - } - - leaf upper-frequency { - type oc-opt-types:frequency-type; - description - "Upper frequency of the specified PSD"; - } - - leaf psd { - type oc-types:ieeefloat32; - units "nW/MHz"; - description - "Power spectral density expressed in nanowatts per - megahertz, nW/MHz. These units allow the value to often - be greater than 1.0. It also avoids dealing with zero values - for 0dBm. For example, a 40GHz wide channel - with 0dBm power would be: - 0dBm = 1mW = 10^6nW - 40GHz = 40,000MHz - 0dBm/40GHz = 10^6nW/40,000MHz = 1000/40 = 25"; - } - } - - - grouping media-channel-psd-top { - description - "Top-level grouping "; - - container channels { - description - "Enclosing container for the list of values describing - the power spectral density distribution"; - - list channel { - key "lower-frequency upper-frequency"; - config false; - description - "List of tuples describing the PSD distribution"; - - leaf lower-frequency { - type leafref { - path "../state/lower-frequency"; - } - description - "Reference to the list key"; - } - - leaf upper-frequency { - type leafref { - path "../state/upper-frequency"; - } - description - "Reference to the list key"; - } - - - container state { - - config false; - - description - "Operational state data for PSD"; - - uses media-channel-psd-state; - } - } - } - } - - grouping media-channel-config { - description - "Configuration data for media channel definitions"; - - leaf index { - type uint32; - description - "Identifier for the defined media channel"; - } - - leaf lower-frequency { - type oc-opt-types:frequency-type; - description - "The lower frequency for the spectrum defined by this media - channel"; - } - - leaf upper-frequency { - type oc-opt-types:frequency-type; - description - "The upper frequency for the spectrum defined by this media - channel"; - } - - } - - grouping channel-monitor-config { - description - "Configuration data for the optical channel monitor"; - - leaf name { - type leafref { - path "/oc-platform:components/oc-platform:component/" + - "oc-platform:name"; - } - description - "Reference to system-supplied name of the port on the - optical channel monitor (OCM). If this port is embedded - in another card (i.e. an amplifier card) the device - should still define a port representing the OCM even if - it is internal and not physically present on the - faceplate of the card"; - } - - leaf monitor-port { - type leafref { - path "/oc-platform:components/oc-platform:component/" + - "oc-platform:name"; - } - description - "Reference to system-supplied name of the port that the - channel monitor is physically connected to. This port - will be of type MONITOR. This port is a tap off of the - monitored-port and would be in the same card as the - monitored port. If this port is embedded in another card - (i.e. an amplifier card) the device should still define - a port representing the monitor port if it is internal - and not physically present on the faceplate of the card"; - } - } - - grouping channel-monitor-state { - description - "Operational state data "; - } - - grouping channel-monitor-top { - description - "Top-level grouping "; - - container channel-monitors { - description - "Top-level container for optical channel monitors"; - - list channel-monitor { - key "name"; - description - "List of channel monitors, keyed by channel monitor name."; - - leaf name { - type leafref { - path "../config/name"; - } - description - "References the optical channel monitor name"; - } - - container config { - description - "Configuration data "; - - uses channel-monitor-config; - } - - container state { - - config false; - - description - "Operational state data "; - - uses channel-monitor-config; - uses channel-monitor-state; - } - - uses media-channel-psd-top; - } - } - } - - // data definition statements - - uses channel-monitor-top; - - - // augment statements - - // rpc statements - - // notification statements - -} |