blob: db1e70e61d6a40ca045c65a9c26e47bee09855c0 [file] [log] [blame]
Toru Furusawa28988892017-10-30 17:28:40 -07001module tapi-eth {
Yuta HIGUCHI80d0bbd2018-02-28 11:13:11 -08002 namespace "urn:onf:otcc:yang:tapi-eth";
Toru Furusawa28988892017-10-30 17:28:40 -07003 prefix tapi-eth;
4 import tapi-common {
5 prefix tapi-common;
6 }
7 import tapi-topology {
8 prefix tapi-topology;
9 }
10 import tapi-connectivity {
11 prefix tapi-connectivity;
12 }
Yuta HIGUCHI80d0bbd2018-02-28 11:13:11 -080013 organization "ONF OTCC (Open Transport Configuration & Control) Project";
14 contact "
15 Project Web: <https://wiki.opennetworking.org/display/OTCC/TAPI>
16 Project List: <mailto:transport-api@opennetworking.org>
17 Editor: Karthik Sethuraman
18 <mailto:karthik.sethuraman@necam.com>";
19 description "
20 This module contains TAPI ETH Model definitions.
21 Source: TapiEth.uml
22 Copyright (c) 2018 Open Networking Foundation (ONF). All rights reserved.
23 License: This module is distributed under the Apache License 2.0";
24 revision 2018-02-16 {
25 description "ONF Transport API version 2.0.1
26 This YANG module has been generated from the TAPI UML Model using the IISOMI-Eagle xmi2yang mapping tool version .
27 <https://wiki.opennetworking.org/display/OIMT/IISOMI>
28 Changes in this revision: <https://github.com/OpenNetworkingFoundation/Snowmass-ONFOpenTransport/blob/develop/change-log.md>";
29 reference "ONF-TR-527, ONF-TR-512, ONF-TR-531, RFC 6020, RFC 6087 and ONF TAPI UML model
30 <https://github.com/OpenNetworkingFoundation/Snowmass-ONFOpenTransport/tree/develop/UML>";
Toru Furusawa28988892017-10-30 17:28:40 -070031 }
wu6a418d22018-02-02 01:49:21 -050032 augment "/tapi-common:context/tapi-topology:topology/tapi-topology:node/tapi-topology:owned-node-edge-point" {
33 uses eth-node-edge-point-spec;
34 description "Augments the base LayerProtocol information in NodeEndPoint with ETH-specific information";
Toru Furusawa28988892017-10-30 17:28:40 -070035 }
wu6a418d22018-02-02 01:49:21 -050036 augment "/tapi-common:context/tapi-topology:topology/tapi-topology:node/tapi-topology:owned-node-edge-point/tapi-connectivity:connection-end-point" {
37 uses eth-connection-end-point-spec;
38 description "Augments the base LayerProtocol information in ConnectionEndPoint with ETH-specific information";
Toru Furusawa28988892017-10-30 17:28:40 -070039 }
40 /***********************
41 * package object-classes
42 **********************/
wu6a418d22018-02-02 01:49:21 -050043 grouping eth-ctp-pac {
Toru Furusawa28988892017-10-30 17:28:40 -070044 leaf-list auxiliary-function-position-sequence {
45 type uint64;
46 description "This attribute indicates the positions (i.e., the relative order) of all the MEP, MIP, and TCS objects which are associated with the CTP.";
47 }
48 leaf vlan-config {
49 type uint64;
50 description "This attribute models the ETHx/ETH-m_A_So_MI_Vlan_Config information defined in G.8021.
51 range of type : -1, 0, 1..4094";
52 }
53 leaf csf-rdi-fdi-enable {
54 type boolean;
55 description "This attribute models the MI_CSFrdifdiEnable information defined in G.8021.";
56 }
57 leaf csf-report {
58 type boolean;
59 description "This attribute models the MI_CSF_Reported information defined in G.8021.
60 range of type : true, false";
61 }
62 leaf-list filter-config-snk {
63 type mac-address;
64 description "This attribute models the FilteConfig MI defined in 8.3/G.8021. It indicates the configured filter action for each of the 33 group MAC addresses for control frames. The 33 MAC addresses are:
65 01-80-C2-00-00-10,
66 01-80-C2-00-00-00 to 01-80-C2-00-00-0F, and
67 01-80-C2-00-00-20 to 01-80-C2-00-00-2F.
68 The filter action is Pass or Block.
69 If the destination address of the incoming ETH_CI_D matches one of the above addresses, the filter process shall perform the corresponding configured filter action.
70 If none of the above addresses match, the ETH_CI_D is passed.";
71 }
72 leaf mac-length {
73 type uint64;
74 default "2000";
75 description "This attribute models the MAC_Lenght MI defined in 8.6/G.8021 for the MAC Length Check process. It indicates the allowed maximum frame length in bytes.
76 range of type : 1518, 1522, 2000";
77 }
78 container filter-config {
79 uses control-frame-filter;
80 description "This attribute models the FilterConfig MI defined in section 8.3/G.8021. It indicates the configured filter action for each of the 33 group MAC addresses for control frames. The 33 MAC addresses are:
81 - All bridges address: 01-80-C2-00-00-10,
82 - Reserved addresses: 01-80-C2-00-00-00 to 01-80-C2-00-00-0F,
83 - GARP Application addresses: 01-80-C2-00-00-20 to 01-80-C2-00-00-2F.
84 The filter action is Pass or Block.
85 If the destination address of the incoming ETH_CI_D matches one of the above addresses, the filter process shall perform the corresponding configured filter action.
86 If none of the above addresses match, the ETH_CI_D is passed.";
87 }
88 leaf is-ssf-reported {
89 type boolean;
90 description "This attribute provisions whether the SSF defect should be reported as fault cause or not.
91 It models the ETH-LAG_FT_Sk_MI_SSF_Reported defined in G.8021.";
92 }
93 leaf pll-thr {
94 type uint64;
95 description "This attribute provisions the threshold for the number of active ports. If the number of active ports is more than zero but less than the provisioned threshold, a cPLL (Partial Link Loss) is raised. See section 9.7.1.2 of G.8021.
96 range of type : 0..number of ports";
97 }
98 leaf actor-oper-key {
99 type uint64;
100 config false;
101 description "See 802.1AX:
102 The current operational value of the Key for the Aggregator. The administrative Key value may differ from the operational Key value for the reasons discussed in 5.6.2.
103 The meaning of particular Key values is of local significance.
104 range of type : 16 bit";
105 }
106 leaf actor-system-id {
107 type mac-address;
108 description "See 802.1AX:
109 A MAC address used as a unique identifier for the System that contains this Aggregator.";
110 }
111 leaf actor-system-priority {
112 type uint64;
113 description "See 802.1AX:
114 Indicating the priority associated with the Actor’s System ID.
115 range of type : 2-octet";
116 }
117 leaf collector-max-delay {
118 type uint64;
119 description "See 802.1AX:
120 The value of this attribute defines the maximum delay, in tens of microseconds, that may be imposed by the Frame Collector between receiving a frame from an Aggregator Parser, and either delivering the frame to its MAC Client or discarding the frame (see IEEE 802.1AX clause 5.2.3.1.1).
121 range of type : 16-bit";
122 }
123 leaf data-rate {
124 type uint64;
125 config false;
126 description "See 802.1AX:
127 The current data rate, in bits per second, of the aggregate link. The value is calculated as N times the data rate of a single link in the aggregation, where N is the number of active links.";
128 }
129 leaf partner-oper-key {
130 type uint64;
131 config false;
132 description "See 802.1AX:
133 The current operational value of the Key for the Aggregator’s current protocol Partner. If the aggregation is manually configured, this Key value will be a value assigned by the local System.
134 range of type : 16-bit";
135 }
136 leaf partner-system-id {
137 type mac-address;
138 config false;
139 description "See 802.1AX:
140 A MAC address consisting of the unique identifier for the current protocol Partner of this Aggregator. A value of zero indicates that there is no known Partner. If the aggregation is manually configured, this System ID value will be a value assigned by the local System.";
141 }
142 leaf partner-system-priority {
143 type uint64;
144 config false;
145 description "See 802.1AX:
146 Indicates the priority associated with the Partner’s System ID. If the aggregation is manually configured, this System Priority value will be a value assigned by the local System.
147 range of type : 2-octet";
148 }
149 leaf csf-config {
150 type csf-config;
151 description "This attribute models the combination of all CSF related MI signals (MI_CSF_Enable, MI_CSFrdifdi_Enable, MI_CSFdci_Enable) as defined in G.8021.
152 range of type : true, false";
153 }
Yuta HIGUCHI80d0bbd2018-02-28 11:13:11 -0800154 container traffic-shaping {
155 uses traffic-shaping-pac;
156 description "none";
157 }
158 container traffic-conditioning {
159 uses traffic-conditioning-pac;
160 description "none";
161 }
Toru Furusawa28988892017-10-30 17:28:40 -0700162 description "none";
163 }
wu6a418d22018-02-02 01:49:21 -0500164 grouping eth-connection-end-point-spec {
Yuta HIGUCHI80d0bbd2018-02-28 11:13:11 -0800165 container eth-term {
166 uses eth-termination-pac;
167 description "none";
168 }
169 container eth-ctp {
170 uses eth-ctp-pac;
171 description "none";
172 }
Toru Furusawa28988892017-10-30 17:28:40 -0700173 description "none";
174 }
175 grouping eth-termination-pac {
176 container priority-regenerate {
177 uses priority-mapping;
178 description "This attribute models the ETHx/ETH-m _A_Sk_MI_P_Regenerate information defined in G.8021.";
179 }
180 leaf ether-type {
181 type vlan-type;
182 description "This attribute models the ETHx/ETH-m _A_Sk_MI_Etype information defined in G.8021.";
183 }
wu6a418d22018-02-02 01:49:21 -0500184 leaf-list filter-config-1 {
Toru Furusawa28988892017-10-30 17:28:40 -0700185 type mac-address;
186 description "This attribute models the ETHx/ETH-m_A_Sk_MI_Filter_Config information defined in G.8021.
187 It indicates the configured filter action for each of the 33 group MAC addresses for control frames.
188 The 33 MAC addresses are:
189 01-80-C2-00-00-10,
190 01-80-C2-00-00-00 to 01-80-C2-00-00-0F, and
191 01-80-C2-00-00-20 to 01-80-C2-00-00-2F.
192 The filter action is Pass or Block.
193 If the destination address of the incoming ETH_CI_D matches one of the above addresses, the filter process shall perform the corresponding configured filter action.
194 If none of the above addresses match, the ETH_CI_D is passed.
195 range of type : MacAddress:
196 01-80-C2-00-00-10,
197 01-80-C2-00-00-00 to
198 01-80-C2-00-00-0F, and
199 01-80-C2-00-00-20 to
200 01-80-C2-00-00-2F;
201 ActionEnum:
202 PASS, BLOCK";
203 }
204 leaf frametype-config {
205 type frame-type;
206 description "This attribute models the ETHx/ETH-m_A_Sk_MI_Frametype_Config information defined in G.8021.
207 range of type : see Enumeration";
208 }
209 leaf port-vid {
210 type vid;
211 default "1";
212 description "This attribute models the ETHx/ETH-m _A_Sk_MI_PVID information defined in G.8021.";
213 }
214 leaf priority-code-point-config {
215 type pcp-coding;
216 description "This attribute models the ETHx/ETH-m _A_Sk_MI_PCP_Config information defined in G.8021.
217 range of type : see Enumeration";
218 }
219 description "This object class models the Ethernet Flow Termination function located at a layer boundary.";
220 }
221 grouping ety-termination-pac {
222 leaf is-fts-enabled {
223 type boolean;
224 description "This attribute indicates whether Forced Transmitter Shutdown (FTS) is enabled or not. It models the ETYn_TT_So_MI_FTSEnable information.";
225 }
226 leaf is-tx-pause-enabled {
227 type boolean;
228 description "This attribute identifies whether the Transmit Pause process is enabled or not. It models the MI_TxPauseEnable defined in G.8021.";
229 }
230 leaf phy-type {
231 type ety-phy-type;
232 config false;
233 description "This attribute identifies the PHY type of the ETY trail termination. See IEEE 802.3 clause 30.3.2.1.2.";
234 }
235 leaf-list phy-type-list {
236 type ety-phy-type;
237 config false;
238 description "This attribute identifies the possible PHY types that could be supported at the ETY trail termination. See IEEE 802.3 clause 30.3.2.1.3.";
239 }
240 description "none";
241 }
242 grouping traffic-conditioning-pac {
Yuta HIGUCHI80d0bbd2018-02-28 11:13:11 -0800243 list prio-config-list {
Toru Furusawa28988892017-10-30 17:28:40 -0700244 config false;
245 uses priority-configuration;
246 description "This attribute indicates the Priority Splitter function for the mapping of the Ethernet frame priority (ETH_CI_P) values to the output queue.";
247 }
248 list cond-config-list {
249 config false;
250 uses traffic-conditioning-configuration;
251 description "This attribute indicates for the conditioner process the conditioning parameters:
252 - Queue ID: Indicates the Queue ID
253 - Committed Information Rate (CIR): number of bits per second
254 - Committed Burst Size (CBS): number of bytes
255 - Excess Information Rate (EIR): number of bits per second
256 - Excess Burst Size (EBS): number of bytes
257 - Coupling flag (CF): 0 or 1
258 - Color mode (CM): color-blind and color-aware.";
259 }
Yuta HIGUCHI80d0bbd2018-02-28 11:13:11 -0800260 leaf codirectional {
Toru Furusawa28988892017-10-30 17:28:40 -0700261 type boolean;
262 config false;
263 description "This attribute indicates the direction of the conditioner. The value of true means that the conditioner (modeled as a TCS Sink according to G.8021) is associated with the sink part of the containing CTP. The value of false means that the conditioner (modeled as a TCS Sink according to G.8021) is associated with the source part of the containing CTP.";
264 }
265 description "This object class models the ETH traffic conditioning function as defined in G.8021.
266 Basic attributes: codirectional, condConfigList, prioConfigList";
267 }
268 grouping traffic-shaping-pac {
269 list prio-config-list {
270 config false;
271 uses priority-configuration;
272 description "This attribute configures the Priority Splitter function for the mapping of the Ethernet frame priority (ETH_CI_P) values to the output queue.";
273 }
274 list queue-config-list {
275 config false;
276 uses queue-configuration;
277 description "This attribute configures the Queue depth and Dropping threshold parameters of the Queue process. The Queue depth sets the maximum size of the queue in bytes. An incoming ETH_CI traffic unit is dropped if there is insufficient space in the queue to hold the whole unit. The Dropping threshold sets the threshold of the queue. If the queue is filled beyond this threshold, incoming ETH_CI traffic units accompanied by the ETH_CI_DE signal set are dropped.";
278 }
279 leaf sched-config {
280 type scheduling-configuration;
281 config false;
282 description "This attribute configures the scheduler process. The value of this attribute is for further study because it is for further study in G.8021.
283 Scheduler is a pointer to a Scheduler object, which is to be defined in the future (because in G.8021, this is FFS).
284 Note that the only significance of the GTCS function defined in G.8021 is the use of a common scheduler for shaping. Given that, G.8052 models the common scheduler feature by having a common value for this attribute.";
285 }
286 leaf codirectional {
287 type boolean;
288 config false;
289 description "This attribute indicates the direction of the shaping function. The value of true means that the shaping (modeled as a TCS Source according to G.8021) is associated with the source part of the containing CTP. The value of false means that the shaping (modeled as a TCS Source according to G.8021) is associated with the sink part of the containing CTP.";
290 }
291 description "This object class models the ETH traffic shaping function as defined in G.8021.
292 Basic attribute: codirectional, prioConfigList, queueConfigList, schedConfig";
293 }
wu6a418d22018-02-02 01:49:21 -0500294 grouping eth-node-edge-point-spec {
Yuta HIGUCHI80d0bbd2018-02-28 11:13:11 -0800295 container ety-term {
296 uses ety-termination-pac;
297 description "none";
298 }
Toru Furusawa28988892017-10-30 17:28:40 -0700299 description "none";
300 }
301
302 /***********************
303 * package type-definitions
304 **********************/
305 grouping priority-configuration {
306 leaf priority {
307 type uint64 {
308 range "0..7";
309 }
310 description "none";
311 }
312 leaf queue-id {
313 type uint64 {
314 range "1..8";
315 }
316 description "none";
317 }
318 description "none";
319 }
320 grouping queue-configuration {
321 leaf queue-id {
322 type uint64;
323 description "This attribute indicates the queue id.";
324 }
325 leaf queue-depth {
326 type uint64;
327 description "This attribute defines the depth of the queue in bytes.";
328 }
329 leaf queue-threshold {
330 type uint64;
331 description "This attribute defines the threshold of the queue in bytes.";
332 }
333 description "none";
334 }
335 grouping traffic-conditioning-configuration {
336 leaf cir {
337 type uint64;
338 description "This attribute indicates the Committed Information Rate in bits/s.";
339 }
340 leaf cbs {
341 type uint64;
342 description "This attribute indicates the Committed Burst Size in bytes.";
343 }
344 leaf eir {
345 type uint64;
346 description "This attribute indicates the Excess Information Rate in bits/s.";
347 }
348 leaf ebs {
349 type uint64;
350 description "This attribute indicates the Excess Burst Size in bytes.";
351 }
352 leaf coupling-flag {
353 type boolean;
354 description "This attribute indicates the coupling flag.";
355 }
356 leaf colour-mode {
357 type colour-mode;
358 description "This attribute indicates the colour mode.";
359 }
360 leaf queue-id {
361 type uint64 {
362 range "1..8";
363 }
364 description "This attribute indicates the queue id.";
365 }
366 description "none";
367 }
368 typedef mac-address {
369 type string;
370 description "This primitive data type contains an Ethernet MAC address defined by IEEE 802a. The format of the address consists of 12 hexadecimal characters, grouped in pairs and separated by '-' (e.g., 03-27-AC-75-3E-1D).";
371 }
372 grouping priority-mapping {
373 leaf priority-0 {
374 type uint64 {
375 range "0..7";
376 }
377 description "This attribute defines the new priority value for the old priority value 0.";
378 }
379 leaf priority-1 {
380 type uint64 {
381 range "0..7";
382 }
383 default "1";
384 description "This attribute defines the new priority value for the old priority value 1.";
385 }
386 leaf priority-2 {
387 type uint64 {
388 range "0..7";
389 }
390 default "2";
391 description "This attribute defines the new priority value for the old priority value 2.";
392 }
393 leaf priority-3 {
394 type uint64 {
395 range "0..7";
396 }
397 default "3";
398 description "This attribute defines the new priority value for the old priority value 3.";
399 }
400 leaf priority-4 {
401 type uint64 {
402 range "0..7";
403 }
404 default "4";
405 description "This attribute defines the new priority value for the old priority value 4.";
406 }
407 leaf priority-5 {
408 type uint64 {
409 range "0..7";
410 }
411 default "5";
412 description "This attribute defines the new priority value for the old priority value 5.";
413 }
414 leaf priority-6 {
415 type uint64 {
416 range "0..7";
417 }
418 default "6";
419 description "This attribute defines the new priority value for the old priority value 6.";
420 }
421 leaf priority-7 {
422 type uint64 {
423 range "0..7";
424 }
425 default "7";
426 description "This attribute defines the new priority value for the old priority value 7.";
427 }
428 description "This data type provides the priority mapping done in the 'P Regenerate' process defined in G.8021.";
429 }
430 typedef vid {
431 type string;
432 description "This primitive type models the 12 Bit VLAN identifier of a VLAN tag.";
433 }
434 typedef modify-cross-connection-data {
435 type string;
436 description "none";
437 }
438 grouping address-tuple {
439 leaf address {
440 type mac-address;
441 description "This attribute contains the MAC address of the address tuple.";
442 }
443 leaf-list port-list {
444 type mac-address;
445 description "This attribute contains the ports associated to the MAC address in the address tuple.";
446 }
447 description "This data type contains an address tuple consisting of a MAC address and a corresponding port list.";
448 }
449 typedef scheduling-configuration {
450 type string;
451 description "The syntax of this dataType is pending on the specification in G.8021, which is for further study.";
452 }
453 grouping control-frame-filter {
454 leaf c-2-00-00-10 {
455 type boolean;
456 description "This attribute identifies the 'All LANs Bridge Management Group Address'.";
457 }
458 leaf c-2-00-00-00 {
459 type boolean;
460 description "This attribute identifies the STP/RSTP/MSTP protocol address.";
461 }
462 leaf c-2-00-00-01 {
463 type boolean;
464 description "This attribute identifies the IEEE MAC-specific Control Protocols group address (PAUSE protocol).";
465 }
466 leaf c-2-00-00-02 {
467 type boolean;
468 description "This attribute identifies the IEEE 802.3 Slow_Protocols_Multicast address (LACP/LAMP or Link OAM protocols).";
469 }
470 leaf c-2-00-00-03 {
471 type boolean;
472 description "This attribute identifies the Nearest non-TPMR Bridge group address (Port Authentication protocol).";
473 }
474 leaf c-2-00-00-04 {
475 type boolean;
476 description "This attribute identifies the IEEE MAC-specific Control Protocols group address.";
477 }
478 leaf c-2-00-00-05 {
479 type boolean;
480 description "Reserved for future standardization.";
481 }
482 leaf c-2-00-00-06 {
483 type boolean;
484 description "Reserved for future standardization.";
485 }
486 leaf c-2-00-00-07 {
487 type boolean;
488 description "This attribute identifies the Metro Ethernet Forum E-LMI protocol group address.";
489 }
490 leaf c-2-00-00-08 {
491 type boolean;
492 description "This attribute identifies the Provider Bridge Group address.";
493 }
494 leaf c-2-00-00-09 {
495 type boolean;
496 description "Reserved for future standardization.";
497 }
498 leaf c-2-00-00-0-a {
499 type boolean;
500 description "Reserved for future standardization.";
501 }
502 leaf c-2-00-00-0-b {
503 type boolean;
504 description "Reserved for future standardization.";
505 }
506 leaf c-2-00-00-0-c {
507 type boolean;
508 description "Reserved for future standardization.";
509 }
510 leaf c-2-00-00-0-d {
511 type boolean;
512 description "This attribute identifies the Provider Bridge MVRP address.";
513 }
514 leaf c-2-00-00-0-e {
515 type boolean;
516 description "This attribute identifies the Individual LAN Scope group address, Nearest Bridge group address (LLDP protocol).";
517 }
518 leaf c-2-00-00-0-f {
519 type boolean;
520 description "Reserved for future standardization.";
521 }
522 leaf c-2-00-00-20 {
523 type boolean;
524 description "This attribute identifies the Customer and Provider Bridge MMRP address.";
525 }
526 leaf c-2-00-00-21 {
527 type boolean;
528 description "This attribute identifies the Customer Bridge MVRP address.";
529 }
530 leaf c-2-00-00-22 {
531 type boolean;
532 description "Reserved for future standardization.";
533 }
534 leaf c-2-00-00-23 {
535 type boolean;
536 description "Reserved for future standardization.";
537 }
538 leaf c-2-00-00-24 {
539 type boolean;
540 description "Reserved for future standardization.";
541 }
542 leaf c-2-00-00-25 {
543 type boolean;
544 description "Reserved for future standardization.";
545 }
546 leaf c-2-00-00-26 {
547 type boolean;
548 description "Reserved for future standardization.";
549 }
550 leaf c-2-00-00-27 {
551 type boolean;
552 description "Reserved for future standardization.";
553 }
554 leaf c-2-00-00-28 {
555 type boolean;
556 description "Reserved for future standardization.";
557 }
558 leaf c-2-00-00-29 {
559 type boolean;
560 description "Reserved for future standardization.";
561 }
562 leaf c-2-00-00-2-a {
563 type boolean;
564 description "Reserved for future standardization.";
565 }
566 leaf c-2-00-00-2-b {
567 type boolean;
568 description "Reserved for future standardization.";
569 }
570 leaf c-2-00-00-2-c {
571 type boolean;
572 description "Reserved for future standardization.";
573 }
574 leaf c-2-00-00-2-d {
575 type boolean;
576 description "Reserved for future standardization.";
577 }
578 leaf c-2-00-00-2-e {
579 type boolean;
580 description "Reserved for future standardization.";
581 }
582 leaf c-2-00-00-2-f {
583 type boolean;
584 description "Reserved for future standardization.";
585 }
586 description "This data type identifies the filter action for each of the 33 group MAC addresses (control frames).
587 Value 'false' means block: The frame is discarded by the filter process.
588 Value 'true' means pass: The frame is passed unchanged through the filter process.";
589 }
590 grouping bandwidth-report {
591 leaf source-mac-address {
592 type mac-address;
593 description "The sourceMacAddress is the address from the far end.";
594 }
595 leaf port-id {
596 type uint64;
597 description "This attribute returns the far end port identifier.";
598 }
599 leaf nominal-bandwidth {
600 type uint64;
601 description "This attribute returns the configured bandwidth";
602 }
603 leaf current-bandwidth {
604 type uint64;
605 description "This attribute returns the current bandwidth.";
606 }
607 description "Data type for the bandwidth report.";
608 }
609 typedef admin-state {
610 type enumeration {
wu6a418d22018-02-02 01:49:21 -0500611 enum LOCK {
Toru Furusawa28988892017-10-30 17:28:40 -0700612 description "none";
613 }
wu6a418d22018-02-02 01:49:21 -0500614 enum NORMAL {
Toru Furusawa28988892017-10-30 17:28:40 -0700615 description "none";
616 }
617 }
618 description "none";
619 }
620 typedef colour-mode {
621 type enumeration {
wu6a418d22018-02-02 01:49:21 -0500622 enum COLOUR_BLIND {
Toru Furusawa28988892017-10-30 17:28:40 -0700623 description "none";
624 }
wu6a418d22018-02-02 01:49:21 -0500625 enum COLOUR_AWARE {
Toru Furusawa28988892017-10-30 17:28:40 -0700626 description "none";
627 }
628 }
629 description "none";
630 }
631 typedef csf-config {
632 type enumeration {
wu6a418d22018-02-02 01:49:21 -0500633 enum DISABLED {
Toru Furusawa28988892017-10-30 17:28:40 -0700634 description "This literal covers the following states of the CSF related MI informations:
635 - MI_CSF_Enable is false
636 - MI_CSFrdifdi_Enable is false
637 - MI_CSFdci_Enable is false.";
638 }
wu6a418d22018-02-02 01:49:21 -0500639 enum ENABLED {
Toru Furusawa28988892017-10-30 17:28:40 -0700640 description "This literal covers the following states of the CSF related MI informations:
641 - MI_CSF_Enable is true
642 - MI_CSFrdifdi_Enable is false
643 - MI_CSFdci_Enable is false.";
644 }
wu6a418d22018-02-02 01:49:21 -0500645 enum ENABLED_WITH_RDI_FDI {
Toru Furusawa28988892017-10-30 17:28:40 -0700646 description "This literal covers the following states of the CSF related MI informations:
647 - MI_CSF_Enable is true
648 - MI_CSFrdifdi_Enable is true
649 - MI_CSFdci_Enable is false.";
650 }
wu6a418d22018-02-02 01:49:21 -0500651 enum ENABLED_WITH_RDI_FDI_DCI {
Toru Furusawa28988892017-10-30 17:28:40 -0700652 description "This literal covers the following states of the CSF related MI informations:
653 - MI_CSF_Enable is true
654 - MI_CSFrdifdi_Enable is true
655 - MI_CSFdci_Enable is true.";
656 }
wu6a418d22018-02-02 01:49:21 -0500657 enum ENABLED_WITH_DCI {
Toru Furusawa28988892017-10-30 17:28:40 -0700658 description "This literal covers the following states of the CSF related MI informations:
659 - MI_CSF_Enable is true
660 - MI_CSFrdifdi_Enable is false
661 - MI_CSFdci_Enable is true.";
662 }
663 }
664 description "none";
665 }
666 typedef ety-phy-type {
667 type enumeration {
wu6a418d22018-02-02 01:49:21 -0500668 enum OTHER {
Toru Furusawa28988892017-10-30 17:28:40 -0700669 description "none";
670 }
wu6a418d22018-02-02 01:49:21 -0500671 enum UNKNOWN {
Toru Furusawa28988892017-10-30 17:28:40 -0700672 description "none";
673 }
wu6a418d22018-02-02 01:49:21 -0500674 enum NONE {
Toru Furusawa28988892017-10-30 17:28:40 -0700675 description "none";
676 }
wu6a418d22018-02-02 01:49:21 -0500677 enum 2BASE_TL {
Toru Furusawa28988892017-10-30 17:28:40 -0700678 description "none";
679 }
wu6a418d22018-02-02 01:49:21 -0500680 enum 10MBIT_S {
Toru Furusawa28988892017-10-30 17:28:40 -0700681 description "none";
682 }
wu6a418d22018-02-02 01:49:21 -0500683 enum 10PASS_TS {
Toru Furusawa28988892017-10-30 17:28:40 -0700684 description "none";
685 }
wu6a418d22018-02-02 01:49:21 -0500686 enum 100BASE_T4 {
Toru Furusawa28988892017-10-30 17:28:40 -0700687 description "none";
688 }
wu6a418d22018-02-02 01:49:21 -0500689 enum 100BASE_X {
Toru Furusawa28988892017-10-30 17:28:40 -0700690 description "none";
691 }
wu6a418d22018-02-02 01:49:21 -0500692 enum 100BASE_T2 {
Toru Furusawa28988892017-10-30 17:28:40 -0700693 description "none";
694 }
wu6a418d22018-02-02 01:49:21 -0500695 enum 1000BASE_X {
Toru Furusawa28988892017-10-30 17:28:40 -0700696 description "none";
697 }
wu6a418d22018-02-02 01:49:21 -0500698 enum 1000BASE_T {
Toru Furusawa28988892017-10-30 17:28:40 -0700699 description "none";
700 }
wu6a418d22018-02-02 01:49:21 -0500701 enum 10GBASE-X {
Toru Furusawa28988892017-10-30 17:28:40 -0700702 description "none";
703 }
wu6a418d22018-02-02 01:49:21 -0500704 enum 10GBASE_R {
Toru Furusawa28988892017-10-30 17:28:40 -0700705 description "none";
706 }
wu6a418d22018-02-02 01:49:21 -0500707 enum 10GBASE_W {
Toru Furusawa28988892017-10-30 17:28:40 -0700708 description "none";
709 }
710 }
711 description "none";
712 }
713 typedef frame-type {
714 type enumeration {
wu6a418d22018-02-02 01:49:21 -0500715 enum ADMIT_ONLY_VLAN_TAGGED_FRAMES {
Toru Furusawa28988892017-10-30 17:28:40 -0700716 description "none";
717 }
wu6a418d22018-02-02 01:49:21 -0500718 enum ADMIT_ONLY_UNTAGGED_AND_PRIORITY_TAGGED_FRAMES {
Toru Furusawa28988892017-10-30 17:28:40 -0700719 description "none";
720 }
wu6a418d22018-02-02 01:49:21 -0500721 enum ADMIT_ALL_FRAMES {
Toru Furusawa28988892017-10-30 17:28:40 -0700722 description "none";
723 }
724 }
725 description "none";
726 }
727 typedef oam-period {
728 type enumeration {
wu6a418d22018-02-02 01:49:21 -0500729 enum 3_33MS {
Toru Furusawa28988892017-10-30 17:28:40 -0700730 description "Default for protection.";
731 }
wu6a418d22018-02-02 01:49:21 -0500732 enum 10MS {
Toru Furusawa28988892017-10-30 17:28:40 -0700733 description "none";
734 }
wu6a418d22018-02-02 01:49:21 -0500735 enum 100MS {
Toru Furusawa28988892017-10-30 17:28:40 -0700736 description "none";
737 }
wu6a418d22018-02-02 01:49:21 -0500738 enum 1S {
Toru Furusawa28988892017-10-30 17:28:40 -0700739 description "none";
740 }
wu6a418d22018-02-02 01:49:21 -0500741 enum 10S {
Toru Furusawa28988892017-10-30 17:28:40 -0700742 description "none";
743 }
wu6a418d22018-02-02 01:49:21 -0500744 enum 1MIN {
Toru Furusawa28988892017-10-30 17:28:40 -0700745 description "none";
746 }
wu6a418d22018-02-02 01:49:21 -0500747 enum 10MIN {
Toru Furusawa28988892017-10-30 17:28:40 -0700748 description "none";
749 }
750 }
751 description "Provides the frequency for the OAM PDU insertion.";
752 }
753 typedef pcp-coding {
754 type enumeration {
wu6a418d22018-02-02 01:49:21 -0500755 enum 8P0D {
Toru Furusawa28988892017-10-30 17:28:40 -0700756 description "none";
757 }
wu6a418d22018-02-02 01:49:21 -0500758 enum 7P1D {
Toru Furusawa28988892017-10-30 17:28:40 -0700759 description "none";
760 }
wu6a418d22018-02-02 01:49:21 -0500761 enum 6P2D {
Toru Furusawa28988892017-10-30 17:28:40 -0700762 description "none";
763 }
wu6a418d22018-02-02 01:49:21 -0500764 enum 5P3D {
Toru Furusawa28988892017-10-30 17:28:40 -0700765 description "none";
766 }
wu6a418d22018-02-02 01:49:21 -0500767 enum DEI {
Toru Furusawa28988892017-10-30 17:28:40 -0700768 description "This enumeration value means that all priorities should be drop eligible.
769 DEI = Drop Eligibility Indicator";
770 }
771 }
772 description "This enum models the coding of the Priority Code Point as defined in section 'Priority Code Point encoding' of IEEE 802.1Q.";
773 }
774 typedef vlan-type {
775 type enumeration {
wu6a418d22018-02-02 01:49:21 -0500776 enum C_Tag {
Toru Furusawa28988892017-10-30 17:28:40 -0700777 description "0x8100";
778 }
wu6a418d22018-02-02 01:49:21 -0500779 enum S_Tag {
Toru Furusawa28988892017-10-30 17:28:40 -0700780 description "0x88a8";
781 }
wu6a418d22018-02-02 01:49:21 -0500782 enum I_Tag {
Toru Furusawa28988892017-10-30 17:28:40 -0700783 description "88-e7";
784 }
785 }
786 description "This enumeration contains the Ethertypes defined in IEEE 802.1Q.";
787 }
788
789}