[SEBA-434] Replacing omci-sim with omci-lib-go
Change-Id: I499afc9ec49bb483467ea93bd6ce3077dd0ccc6e
diff --git a/vendor/github.com/opencord/omci-lib-go/generated/priorityqueue.go b/vendor/github.com/opencord/omci-lib-go/generated/priorityqueue.go
new file mode 100644
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+++ b/vendor/github.com/opencord/omci-lib-go/generated/priorityqueue.go
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+/*
+ * Copyright (c) 2018 - present. Boling Consulting Solutions (bcsw.net)
+ * Copyright 2020-present Open Networking Foundation
+
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+
+ * http://www.apache.org/licenses/LICENSE-2.0
+
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+/*
+ * NOTE: This file was generated, manual edits will be overwritten!
+ *
+ * Generated by 'goCodeGenerator.py':
+ * https://github.com/cboling/OMCI-parser/README.md
+ */
+
+package generated
+
+import "github.com/deckarep/golang-set"
+
+// PriorityQueueClassID is the 16-bit ID for the OMCI
+// Managed entity Priority queue
+const PriorityQueueClassID ClassID = ClassID(277)
+
+var priorityqueueBME *ManagedEntityDefinition
+
+// PriorityQueue (class ID #277)
+// NOTE 1 - In [ITU-T G.984.4], this is called a priority queue-G.
+//
+// This ME specifies the priority queue used by a GEM port network CTP in the upstream direction.
+// The upstream priority queue ME is also related to a T-CONT ME. By default, this relationship is
+// fixed by the ONU hardware architecture, but some ONUs may also permit the relationship to be
+// configured through the OMCI, as indicated by the QoS configuration flexibility attribute of the
+// ONU2G ME.
+//
+// In the downstream direction, priority queues are associated with UNIs. Again, the association is
+// fixed by default, but some ONUs may permit the association to be configured through the OMCI.
+//
+// If an ONU as a whole contains priority queues, it instantiates these queues autonomously.
+// Priority queues may also be localized to pluggable circuit packs, in which case the ONU creates
+// and deletes them in accordance with circuit pack pre-provisioning and the equipped
+// configuration.
+//
+// The OLT can find all the queues by reading the priority queue ME instances. If the OLT tries to
+// retrieve a non-existent priority queue, the ONU denies the get action with an error indication.
+//
+// See also Appendix II.
+//
+// Priority queues can exist in the ONU core and circuit packs serving both UNI and ANI functions.
+// Therefore, they can be indirectly created and destroyed through cardholder provisioning actions.
+//
+// In the upstream direction, the weight attribute permits the configuring of an optional traffic
+// scheduler. Several attributes support back pressure operation, whereby a back-pressure signal is
+// sent backwards and causes the attached terminal to temporarily suspend sending data.
+//
+// In the downstream direction, strict priority discipline among the queues serving a given UNI is
+// the default, with priorities established through the related port attribute. If two or more non-
+// empty queues have the same priority, capacity is allocated among them in proportion to their
+// weights. Note that the details of the downstream model differ from those of the upstream model.
+//
+// The yellow packet drop thresholds specify the drop probability for a packet that has been marked
+// yellow (drop eligible) by a traffic descriptor or by external equipment such as a residential
+// gateway (RG). If the current average queue occupancy is less than the minimum threshold, the
+// yellow packet drop probability is zero. If the current average queue occupancy is greater than
+// or equal to the maximum threshold, the yellow packet drop probability is one. The yellow drop
+// probability increases linearly between 0 and max_p as the current average queue occupancy
+// increases from the minimum to the maximum threshold.
+//
+// The same model can be configured for green packets, those regarded as being within the traffic
+// contract.
+//
+// Drop precedence colour marking indicates the method by which a packet is marked as drop eligible
+// (yellow). For discard eligibility indicator (DEI) and priority code point (PCP) marking, a drop
+// eligible indicator is equivalent to yellow colour; otherwise, the colour is green. For
+// differentiated services code point (DSCP) assured forwarding (AF) marking, the lowest drop
+// precedence is equivalent to green; otherwise, the colour is yellow.
+//
+// Relationships
+// One or more instances of this ME are associated with the ONU-G ME to model upstream priority
+// queues if the traffic management option attribute in the ONU-G ME is 0 or 2.//// One or more instances of this ME are associated with a PPTP UNI ME as downstream priority
+// queues. Downstream priority queues may or may not be provided for a virtual Ethernet interface
+// point (VEIP).
+//
+// Attributes
+// Managed Entity Id
+// Managed entity ID: This attribute uniquely identifies each instance of this ME. The MSB
+// represents the direction (1: upstream, 0:-downstream). The 15 LSBs represent a queue ID. The
+// queue ID is numbered in ascending order by the ONU itself. It is strongly encouraged that the
+// queue ID be formulated to simplify finding related queues. One way to do this is to number the
+// queues such that the related port attributes are in ascending order (for the downstream and
+// upstream queues separately). The range of downstream queue ids is 0 to 0x7FFF and the range of
+// upstream queue ids is 0x8000 to 0xFFFF. (R) (mandatory) (2-bytes)
+//
+// Queue Configuration Option
+// Queue configuration option: This attribute identifies the buffer partitioning policy. The value
+// 1 means that several queues share one buffer of maximum queue size, while the value 0 means that
+// each queue has an individual buffer of maximum queue size. (R) (mandatory) (1-byte)
+//
+// Maximum Queue Size
+// NOTE 2 - In this and the other similar attributes of the priority queue ME, some legacy
+// implementations may take the queue scale factor from the GEM block length attribute of the ANI-G
+// ME. This option is discouraged in new implementations.
+//
+// Allocated Queue Size
+// Allocated queue size: This attribute identifies the allocated size of this queue, in bytes,
+// scaled by the priority queue scale factor attribute of the ONU2G. (R, W) (mandatory) (2 bytes)
+//
+// Discard_Block Counter Reset Interval
+// Discard-block counter reset interval: This attribute represents the interval in milliseconds at
+// which the counter resets itself. (R,-W) (optional) (2-bytes)
+//
+// Threshold Value For Discarded Blocks Due To Buffer Overflow
+// Threshold value for discarded blocks due to buffer overflow: This attribute specifies the
+// threshold for the number of bytes (scaled by the priority queue scale factor attribute of the
+// ONU2G) discarded on this queue due to buffer overflow. Its value controls the declaration of the
+// block loss alarm. (R, W) (optional) (2-bytes)
+//
+// Related Port
+// If flexible configuration is not supported, the ONU should reject an attempt to set the related
+// port with a parameter error result-reason code.
+//
+// Traffic Scheduler Pointer
+// The ONU should reject an attempt to violate these conditions with a parameter error result-
+// reason code.
+//
+// Weight
+// Weight: This attribute represents weight for WRR scheduling. At a given priority level, capacity
+// is distributed to non-empty queues in proportion to their weights. In the upstream direction,
+// this weight is meaningful if several priority queues are associated with a traffic scheduler or
+// T-CONT whose policy is WRR. In the downstream direction, this weight is used by a UNI in a WRR
+// fashion. Upon ME instantiation, the ONU sets this attribute to 1. (R,-W) (mandatory) (1-byte)
+//
+// Back Pressure Operation
+// Back pressure operation: This attribute enables (0) or disables (1) back pressure operation. Its
+// default value is 0. (R,-W) (mandatory) (2-bytes)
+//
+// Back Pressure Time
+// Back pressure time: This attribute specifies the duration in microseconds of the backpressure
+// signal. It can be used as a pause time for an Ethernet UNI. Upon ME instantiation, the ONU sets
+// this attribute to 0. (R,-W) (mandatory) (4-bytes)
+//
+// Back Pressure Occur Queue Threshold
+// Back pressure occur queue threshold: This attribute identifies the threshold queue occupancy, in
+// bytes, scaled by the priority queue scale factor attribute of the ONU2G, to start sending a
+// back-pressure signal. (R, W) (mandatory) (2-bytes)
+//
+// Back Pressure Clear Queue Threshold
+// Back pressure clear queue threshold: This attribute identifies the threshold queue occupancy, in
+// bytes, scaled by the priority queue scale factor attribute of the ONU2G, to stop sending a back-
+// pressure signal. (R, W) (mandatory) (2-bytes)
+//
+// Packet Drop Queue Thresholds
+// Packet drop queue thresholds: This attribute is a composite of four 2-byte values, a minimum and
+// a maximum threshold, measured in bytes, scaled by the priority queue scale factor attribute of
+// the ONU2-G, for green and yellow packets. The first value is the minimum green threshold, the
+// queue occupancy below which all green packets are admitted to the queue. The second value is the
+// maximum green threshold, the queue occupancy at or above which all green packets are discarded.
+// The third value is the minimum yellow threshold, the queue occupancy below which all yellow
+// packets are admitted to the queue. The fourth value is the maximum yellow threshold, the queue
+// occupancy at or above which all yellow packets are discarded. The default is that all thresholds
+// take the value of the maximum queue size. (R,-W) (optional) (8-bytes)
+//
+// Packet Drop Max_P
+// Packet drop max_p: This attribute is a composite of two 1-byte values, the probability of
+// dropping a coloured packet when the queue occupancy lies just below the maximum threshold for
+// packets of that colour. The first value is the green packet max_p, and the second value is the
+// yellow packet max_p. The probability, max_p, is determined by adding one to the unsigned value
+// (0..255) of this attribute and dividing the result by 256. The default for each value is 255.
+// (R,-W) (optional) (2-bytes)
+//
+// Queue Drop W_Q
+// Queue drop w_q: This attribute determines the averaging coefficient, w_q, as described in
+// [b-Floyd]. The averaging coefficient, w_q, is equal to 2Queue_drop_w_q. For example, when queue
+// drop_w_q has the value 9, the averaging coefficient, w_q, is 1/512-= 0.001-9. The default value
+// is 9. (R,-W) (optional) (1-byte)
+//
+// Drop Precedence Colour Marking
+// (R,-W) (optional) (1-byte)
+//
+type PriorityQueue struct {
+ ManagedEntityDefinition
+ Attributes AttributeValueMap
+}
+
+func init() {
+ priorityqueueBME = &ManagedEntityDefinition{
+ Name: "PriorityQueue",
+ ClassID: 277,
+ MessageTypes: mapset.NewSetWith(
+ Get,
+ Set,
+ ),
+ AllowedAttributeMask: 0xffff,
+ AttributeDefinitions: AttributeDefinitionMap{
+ 0: Uint16Field("ManagedEntityId", PointerAttributeType, 0x0000, 0, mapset.NewSetWith(Read), false, false, false, 0),
+ 1: ByteField("QueueConfigurationOption", UnsignedIntegerAttributeType, 0x8000, 0, mapset.NewSetWith(Read), false, false, false, 1),
+ 2: Uint16Field("MaximumQueueSize", UnsignedIntegerAttributeType, 0x4000, 0, mapset.NewSetWith(Read), false, false, false, 2),
+ 3: Uint16Field("AllocatedQueueSize", UnsignedIntegerAttributeType, 0x2000, 0, mapset.NewSetWith(Read, Write), false, false, false, 3),
+ 4: Uint16Field("DiscardBlockCounterResetInterval", UnsignedIntegerAttributeType, 0x1000, 0, mapset.NewSetWith(Read, Write), false, true, false, 4),
+ 5: Uint16Field("ThresholdValueForDiscardedBlocksDueToBufferOverflow", UnsignedIntegerAttributeType, 0x0800, 0, mapset.NewSetWith(Read, Write), false, true, false, 5),
+ 6: Uint32Field("RelatedPort", UnsignedIntegerAttributeType, 0x0400, 0, mapset.NewSetWith(Read, Write), false, false, false, 6),
+ 7: Uint16Field("TrafficSchedulerPointer", UnsignedIntegerAttributeType, 0x0200, 0, mapset.NewSetWith(Read, Write), false, false, false, 7),
+ 8: ByteField("Weight", UnsignedIntegerAttributeType, 0x0100, 0, mapset.NewSetWith(Read, Write), false, false, false, 8),
+ 9: Uint16Field("BackPressureOperation", UnsignedIntegerAttributeType, 0x0080, 0, mapset.NewSetWith(Read, Write), false, false, false, 9),
+ 10: Uint32Field("BackPressureTime", UnsignedIntegerAttributeType, 0x0040, 0, mapset.NewSetWith(Read, Write), false, false, false, 10),
+ 11: Uint16Field("BackPressureOccurQueueThreshold", UnsignedIntegerAttributeType, 0x0020, 0, mapset.NewSetWith(Read, Write), false, false, false, 11),
+ 12: Uint16Field("BackPressureClearQueueThreshold", UnsignedIntegerAttributeType, 0x0010, 0, mapset.NewSetWith(Read, Write), false, false, false, 12),
+ 13: Uint64Field("PacketDropQueueThresholds", UnsignedIntegerAttributeType, 0x0008, 0, mapset.NewSetWith(Read, Write), false, true, false, 13),
+ 14: Uint16Field("PacketDropMaxP", UnsignedIntegerAttributeType, 0x0004, 0, mapset.NewSetWith(Read, Write), false, true, false, 14),
+ 15: ByteField("QueueDropWQ", UnsignedIntegerAttributeType, 0x0002, 0, mapset.NewSetWith(Read, Write), false, true, false, 15),
+ 16: ByteField("DropPrecedenceColourMarking", UnsignedIntegerAttributeType, 0x0001, 0, mapset.NewSetWith(Read, Write), false, true, false, 16),
+ },
+ Access: CreatedByOnu,
+ Support: UnknownSupport,
+ Alarms: AlarmMap{
+ 0: "Block loss",
+ },
+ }
+}
+
+// NewPriorityQueue (class ID 277) creates the basic
+// Managed Entity definition that is used to validate an ME of this type that
+// is received from or transmitted to the OMCC.
+func NewPriorityQueue(params ...ParamData) (*ManagedEntity, OmciErrors) {
+ return NewManagedEntity(*priorityqueueBME, params...)
+}