NETGEAR-QOS-COS-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, IpAddress, Integer32, Unsigned32 FROM SNMPv2-SMI RowStatus FROM SNMPv2-TC InterfaceIndexOrZero FROM IF-MIB agentQOS FROM NETGEAR-QOS-MIB; agentQOSCOS MODULE-IDENTITY LAST-UPDATED "200502231200Z" -- 23 Feb 2005 12:00:00 GMT ORGANIZATION "Netgear" CONTACT-INFO "" DESCRIPTION "The MIB definitions for Quality of Service - CoS Flex package." -- revision history REVISION "200502231200Z" -- 23 Feb 2005 12:00:00 GMT DESCRIPTION "Initial revision." ::= { agentQOS 3 } PercentByFives ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "An unsigned integer representing a value expressed as a percentage with five percent increments." SYNTAX Unsigned32 (0|5|10|15|20|25|30|35|40|45|50|55|60|65|70|75|80|85|90|95|100) Sixteenths ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "An unsigned integer representing the numerator of a value expressing a fraction in terms of sixteenths (0/16, 1/16, 2/16, up to 16/16)." SYNTAX Unsigned32 (0..16) --********************************************************************* -- agentCosMapCfgGroup -- -- Note: System-wide configuration is supported for this -- group by using an index value of 0. --********************************************************************* agentCosMapCfgGroup OBJECT IDENTIFIER ::= { agentQOSCOS 1 } -- IP Precedence mapping table (global and per-port) agentCosMapIpPrecTable OBJECT-TYPE SYNTAX SEQUENCE OF AgentCosMapIpPrecEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table mapping evaluated IP precedence to Traffic Class for a specific physical port. Traffic class is a number in the range (0..(dot1dPortNumTrafficClasses-1))." ::= { agentCosMapCfgGroup 1 } agentCosMapIpPrecEntry OBJECT-TYPE SYNTAX AgentCosMapIpPrecEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "IP Precedence to Traffic Class mapping for a port." INDEX { agentCosMapIpPrecIntfIndex, agentCosMapIpPrecValue } ::= { agentCosMapIpPrecTable 1 } AgentCosMapIpPrecEntry ::= SEQUENCE { agentCosMapIpPrecIntfIndex InterfaceIndexOrZero, agentCosMapIpPrecValue Unsigned32, agentCosMapIpPrecTrafficClass Unsigned32 } agentCosMapIpPrecIntfIndex OBJECT-TYPE SYNTAX InterfaceIndexOrZero MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is a unique index for an entry in the agentCosMapIpPrecTable. A non-zero value indicates the ifIndex for the corresponding interface entry in the ifTable. A value of zero represents global configuration, which in turn causes all interface entries to be updated for a set operation, or reflects the most recent global setting for a get operation." ::= { agentCosMapIpPrecEntry 1 } agentCosMapIpPrecValue OBJECT-TYPE SYNTAX Unsigned32 (0..7) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The IP precedence value contained in the received frame. This value is only indicated in IP packets, but is independent of both media-type and frame tagging. Non-IP packets are handled in accordance with the dot1dPortDefaultUserPriority value of the ingress port." ::= { agentCosMapIpPrecEntry 2 } agentCosMapIpPrecTrafficClass OBJECT-TYPE SYNTAX Unsigned32 (0..7) MAX-ACCESS read-write STATUS current DESCRIPTION "Traffic class priority queue the received frame is mapped to. This represents the actual configuration setting the port is using." ::= { agentCosMapIpPrecEntry 3 } -- IP DSCP mapping table (global and per-port) agentCosMapIpDscpTable OBJECT-TYPE SYNTAX SEQUENCE OF AgentCosMapIpDscpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table mapping evaluated IP DSCP to Traffic Class for a specific physical port. Traffic class is a number in the range (0..(dot1dPortNumTrafficClasses-1))." ::= { agentCosMapCfgGroup 2 } agentCosMapIpDscpEntry OBJECT-TYPE SYNTAX AgentCosMapIpDscpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "IP DSCP to Traffic Class mapping for a port." INDEX { agentCosMapIpDscpIntfIndex, agentCosMapIpDscpValue } ::= { agentCosMapIpDscpTable 1 } AgentCosMapIpDscpEntry ::= SEQUENCE { agentCosMapIpDscpIntfIndex InterfaceIndexOrZero, agentCosMapIpDscpValue Unsigned32, agentCosMapIpDscpTrafficClass Unsigned32 } agentCosMapIpDscpIntfIndex OBJECT-TYPE SYNTAX InterfaceIndexOrZero MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is a unique index for an entry in the agentCosMapIpDscpTable. A non-zero value indicates the ifIndex for the corresponding interface entry in the ifTable. A value of zero represents global configuration, which in turn causes all interface entries to be updated for a set operation, or reflects the most recent global setting for a get operation." ::= { agentCosMapIpDscpEntry 1 } agentCosMapIpDscpValue OBJECT-TYPE SYNTAX Unsigned32 (0..63) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The IP DSCP value contained in the received frame. This value is only indicated in IP packets, but is independent of both media-type and frame tagging. Non-IP packets are handled in accordance with the dot1dPortDefaultUserPriority value of the ingress port." ::= { agentCosMapIpDscpEntry 2 } agentCosMapIpDscpTrafficClass OBJECT-TYPE SYNTAX Unsigned32 (0..7) MAX-ACCESS read-write STATUS current DESCRIPTION "Traffic class priority queue the received frame is mapped to." ::= { agentCosMapIpDscpEntry 3 } -- Interface trust mode (global and per-port) agentCosMapIntfTrustTable OBJECT-TYPE SYNTAX SEQUENCE OF AgentCosMapIntfTrustEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Specifies the interface trust mode of operation for a port. The trust mode setting determines which COS mapping table is used for directing ingress packets to a Traffic Class." ::= { agentCosMapCfgGroup 3 } agentCosMapIntfTrustEntry OBJECT-TYPE SYNTAX AgentCosMapIntfTrustEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "COS interface trust mode." INDEX { agentCosMapIntfTrustIntfIndex } ::= { agentCosMapIntfTrustTable 1 } AgentCosMapIntfTrustEntry ::= SEQUENCE { agentCosMapIntfTrustIntfIndex InterfaceIndexOrZero, agentCosMapIntfTrustMode INTEGER, agentCosMapUntrustedTrafficClass Unsigned32 } agentCosMapIntfTrustIntfIndex OBJECT-TYPE SYNTAX InterfaceIndexOrZero MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is a unique index for an entry in the agentCosMapIntfTrustTable. A non-zero value indicates the ifIndex for the corresponding interface entry in the ifTable. A value of zero represents global configuration, which in turn causes all interface entries to be updated for a set operation, or reflects the most recent global setting for a get operation." ::= { agentCosMapIntfTrustEntry 1 } agentCosMapIntfTrustMode OBJECT-TYPE SYNTAX INTEGER { untrusted(1), trustDot1p(2), trustIpPrecedence(3), trustIpDscp(4) } MAX-ACCESS read-write STATUS current DESCRIPTION "The class of service trust mode of an interface. When set to a trusted mode, the appropriate COS mapping table is used as follows: trustDot1p(2) : dot1dTrafficClassTable trustIpPrecedence(3): agentCosMapIpPrecTable trustIpDscp(4): agentCosMapIpDscpTable For an untrusted(1) interface, packets are handled in accordance with the dot1dPortDefaultUserPriority value of the ingress port." ::= { agentCosMapIntfTrustEntry 2 } agentCosMapUntrustedTrafficClass OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The traffic class (i.e. hardware queue) to which all untrusted traffic is assigned. This includes all traffic when the agentCosMapIntfTrustMode is set to untrusted(1), or just non-IP packets when in trustIpPrecedence(3) or trustIpDscp(4) modes. This is a read-only object that reflects the current setting of the dot1dPortDefaultUserPriority object as mapped to a traffic class through the dot1dTrafficClassEntry." ::= { agentCosMapIntfTrustEntry 3 } --********************************************************************* -- agentCosQueueCfgGroup -- -- Note: System-wide configuration is supported for this -- group by using an index value of 0. --********************************************************************* agentCosQueueCfgGroup OBJECT IDENTIFIER ::= { agentQOSCOS 2 } agentCosQueueNumQueuesPerPort OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of configurable COS queues per port supported by the hardware device." ::= { agentCosQueueCfgGroup 1 } agentCosQueueNumDropPrecedenceLevels OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of distinct drop precedence levels per queue supported by the hardware device. These levels are typically used when configuring the queue management tail drop and WRED parameters." ::= { agentCosQueueCfgGroup 2 } -- Control table for managing queue configuration for the interface agentCosQueueControlTable OBJECT-TYPE SYNTAX SEQUENCE OF AgentCosQueueControlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table of class-of-service queue configuration controls for the specified interface." ::= { agentCosQueueCfgGroup 3 } agentCosQueueControlEntry OBJECT-TYPE SYNTAX AgentCosQueueControlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Provides a general control mechanism that affects all queues on a given interface." INDEX { agentCosQueueIntfIndex } ::= { agentCosQueueControlTable 1 } AgentCosQueueControlEntry ::= SEQUENCE { agentCosQueueIntfIndex InterfaceIndexOrZero, agentCosQueueIntfShapingRate PercentByFives, agentCosQueueMgmtTypeIntf INTEGER, agentCosQueueWredDecayExponent Unsigned32, agentCosQueueDefaultsRestore INTEGER } agentCosQueueIntfIndex OBJECT-TYPE SYNTAX InterfaceIndexOrZero MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is a unique index for an entry in the agentCosQueueControlTable, agentCosQueueTable, or agentCosQueueMgmtTable. A non-zero value indicates the ifIndex for the corresponding interface entry in the ifTable. A value of zero represents global configuration, which in turn causes all interface entries to be updated for a set operation, or reflects the most recent global setting for a get operation." ::= { agentCosQueueControlEntry 1 } agentCosQueueIntfShapingRate OBJECT-TYPE SYNTAX PercentByFives MAX-ACCESS read-write STATUS current DESCRIPTION "Maximum bandwidth allowed for this interface as a whole, typically used to shape the outbound transmission rate. The value is specified in terms of percentage of overall link speed for the port in 5% increments. A value of 0 means there is no maximum bandwidth limit in effect and that the interface is allowed to transmit up to its maximum line rate (i.e., work conserving method). The default value is 0. When set to a non-zero value, the interface is restricted to using at most the bandwidth specified in this object for the outbound transmission rate (i.e., non-work-conserving method). This bandwidth value is independent of any per-queue maximum bandwidth value(s) in effect for the interface, as specified in the agentCosQueueMaxBandwidth ohject, and should be considered as a second-level transmission rate control mechanism that regulates the output of the entire interface regardless of which queues originate the outbound traffic." DEFVAL { 0 } ::= { agentCosQueueControlEntry 2 } agentCosQueueMgmtTypeIntf OBJECT-TYPE SYNTAX INTEGER { taildrop(1), wred(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The management technique used for all queues on this interface. If taildrop(1), then all new packets presented to the queues are dropped based on some maximum threshold value(s). If wred(2), then an active queue management scheme is employed whereby packet drop precedence is considered during times of queue congestion using WRED parameters. The necessary queue management parameters are specified in the agentCosQueueMgmtTable for the corresponding agentCosQueueIntfIndex value. The default for this object is taildrop(1). Implementations that support this object but do not support weighted RED must return taildrop(1) for this value and must not allow a value of wred(2) to be set." DEFVAL { taildrop } ::= { agentCosQueueControlEntry 3 } agentCosQueueWredDecayExponent OBJECT-TYPE SYNTAX Unsigned32 (1..15) MAX-ACCESS read-write STATUS current DESCRIPTION "The decay exponent value used with the weighted random early discard (WRED) algorithm to determine how quickly the average queue length calculation reacts to the current length of the queue. A higher value produces a slower response, meaning previously sampled queue length values are factored into the calculation for a longer period of time. The default value is 9. Use caution when changing this value from its default. If set too low, short traffic bursts can cause WRED to drop too many packets. If set too high, WRED might not detect queue congestion in a timely manner and becomes ineffective. The default value should be sufficient for most users. This object value is only used when the agentCosQueueMgmtType is set to wred(2) and is otherwise ignored." DEFVAL { 9 } ::= { agentCosQueueControlEntry 4 } agentCosQueueDefaultsRestore OBJECT-TYPE SYNTAX INTEGER { enable(1), disable(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Causes the default values to be restored for all COS queue objects defined for this interface. This includes objects in the following tables: agentCosQueueTable agentCosQueueMgmtTable This object always reads as disable(2). This object may only be set to enable(1), which immediately causes the default value restoration action as described above. In essence, this models a momentary-style push button switch that triggers a restoration of the original default values for all affected objects." ::= { agentCosQueueControlEntry 5 } -- Queue table for specifying attributes of each COS queue on an interface agentCosQueueTable OBJECT-TYPE SYNTAX SEQUENCE OF AgentCosQueueEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table of class-of-service queue configuration parameters for the specified interface." ::= { agentCosQueueCfgGroup 4 } agentCosQueueEntry OBJECT-TYPE SYNTAX AgentCosQueueEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Each entry describes a single class-of-service (COS) queue for a given Interface Index. The number of configurable COS queues for an interface vary based on device capabilities. All objects defined for this table entry contain a default value corresponding to a typical, non-preferential treatment of packets traversing the interface's COS queues." INDEX { agentCosQueueIntfIndex, agentCosQueueIndex } ::= { agentCosQueueTable 1 } AgentCosQueueEntry ::= SEQUENCE { agentCosQueueIndex Unsigned32, agentCosQueueSchedulerType INTEGER, agentCosQueueMinBandwidth PercentByFives, agentCosQueueMaxBandwidth PercentByFives, agentCosQueueMgmtType INTEGER } agentCosQueueIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The COS queue index, numbered 0 to (n-1), where n is the total number of configurable interface queues for the device as indicated by agentCosQueueNumQueuesPerPort. In general, a higher numbered queue index is used to support higher priority traffic, although actual operation may be altered via configuration through this table." ::= { agentCosQueueEntry 1 } agentCosQueueSchedulerType OBJECT-TYPE SYNTAX INTEGER { strict(1), weighted(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The type of scheduling used for this queue. If strict(1), then all traffic placed on this queue is transmitted before any queue with a lower precedence (lower agentCosQueueIndex). A weighted(2) scheme gives this queue service relative to other weighted queues based on their relative agentCosQueueMinBandwidth object values. The default is weighted(2)." DEFVAL { weighted } ::= { agentCosQueueEntry 2 } agentCosQueueMinBandwidth OBJECT-TYPE SYNTAX PercentByFives MAX-ACCESS read-write STATUS current DESCRIPTION "Minimum guaranteed bandwidth allotted to this queue. The value is specified in terms of percentage of overall link speed for the port in 5% increments. A value of 0 means there is no guaranteed minimum bandwidth in effect (best-effort service). The default value is 0. The sum of all agentCosQueueMinBandwidth object values for the queues on the same interface must not exceed 100%. If the agentCosQueueMaxBandwidth corresponding to the same agentCosQueueIndex on this interface is currently set to a non-zero value, then setting this object to a value greater than agentCosQueueMaxBandwidth automatically updates agentCosQueueMaxBandwidth to the same value to maintain a proper relationship between the minimum and maximum queue bandwidth specification. The value of this object is ignored when agentCosQueueSchedulerType is set to strict(1)." DEFVAL { 0 } ::= { agentCosQueueEntry 3 } agentCosQueueMaxBandwidth OBJECT-TYPE SYNTAX PercentByFives MAX-ACCESS read-write STATUS current DESCRIPTION "Maximum bandwidth allowed for this queue, typically used to shape the outbound transmission rate. The value is specified in terms of percentage of overall link speed for the port in 5% increments. A value of 0 means there is no maximum bandwidth limit in effect and that the queue is allowed to use any available excess bandwidth (i.e., work conserving method). The default value is 0. When set to a non-zero value, the queue is restricted to using at most the bandwidth specified in this object for the outbound transmission rate (i.e., non-work-conserving method). Any non-zero value set for this object must be equal to or greater than the value of agentCosQueueMinBandwidth for the same agentCosQueueIndex on this interface." DEFVAL { 0 } ::= { agentCosQueueEntry 4 } agentCosQueueMgmtType OBJECT-TYPE SYNTAX INTEGER { taildrop(1), wred(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The queue depth management technique used when per-queue specification is supported. If taildrop(1), then all new packets presented to the queue are dropped based on some maximum threshold value(s). If wred(2), then an active queue management scheme is employed whereby packet drop precedence is considered during times of queue congestion using WRED parameters. The necessary queue management parameters are specified in the agentCosQueueMgmtEntry for the corresponding agentCosQueueIntfIndex and agentCosQueueIndex values. The default for this object is taildrop(1). Implementations that do not support weighted RED must return taildrop(1) for this value and must not allow a value of wred(2) to be set." DEFVAL { taildrop } ::= { agentCosQueueEntry 5 } -- Queue management table for setting parameters related to queue depth agentCosQueueMgmtTable OBJECT-TYPE SYNTAX SEQUENCE OF AgentCosQueueMgmtEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table of class-of-service queue drop precedence configuration parameters. The values in this table are used based on the agentCosQueueMgmtType for the corresponding agentCosQueueIntfIndex and agentCosQueueIndex values. These parameters are specified for each drop precedence level supported within a queue." ::= { agentCosQueueCfgGroup 5 } agentCosQueueMgmtEntry OBJECT-TYPE SYNTAX AgentCosQueueMgmtEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The individual objects in this table are specified for each drop precedence level supported within a particular queue on a given interface. Each object's usage is based on the current setting of the agentCosQueueMgmtType. See the individual object descriptions for details." INDEX { agentCosQueueIntfIndex, agentCosQueueIndex, agentCosQueueDropPrecIndex } ::= { agentCosQueueMgmtTable 1 } AgentCosQueueMgmtEntry ::= SEQUENCE { agentCosQueueDropPrecIndex Unsigned32, agentCosQueueMgmtTailDropThreshold Sixteenths, agentCosQueueMgmtWredMinThreshold Sixteenths, agentCosQueueMgmtWredMaxThreshold Sixteenths, agentCosQueueMgmtWredDropProbScale Unsigned32 } agentCosQueueDropPrecIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The COS queue drop precedence level, numbered 1 to p, where p is the total number of drop precedences supported per queue, as indicated by agentCosQueueNumDropPrecedenceLevels. This is used as the minor index into the table. Each supported drop precedence level for a queue has its own set of configuration parameters. The actual number of drop precedence levels supported depends on the device characteristics. For example, some implementations may allow for three levels of drop precedence (1/2/3, sometimes referred to as green/yellow/red), some may support two levels (1/2, or high/low), while others only one." ::= { agentCosQueueMgmtEntry 1 } agentCosQueueMgmtTailDropThreshold OBJECT-TYPE SYNTAX Sixteenths MAX-ACCESS read-write STATUS current DESCRIPTION "Tail drop queue threshold above which all packets are dropped for the current drop precedence level. The value specifies the threshold based on a fraction of the overall device queue size in terms of sixteenths (0/16, 1/16, 2/16…, 16/16). Since device implementations vary, the actual value deployed may be rounded up or down accordingly. The default value is calculated from the agentCosQueueIndex and agentCosQueueDropPrecIndex as shown in the following table (values listed for drop precedence levels 1, 2, and 3, respectively): Queue Index 0: 16, 14, 12 Queue Index 1: 16, 14, 12 Queue Index 2: 16, 14, 12 Queue Index 3: 16, 14, 12 Queue Index 4: 16, 14, 12 Queue Index 5: 16, 14, 12 Queue Index 6: 16, 14, 12 Queue Index 7: 16, 14, 12 This object is only used when agentCosQueueMgmtType is set to taildrop(1)." ::= { agentCosQueueMgmtEntry 2 } agentCosQueueMgmtWredMinThreshold OBJECT-TYPE SYNTAX Sixteenths MAX-ACCESS read-write STATUS current DESCRIPTION "Weighted RED minimum queue threshold, below which no packets are dropped for the current drop precedence level. The value specifies the threshold based on a fraction of the overall device queue size in terms of sixteenths (0/16, 1/16, 2/16…, 16/16). Since device implementations vary, the actual value deployed may be rounded up or down accordingly. The default value is calculated from the agentCosQueueIndex and agentCosQueueDropPrecIndex as shown in the following table (values listed for drop precedence levels 1, 2, and 3, respectively): Queue Index 0: 8, 6, 4 Queue Index 1: 9, 7, 5 Queue Index 2: 10, 8, 6 Queue Index 3: 11, 9, 7 Queue Index 4: 12, 10, 8 Queue Index 5: 13, 11, 9 Queue Index 6: 14, 12, 10 Queue Index 7: 15, 13, 11 This object is only used when agentCosQueueMgmtType is set to wred(2). Any value set for this object must be equal to or less than the value of agentCosQueueMgmtWredMaxThreshold." ::= { agentCosQueueMgmtEntry 3 } agentCosQueueMgmtWredMaxThreshold OBJECT-TYPE SYNTAX Sixteenths MAX-ACCESS read-write STATUS current DESCRIPTION "Weighted RED maximum queue threshold, above which all packets are dropped for the current drop precedence level. The value specifies the threshold based on a fraction the overall device queue size in terms of sixteenths (0/16, 1/16, 2/16…, 16/16). Since device implementations vary, the actual value deployed may be rounded up or down accordingly. The default value is calculated from the agentCosQueueIndex and agentCosQueueDropPrecIndex as shown in the following table (values listed for drop precedence levels 1, 2, and 3, respectively): Queue Index 0: 16, 14, 12 Queue Index 1: 16, 14, 12 Queue Index 2: 16, 14, 12 Queue Index 3: 16, 14, 12 Queue Index 4: 16, 14, 12 Queue Index 5: 16, 14, 12 Queue Index 6: 16, 14, 12 Queue Index 7: 16, 14, 12 This object is only used when agentCosQueueMgmtType is set to wred(2). Any value set for this object must be equal to or greater than the value of agentCosQueueMgmtWredMinThreshold." ::= { agentCosQueueMgmtEntry 4 } agentCosQueueMgmtWredDropProbScale OBJECT-TYPE SYNTAX Unsigned32 (1..15) MAX-ACCESS read-write STATUS current DESCRIPTION "A scaling factor used for the WRED calculation to determine the packet drop probability for the current drop precedence level. The value is specified as a number S from 1-15 and is used in the formula: 1/(2** S), meaning one packet is dropped out of every (2** S). Packet dropping begins when agentCosQueueMgmtWredMinThreshold is reached and proceeds linearly up to the (2**S) value specified by this object until the agentCosQueueMgmtWredMaxThreshold is reached, beyond which all packets are dropped. Smaller values of S produce a steeper slope, hence a higher incidence of randomly dropped packets. The default value is 10, which corresponds to a drop rate of 1 out of every (2**10)=1024 packets. This object is only used when agentCosQueueMgmtType is set to wred(2)." DEFVAL { 10 } ::= { agentCosQueueMgmtEntry 5 } END