Documentation
¶
Overview ¶
The MIB module for defining expressions of MIB objects for network management purposes.
This MIB is an early snapshot of work done by the IETF's Distributed Management working group. After this snapshot was taken, the MIB was modified, had new OIDs assigned, and then published as RFC 2982.
Index ¶
- type EXPRESSIONMIB
- type EXPRESSIONMIB_ExpExpressionTable
- type EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry
- type EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError
- type EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType
- type EXPRESSIONMIB_ExpNameTable
- type EXPRESSIONMIB_ExpNameTable_ExpNameEntry
- type EXPRESSIONMIB_ExpNames
- type EXPRESSIONMIB_ExpObjectTable
- type EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry
- type EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectDiscontinuityIDType
- type EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectSampleType
- type EXPRESSIONMIB_ExpResource
- type EXPRESSIONMIB_ExpValueTable
- type EXPRESSIONMIB_ExpValueTable_ExpValueEntry
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
This section is empty.
Types ¶
type EXPRESSIONMIB ¶
type EXPRESSIONMIB struct {
EntityData types.CommonEntityData
YFilter yfilter.YFilter
ExpResource EXPRESSIONMIB_ExpResource
ExpNames EXPRESSIONMIB_ExpNames
// A table of expression names, for creating and deleting expressions.
ExpNameTable EXPRESSIONMIB_ExpNameTable
// A table of expression definitions.
ExpExpressionTable EXPRESSIONMIB_ExpExpressionTable
// A table of object definitions for each expExpression. Wildcarding instance
// IDs: It is legal to omit all or part of the instance portion for some or
// all of the objects in an expression. (See the DESCRIPTION of expObjectID
// for details. However, note that if more than one object in the same
// expression is wildcarded in this way, they all must be objects where that
// portion of the instance is the same. In other words, all objects may be in
// the same SEQUENCE or in different SEQUENCEs but with the same semantic
// index value (e.g., a value of ifIndex) for the wildcarded portion.
ExpObjectTable EXPRESSIONMIB_ExpObjectTable
// A table of values from evaluated expressions.
ExpValueTable EXPRESSIONMIB_ExpValueTable
}
EXPRESSIONMIB
func (*EXPRESSIONMIB) GetEntityData ¶
func (eXPRESSIONMIB *EXPRESSIONMIB) GetEntityData() *types.CommonEntityData
type EXPRESSIONMIB_ExpExpressionTable ¶
type EXPRESSIONMIB_ExpExpressionTable struct {
EntityData types.CommonEntityData
YFilter yfilter.YFilter
// Information about a single expression. An entry appears in this table when
// an entry is created in expNameTable. Deleting that expNameTable entry
// automatically deletes this entry and its associated expObjectTable entries.
// Values of read-write objects in this table may be changed at any time. The
// type is slice of EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry.
ExpExpressionEntry []*EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry
}
EXPRESSIONMIB_ExpExpressionTable A table of expression definitions.
func (*EXPRESSIONMIB_ExpExpressionTable) GetEntityData ¶
func (expExpressionTable *EXPRESSIONMIB_ExpExpressionTable) GetEntityData() *types.CommonEntityData
type EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry ¶
type EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry struct {
EntityData types.CommonEntityData
YFilter yfilter.YFilter
YListKey string
// This attribute is a key. The type is string with range: 1..4294967295.
// Refers to
// expression_mib.EXPRESSIONMIB_ExpNameTable_ExpNameEntry_ExpExpressionIndex
ExpExpressionIndex interface{}
// The unique name of the expression, the same as expName. Use this object to
// change the expression's name without changing its expExpressionIndex. The
// type is string with length: 1..64.
ExpExpressionName interface{}
// The expression to be evaluated. This object is the same as a DisplayString
// (RFC 1903) except for its maximum length. Except for the variable names
// the expression is in ANSI C syntax. Only the subset of ANSI C operators
// and functions listed here is allowed. Variables are expressed as a dollar
// sign ('$') and an integer that corresponds to an expObjectIndex. An
// example of a valid expression is: ($1-$5)*100 Expressions may not
// be recursive, that is although an expression may use the results of another
// expression, it may not contain any variable that is directly or indirectly
// a result of its own evaluation. The only allowed operators are: (
// ) - (unary) + - * / % & | ^ << >> ~ ! && ||
// == != > >= < <= Note the parentheses are included for parenthesizing the
// expression, not for casting data types. The only constant types defined
// are: int (32-bit signed) long (64-bit signed)
// unsigned int unsigned long hexadecimal character
// string oid The default type for a positive integer is int unless
// it is too large in which case it is long. All but oid are as defined for
// ANSI C. Note that a hexadecimal constant may end up as a scalar or an
// array of 8-bit integers. A string constant is enclosed in double quotes
// and may contain back-slashed individual characters as in ANSI C. An oid
// constant comprises 32-bit, unsigned integers and at least one period, for
// example: 0. .0 1.3.6.1 Integer-typed objects are
// treated as 32- or 64-bit, signed or unsigned integers, as appropriate. The
// results of mixing them are as for ANSI C, including the type of the result.
// Note that a 32-bit value is thus promoted to 64 bits only in an operation
// with a 64-bit value. There is no provision for larger values to handle
// overflow. Relative to SNMP data types, a resulting value becomes unsigned
// when calculating it uses any unsigned value, including a counter. To force
// the final value to be of data type counter the expression must explicitly
// use the counter32() or counter64() function (defined below). OCTET STRINGS
// and OBJECT IDENTIFIERs are treated as 1-based arrays of unsigned 8-bit
// integers and unsigned 32-bit integers, respectively. IpAddresses are
// treated as 32-bit, unsigned integers in network byte order, that is, the
// hex version of 255.0.0.0 is 0xff000000. Conditional expressions result in
// a 32-bit, unsigned integer of value 0 for false or 1 for true. When an
// arbitrary value is used as a boolean 0 is false and non-zero is true.
// Rules for the resulting data type from an operation, based on the operator:
// For << and >> the result is the same as the left hand operand. For &&, ||,
// ==, !=, <, <=, >, and >= the result is always Unsigned32. For unary - the
// result is always Integer32. For +, -, *, /, %, &, |, and ^ the result is
// promoted according to the following rules, in order from most to least
// preferred: If left hand and right hand operands are the same
// type, use that. If either side is Counter64, use that. If
// either side is IpAddress, use that. If either side is TimeTicks,
// use that. If either side is Counter32, use that.
// Otherwise use Unsigned32. The following rules say what operators apply
// with what data types. Any combination not explicitly defined does not
// work. For all operators any of the following can be the left hand or right
// hand operand: Integer32, Counter32, Unsigned32, Counter64. The operators
// +, -, *, /, %, <, <=, >, and >= also work with TimeTicks. The operators &,
// |, and ^ also work with IpAddress. The operators << and >> also work with
// IpAddress but only as the left hand operand. The + operator performs a
// concatenation of two OCTET STRINGs or two OBJECT IDENTIFIERs. The
// operators &, | perform bitwise operations on OCTET STRINGs. If the OCTET
// STRING happens to be a DisplayString the results may be meaningless, but
// the agent system does not check this as some such systems do not have this
// information. The operators << and >> perform bitwise operations on OCTET
// STRINGs appearing as the left hand operand. The only functions defined
// are: counter32 counter64 arraySection
// stringBegins stringEnds stringContains oidBegins
// oidEnds oidContains sum exists The following
// function definitions indicate their by naming the data type of the
// parameter in the parameter's position in the parameter list. The parameter
// must be of the type indicated and generally may be a constant, a MIB
// object, a function, or an expression. counter32(integer) - wrapped around
// an integer value counter32 forces Counter32 as a data type.
// counter64(integer) - similar to counter32 except that the resulting data
// type is 'counter64'. arraySection(array, integer, integer) - selects a
// piece of an array (i.e. part of an OCTET STRING or OBJECT IDENTIFIER). The
// integer arguments are in the range 0 to 4,294,967,295. The first is an
// initial array index (1-based) and the second is an ending array index. A
// value of 0 indicates first or last element, respectively. If the first
// element is larger than the array length the result is 0 length. If the
// second integer is less than or equal to the first, the result is 0 length.
// If the second is larger than the array length it indicates last element.
// stringBegins/Ends/Contains(octetString, octetString) - looks for the second
// string (which can be a string constant) in the first and returns the
// 1-based index where the match began. A return value of 0 indicates no
// match (i.e. boolean false). oidBegins/Ends/Contains(oid, oid) - looks for
// the second OID (which can be an OID constant) in the first and returns the
// the 1-based index where the match began. A return value of 0 indicates no
// match (i.e. boolean false). sum(integerObject*) - sums all availiable
// values of the wildcarded integer object, resulting in an integer scalar.
// Must be used with caution as it wraps on overflow with no notification.
// exists(anyTypeObject) - verifies the object instance exists. A return value
// of 0 indicates NoSuchInstance (i.e. boolean false). The type is string with
// length: 1..1024.
ExpExpression interface{}
// The type of the expression value. One and only one of the value objects in
// expValueTable will be instantiated to match this type. If the result of
// the expression can not be made into this type, an invalidOperandType error
// will occur. The type is ExpExpressionValueType.
ExpExpressionValueType interface{}
// A comment to explain the use or meaning of the expression. The type is
// string.
ExpExpressionComment interface{}
// Sampling interval for objects in this expression with expObjectSampleType
// 'deltaValue'. This object is not instantiated if not applicable. A value
// of 0 indicates no automated sampling. In this case the delta is the
// difference from the last time the expression was evaluated. Note that this
// is subject to unpredictable delta times in the face of retries or multiple
// managers. A value greater than zero is the number of seconds between
// automated samples. Until the delta interval has expired once the delta for
// the object is effectively not instantiated and evaluating the expression
// has results as if the object itself were not instantiated. Note that delta
// values potentially consume large amounts of system CPU and memory. Delta
// state and processing must continue constantly even if the expression is not
// being used. That is, the expression is being evaluated every delta
// interval, even if no application is reading those values. For wildcarded
// objects this can be substantial overhead. Note that delta intervals,
// external expression value sampling intervals and delta intervals for
// expressions within other expressions can have unusual interactions as they
// are impossible to synchronize accurately. In general one interval embedded
// below another must be enough shorter that the higher sample sees relatively
// smooth, predictable behavior. The type is interface{} with range: 0..86400.
// Units are seconds.
ExpExpressionDeltaInterval interface{}
// An object prefix to assist an application in determining the instance
// indexing to use in expValueTable, relieving the application of the need to
// scan the expObjectTable to determine such a prefix. See expObjectTable for
// information on wildcarded objects. If the expValueInstance portion of the
// value OID may be treated as a scalar (that is, normally, 0) the value of
// expExpressionPrefix is zero length, that is, no OID at all. Otherwise
// expExpressionPrefix is the value of any wildcarded instance of expObjectID
// for the expression. This is sufficient as the remainder, that is, the
// instance fragment relevant to instancing the values must be the same for
// all wildcarded objects in the expression. The type is string with pattern:
// (([0-1](\.[1-3]?[0-9]))|(2\.(0|([1-9]\d*))))(\.(0|([1-9]\d*)))*.
ExpExpressionPrefix interface{}
// The number of errors encountered while evaluating this expression. Note
// that an object in the expression not being accessible is not considered an
// error. It is a legitimate condition that causes the corresponding
// expression value not to be instantiated. The type is interface{} with
// range: 0..4294967295.
ExpExpressionErrors interface{}
// The value of sysUpTime the last time an error caused a failure to evaluate
// this expression. This object is not instantiated if there have been no
// errors. The type is interface{} with range: 0..4294967295.
ExpExpressionErrorTime interface{}
// The 1-based character index into expExpression for where the error
// occurred. The value zero indicates irrelevance. This object is not
// instantiated if there have been no errors. The type is interface{} with
// range: -2147483648..2147483647.
ExpExpressionErrorIndex interface{}
// The error that occurred. In the following explanations the expected timing
// of the error is in parentheses. 'S' means the error occurs on a Set
// request. 'E' means the error occurs on the attempt to evaluate the
// expression either due to Get from expValueTable or in ongoing delta
// processing. invalidSyntax the value sent for expExpression
// is not valid Expression MIB expression syntax (S)
// undefinedObjectIndex an object reference ($n) in
// expExpression does not have a matching instance in
// expObjectTable (E) unrecognizedOperator the value sent for expExpression
// held an unrecognized operator (S) unrecognizedFunction the value sent
// for expExpression held an unrecognized function
// name (S) invalidOperandType an operand in expExpression is not
// the right type for the associated operator or
// result (SE) unmatchedParenthesis the value sent for expExpression
// is not correctly parenthesized (S) tooManyWildcardValues evaluating the
// expression exceeded the limit set by
// expResourceDelta WildcardInstanceMaximum (E)
// recursion through some chain of embedded
// expressions the expression invokes itself (E)
// deltaTooShort the delta for the next evaluation
// passed before the system could evaluate the present
// sample (E) resourceUnavailable some resource, typically dynamic
// memory, was unavailable (SE) divideByZero an attempt to divide
// by zero occurred (E) For the errors that occur
// when the attempt is made to set expExpression Set request fails with the
// SNMP error code 'wrongValue'. Such failures refer to the most recent
// failure to Set expExpression, not to the present value of expExpression
// which must be either unset or syntactically correct. Errors that occur
// during evalutaion for a Get* operation return the SNMP error code 'genErr'
// except for 'tooManyWildcardValues' and 'resourceUnavailable' which return
// the SNMP error code 'resourceUnavailable'. This object is not instantiated
// if there have been no errors. The type is ExpExpressionError.
ExpExpressionError interface{}
// The expValueInstance being evaluated when the error occurred. A
// zero-length indicates irrelevance. This object is not instantiated if
// there have been no errors. The type is string with pattern:
// (([0-1](\.[1-3]?[0-9]))|(2\.(0|([1-9]\d*))))(\.(0|([1-9]\d*)))*.
ExpExpressionInstance interface{}
// The entity that configured this entry and is therefore using the resources
// assigned to it. The type is string with length: 0..255.
ExpExpressionOwner interface{}
}
EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry Information about a single expression. An entry appears in this table when an entry is created in expNameTable. Deleting that expNameTable entry automatically deletes this entry and its associated expObjectTable entries.
Values of read-write objects in this table may be changed at any time.
func (*EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry) GetEntityData ¶
func (expExpressionEntry *EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry) GetEntityData() *types.CommonEntityData
type EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError ¶
type EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError string
EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError represents errors.
const ( EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError_invalidSyntax EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError = "invalidSyntax" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError_undefinedObjectIndex EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError = "undefinedObjectIndex" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError_unrecognizedOperator EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError = "unrecognizedOperator" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError_unrecognizedFunction EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError = "unrecognizedFunction" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError_invalidOperandType EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError = "invalidOperandType" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError_unmatchedParenthesis EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError = "unmatchedParenthesis" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError_tooManyWildcardValues EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError = "tooManyWildcardValues" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError_recursion EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError = "recursion" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError_deltaTooShort EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError = "deltaTooShort" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError_divideByZero EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionError = "divideByZero" )
type EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType ¶
type EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType string
EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType represents type, an invalidOperandType error will occur.
const ( EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType_counter32 EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType = "counter32" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType_unsignedOrGauge32 EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType = "unsignedOrGauge32" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType_timeTicks EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType = "timeTicks" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType_integer32 EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType = "integer32" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType_ipAddress EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType = "ipAddress" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType_octetString EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType = "octetString" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType_objectId EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType = "objectId" EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType_counter64 EXPRESSIONMIB_ExpExpressionTable_ExpExpressionEntry_ExpExpressionValueType = "counter64" )
type EXPRESSIONMIB_ExpNameTable ¶
type EXPRESSIONMIB_ExpNameTable struct {
EntityData types.CommonEntityData
YFilter yfilter.YFilter
// Information about a single expression. New expressions can be created
// using expNameStatus. To create an expression first create the named entry
// in this table. Then use expExpressionIndex to populate expExpressionTable
// and expObjectTable. For expression evaluation to succeed all related
// entries in expNameTable, expExpressionTable, and expObjectTable must be
// 'active'. If these conditions are not met the corresponding values in
// expValue simply are not instantiated. Deleting an entry deletes all
// related entries in expExpressionTable and expObjectTable. Because of the
// relationships among the multiple tables for an expression (expNameTable,
// expExpressionTable, expObjectTable, and expValueTable) and the SNMP rules
// for independence in setting object values, it is necessary to do final
// error checking when an expression is evaluated, that is, when one of its
// instances in expValueTable is read. Earlier checking need not be done and
// an implementation may not impose any ordering on the creation of objects
// related to an expression other than to require values for expName and
// expExpressionIndex before any other related objects can be created. To
// maintain security of MIB information, when creating a new row in this
// table, the managed system must record the security credentials of the
// requester. If the subsequent expression includes objects with
// expObjectSampleType 'deltaValue' the evaluation of that expression takes
// place under the security credentials of the creator of its expNameEntry.
// The type is slice of EXPRESSIONMIB_ExpNameTable_ExpNameEntry.
ExpNameEntry []*EXPRESSIONMIB_ExpNameTable_ExpNameEntry
}
EXPRESSIONMIB_ExpNameTable A table of expression names, for creating and deleting expressions.
func (*EXPRESSIONMIB_ExpNameTable) GetEntityData ¶
func (expNameTable *EXPRESSIONMIB_ExpNameTable) GetEntityData() *types.CommonEntityData
type EXPRESSIONMIB_ExpNameTable_ExpNameEntry ¶
type EXPRESSIONMIB_ExpNameTable_ExpNameEntry struct {
EntityData types.CommonEntityData
YFilter yfilter.YFilter
YListKey string
// This attribute is a key. The name of the expression. Choosing names with
// useful lexical ordering supports using GetNext or GetBulk to retrieve a
// useful subset of the table. The type is string with length: 1..64.
ExpName interface{}
// The numeric identification of the expression. Applications may select this
// number in ascending numerical order by using expNameHighestIndex as a hint
// or may use any other acceptable, unused number. Once set this value may
// not be set to a different value. The type is interface{} with range:
// 1..4294967295.
ExpExpressionIndex interface{}
// The control that allows creation/deletion of entries. The type is
// RowStatus.
ExpNameStatus interface{}
}
EXPRESSIONMIB_ExpNameTable_ExpNameEntry Information about a single expression. New expressions can be created using expNameStatus.
To create an expression first create the named entry in this table. Then use expExpressionIndex to populate expExpressionTable and expObjectTable. For expression evaluation to succeed all related entries in expNameTable, expExpressionTable, and expObjectTable must be 'active'. If these conditions are not met the corresponding values in expValue simply are not instantiated.
Deleting an entry deletes all related entries in expExpressionTable and expObjectTable.
Because of the relationships among the multiple tables for an expression (expNameTable, expExpressionTable, expObjectTable, and expValueTable) and the SNMP rules for independence in setting object values, it is necessary to do final error checking when an expression is evaluated, that is, when one of its instances in expValueTable is read. Earlier checking need not be done and an implementation may not impose any ordering on the creation of objects related to an expression other than to require values for expName and expExpressionIndex before any other related objects can be created.
To maintain security of MIB information, when creating a new row in this table, the managed system must record the security credentials of the requester. If the subsequent expression includes objects with expObjectSampleType 'deltaValue' the evaluation of that expression takes place under the security credentials of the creator of its expNameEntry.
func (*EXPRESSIONMIB_ExpNameTable_ExpNameEntry) GetEntityData ¶
func (expNameEntry *EXPRESSIONMIB_ExpNameTable_ExpNameEntry) GetEntityData() *types.CommonEntityData
type EXPRESSIONMIB_ExpNames ¶
type EXPRESSIONMIB_ExpNames struct {
EntityData types.CommonEntityData
YFilter yfilter.YFilter
// The value of sysUpTime the last time an expression was created or deleted
// or had its name changed using expExpressionName. The type is interface{}
// with range: 0..4294967295.
ExpNameLastChange interface{}
// The highest value of ExpressionIndex ever assigned on this system.
// Preferrably this value is preserved across system reboots. A managed
// system that is unable to store expressions across reboots need not preserve
// this value across reboots. If all expression-creating applications
// cooperate, they may use this to avoid reusing an ExpressionIndex. To do
// so, attempt creation of a new entry with this value + 1 as the value of
// expExpressionIndex. Although reusing ExpressionIndexes could lead to an
// application receiving a misunderstood value, it is a matter of local
// management policy whether to reuse them. The type is interface{} with
// range: 0..4294967295.
ExpNameHighestIndex interface{}
}
EXPRESSIONMIB_ExpNames
func (*EXPRESSIONMIB_ExpNames) GetEntityData ¶
func (expNames *EXPRESSIONMIB_ExpNames) GetEntityData() *types.CommonEntityData
type EXPRESSIONMIB_ExpObjectTable ¶
type EXPRESSIONMIB_ExpObjectTable struct {
EntityData types.CommonEntityData
YFilter yfilter.YFilter
// Information about an object. An application uses expObjectStatus to create
// entries in this table while in the process of defining an expression.
// Values of read-create objects in this table may be changed at any time. The
// type is slice of EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry.
ExpObjectEntry []*EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry
}
EXPRESSIONMIB_ExpObjectTable A table of object definitions for each expExpression.
Wildcarding instance IDs:
It is legal to omit all or part of the instance portion for some or all of the objects in an expression. (See the DESCRIPTION of expObjectID for details. However, note that if more than one object in the same expression is wildcarded in this way, they all must be objects where that portion of the instance is the same. In other words, all objects may be in the same SEQUENCE or in different SEQUENCEs but with the same semantic index value (e.g., a value of ifIndex) for the wildcarded portion.
func (*EXPRESSIONMIB_ExpObjectTable) GetEntityData ¶
func (expObjectTable *EXPRESSIONMIB_ExpObjectTable) GetEntityData() *types.CommonEntityData
type EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry ¶
type EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry struct {
EntityData types.CommonEntityData
YFilter yfilter.YFilter
YListKey string
// This attribute is a key. The type is string with range: 1..4294967295.
// Refers to
// expression_mib.EXPRESSIONMIB_ExpNameTable_ExpNameEntry_ExpExpressionIndex
ExpExpressionIndex interface{}
// This attribute is a key. Within an expression, a unique, numeric
// identification for an object. Prefixed with a dollar sign ('$') this is
// used to reference the object in the corresponding expExpression. The type
// is interface{} with range: 1..4294967295.
ExpObjectIndex interface{}
// The OBJECT IDENTIFIER (OID) of this object. The OID may be fully
// qualified, meaning it includes a complete instance identifier part (e.g.,
// ifInOctets.1 or sysUpTime.0), or it may not be fully qualified, meaning it
// may lack all or part of the instance identifier. If the expObjectID is not
// fully qualified, then expObjectWildcard must be set to true(1). The value
// of the expression will be multiple values, as if done for a GetNext sweep
// of the object. An object here may itself be the result of an expression
// but recursion is not allowed. NOTE: The simplest implementations of this
// MIB may not allow wildcards. The type is string with pattern:
// (([0-1](\.[1-3]?[0-9]))|(2\.(0|([1-9]\d*))))(\.(0|([1-9]\d*)))*.
ExpObjectID interface{}
// A true value indicates the expObjecID of this row is a wildcard object.
// False indicates that expObjectID is fully instanced. If all
// expObjectWildcard values for a given expression are FALSE,
// expExpressionPrefix will reflect a scalar object (ie will be 0.0). NOTE:
// The simplest implementations of this MIB may not allow wildcards. The type
// is bool.
ExpObjectIDWildcard interface{}
// The method of sampling the selected variable. An 'absoluteValue' is simply
// the present value of the object. A 'deltaValue' is the present value minus
// the previous value, which was sampled expExpressionDeltaInterval seconds
// ago. This is intended primarily for use with SNMP counters, which are
// meaningless as an 'absoluteValue', but may be used with any integer-based
// value. When an expression contains both delta and absolute values the
// absolute values are obtained at the end of the delta period. The type is
// ExpObjectSampleType.
ExpObjectSampleType interface{}
// The OBJECT IDENTIFIER (OID) of a TimeTicks or TimeStamp object that
// indicates a discontinuity in the value at expObjectID. This object is not
// instantiated if expObject is not 'deltaValue'. The OID may be for a leaf
// object (e.g. sysUpTime.0) or may be wildcarded to match expObjectID. This
// object supports normal checking for a discontinuity in a counter. Note
// that if this object does not point to sysUpTime discontinuity checking must
// still check sysUpTime for an overall discontinuity. If the object
// identified is not accessible no discontinuity check will be made. The type
// is string with pattern:
// (([0-1](\.[1-3]?[0-9]))|(2\.(0|([1-9]\d*))))(\.(0|([1-9]\d*)))*.
ExpObjectDeltaDiscontinuityID interface{}
// A true value indicates the expObjectDeltaDiscontinuityID of this row is a
// wildcard object. False indicates that expObjectDeltaDiscontinuityID is
// fully instanced. This object is not instantiated if expObject is not
// 'deltaValue'. NOTE: The simplest implementations of this MIB may not
// allow wildcards. The type is bool.
ExpObjectDiscontinuityIDWildcard interface{}
// The value 'timeTicks' indicates the expObjectDeltaDiscontinuityID of this
// row is of syntax TimeTicks. The value 'timeStamp' indicates that
// expObjectDeltaDiscontinuityID is of syntax TimeStamp. This object is not
// instantiated if expObject is not 'deltaValue'. The type is
// ExpObjectDiscontinuityIDType.
ExpObjectDiscontinuityIDType interface{}
// The OBJECT IDENTIFIER (OID) of an object that overrides whether the
// instance of expObjectID is to be considered usable. If the value of the
// object at expObjectConditional is 0 or not instantiated, the object at
// expObjectID is treated as if it is not instantiated. In other words,
// expObjectConditional is a filter that controls whether or not to use the
// value at expObjectID. The OID may be for a leaf object (e.g.
// sysObjectID.0) or may be wildcarded to match expObjectID. If expObject is
// wildcarded and expObjectID in the same row is not, the wild portion of
// expObjectConditional must match the wildcarding of the rest of the
// expression. If no object in the expression is wildcarded but
// expObjectConditional is, use the lexically first instance (if any) of
// expObjectConditional. If the value of expObjectConditional is 0.0
// operation is as if the value pointed to by expObjectConditional is a
// non-zero (true) value. Note that expObjectConditional can not trivially
// use an object of syntax TruthValue, since the underlying value is not 0 or
// 1. The type is string with pattern:
// (([0-1](\.[1-3]?[0-9]))|(2\.(0|([1-9]\d*))))(\.(0|([1-9]\d*)))*.
ExpObjectConditional interface{}
// A true value indicates the expObjectConditional of this row is a wildcard
// object. False indicates that expObjectConditional is fully instanced.
// NOTE: The simplest implementations of this MIB may not allow wildcards. The
// type is bool.
ExpObjectConditionalWildcard interface{}
// The control that allows creation/deletion of entries. Objects in this
// table may be changed while expObjectStatus is in any state. The type is
// RowStatus.
ExpObjectStatus interface{}
}
EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry Information about an object. An application uses expObjectStatus to create entries in this table while in the process of defining an expression.
Values of read-create objects in this table may be changed at any time.
func (*EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry) GetEntityData ¶
func (expObjectEntry *EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry) GetEntityData() *types.CommonEntityData
type EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectDiscontinuityIDType ¶
type EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectDiscontinuityIDType string
EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectDiscontinuityIDType represents 'deltaValue'.
const ( EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectDiscontinuityIDType_timeTicks EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectDiscontinuityIDType = "timeTicks" EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectDiscontinuityIDType_timeStamp EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectDiscontinuityIDType = "timeStamp" )
type EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectSampleType ¶
type EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectSampleType string
EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectSampleType represents period.
const ( EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectSampleType_absoluteValue EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectSampleType = "absoluteValue" EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectSampleType_deltaValue EXPRESSIONMIB_ExpObjectTable_ExpObjectEntry_ExpObjectSampleType = "deltaValue" )
type EXPRESSIONMIB_ExpResource ¶
type EXPRESSIONMIB_ExpResource struct {
EntityData types.CommonEntityData
YFilter yfilter.YFilter
// The minimum expExpressionDeltaInterval this system will accept. A system
// may use the larger values of this minimum to lessen the impact of
// constantly computing deltas. The value -1 indicates this system will not
// accept deltaValue as a value for expObjectSampleType. Unless explicitly
// resource limited, a system's value for this object should be 1. Changing
// this value will not invalidate an existing setting of expObjectSampleType.
// The type is interface{} with range: -1..-1 | 1..600. Units are seconds.
ExpResourceDeltaMinimum interface{}
// The maximum number of dynamic instance entries this system will support for
// wildcarded delta objects in expressions. These are the entries that
// maintain state, one for each instance of each deltaValue object for each
// value of an expression. A value of 0 indicates no preset limit, that is,
// the limit is dynamic based on system operation and resources. Unless
// explicitly resource limited, a system's value for this object should be 0.
// Changing this value will not eliminate or inhibit existing delta wildcard
// instance objects but will prevent the creation of more such objects. The
// type is interface{} with range: 0..4294967295. Units are instances.
ExpResourceDeltaWildcardInstanceMaximum interface{}
// The number of currently active instance entries as defined for
// expResourceDeltaWildcardInstanceMaximum. The type is interface{} with
// range: 0..4294967295. Units are instances.
ExpResourceDeltaWildcardInstances interface{}
// The highest value of expResourceDeltaWildcardInstances that has occurred
// since initialization of the management system. The type is interface{} with
// range: 0..4294967295. Units are instances.
ExpResourceDeltaWildcardInstancesHigh interface{}
// The number of times this system could not evaluate an expression because
// that would have created a value instance in excess of
// expResourceDeltaWildcardInstanceMaximum. The type is interface{} with
// range: 0..4294967295. Units are instances.
ExpResourceDeltaWildcardInstanceResourceLacks interface{}
}
EXPRESSIONMIB_ExpResource
func (*EXPRESSIONMIB_ExpResource) GetEntityData ¶
func (expResource *EXPRESSIONMIB_ExpResource) GetEntityData() *types.CommonEntityData
type EXPRESSIONMIB_ExpValueTable ¶
type EXPRESSIONMIB_ExpValueTable struct {
EntityData types.CommonEntityData
YFilter yfilter.YFilter
// A single value from an evaluated expression. For a given instance, only
// one 'Val' object in the conceptual row will be instantiated, that is, the
// one with the appropriate type for the value. For values that contain no
// objects of expObjectSampleType 'deltaValue', reading a value from the
// table causes the evaluation of the expression for that value. For those
// that contain a 'deltaValue' the value read is as of the last delta
// interval. If in the attempt to evaluate the expression one or more of the
// necessary objects is not available, the corresponding entry in this table
// is effectively not instantiated. To maintain security of MIB information,
// expression evaluation must take place using security credentials for the
// implied Gets of the objects in the expression. For expressions with no
// deltaValue those security credentials are the ones that came with the Get*
// for the value. For expressions with a deltaValue the ongoing expression
// evaluation is under the security credentials of the creator of the
// corresponding expNameEntry. The type is slice of
// EXPRESSIONMIB_ExpValueTable_ExpValueEntry.
ExpValueEntry []*EXPRESSIONMIB_ExpValueTable_ExpValueEntry
}
EXPRESSIONMIB_ExpValueTable A table of values from evaluated expressions.
func (*EXPRESSIONMIB_ExpValueTable) GetEntityData ¶
func (expValueTable *EXPRESSIONMIB_ExpValueTable) GetEntityData() *types.CommonEntityData
type EXPRESSIONMIB_ExpValueTable_ExpValueEntry ¶
type EXPRESSIONMIB_ExpValueTable_ExpValueEntry struct {
EntityData types.CommonEntityData
YFilter yfilter.YFilter
YListKey string
// This attribute is a key. The type is string with range: 1..4294967295.
// Refers to
// expression_mib.EXPRESSIONMIB_ExpNameTable_ExpNameEntry_ExpExpressionIndex
ExpExpressionIndex interface{}
// This attribute is a key. The final instance portion of a value's OID
// according to the wildcarding in instances of expObjectID for the
// expression. The prefix of this OID fragment is 0.0, leading to the
// following behavior. If there is no wildcarding, the value is 0.0.0. In
// other words, there is one value which standing alone would have been a
// scalar with a 0 at the end of its OID. If there is wildcarding, the value
// is 0.0 followed by a value that the wildcard can take, thus defining one
// value instance for each real, possible value of the wildcard. So, for
// example, if the wildcard worked out to be an ifIndex, there is an
// expValueInstance for each applicable ifIndex. The type is string with
// pattern: (([0-1](\.[1-3]?[0-9]))|(2\.(0|([1-9]\d*))))(\.(0|([1-9]\d*)))*.
ExpValueInstance interface{}
// The value when expExpressionValueType is 'counter32'. The type is
// interface{} with range: 0..4294967295.
ExpValueCounter32Val interface{}
// The value when expExpressionValueType is 'unsignedOrGauge32' or
// 'timeTicks'. The type is interface{} with range: 0..4294967295.
ExpValueUnsigned32Val interface{}
// The value when expExpressionValueType is 'integer32'. The type is
// interface{} with range: -2147483648..2147483647.
ExpValueInteger32Val interface{}
// The value when expExpressionValueType is 'ipAddress'. The type is string
// with pattern:
// (([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\.){3}([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])(%[\p{N}\p{L}]+)?.
ExpValueIpAddressVal interface{}
// The value when expExpressionValueType is 'octetString'. The type is string
// with length: 0..65535.
ExpValueOctetStringVal interface{}
// The value when expExpressionValueType is 'objectId'. The type is string
// with pattern:
// (([0-1](\.[1-3]?[0-9]))|(2\.(0|([1-9]\d*))))(\.(0|([1-9]\d*)))*.
ExpValueOidVal interface{}
// The value when expExpressionValueType is 'counter64'. The type is
// interface{} with range: 0..18446744073709551615.
ExpValueCounter64Val interface{}
}
EXPRESSIONMIB_ExpValueTable_ExpValueEntry A single value from an evaluated expression. For a given instance, only one 'Val' object in the conceptual row will be instantiated, that is, the one with the appropriate type for the value. For values that contain no objects of expObjectSampleType 'deltaValue', reading a value from the table causes the evaluation of the expression for that value. For those that contain a 'deltaValue' the value read is as of the last delta interval.
If in the attempt to evaluate the expression one or more of the necessary objects is not available, the corresponding entry in this table is effectively not instantiated.
To maintain security of MIB information, expression evaluation must take place using security credentials for the implied Gets of the objects in the expression. For expressions with no deltaValue those security credentials are the ones that came with the Get* for the value. For expressions with a deltaValue the ongoing expression evaluation is under the security credentials of the creator of the corresponding expNameEntry.
func (*EXPRESSIONMIB_ExpValueTable_ExpValueEntry) GetEntityData ¶
func (expValueEntry *EXPRESSIONMIB_ExpValueTable_ExpValueEntry) GetEntityData() *types.CommonEntityData
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