Network Working Group E. Stephan/J. Jewitt
Internet Draft France Telecom R&D
Document: draft-ietf-ippm-reporting-mib-00.txt June 20, 2002
IPPM reporting MIB
Status of this Memo
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Abstract
This memo defines a portion of the Management Information Base (MIB)
designed for use with network management protocols in TCP/IP-based
internets.
In particular, this MIB specifies the objects used for managing the
results of the IPPM metrics measures, for pushing alarms, and for
reporting the measures results.
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Table of Contents
1. Introduction................................................3
2. The IPPM Framework..........................................3
3. The SNMP Management Framework...............................3
4. Overview....................................................5
4.1. Textual Conventions.........................................6
4.2. Structure of the MIB.......................................10
4.3. Row identification in an application namespace.............12
5. IPPM-REPORTING-MIB conceptual presentation.................14
5.1. IPPM-REPORTING-MIB diagram.................................14
5.2. Conceptual programming interface...........................15
5.3. SNMP mapping...............................................15
6. Measurement architectures..................................16
6.1. Proxy architecture.........................................16
6.2. Reporting architecture.....................................17
6.3. Gateway architecture.......................................19
6.4. Security...................................................19
7. Reporting mode integration with the control and test
protocols................................................20
7.1. Integration................................................20
7.2. Setup of the measure.......................................20
7.3. Setup of the measurement report............................21
7.4. Writing the measurement results in the IPPM-REPORTING
MIB......................................................21
7.5. Report download and upload.................................22
7.6. Default value..............................................22
8. Definition.................................................22
9. Security Considerations....................................58
9.1. Privacy....................................................58
9.2. Measurement aspects........................................58
9.3. Management aspects.........................................58
10. References.................................................59
11. Acknowledgments............................................61
12. Author's Addresses.........................................61
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1. Introduction
This memo defines a MIB for managing the measures using the IP
performance metrics specified by the IPPM Working Group.
It specifies the objects to manage the results of the measure of
metrics standardized by IPPM Working Group. They are built on notions
introduced and discussed in the IPPM Framework document, RFC 2330
[2].
This memo defines a Management Information Base (MIB), and as such
it is intended to be respectful of the "Boilerplate for IETF MIBs"
defined in http://www.ops.ietf.org/mib-boilerplate.html.
There are companion documents to the IPPM-REPORTING-MIB both in the
Transport Area (See section 2), and in the Operations and Management
Area (See section 3). The reader should be familiar with these
documents.
2. The IPPM Framework
The IPPM Framework consists in 3 major components:
A general framework for defining performance metrics, described
in the Framework for IP Performance Metrics, RFC 2330 [2];
A set of standardized metrics which conform to this framework:
The IPPM Metrics for Measuring Connectivity, RFC 2678 [3]; The One-
way Delay Metric for IPPM, RFC 2679 [4]; The One-way Packet Loss
Metric for IPPM, RFC 2680 [5]; The Round-trip Delay Metric for IPPM,
RFC 2681 [6].
Emerging metrics that are being specified in respect of this
framework.
3. The SNMP Management Framework
The SNMP Management Framework consists of five major components:
An overall architecture, described in RFC 2571 [7].
Mechanisms for describing and naming objects and events for the
purpose of management. The first version of this Structure of
Management Information (SMI) is called SMIv1 and described in STD 16,
RFC 1155 [8], STD 16, RFC 1212 [9] and RFC 1215 [10]. The second
version, called SMIv2, is described in STD 58, RFC 2578 [11], STD 58,
RFC 2579 [12] and STD 58, RFC 2580 [13].
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Message protocols for transferring management information. The
first version of the SNMP message protocol is called SNMPv1 and
described in STD 15, RFC 1157 [14]. A second version of the SNMP
message protocol, which is not an Internet standards track protocol,
is called SNMPv2c and described in RFC 1901 [15] and RFC 1906 [16].
The third version of the message protocol is called SNMPv3 and
described in RFC 1906 [16], RFC 2572 [17] and RFC 2574 [18].
Protocol operations for accessing management information. The
first set of protocol operations and associated PDU formats is
described in STD 15, RFC 1157 [14]. A second set of protocol
operations and associated PDU formats is described in RFC 1905 [19].
A set of fundamental applications described in RFC 2573 [20] and
the view-based access control mechanism described in RFC 2575 [21].
A more detailed introduction to the current SNMP Management Framework
can be found in RFC 2570 [22].
Managed objects are accessed via a virtual information store, termed
the Management Information Base or MIB. Objects in the MIB are
defined using the mechanisms defined in the SMI.
This memo specifies a MIB module that is compliant to the SMIv2. A
MIB conforming to the SMIv1 can be produced through the appropriate
translations. The resulting translated MIB must be semantically
equivalent, except where objects or events are omitted because no
translation is possible (use of Counter64). Some machine readable
information in SMIv2 will be converted into textual descriptions in
SMIv1 during the translation process. However, this loss of machine
readable information is not considered to change the semantics of the
MIB.
Managed objects are accessed via a virtual information store, termed
the Management Information Base or MIB. Objects in the MIB are
defined using the subset of Abstract Syntax Notation One (ASN.1)
defined in the SMI. In particular, each object type is named by an
OBJECT IDENTIFIER, an administratively assigned name.
The object type together with an object instance serves to uniquely
identify a specific instantiation of the object. For human
convenience, we often use a textual string, termed the descriptor, to
refer to the object type.
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4. Overview
Although the number of measurement devices that implement IPPM
metrics is growing, there is not currently any standardized
management interface to manage remotely the results of these metrics.
This memo defines a Management Information Base for managing the
results of the measures of IPPM metrics.
To permit metrics to be referenced by other MIBs and other protocols,
the IPPM WG has defined a registry of the current metrics and a
framework for the integration of future metrics in [IPPM metrics
registry].
As the specification of new metrics is a continuous process, this
memo defines a framework for the integration of the future
standardized metrics. To address future needs Specialized tables may
be created, while augmenting the definition of the ippmMeasureTable.
The MIB architecture is inspired by the RMON model [23],[24] which
specifies the MIB for the monitoring of a single point of measure.
The IPPM-REPORTING-MIB differs from this model in that IPPM metrics
measurement involves several points of measures and requires common
references for time and for measure identification. The IPPM-
REPORTING-MIB defines an absolute timeFilter.
The IPPM-REPORTING-MIB introduces a framework where each application
identifies its measures in an owner namespace. Using the namespace
framework, an application may grant other owners access to its
measure results for aggregated metrics computation, reporting, or
alarming.
Different architectures may be used to perform metric measurements,
using a control protocol and a test protocol. Different control
frameworks are suitable for performing a measure. The memo lists
them, while also looking for a way to integrate them with the IPPM-
REPORTING-MIB . This section is informational, but helps to specify
the relationship among the test protocol, the control protocol and
IPPM-REPORTING-MIB.
Special care has been taken to provide a reporting mode suitable for
control protocol and test protocol. It addresses the need to provide
access to results for the applications. Moreover, it may be used to
reduce the number of control frameworks.
This MIB is intended to handle multiple concurrent access by SNMP
applications. They are not in constant contact with the measurement
devices. For this reason, this MIB allows continuous measures
collection and statistics computation.
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The objects defined in this document are not intended for direct
manipulation..
4.1. Textual Conventions
Five types of data are introduced as a textual convention in this
MIB document: TypeP,GMTDateAndTime, GmtTimeFilter,
IppmReportDefinition and IppmStandardMetrics.
4.1.1. Packet of type P
Section 13 of the IPPM framework [2] introduces the generic notion of
a "packet of type P" because in some contexts the metric's value
depends on the type of the packets involved in the metric. In the
definition of a metric, the type P will be explicitly defined,
partially defined, or left generic. Measurement of metrics defined
with generic type P are made specific when performing actual
measurements. This naming convention serves as an important reminder
that one must be conscious of the exact type of traffic being
measured.
The standardization of the management of the IPPM measures relies on
the capability to configure finely and unambiguously the type P of
the packets, and the parameters of the protocol suites of the type P.
RMON2 introduced the concept of protocol identifiers. The RFC2895
[25] specifies a macro for the definition of protocol identifier. The
RFC2896 [26] defines the protocol identifiers for different protocol
encapsulation trees.
The type P implementation relies on the MACRO PROTOCOL-IDENTIFIER
defined for identifying protocol suites in RMON2. It is achieved by
defining the TypeP as a new syntax in SMIv2 TEXTUAL-CONVENTION.
4.1.1.1. Internet addresses
The section 14 of the IPPM framework defines (for the usual case of a
unidirectional path through the Internet) the term "Src" and "Dst".
"Src" denotes the IP address of the beginning of the path, and "Dst"
denotes the IP address of the end.
The section 3 of the RMON PI Reference specifies the Protocol
Identifier Encoding rules which consists briefly in a recursive
length value format. "Src" and "Dst" are protocol identifier
parameters. Their values are encoded in separated fields using the
protocol identifier encoding rule, but without trailing parameters.
The packet encapsulation defined in an instance of TypeP embeds the
format of "Src" and "Dst" and their values. These addresses type and
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value depend on the type P of the packet, IP version 4, V6, IP in
IP... Both participate to the completion of the packet encoding.
Examples:
RFC2896 defines the protocol identifiers ip and ipip4. Should there
be an Internet tunnel end-point of the IP address 192.168.1.1 in the
tunnel 128.2.6.7. The TypeP of the source address of the tunnel, Src,
is 8.0.0.8.0.0.0.0.17.2.0.0 (ip.ipip4). The trailer 2.0.0 in the
TypeP indicates that there are 2 parameters. In the IPPM context
these 2 parameters are provided in Src, which has the value
10.4.192.168.1.1.4.128.2.6.7.
4.1.2. GMTDateAndTime
This textual convention defines the date and time, and is represented
by the following format: year, month, day, hour, minutes, seconds,
fractions of second.
The first part is human readable. The fields year, month, day, hour,
minutes are seconds are printable characters.
The last field is the fraction of second. The fraction step is 250
picoseconds.
or example, 50 ms is 200000000 times 250 picosecond which correspond to
0BEBC200'H. 0001000201090200010501000BEBC200 represent 8:15pm, 10
econds and 50 ms GMT on 19 February 2001 and is displayed as 01-02-
9,20:15:10, 200000000.
4.1.3. GmtTimeFilter
GmtTimeFilter uses an absolute reference of time, and is intended to be
used for the index of a table. It allows an application to download only
those rows changed since a particular time. A row is considered changed
if the value of any object in the row changes, or if the row is created
or deleted.
Each new conceptual row will be associated with the timeMark instance
that was created at the value of ippmTimeSysTimer.
It is intended to provide an absolute timestamp index for the results of
measures. Typically for each singleton produced by an IPPM measure is
associated the timemark corresponding to the moment of the measure.
Illustrations:
Consider the 2 tables measureTable and resultTable
measureTable OBJECT-TYPE
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SYNTAX SEQUENCE OF MeasureEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION ''
::= { fooMib 1 }
INDEX { measureIndex }
resultTable OBJECT-TYPE
SYNTAX SEQUENCE OF ResultEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION ''
::= { fooMib 2 }
INDEX { measureIndex, resultTimeMark }
ResultEntry {
resultTimeMark TimeFilter,
resultCounts Counter
}
LetÆs assume there are two measure rows in the measure table
(measureIndex == 1, measureIndex == 2) which produced results
asynchronously (e.g. made at Poisson intervals or sibling) and logged
them in the result table.
LetÆs also assume that Measure 1 produced the result 34 at time
0001000201090200010501000BEBC200 GMT, while Measure 2 produced the value
54 10ms later at time 0001000201090200010501000E4E1C00 GMT, and that
both rows are updated on several later occasions such that the current
values are 37 and 53 respectively.
Then the following resultCounts instances would exist:
resultCounts.1.0001000201090200010501000BEBC200 34
resultCounts.2.0001000201090200010501000E4E1C00 54
resultCounts.1.00010002010902000105010016A65700 65
resultCounts.1.0001000201090200010501000E4E1C00 57
resultCounts.2.0001000201090200010501001312D000 48
resultCounts.2.0001000201090200010501001443FD00 53
resultCounts.1.00010002010902000105010101312D00 49
resultCounts.1.00010002010902000105010104C4B400 37
The following get-bulk explains how an NMS retrieves the results of the
measures.
get-bulk(nonRptrs=1, maxReps=10, resultCounts.1);
returns:
resultCounts.1. 0001000201090200010501000BEBC200 == 34
resultCounts.1.00010002010902000105010016A65700 == 65
resultCounts.1.0001000201090200010501000E4E1C00 == 57
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resultCounts.1.00010002010902000105010101312D00 == 49
resultCounts.1.00010002010902000105010104C4B400 == 37
# return lexigraphically-next two MIB instances
get-bulk(nonRptrs=0, maxReps=2,
resultCounts.1.0001000201090200010501000E4E1C00 ,
resultCounts.2.0001000201090200010501000E4E1C00 );
returns:
resultCounts.1.00010002010902000105010016A65700 == 65
resultCounts.2.0001000201090200010501001312D000 == 48
resultCounts.1.0001000201090200010501000E4E1C00 == 57
resultCounts.2.0001000201090200010501001443FD00 == 53
get-bulk(nonRptrs=0, maxReps=2,
resultCounts.1.00010002010902000105010104C4B400 ,
resultCounts.2.00010002010902000105010104C4B400 );
returns:
return lexigraphically-next two MIB instances
no 'resultTable' counter values at all are returned because
neither counter has been updated since the time
00010002010902000105010104C4B400
4.1.4. Report definition
A report consists of sending or logging a subset of results of
measure. The elaboration of the report consists of actions to perform
on the measurement results. An action is performed either:
+ For each result
+ On the results corresponding to a measurement cycle
+ On the results available at the measurement completion.
To preserve the scalability of the whole measurement system, it
limits:
+ The amount of data sent to the applications
+ The bandwidth consumption for uploading the result
+ The number of alarms sent to the applications
+ The amount of data saved in the point of measure
The comparison of the measure results in a metric threshold that
identifies particular measure values and times that directly impact
service availability.
The comparison of the duration of repeated events with a duration
threshold identifies particular measure values and times that
directly affect an SLA.
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The combination of IPPM metric results, threshold events, and event
filtering provides a very efficient mechanism to report results,
events, and alarms.
A report is described using the TEXTUAL-CONVENTION
IppmReportDefinition. The report setup must not dramatically increase
the amount of data needed by the control protocol to setup a measure:
+ A basic report is defined in the object
ippmReportSetupDefinition;
+ More elaborate reports are described using a metric
threshold to generate alarms and events.
+ Pushing of alarms and reports requires an NMS address.
+ SLA alarms are described using an events duration
threshold.
The TEXTUAL-CONVENTION IppmReportDefinition specifies the list of
events and actions that are used to create a report.
4.1.5. IppmStandardMetrics
The TEXTUAL-CONVENTION IppmStandardMetrics defines the standardized
IPPM metrics.
4.2. Structure of the MIB
The MIB is arranged as follow:
- ippmOwnersGroup
- ippmSystemGroup
- ippmMeasureGroup
- ippmHistoryGroup
- ippmNetworkMeasureGroup
- ippmAggregatedMeasureGroup
- ippmReportGroup
- ippmNotifications
4.2.1. The ippmOwners Group
This group controls access to the probe.
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4.2.2. The ippmSystem Group
This group consists of a set of parameters describing the clock
synchronization over the time.
This group is Critical to the implementation of the IPPM MIB.
Section 6.3. of the IPPM Framework states that
"Those who develop such measurement methodologies should strive to:
+ Minimize their uncertainties/errors,
+ Understand and document the sources of uncertainty/error, and
+ Quantify the amounts of uncertainty/error."
The aim of this group is to have these values available to compute
reliable statistics. The implementation of this group is mandatory
whether the time synchronization is automatic or not.
4.2.3. The ippmMeasureGroup
This group displays all the measures configured on the measurement
entity. It consists of the ippmMetricsTable, ippmMeasureTable.
The measurement entity describes in the ippmMetricsTable of the SNMP
agent the local implementation of the standardized metrics.
The control protocol registers a description of the existing measures
in the ippmMeasureTable and in the auxiliary measure tables.
ippmMeasureTable holds the common part of a measure, while the
specific parameters are handled in the corresponding auxiliary table
(ippmNetworkMeasure, ippmAggregatedMeasureTableà) .
The results of the measures are logged in the ippmHistoryTable.
4.2.4. The ippmNetworkMeasure Group
The control protocol registers a description of the existing network
measures in the ippmNetworkMeasureTable and in the ippmMeasureTable.
This group displays the network measures defined by the control
protocol. The results are saved in the ippmHistoryTable.
ippmNetworkMeasureTable is an auxiliary table of ippmMeasureTable,
and is responsible for the configuration of the network measure.
4.2.5. The ippmAggregatedMeasure Group
ippmAggregatedMeasureTable is an auxiliary table of ippmMeasureTable,
and is responsible for the consolidation of the results previously
measured and saved in the ippmHistoryTable. The aggregated results
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are saved in the ippmHistoryTable and may be used for higher
aggregated measures.
4.2.6. The report Group
This group displays the existing reports of the measures.
ippmReportSetupTable is an auxiliary table of ippmMeasureTable, and
is responsible for the configuration of the reports.
The reports are saved in the ippmReportTable, or sent directly to the
applications.
4.2.7. The notification Group
The Notification group specifies a list of valid notifications. They
are used to push alarms or reports to the applications.
4.3. Row identification in an application namespace
The control protocol or the test protocol adds rows in the namespace
of the corresponding measure.
An identifier of an instance of an object is defined as a list of
objects in the clause INDEX. An identifier of an instance of an
object in an owner namespace is defined as a list of objects in the
clause INDEX where the first object type is OwnerString.
As the OBJECT IDENTIFIER, which identifies the instance, begins with
the owner value, the remaining value of the index fields may be
chosen independently from one namespace to another.
This allows the user to choose arbitrary values for the remaining
fields of the INDEX clause without checking that the values of these
fields exist in the MIB tables. This allows the owner to use the same
values across MIB implementations.
Thus, it avoids polling to determine the next free index. Also, as a
consequence, s 2 applications will never find the same free index
value.
The usage of owner namespace increases the speed of the management
operations while reducing bandwidth consumption and CPU load in the
agents and applications.
Measurements are requested by NMS applications. An instance of an
object managed by an NMS is identified by the NMS OwnerString and the
private index provided by the NMS.
As the NMS manages its private range of indices, it simply chooses
one when it wishes to create a new control entry. For the same
reason, the setup of a measure on several points of measures consists
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of simply sending the same copy of the measure setup to the different
points of measures involved.
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5. IPPM-REPORTING-MIB conceptual presentation
5.1. IPPM-REPORTING-MIB diagram
Conceptual view of objects configured using the IPPM-REPORTING-MIB
+--------------------------------------------------------+
| IPPM-REPORTING-MIB entity |
| |
| +---------------------+ +-------------------+ |
| | | | | |
| | Measure scheduler | | Result storage | |
| | | | | |
| | ^ | | ^ ^^^ | |
| | | | | | ||| | |
| +----------|----------+ +-|---|||-----------+ |
| | | ||| |
| +----------|--------------|---|||-----------+ |
| | | owner | ||| | |
| | | Acces | ||| | |
| | | Control | ||| | |
| +----------|--------------|---|||-----------+ |
| | | ||| |
+------------------|--------------|---|||----------------+
| | |||
| | |||
+----------------+ | +----------+-+ ||| +-------------+
| ControlMeasure | | | GetResult | ||| | CreateResult|
|----------------+-+ |------------| ||+--+-------------|
| | | | || | |
| owner | | owner | || | owner |
| privateNdx | | privateNdx | || | privateNdx |
| metrics | | metric | || | metrics |
| scheduler | | timestamp | || | timestamp |
| addresses | +------------+ || | value |
| status | || +-------------+
+----------------+ ||
||
+---------------------------+|
| |
+---------+---------+ +------+-----------------+
|GetMeasureResults | |GetMeasureMetricResults |
|-------------------| |------------------------|
| | | owner |
| owner | | privateNdx |
| privateNdx | | metric |
+-------------------+ +------------------------+
The managed objects of the IPPM-REPORTING-MIB are the measures and
the results.
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5.2. Conceptual programming interface
This section describes a conceptual programming interface for the
integration of the IPPM-REPORTING-MIB in a point of measure.
5.2.1. Measure control
A measure is created/deleted/suspended through the ControlMeasure()
call.
5.2.2. Result log
A result of a measure is created in the IPPM-REPORTING-MIB History
table using a CreateResult() call. Results belonging to a measure are
managed according to the setup of the measure.
5.2.3. Reporting
Results are reported using the method GetResult(),
GetMeasureMetricResults() and GetMeasureResults() respectively to get
a singleton result, the singleton result of a metric measure, and
finally to get the singleton result of a measure.
5.2.4. Logical calls
Objects are managed using 5 main primitives:
controlMeasure();
CreateResult();
GetResult();
GetMeasureMetricResults();
GetMeasureResults().
5.3. SNMP mapping
ControlMeasure() corresponds to a SNMP set-request on a conceptual
row of ippmMeasureEntry and on a conceptual row of
ippmNetworkMeasureEntry.
CreateResult() is a internal interface for adding measure results in
the ippmHistoryTable.
GetResult() corresponds to an SNMP get-request on a result.
GetMeasureMetricResults() corresponds to a SNMP walk on the results
of a metric measure subtree.
GetMeasureResults() corresponds to a SNMP walk on the results of a
measure subtree.
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6. Measurement architectures
There are four main measurement architectures.
6.1. Proxy architecture
+----+ +----+
|NMS1| |NMS2|
+----+ +----+
^ ^
| |
+----------+ +----------+
| |
SNMP or Sibling
| |
v v
+--------------------------+
| IPPM-REPORTING-MIB agent |
+--------------------------+
^ ^
| |
OWDP-Control
| |
+----------+ +----------+
| |
v v
+----------------+ +------------------+
| Packets-Sender |--OWDP-Test-->| Packets-Receiver |
+----------------+ +------------------+
In this architecture, the different NMSÆs query the IPPM-REPORTING-
MIB agent for measurements. The agent controls whether the NMS is
granted access to perform the measure requested. Each NMS accesses
the results of its measurements in the IPPM-REPORTING-MIB statistics
table.
The measurement setup/teardown and the data collection are done using
the control protocol and the test protocol.
In this mode the NMS does not depend either on the control protocol
nor on the test protocol. The entities involved in the measurement do
not need to implement the IPPM-REPORTING-MIB nor SNMP. This mode
allows for lightweight implementation in the point of measure, and
also for heterogeneous control protocols to coexist.
Finally, the proxy is a checkpoint where measurement activity may be
logged, and where access to measurement setups may be tightly
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controlled. Thus, it provides a reliable architecture to manage the
security of a measurement system.
6.2. Reporting architecture
In this architecture the SNMP protocol is only used to read the
results of the measurements in the IPPM-REPORTING-MIB History Table,
and also to inform the NMS that an event has occurred.
+----+ +----+
|NMS1| |NMS2|
+----+ +----+
^ ^ ^ ^
| | | |
SNMP| SNMP|
| | | |
| | | |
| OWDP | OWDP
|Control |Control
| | | |
| | +------------------------------+
| | | | |
| | +--|---------------------------+ |
| | | | | |
| +--|--|------------------------+ | |
| | | | | | |
+--------+---------------------+ | |
| | | | | | | |
| | | | | | | |
v v v v v v v v
+------------------+ +------------------+
|IPPM-REPORTING-MIB| |IPPM-REPORTING-MIB|
| agent | | agent |
+------------------+ +------------------+
| Packets-Sender |--OWDP-Test-->| Packets-Receiver |
+------------------+ +------------------+
The activation of a measure by the control protocol or the test protocol
creates a measure in the IPPM-REPORTING-MIB Measure table. The table in
question may be not accessible by SNMP. In this case, a list of the
measure identifiers (owner, index) is handled by the measurement
software.
Each timestamped result of the measure is logged on the fly in the IPPM-
REPORTING-MIB History table in order to allow read access to the NMSÆs
and event handling.
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On completion, the measurement results are managed according to the
measure setup:
+ The results may be sent to an NMS using a SNMP Trap PDU or
a SNMP Inform PDU. The NMS may be the sender entity or the
control entity;
+ They may be dropped from the IPPM-REPORTING-MIB History
table.
In this mode, it is recommended to use an SNMPv2 Inform PDU to send the
result because it ensures that the entire block of the result is
received. There is no control using SNMP Trap PDU.
Also, in this mode, it is recommended to implement the IPPM-REPORTING-
MIB Measure table in read only in order to allow an NMS to read the
status of their measures.
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6.3. Gateway architecture
The gateway architecture combines the proxy mode and the reporting mode.
+-------+ +------+
| NMS1 | | NMS2 |
+-------+ +------+
^ ^
| |
SNMP SNMP
| |
| +----------------------------------------+
| | |
+-------------+ +------------------+
| | | | |
+----------------------------------------+ |
| | | | | |
| | v v | |
| | +------------------------+ | |
| | | IPPM-REPORTING-MIB | | |
| | | scheduler | | |
| | +------------------------+ | |
| | | control server | | |
| | +------------------------+ | |
| | ^ ^ | |
| | | | | |
| | OWDP-Control protocol | |
| | | | | |
| | +-----+ +-------+ | |
| | | | | |
v v v v v v
+-------------+---------+ +--------+-------------+
| IPPM- | Packets | |Packets | IPPM |
|REPORTING-MIB| Sender | |Receiver|REPORTING-MIB|
| agent | |-OWDP-Test->| | agent |
+-------------+---------+ +--------+-------------+
The NMS measurement queries are registered in the IPPM-REPORTING-MIB
scheduler and performed by the control and the test protocol. The NMS
directly consults the result in the corresponding points of measure.
6.4. Security
The proxy mode provides flexibility and control of the access to the
points of measure, while allowing lightweight control protocol and test
protocol implementations in the points of measure. Different security
rules may be applied to the NMS domain and to measurement system
domains.
The reporting mode has 2 security domains:
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+The control of the measurement setups relies on the control and the
test protocol security mechanisms.
+ The control of access to the results depends on the SNMP security
mechanisms.
The gateway mode security relies on the security of the proxy mode and
of the reporting mode.
7. Reporting mode integration with the control and test protocols
The IPPM-REPORTING-MIB standardizes the parameters that:
+ Define the configuration of the IPPM metrics measures;
+ Define the format of the results of the measure;
+ Define the report of the IPPM metric measures results.
It introduces the concept of owner namespace to allow for fast
configuration and reporting across multiple points of measurement.
A measure is a distributed object describing a task to be performed by
the control and the test protocols. A measure is identified by its owner
and its owner index. This identifier is the same in all the points of
measure. As the owner chooses the index, there is no need for
negotiation between the NMS and the points of measure before activating
the measure.
A measure is primarily defined by its identifier, the metrics to
measure, the description of the end point addresses and the description
of the scheduling of the measure.
The description of the measure is distributed to the points of measure
involved. The distribution may not be synchronized.
7.1. Integration
The control protocol, test protocol and the IPPM-REPORTING-MIB share the
same semantic.
The integration of the IPPM-REPORTING-MIB, and the test and control
protocols, relies on the use of the conceptual programming interface
described in section 6. It consists in pushing the measure
setup/teardown parameters and the result values from the measurement
software to the IPPM-REPORTING-MIB agent.
7.2. Setup of the measure
The creation of the measure consists only in transferring the measure
description from the measurement software to the MIB. The management of
the measure is done using the ControlMeasure().
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The protocol, which provides the parameters of the measure to manage,
may be the control protocol of the test protocol.
Different frameworks may be used to setup a measure.
7.2.1. Synchronous setup
The control protocol sets up the measure both in the sender and the
receiver before the measurement.
7.2.2. Asynchronous setup
The control protocol sets up the measure only in the sender. In this
case, the receiver has a service already activated (or pending )for the
typeP of the measurement.
As the first test packet includes the description of the measure, it may
differ from regular test packets. If the first test packet is not
consistent with the regular test packets, it must not be used for
performing metrics measurement.
7.3. Setup of the measurement report
The report description is an extension to the definition of a measure.
It describes the event and the data to include in the report. A report
is read by an NMS in the ippmReportTable, or pushed to a NMS using a
SNMP Trap PDU, a SNMP Inform PDU, an email, or a SMS.
The control protocol, or the test protocol, includes the description of
the report in the setup of the measure.
Different types of reports may be combined:
+ A trivial report defines the results to be saved in the
ippmReportTable;
+ A basic report defines the host to which the results are
pushed on completion of the measure;
+ An alarm report defines a threshold on the results of the
measure. A message is sent to a host when the result raises
or fall the threshold;
+ An SLA report defines a threshold on the results of the
measure. The events are filtered using a staircase method.
The report consists in the results of the measure (time and
value) of the filtered events. The reports are sent at each
measure cycle or when the measure completes.
7.4. Writing the measurement results in the IPPM-REPORTING-MIB
Results have to be written by the measurement task in the agent
implementing the IPPM MIB.
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Adding the results of a measurement consists in the transfer of the
result from the measurement software to the agent. The protocol that
provides the result may be the control protocol, or the test protocol.
Writing a result is done using the CreateResult().
7.5. Report download and upload
A report is read in the ippmReportTable using SNMP, or pushed by the
IPPM_MIB agent using a SNMP Trap PDU, a SNMP Inform PDU, an email or a
SMS.
7.6. Default value
The default values correspond to Ipv4 best effort.
8. Definition
IPPM-REPORTING-MIB DEFINITIONS ::= BEGIN
IMPORTS
MODULE-IDENTITY,
NOTIFICATION-TYPE,
OBJECT-TYPE,
Integer32,
Counter32,
experimental
FROM SNMPv2-SMI
OwnerString
FROM RMON-MIB
protocolDir
FROM RMON2-MIB
DisplayString,
TimeStamp,
DateAndTime,
TruthValue,
RowStatus,
StorageType,
TEXTUAL-CONVENTION
FROM SNMPv2-TC
MODULE-COMPLIANCE,
OBJECT-GROUP,
NOTIFICATION-GROUP
FROM SNMPv2-CONF;
ippmReportingMib MODULE-IDENTITY
LAST-UPDATED "200202011200Z" -- March 17, 2002
ORGANIZATION "France Telecom - R&D"
CONTACT-INFO
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"Mail : Emile Stephan
France Telecom - R&D, Dpt. CPN
2, Avenue Pierre Marzin
Technopole Anticipa
22307 Lannion Cedex
FRANCE
Tel: + 33 2 96 05 36 10
E-mail: emile.stephan@francetelecom.com
Jessie Jewitt
France Telecom - - R&D
801 Gateway Blvd. Suit 500
South San Francisco, CA 94080
Tel : 1 650 875-1524
E-mail : jessie.jewitt@rd.francetelecom.com"
DESCRIPTION
" This memo defines a portion of the Management Information Base
(MIB) for use with network management protocols in TCP/IP-based
internets. In particular, it specifies the objects used for managing
the results of the IPPM metrics measurements, alarms and reporting
the measures results.
"
::= { ippm 2 }
--
-- TEXTUAL-CONVENTION
--
TimeUnit ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"A list of time units."
SYNTAX INTEGER {
year(1),
month(2),
week(3),
day(4),
hour(5),
second(6),
ms(7),
us(8),
ns(9)
}
--
--
-- A absolute, GMT timer using UTC like convention.
--
--
GMTDateAndTime ::= TEXTUAL-CONVENTION
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DISPLAY-HINT "d-d-d,d:d:d,4d"
STATUS current
DESCRIPTION
"A date-time specification.
field octets contents range
----- ------ -------- -----
1 1-2 year* 0..99
2 3-4 month 1..12
3 5-6 day 1..31
4 7-8 hour 0..23
5 9-10 minutes 0..59
6 11-12 seconds 0..59
7 13-16 250 picoseconds 0..2^32-1
"
SYNTAX OCTET STRING (SIZE (16))
GmtTimeFilter ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"GmtTimeFilter TC is inspired by the TimeFilter defined
in RMON2. The reference for the time of TimeFilter is
the local value of sysUptime, while GmtTimeFilter uses
an absolute reference of time.Æ Æ
SYNTAX GMTDateAndTime
TypeP ::= TEXTUAL-CONVENTION
DISPLAY-HINT "1d."
STATUS current
DESCRIPTION
"This textual convention is used to describe the
protocol encapsulation list of a packet, and is used as
the value of the SYNTAX clause for the type of the Src
and Dst of an IPPM measure. The RFC2895 specifies a
macro for the definition of protocol identifiers while
its companion document, the RFC2896 defines a set of
protocol identifiers.
Notes: An IPPM TypeP does not differ from RMON2 Protocol
identifiers, but TypeP usage in IPPM MIB differs from
Protocol identifier usage in RMON2. A IPPM measure is
active, so generally TypeP does not describe the link
layer (i.e. ether2...). Valid Internet packets are sent
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from Src to Dst. Then the choice of the link layer
relies on the Internet stack.
For example, the RFC2896 defines the protocol identifier
'16.0.0.0.1.0.0.8.0.0.0.0.6.0.0.0.23.3.0.0.0' which
represents ether2.ip.tcp.telnet and the protocol
identifier 16.0.0.0.1.0.0.8.0.0.0.0.4.0.0.0.17.3.0.0.0
which stands for ether2.ip.ipip4.udp. The corresponding
TypeP are '12.0.0.8.0.0.0.0.6.0.0.0.23.3.0.0.0'
(ip.tcp.telnet) and 12.0.0.8.0.0.0.0.4.0.0.0.17.3.0.0.0
(ip.ipip4.udp)."
SYNTAX OCTET STRING
IppmReportDefinition ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"IppmReportDefinition is intended to be used for describing the
report resulting from a measurement. By default, all the results of a
measure belong to the report of this measure.
The first step of the report definition sets up triggers on the
value of the measure, and on the distribution over time of the events
generated by these triggers.
The resulting measures corresponding to an event are reported
periodically, or sent in alarms as soon as the event occurs.
The end of the description describes housekeeping tasks.
An action if performed if the corresponding bit is set to 1.
onSingleton(1):
The actions are performed each time a new result of the
measure occurs.
onMeasureCycle(2):
The actions are performed on the results of the measure
at the end of each cycle of measure.
onMeasureCompletion(3):
The actions are performed on the results of the measure
at the end of the measure.
reportOnlyUptoDownMetricResults(4):
Report the contiguous results that are on opposite sides
of the metric threshold.
reportOnlyExceededEventsDuration(5):
Report the current result of a series of contiguous
results that exceed the metric threshold when the
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duration of the series is over the events duration
threshold seconds.
inIppmReportTable(6):
Store the report in the local ippmReportTable.
inSNMPTrapPDU(7):
Send the report using a SNMP-Trap-PDU.
inSNMPv2TrapPDU(8):
Send the report using a SNMPv2-Trap-PDU.
inInformRequestPDU(9):
Send the report using a SNMP InformRequest-PDU.
inEmail(10):
Send the report using an email.
inSMS(11):
Send the report using a SMS.
clearHistory(12):
Remove all the results corresponding to this measure
from the ippmHistoryTable.
clearReport(13):
Remove all the results corresponding to this measure
from the ippmReportTable.
"
SYNTAX BITS {
none(0), -- reserved
onSingleton(1),
onMeasureCycle(2),
onMeasureCompletion(3),
reportOnlyUptoDownMetricResults(4),
reportOnlyExceededEventsDuration(5),
inIppmReportTable(6),
inSNMPTrapPDU(7),
inSNMPv2TrapPDU(8),
inInformRequestPDU(9),
inEmail(10),
inSMS(11),
clearHistory(12),
clearReport(13)
}
IppmStandardMetrics ::= TEXTUAL-CONVENTION
STATUS current
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DESCRIPTION
"The definition of the standardized IPPM metrics.
If the draftMetrics bit is set then the other bits describe a WG
draft metric identifier.
"
SYNTAX BITS {
draftMetrics(0),
instantaneousUnidirectionalConnectivity(1),
instantaneousBidirectionalConnectivity(2),
intervalUnidirectionalConnectivity(3),
intervalBidirectionalConnectivity(4),
intervalTemporalConnectivity(5),
onewayDelay(6),
onewayDelayPoissonStream(7),
onewayDelayPercentile(8),
onewayDelayMedian(9),
onewayDelayMinimum(10),
onewayDelayInversePercentile(11),
onewayPacketLoss(12),
onewayPacketLossPoissonStream(13),
onewayPacketLossAverage(14),
roundtripDelay(15),
roundtripDelayPoissonStream(16),
roundtripDelayPercentile(17),
roundtripDelayMedian(18),
roundtripDelayMinimum(19),
roundtripDelayInversePercentile(20)
}
-- IPPM Mib objects definitions
ippmCompliances OBJECT IDENTIFIER ::= { ippmMib 2 }
ippmOwnersGroup OBJECT IDENTIFIER ::= { ippmMib 3 }
ippmSystemGroup OBJECT IDENTIFIER ::= { ippmMib 4 }
ippmMeasureGroup OBJECT IDENTIFIER ::= { ippmMib 5 }
ippmHistoryGroup OBJECT IDENTIFIER ::= { ippmMib 6 }
ippmNetworkMeasureGroup OBJECT IDENTIFIER ::= { ippmMib 7 }
ippmAggregatedMeasureGroup OBJECT IDENTIFIER ::= { ippmMib 8 }
ippmReportGroup OBJECT IDENTIFIER ::= { ippmMib 9 }
ippmNotifications OBJECT IDENTIFIER ::= { ippmMib 10 }
--
-- ippmOwnersGroup
--
-- The ippmOwnersGroup objects are responsible for managing
-- the owners access to the measurements.
--
--
ippmOwnersTable OBJECT-TYPE
SYNTAX SEQUENCE OF IppmOwnersEntry
MAX-ACCESS not-accessible
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STATUS current
DESCRIPTION
"A NMS entity wishing to create and activate remote Ippm
measurements in an agent must previously be registered
in the ippmOwnersTable.
ippmOwnersTable content is read only.
ippmOwnersTable is mandatory. It contains at least the
owner 'monitor'.
"
::= { ippmOwnersGroup 1 }
ippmOwnersEntry OBJECT-TYPE
SYNTAX IppmOwnersEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The description of the resources the agent granted to a
SNMP application.
For example, an instance of ippmOwnersOwner with an
OwnerString 'acme', which represents the 14th owner
created in ippmOwnersTable would be named
ippmOwnersEntryOwner.14.
Notes:
The ippmOwnersIndex value is a local index managed
directly by the agent. It is not used in anyway in the
other IPPM tables."
INDEX { ippmOwnersIndex }
::= { ippmOwnersTable 1 }
IppmOwnersEntry ::= SEQUENCE {
ippmOwnersOwner OwnerString,
ippmOwnersIndex Integer32,
ippmOwnersGrantedMetrics IppmStandardMetrics,
ippmOwnersGrantedRules BITS,
ippmOwnersIpAddress DisplayString,
ippmOwnersEmail DisplayString,
ippmOwnersSMS DisplayString,
ippmOwnersStatus OwnerString
}
ippmOwnersIndex OBJECT-TYPE
SYNTAX Integer32 (1.. 65535)
MAX-ACCESS not-accessible
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STATUS current
DESCRIPTION
"An arbitrary index that identifies an entry in this
table"
::= { ippmOwnersEntry 1 }
ippmOwnersOwner OBJECT-TYPE
SYNTAX OwnerString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The owner described by this entry."
::= { ippmOwnersEntry 2 }
ippmOwnersGrantedMetrics OBJECT-TYPE
SYNTAX IppmStandardMetrics
MAX-ACCESS read-only
STATUS current
DESCRIPTION
" Defines the metrics granted to an owner."
::= { ippmOwnersEntry 3 }
ippmOwnersGrantedRules OBJECT-TYPE
SYNTAX BITS {
all(0),
readonly(1),
permanent(2),
sender(2),
receive(3),
report(4),
alarm(5)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Defines the rules this owner may act on in the current IPPM MIB
instance.
all(0):
The owner is granted all the rules.
readonly(1):
The measures (not only the metrics) that this owner may
access are setup by the manager of the point of measure. The owner
can not add new measures for these metrics. The creation and the
configuration of the measures corresponding to these metrics are
managed by the manager of the point of measure.
permanent(2):
The measures (not only the metrics) that this owner may
access are determined by the manager of the point of measure. The
owner can not add new measures for these metrics. The creation and
the first configuration of the measures corresponding to these
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metrics are managed by the manager of the point of measure. The owner
may modify the measures parameters of the entries of the
corresponding ippmMeasureEntry whose access is read-write.
Typically this allows the owner to suspend the measures,
to change the beginning and end of the measures.
sender(3):
The owner may only activate measures for those metrics
that send packets from the current point of measure. This flag is
only suitable for network measures. It shall be ignored for derived
metrics.
receiver(2):
The owner may only activate measures for those metrics
that receive packets on the current point of measure. This flag is
only suitable for network measures. It shall be ignored for derived
metrics. Such control increases the security. The owner may not
generate packets from the probe.
report(4):
The owner may setup aggregated metrics on the measures
corresponding to these metrics.
alarm(5):
The owner may setup alarms on the results of the
measures metrics.
e.g.:
if the owner Acme is granted with the metric Instantaneous-
Unidirectional-Connectivity as a Receiver in the current point of
measure, then Acme can not setup a Instantaneous-Unidirectional-
Connectivity to another point of measure.
"
DEFVAL { 1 }
::= { ippmOwnersEntry 4 }
ippmOwnersIpAddress OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The IP address of the NMS corresponding to this owner.
The address is human readable and is represented using the dot
format."
::= { ippmOwnersEntry 5 }
ippmOwnersEmail OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
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"The email address of the NMS corresponding to this
owner."
::= { ippmOwnersEntry 6 }
ippmOwnersSMS OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The SMS phone number of the NMS corresponding to this
owner."
::= { ippmOwnersEntry 7 }
ippmOwnersStatus OBJECT-TYPE
SYNTAX RowStatus
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The status of this table entry."
::= { ippmOwnersEntry 8 }
--
-- ippmResultSharingTable
--
ippmResultSharingTable OBJECT-TYPE
SYNTAX SEQUENCE OF IppmResultSharingEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
" The ippmResultSharingTable controls the access of an
owner to the measure results of other owners. An owner
may grant another access to read the result of its
measure.
Entries may exist in ippmResultSharingTable even if the
measures to be shared are not yet defined. Deleting a
measure entry in the ippmMeasureTable does not delete
the entries corresponding to this measure in the
ippmResultSharingTable.
IppmResultSharingTable is optional.
IppmResultSharingTable content is read only.
If this table is not implemented then the owner has only
access to its measure results."
::= { ippmOwnersGroup 2 }
ippmResultSharingEntry OBJECT-TYPE
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SYNTAX IppmResultSharingEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"An entry allows an owner to read the results of a
measure owned by another owner.
It permits 2 typical usages:
1) Creating derived measurements on these results
2) Reading the results from a remote NMS.
Example: if acme.12 is a One-way-Delay(6) measure
Acme may allow Peter to make derived metrics
on the results of this measure.
"
INDEX { ippmResultSharingOwner, ippmResultSharingIndex}
::= { ippmResultSharingTable 1 }
IppmResultSharingEntry ::= SEQUENCE {
ippmResultSharingOwner OwnerString,
ippmResultSharingIndex Integer32,
ippmResultSharingMeasureOwner OwnerString,
ippmResultSharingMeasureIndex Integer32,
ippmResultSharingGrantedOwner OwnerString,
ippmResultSharingStatus RowStatus
}
ippmResultSharingOwner OBJECT-TYPE
SYNTAX OwnerString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
" The owner of this result control entry. Typically the
owner who created this conceptual row."
::= { ippmResultSharingEntry 1 }
ippmResultSharingIndex OBJECT-TYPE
SYNTAX Integer32 (1.. 65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
" The index of this result control entry. The value is
managed by the owner. On creation a SNMP error 'inconsistentValue' is
returned if this value is already in use by this owner."
::= { ippmResultSharingEntry 2 }
ippmResultSharingMeasureOwner OBJECT-TYPE
SYNTAX OwnerString
MAX-ACCESS read-only
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STATUS current
DESCRIPTION
"The owner of the measure to be shared. The couple
ippmResultSharingMeasureOwner, ippmResultSharingMeasureIndex
identifies absolutely a measure"
::= { ippmResultSharingEntry 3 }
ippmResultSharingMeasureIndex OBJECT-TYPE
SYNTAX Integer32 (1.. 65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index of the measure to be shared."
::= { ippmResultSharingEntry 4 }
ippmResultSharingGrantedOwner OBJECT-TYPE
SYNTAX OwnerString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The owner who is granted access to the result of the
measure described by the couple ippmResultSharingMeasureOwner,
ippmResultSharingMeasureIndex."
::= { ippmResultSharingEntry 5 }
ippmResultSharingStatus OBJECT-TYPE
SYNTAX RowStatus
MAX-ACCESS read-only
STATUS current
DESCRIPTION
" The status of this table entry. Once the entry status
is set to active."
::= { ippmResultSharingEntry 6 }
--
-- ippmSystemGroup
--
--
ippmSystemTimer OBJECT-TYPE
SYNTAX GMTDateAndTime
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current time of the system."
::= { ippmSystemGroup 1 }
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ippmSystemSynchonizationType OBJECT-TYPE
SYNTAX INTEGER {
other(0),
ntp(1),
gps(2),
cdma(4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"ippmSystemSynchonizationType describes the mechanism
used to synchronize the system.
Other(0)
The synchronization process must be defined
in the ippmSystemSynchonizationDescription.
Ntp(1)
The system is synchronized using the network
time protocol. The NTP synchronization must be described
in the ippmSystemSynchonizationDescription.
Gps (2)
The system is synchronized using the GPS clocks.
Cdma(4)
The system is synchronized using the CDMA
clocks.
"
::= { ippmSystemGroup 2 }
ippmSystemSynchonizationDescription OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The description of the synchronization process."
::= { ippmSystemGroup 3 }
ippmSystemClockResolution OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"ippmSystemClockResolution provides the precision of the
clock used for the measures. The unit is 1/10 of
millisecond. For example, the clock on an old Unix host
might advance only once every 10 msec, and thus have a
resolution of only 10 msec."
::= { ippmSystemGroup 4 }
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ippmSystemSynchronisationTime OBJECT-TYPE
SYNTAX DateAndTime
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The time when the last synchronization of the clock
occured. The last synchronization must be set even if
the synchronization is not automatic."
::= { ippmSystemGroup 5 }
ippmSystemClockAccuracy OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The most recent accuracy of the clock computed. The
accuracy must be computed even if the synchronization is
not automatic."
::= { ippmSystemGroup 6 }
ippmSystemClockSkew OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The most recent skew of the clock computed. The
ippmSystemSkew must be computed even if the
synchronization is not automatic."
::= { ippmSystemGroup 7 }
ippmSystemPrevClockAccuracy OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The previous accuracy of the clock measured. The
ippmSystemPrevClockAccuracy must be computed even if the
synchronization is not automatic."
::= { ippmSystemGroup 8 }
ippmSystemPrevClockSkew OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The previous skew of the clock measured. The
ippmSystemPrevClockSkew must be computed even if the
synchronisation is not automatic."
::= { ippmSystemGroup 9 }
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ippmSystemSynchonizationOperStatus OBJECT-TYPE
SYNTAX INTEGER {
other(0),
unsynchronized(1),
initializing(2),
synchronized(4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
" ippmSystemSynchonizationOperStatus describes the
operational status of the clock synchronization.
Other(0)
The status of the synchronization is unknown.
unsynchronized(1)
The system is not synchronized.
initializing(2)
The system is receiving synchronization
information but is not yet synchronized.
synchronized(4)
The system is synchronized.
"
::= { ippmSystemGroup 10 }
--
--
--
-- ippmMeasureGroup
--
--
--
ippmMetricTable OBJECT-TYPE
SYNTAX SEQUENCE OF IppmMetricEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table describes the current implementation and is
mandatory. Each IPPM standardized metric must be
described in the table.
In reporting mode, the entries of this table may be not
accessible. It means that the measure software handles
the table internally.
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ippmMetricTable is mandatory.
ippmMetricTable content is read only.
"
::= { ippmMeasureGroup 1 }
ippmMetricEntry OBJECT-TYPE
SYNTAX IppmMetricEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"An entry describes the static capabilities of a metric
implementation."
INDEX { ippmMetricIndex }
::= { ippmMetricTable 1 }
IppmMetricEntry ::=
SEQUENCE {
ippmMetricIndex Integer32,
ippmMetricCapabilities INTEGER,
ippmMetricUnit INTEGER,
ippmMetricDescription DisplayString,
ippmMetricMaxHistorySize Integer32
}
ippmMetricIndex OBJECT-TYPE
SYNTAX Integer32 (1.. 65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"ippmMetricIndex defines an unambiguous index for each
standardized metric. Its value is the value of the node of the
metric in the IPPM-REPORTING-MIB metrics registry
ippmMib.metrics.rfc.
Each metric registered in the standard registry must be present
in this table.
This index is used to identify the metric calculated between the
IPPM-REPORTING-MIB entities involved in the measure.
Example:
The index of the metric onewayPacketLossAverage which is
registered as ippmMib.metrics.rfc.onewayPacketLossAverage will
always have the value 14."
::= { ippmMetricEntry 1 }
ippmMetricCapabilities OBJECT-TYPE
SYNTAX INTEGER {
notImplemented(0),
implemented(1)
}
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MAX-ACCESS read-only
STATUS current
DESCRIPTION
"notImplemented
the metric is not implemented.
implemented
the metric is implemented."
DEFVAL { implemented }
::= { ippmMetricEntry 2 }
ippmMetricUnit OBJECT-TYPE
SYNTAX INTEGER {
noUnit(0),
second(1),
ms(2),
us(3),
ns(4),
percentage(5),
packets(6),
byte(6),
kbyte(7),
megabyte(8)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The unit used in the current entity for the results of
the measurement of this metric."
::= { ippmMetricEntry 3 }
ippmMetricDescription OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"A textual description of the metric implementation."
::= { ippmMetricEntry 4 }
ippmMetricMaxHistorySize OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Specifies the maximum number of results that a metric
measure can save in the ippmHistoryTable."
::= { ippmMetricEntry 5 }
--
-- ippmMeasureTable
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--
--
ippmMeasureTable OBJECT-TYPE
SYNTAX SEQUENCE OF IppmMeasureEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The table of all the IPPM measures which are running in
the device. They may not all be active.
A measure consists of a subset of metrics to compute.
The results of the measure may be saved in the
ippmHistoryTable. The configuration of the measure sets
the size of the history requested in
ippmMeasureHystorySize.
The maximum number of MIB objects to be collected in the
portion of ippmHistoryTable associated with this metric
depends on the value of the ippmMetricMaxHistorySize.
The value of each metric ippmMeasureHystorySize must not
be over the value of ippmMetricMaxHistorySize
corresponding to this metric in the ippmMetricTable.
The ippmMeasureTable is mandatory.
ippmMeasureTable content is read only. It means that the
table is handled internally by the measurement
software.
"
::= { ippmMeasureGroup 2 }
ippmMeasureEntry OBJECT-TYPE
SYNTAX IppmMeasureEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The measure entries are created/deleted internally by
the measurement software.
"
INDEX { ippmMeasureOwner, ippmMeasureIndex }
::= { ippmMeasureTable 1 }
IppmMeasureEntry ::=
SEQUENCE {
ippmMeasureOwner OwnerString,
ippmMeasureIndex Integer32,
ippmMeasureName DisplayString,
ippmMeasureMetrics IppmStandardMetrics,
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ippmMeasureBeginTime GMTDateAndTime,
ippmMeasureClockPeriodUnit TimeUnit,
ippmMeasureClockPeriod Integer32,
ippmMeasureDurationUnit TimeUnit,
ippmMeasureDuration Integer32,
ippmMeasureHystorySize Integer32,
ippmMeasureStorageType StorageType,
ippmMeasureStatus RowStatus
}
ippmMeasureOwner OBJECT-TYPE
SYNTAX OwnerString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The owner who has configured this entry."
DEFVAL { "acme" }
::= { ippmMeasureEntry 1 }
ippmMeasureIndex OBJECT-TYPE
SYNTAX Integer32 (1.. 65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The owner index of the measure. The value is managed by
the owner."
::= { ippmMeasureEntry 2 }
ippmMeasureName OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The name of the instance of the metric. It illustrates
the specificity of the metric and includes the metric
and the typeP.
example: IP-port-HTTP-connectivity"
::= { ippmMeasureEntry 3 }
ippmMeasureMetrics OBJECT-TYPE
SYNTAX IppmStandardMetrics
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Defines the metrics to compute within this measure. A
measure may be configured for the result of different
metric singletons to be archived in the
ippmHistoryTable. The ippmMetricIndex of the created
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result has the value of the bit index of the
corresponding ippmMeasureMetrics as explained above in
the ippmMetricIndex definition.
Example:
A measure asking for One-way-Delay(6) and One-way-
Packet-Loss(12) generated a flow of singletons which are
logged in the ippmHistoryTable. The singletons created
for the One-way-Delay measure have a value of
ippmMetricIndex of 6 while the created singletons for
the One-way-Packet-Loss measure have a value of
ippmMetricIndex of 12."
DEFVAL { { one-way-Delay, one-way-Packet-Loss } }
::= { ippmMeasureEntry 4 }
ippmMeasureBeginTime OBJECT-TYPE
SYNTAX GMTDateAndTime
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Specifies the time at which the measure starts."
::= { ippmMeasureEntry 5 }
ippmMeasureClockPeriodUnit OBJECT-TYPE
SYNTAX TimeUnit
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Specifies the unit of the measure period."
DEFVAL { second }
::= { ippmMeasureEntry 6 }
ippmMeasureClockPeriod OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Specifies the amount of time between 2 measurement
action intervals. The action is specific to the semantic
of the measure.
Network metrics:
The ippmNetworkMeasureClockPattern transforms the flow
of periodical instants as a flow of unpredictable
instants of measurement packet emission.
As the source and the sink share the definition of the
clock of the measure, as the sending timestamp is part
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of the measurement packet, the sink have the information
to verify that the stream of packets generated by the
source respects the clock law.
Aggregated metrics:
They are performed periodically on a sequence of results
of other measures. The period corresponds to the
interval between two successive computations of the
metric. The ippmHistoryTimeMark result value of the
metric computed corresponds to the ippmHistoryTimeMark
value of the last metric result of the sequence used in
the computation."
DEFVAL { 60 }
::= { ippmMeasureEntry 7 }
ippmMeasureDurationUnit OBJECT-TYPE
SYNTAX TimeUnit
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Specifies the unit of the measure duration."
DEFVAL { second }
::= { ippmMeasureEntry 8 }
ippmMeasureDuration OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Specifies the duration of the measure."
DEFVAL { 120 }
::= { ippmMeasureEntry 9 }
ippmMeasureHystorySize OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Specifies the maximum number of results saved for each
metric of this measure. The history of each metric is
managed as a circular table. The newest result
overwrites the oldest one when the history granted to
this metric measure is full.
The management of the results may be optimized if
synchronized with the reports steps of this measure.
"
DEFVAL { 120 }
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::= { ippmMeasureEntry 10 }
ippmMeasureStorageType OBJECT-TYPE
SYNTAX StorageType
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This object defines whether this row and the measure
controlled by this row are kept in volatile storage and
lost upon reboot or if this row is backed up by
non-volatile or permanent storage.
Possible values are: other(1), volatile(2), nonVolatile(3),
permanent(4), readOnly(5)"
DEFVAL { nonVolatile }
::= { ippmMeasureEntry 11 }
ippmMeasureStatus OBJECT-TYPE
SYNTAX RowStatus
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The status of this table entry. Once the entry status
is set to active, the associate entry cannot be
modified."
DEFVAL { createAndGo }
::= { ippmMeasureEntry 12 }
--
-- ippmHistoryGroup
--
--
--
-- ippmHistoryTable
--
ippmHistoryTable OBJECT-TYPE
SYNTAX SEQUENCE OF IppmHistoryEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The table of the results of the measures."
::= { ippmHistoryGroup 1 }
ippmHistoryEntry OBJECT-TYPE
SYNTAX IppmHistoryEntry
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MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"An ippmHistoryEntry entry is one of the results of a
measure identified by the index members ippmMeasureOwner
and ippmMeasureIndex.
In the index :
+ ippmMeasureOwner and ippmMeasureIndex identify
the ippmMeasureEntry on whose behalf this entry was
created
+ ippmMetricIndex identifies the ippmMetricEntry
of the metric to measure
+ ippmLogTimeMark value is the absolute time
when the result of the metric was measured.
The ippmHistoryTimeMark value is the absolute time when
the ippmHistoryValue was performed.
IppmHistoryValue is the value of the metric measured at
the time ippmHistoryTimeMark.
Example:
A one way delay measure is created by the entity 'acme'
using the owner index 1 and setting the 6th bit
(corresponding to One-way-Delay) of ippmMeasureMetrics
to 1.
Consider that the result of the one way delay measured
for acme on the day 15 of June at 8h20mn 10s 50ms is 23.
The result is identified as the singleton
ippmHistoryValue.acme.1.6.0001000201090200010501000BEBC2
00 and stored with value 23.
Its value may be retrieved using a get-
next(ippmHistoryValue.acme.1.6.0001000201090200010501000
0000000) which returns
(ippmHistoryValue.acme.1.6.0001000201090200010501000BEBC
200 == 23). The ippmMetricIndex value of '6' corresponds
to the 6th metric of ippmMetricTable which is Type-P-
One-way-Delay.
"
INDEX { ippmMeasureOwner, ippmMeasureIndex, ippmMetricIndex,
ippmHistoryTimeMark }
::= { ippmHistoryTable 1 }
IppmHistoryEntry ::=
SEQUENCE {
ippmHistoryTimeMark GMTDateAndTime,
ippmHistorySqceNdx Integer32,
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ippmHistoryValue Integer32
}
ippmHistoryTimeMark OBJECT-TYPE
SYNTAX GMTDateAndTime
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The instant of the measure of the result."
::= { ippmHistoryEntry 1 }
ippmHistorySqceNdx OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
" ippmHistorySqceNdx is the sequence index of the
measurement results of the measure of a metric.
Network metrics:
It's the sequence index of a measurement packet. Typically, it
identifies the order of the packet in the stream of packets sends by
the source.
Aggregated metrics:
It is the sequence index of the aggregated metric results
computed.
"
::= { ippmHistoryEntry 2 }
ippmHistoryValue OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The value of the measure."
::= { ippmHistoryEntry 3 }
--
-- ippmNetworkMeasureGroup
--
--
--
-- ippmNetworkMeasureTable
--
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--
ippmNetworkMeasureTable OBJECT-TYPE
SYNTAX SEQUENCE OF IppmNetworkMeasureEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"A entry is a measure which performs network measures
and provides a flow of results.
This table extends the ippmMeasureTable. A network
measure is a specific measure.
It performs several metric measurements per packet
exchange. Each step of a measure produces a singleton
result per metric. The time of the measure and the value
of the metric are saved in the ippmHistoryTable."
::= { ippmNetworkMeasureGroup 1 }
ippmNetworkMeasureEntry OBJECT-TYPE
SYNTAX IppmNetworkMeasureEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
" Typically the configuration operation sets both the
values of the new ippmMeasureEntry and of the new
IppmNetworkMeasureEntry.
IppmNetworkMeasureTable is mandatory.
IppmNetworkMeasureTable content is read only. It means
that the measurement software handles the table
internally.
The ippmMeasureMetrics is set to a list of metrics to be
computed from the same raw packet exchange. Each step of
measurement delivers a singleton per chosen metric.
Results are timestamped and saved in the
ippmHistoryTable."
INDEX { ippmMeasureOwner, ippmMeasureIndex }
::= { ippmNetworkMeasureTable 1 }
IppmNetworkMeasureEntry ::=
SEQUENCE {
ippmNetworkMeasureSrcTypeP TypeP,
ippmNetworkMeasureSrc OCTET STRING,
ippmNetworkMeasureDstTypeP TypeP,
ippmNetworkMeasureDst OCTET STRING,
ippmNetworkMeasureClockPattern OCTET STRING,
ippmNetworkMeasureTimeoutDelay Integer32,
ippmNetworkMeasureL3PacketSize Integer32,
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ippmNetworkMeasureDataPattern OCTET STRING
}
ippmNetworkMeasureSrcTypeP OBJECT-TYPE
SYNTAX TypeP
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Defines the type P of the source address of the packets
sent by the measure."
DEFVAL { '04000080001000'H } -- ->ip: 4.0.0.8.0.1.0
::= { ippmNetworkMeasureEntry 1 }
ippmNetworkMeasureSrc OBJECT-TYPE
SYNTAX OCTET STRING
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Specifies the address of the source of the measure.
It is represented as an octet string with specific
semantics and length as identified by the
ippmNetworkMeasureSrcTypeP.
For example, if the ippmNetworkMeasureSrcTypeP indicates
an encapsulation of 'ip', this object length is 4,
followed by the 4 octets of the IP address, in network
byte order."
DEFVAL { '04C0210415'H } -- -> ip: 192.33.4.21
::= { ippmNetworkMeasureEntry 2}
ippmNetworkMeasureDstTypeP OBJECT-TYPE
SYNTAX TypeP
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Defines the type P of the destination address of the
packets sent by the measure."
DEFVAL { '04000080001000'H } -- ->ip: 4.0.0.8.0.1.0
::= { ippmNetworkMeasureEntry 3 }
ippmNetworkMeasureDst OBJECT-TYPE
SYNTAX OCTET STRING
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Specifies the address of the destination of the
measure.
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It is represented as an octet string with specific
semantics and length as identified by the
ippmNetworkMeasureDstTypeP.
For example, if the ippmNetworkMeasureDstTypeP indicates
an encapsulation of 'ip', this object length is 4,
followed by the 4 octets of the IP address, in network
byte order."
DEFVAL { '04C0220414'H } -- -> ip: 192.34.4.20
::= { ippmNetworkMeasureEntry 4 }
ippmNetworkMeasureClockPattern OBJECT-TYPE
SYNTAX OCTET STRING
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This cyclic clock shapes the profile of the instants of
measurement action provided by ippmMeasureClockPeriod
according to an arbitrary distribution law. The clock
resolution is ippmMeasureClockPeriod. The bits of the
clock pattern set to the value 1 determine the valid
instants of measurement action. A measure is to be
processed if and only if the current bit value is 1.
This pseudo-random clock pattern allows the
configuration by the NMS of numerous kind of time
sampling law such as periodic, pseudo random or Poisson.
The source of the measure sends the stream of
measurement packets synchronously with the stream of
instants selected by the clock pattern sampling.
"
DEFVAL { 11111111} -- 100% periodic
::= { ippmNetworkMeasureEntry 5 }
ippmNetworkMeasureTimeoutDelay OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
-- UNITS "Milliseconds"
DESCRIPTION
"Specifies the delay after which the packet is
considered lost by the sink."
DEFVAL { 1 }
::= { ippmNetworkMeasureEntry 6 }
ippmNetworkMeasureL3PacketSize OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
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"Specifies the size of the packets sent at the last
network layer in regards to the TypeP definition."
DEFVAL { 64 }
::= { ippmNetworkMeasureEntry 7 }
ippmNetworkMeasureDataPattern OBJECT-TYPE
SYNTAX OCTET STRING
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current field defines the round robin pattern used
to fill the packet."
DEFVAL { 'FF'H }
::= { ippmNetworkMeasureEntry 8 }
--
--
-- ippmAggregatedMeasureGroup
--
--
--
--
-- ippmAggregatedMeasureTable
--
--
ippmAggregatedMeasureTable OBJECT-TYPE
SYNTAX SEQUENCE OF IppmAggregatedMeasureEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
" This table extends the ippmMeasureTable.
An aggregated measure summarizes the results of previous
network or aggregated measures. The results may be saved
in the ippmHistoryTable.
Each step of the calculation for the measure produces a
singleton result per metric."
::= { ippmAggregatedMeasureGroup 1 }
ippmAggregatedMeasureEntry OBJECT-TYPE
SYNTAX IppmAggregatedMeasureEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Typically the configuration operation sets both the values of
the new ippmMeasureEntry and of the new
IppmAggregatedMeasureEntry.
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ippmAggregatedMeasureTable is mandatory.
ippmAggregatedMeasureTable content is read only. It means that
the measure software handles the table internally.
The ippmMeasureMetrics defines the metric to compute.
The results of the measure to summarize are identified
by:
+ ippmAggregatedMeasureHistoryOwner,
+ ippmAggregatedMeasureHistoryOwnerIndex and
+ ippmAggregatedMeasureHistoryMetric
The aggregated task starts at ippmMeasureBeginTime and ends
after ippmMeasureDuration. An aggregated result is performed and
saved in the ippmHistoryTable for each ippmMeasureClockPeriod
tick.
"
INDEX { ippmMeasureOwner, ippmMeasureIndex }
::= { ippmAggregatedMeasureTable 1 }
IppmAggregatedMeasureEntry ::=
SEQUENCE {
ippmAggregatedMeasureHistoryOwner OwnerString,
ippmAggregatedMeasureHistoryOwnerIndex Integer32,
ippmAggregatedMeasureHistoryMetric Integer32
}
ippmAggregatedMeasureHistoryOwner OBJECT-TYPE
SYNTAX OwnerString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The owner of the measure to summarize. "
::= { ippmAggregatedMeasureEntry 1 }
ippmAggregatedMeasureHistoryOwnerIndex OBJECT-TYPE
SYNTAX Integer32 (1.. 65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The owner index of the measure to summarize. "
::= { ippmAggregatedMeasureEntry 2 }
ippmAggregatedMeasureHistoryMetric OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
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"The metric of the measure to summarize. "
::= { ippmAggregatedMeasureEntry 3 }
--
-- ippmReportGroup
--
--
--
-- ippmReportSetupTable
--
--
ippmReportSetupTable OBJECT-TYPE
SYNTAX SEQUENCE OF IppmReportSetupEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The ippmReportSetupTable is a list of definition of reports. It
defines the results of a network or aggregated measures that are to
be reported. A report is saved in the ippmReportTable, or sent to an
application using a SNMP Trap, a SNMP inform PDU, an email or a SMS.
The reporting task is not intended to be a batch action processed at
the end of the measure. It is coupled with threshold detections and
event filtering to deliver application level events and data, while
preserving scalability.
It extends the definition of a measure: the definition of a measure
may include the definition of a report."
::= { ippmReportGroup 1 }
ippmReportSetupEntry OBJECT-TYPE
SYNTAX IppmReportSetupEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The report applies to the results of the measure which is extended
by the current report definition.
Typically the creation of a report sets both the values of the new
measure and those of the new IppmReportSetupEntry.
The ippmReportSetupDefinition describes the data and the events to
include in the report. The definition consists in a list of tasks to
perform on the results of the measure."
INDEX { ippmMeasureOwner, ippmMeasureIndex }
::= { ippmReportSetupTable 1 }
IppmReportSetupEntry ::=
SEQUENCE {
ippmReportSetupDefinition IppmReportDefinition,
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ippmReportSetupMetricThreshold Integer32,
ippmReportSetupEventsDurationThreshold Integer32,
ippmReportSetupNMS DisplayString
}
ippmReportSetupDefinition OBJECT-TYPE
SYNTAX IppmReportDefinition
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The description of the events and actions that are used in the
definition of the report.
Send the report using the type of message selected by the bits 8
to 12. The report consists of the results of the measure which have
been saved in the ippmReportTable. If the onEventSendReport(7) bit is
unset, the report is not saved.
The message sent is a notification defined in the
ippmNotifications node. The notification sent depends on the step of
the measure:
+ Singleton events are sent using the notification
ippmSingletonAlarm
+ Exceeded events durations are sent using the
notification ippmEventsDurationExceededAlarm
+ A report of a cycle of measure is sent using the
notification ippmCycleOfMeasureReport
+ A report of a complete measure is sent using the
notification ippmCompletedMeasureReport
Example 1:
The setup of an alarm to be sent to the owner in a SNMP Trap
each time the staircase crosses the metric threshold value of 5:
ippmReportSetupMetricThreshold 5
ippmReportSetupDefinition {
onSingleton(1),
reportOnlyUptoDownMetricResults(4),
inSNMPTrapPDU(8)
}
Example 2:
The setup of a report to be sent to the owner in a SNMP
informRequestPDU per measure cycle. It reports the staircase values
corresponding to a metric threshold of 5:
ippmReportSetupMetricThreshold 5
ippmReportSetupDefinition {
onMeasureCycle(2),
reportOnlyUptoDownMetricResults(4),
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inInformRequestPDU(10),
clearHistory(13)
}
Default report:
The default report provides the control protocol with an
implicit mechanism to forward the result of a cycle of measure to the
owner of the measure while deleting the results from the
ippmHistoryTable on reception of the response to the InformRequestPDU
:
ippmReportSetupDefinition {
onMeasureCycle(2),
inInformRequestPDU(10),
clearHistory(13)
}
"
DEFVAL { { onMeasureCycle, inInformRequestPDU, clearHistory } }
::= { ippmReportSetupEntry 1 }
ippmReportSetupMetricThreshold OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"An event is generated when the result of the measure exceeds
the value of ippmReportSetupMetricThreshold.
The threshold has the same unit as the metric. The metric unit
is recorded in the object ippmMetricsUnit of this metric entry in the
ippmMetricTable.
"
::= { ippmReportSetupEntry 2 }
ippmReportSetupEventsDurationThreshold OBJECT-TYPE
SYNTAX Integer32
UNITS "Seconds"
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"An event is generated when the duration of a series of results,
which are continuously over the metric threshold, cross over the
duration of the ippmReportSetupEventsDurationThreshold.
"
DEFVAL { 15 }
::= { ippmReportSetupEntry 3 }
ippmReportSetupNMS OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
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"The recipient of the report may be provided in the setup. By
default the recipient of the report is the owner of the measure. Its
addresses are recorded in the ippmOwnersTable.
"
::= { ippmReportSetupEntry 4 }
--
-- ippmReportTable
--
ippmReportTable OBJECT-TYPE
SYNTAX SEQUENCE OF IppmReportEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The ippmReportTable logs the results of the reports.
The results consist of a subset of the results of a measure as
described in the report definition. The activation of an up and down
filtering in the report definition limits the results logged to those
corresponding to major events. Otherwise, the ippmReportTable is
identical to the ippmHistoryTable.
"
::= { ippmReportGroup 2 }
ippmReportEntry OBJECT-TYPE
SYNTAX IppmReportEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"A report is a list of results of a measure. This sample is
associated with the ippmReportSetupEntry which has set up the report.
An ippmReportEntry entry is one of the results of a measure to
report. The measure and the report definition are identified by the
index members ippmMeasureOwner and ippmMeasureIndex.
In the index :
+ ippmMeasureOwner and ippmMeasureIndex identify the
ippmMeasureEntry and the ippmReportSetupEntry on whose behalf
this report was created
+ ippmMetricIndex identifies the ippmMetricEntry of the metric
measured
+ ippmReportTimeMark value is the absolute time when the value
of the metric was measured.
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The ippmReportTimeMark value is the absolute time when the
ippmHistoryValue was performed.
IppmHistoryValue is the value of the metric measured at the time
ippmReportTimeMark.
"
INDEX { ippmMeasureOwner, ippmMeasureIndex, ippmMetricIndex,
ippmReportTimeMark }
::= { ippmReportTable 1 }
IppmReportEntry ::=
SEQUENCE {
ippmReportTimeMark GMTDateAndTime,
ippmReportValue Integer32
}
ippmReportTimeMark OBJECT-TYPE
SYNTAX GMTDateAndTime
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The instant of the measure of the result."
::= { ippmReportEntry 1 }
ippmReportValue OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The value."
::= { ippmReportEntry 2 }
--
-- ippmNotifications
--
ippmSingletonAlarm NOTIFICATION-TYPE
OBJECTS {
ippmReportSetupDefinition,
ippmReportSetupMetricThreshold,
ippmMetricUnit,
ippmHistoryValue
}
STATUS current
DESCRIPTION
"A notification sent because 2 contiguous results are on
opposite sides of the metric threshold value.
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The index of the included ippmReportSetupMetricThreshold
object identifies the ippmMeasureEntry and the
ippmResultSetupEntry that specified the threshold.
The notification contains the instances of the
ippmReportValue object that exceeded the threshold. The
ippmHistoryTimeMark of the index identifies the time the
event occurred.
"
::= { ippmNotifications 1 }
ippmEventsDurationExceededAlarm NOTIFICATION-TYPE
OBJECTS {
ippmReportSetupDefinition,
ippmReportSetupEventsDurationThreshold,
ippmMetricUnit,
ippmHistoryValue
}
STATUS current
DESCRIPTION
"A notification sent when the duration of contiguous
raising ippmReportSetupMetricThreshold exceeds the
ippmReportSetupEventsDurationThreshold value. The index
of the included ippmReportSetupDefinition object
identifies the ippmMeasureEntry and the
ippmResultSetupEntry that specified the report.
The notification contains the instances of the
ippmReportValue objects saved in the ippmReportTable for
this report. The ippmHistoryTimeMark of the index
identifies the time theses measures results where
performed.
"
::= { ippmNotifications 2 }
ippmCycleOfMeasureReport NOTIFICATION-TYPE
OBJECTS {
ippmReportSetupDefinition,
ippmMetricUnit,
ippmHistoryValue
}
STATUS current
DESCRIPTION
"A notification sent when a measure cycle completes.
The index of the included ippmReportSetupDefinition
object identifies the ippmMeasureEntry and the
ippmResultSetupEntry that specified the report.
The notification contains the instances of the
ippmReportValue objects saved in the ippmReportTable for
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this measure cycle. The ippmHistoryTimeMark of the index
identifies the time the measures where performed.
"
::= { ippmNotifications 3 }
ippmCompletedMeasureReport NOTIFICATION-TYPE
OBJECTS {
ippmReportSetupDefinition,
ippmMetricUnit,
ippmHistoryValue
}
STATUS current
DESCRIPTION
"A notification sent when a measure completes.
The index of the included ippmReportSetupDefinition
object identifies the ippmMeasureEntry and the
ippmResultSetupEntry that specified the report.
The notification contains the instances of the
ippmReportValue objects saved in the ippmReportTable for
this measure cycle. The ippmHistoryTimeMark of the index
identifies the time the measures where performed.
"
::= { ippmNotifications 4 }
--
-- Compliance statements
--
ippmCompliance MODULE-COMPLIANCE
STATUS current
DESCRIPTION
"The compliance statement for SNMP entities which
implement the IPPM MIB"
MODULE -- this module
MANDATORY-GROUPS { ippmSystemGroup, ippmMeasureGroup,
ippmNetworkMeasureGroup, ippmHistoryGroup }
::= { ippmCompliances 1 }
END
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9. Security Considerations
9.1. Privacy
The privacy concerns of network measurement are intrinsically limited
by the active measurements. Unlike passive measurements, there can be
no release of existing user data.
9.2. Measurement aspects
Conducting Internet measurements raises both security and privacy
concerns. This memo does not specify an implementation of the
metrics, so it does not directly affect the security of the Internet
nor of applications that run on the Internet. However,
implementations of these metrics must be mindful of security and
privacy concerns.
There are two types of security concerns: potential harm caused by
the measurements, and potential harm to the measurements. The
measurements could cause harm because they are active, and inject
packets into the network. The measurement parameters MUST be
carefully selected so that the measurements inject trivial amounts of
additional traffic into the networks they measure. If they inject
"too much" traffic, they can skew the results of the measurement, and
in extreme cases cause congestion and denial of service.
The measurements themselves could be harmed by routers giving
measurement traffic a different priority than "normal" traffic, or by
an attacker injecting artificial measurement traffic. If routers can
recognize measurement traffic and treat it separately, the
measurements will not reflect actual user traffic. If an attacker
injects artificial traffic that is accepted as legitimate, the loss
rate will be artificially lowered. Therefore, the measurement
methodologies SHOULD include appropriate techniques to reduce the
probability measurement traffic can be distinguished from "normal"
traffic.
Authentication techniques, such as digital signatures, may be used
where appropriate to guard against injected traffic attacks.
9.3. Management aspects
There are a number of management objects defined in this MIB that
have a MAX-ACCESS clause of read-write and/or read-only. Such objects
may be considered sensitive or vulnerable in some network
environments. The support for SET operations in a non-secure
environment without proper protection can have a negative effect on
network operations.
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SNMPv1 by itself is not a secure environment. Even if the network
itself is secure (for example by using IPSec), even then, there is no
control as to who on the secure network is allowed to access and
GET/SET (read/change/create/delete) the objects in this MIB.
It is recommended that the implementors consider the security
features as provided by the SNMPv3 framework. Specifically, the use
of the User-based Security Model RFC 2574 [18] and the View-based
Access Control Model RFC 2575 [21] is recommended.
It is then a customer/user responsibility to ensure that the SNMP
entity giving access to an instance of this MIB, is properly
configured to give access to the objects only to those principals
(users) that have legitimate rights to indeed GET or SET
(change/create/delete) them.
10. References
[1] Bradner, S., "The Internet Standards Process -- Revision 3", BCP
9, RFC 2026, October 1996.
[2]Paxson, V., Almes, G., Mahdavi, J. and M. Mathis, "Framework for
IP Performance Metrics", RFC 2330, May 1998.
[3] Mahdavi J. and V. Paxson, "IPPM Metrics for Measuring
Connectivity", RFC 2678, September 1999.
[4] Almes, G., Kalidindi, S. and M. Zekauskas, "A One-way Delay
Metric for IPPM", RFC 2679, September 1999.
[5] Almes, G., Kalidindi, S. and M. Zekauskas, "A One-way Packet
Loss Metric for IPPM", RFC 2680, September 1999.
[6]Almes, G., Kalidindi, S. and M. Zekauskas, "A Round-trip Delay
Metric for IPPM.", RFC 2681, September 1999.
[7] Harrington, D., Presuhn, R., and B. Wijnen, "An Architecture for
Describing SNMP Management Frameworks", RFC 2571, April 1999.
[8] Rose, M., and K. McCloghrie, "Structure and Identification of
Management Information for TCP/IP-based Internets", STD 16, RFC
1155, May 1990.
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[9] Rose, M., and K. McCloghrie, "Concise MIB Definitions", STD 16,
RFC 1212, March 1991.
[10] M. Rose, "A Convention for Defining Traps for use with the
SNMP", RFC 1215, March 1991.
[11] McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J., Rose,
M., and S. Waldbusser, "Structure of Management Information
Version 2 (SMIv2)", STD 58, RFC 2578, April 1999.
[12] McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J., Rose,
M., and S. Waldbusser, "Textual Conventions for SMIv2", STD 58,
RFC 2579, April 1999.
[13] McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J., Rose,
M., and S. Waldbusser, "Conformance Statements for SMIv2", STD 58,
RFC 2580, April 1999.
[14] Case, J., Fedor, M., Schoffstall, M., and J. Davin, "Simple
Network Management Protocol", STD 15, RFC 1157, May 1990.
[15] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser,
"Introduction to Community-based SNMPv2", RFC 1901, January 1996.
[16] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser,
"Transport Mappings for Version 2 of the Simple Network Management
Protocol (SNMPv2)", RFC 1906, January 1996.
[17]Case, J., Harrington D., Presuhn R., and B. Wijnen, "Message
Processing and Dispatching for the Simple Network Management
Protocol (SNMP)", RFC 2572, April 1999.
[18] Blumenthal, U., and B. Wijnen, "User-based Security Model (USM)
for version 3 of the Simple Network Management Protocol (SNMPv3)",
RFC 2574, April 1999.
[19] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Protocol
Operations for Version 2 of the Simple Network Management Protocol
(SNMPv2)", RFC 1905, January 1996.
[20] Levi, D., Meyer, P., and B. Stewart, "SNMPv3 Applications", RFC
2573, April 1999.
[21] Wijnen, B., Presuhn, R., and K. McCloghrie, "View-basedAccess
Control Model (VACM) for the Simple Network Management Protocol
(SNMP)", RFC 2575, April 1999.
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[22] Case, J., Mundy, R., Partain, D., and B. Stewart, "Introduction
to Version 3 of the Internet-standard Network Management
Framework", RFC 2570, April 1999.
[23] Waldbusser, S., "Remote Network Monitoring MIB", STD 59, RFC
2819, Lucent Technologies, May 2000
[24] Waldbusser, S., "Remote Network Monitoring Management
Information Base Version 2 using SMIv2", RFC 2021, International
Network Services, January 1997.
[25] Remote Network Monitoring MIB Protocol Identifier Reference. A.
Bierman, C. Bucci, R. Iddon. RFC RFC2895 ,August 2000.
[26] Remote Network Monitoring MIB Protocol Identifier Macros. A.
Bierman, C. Bucci, R. Iddon. RFC RFC2896, August 2000.
11. Acknowledgments
A Kerbe.
12. Author's Addresses
Emile STEPHAN
France Telecom R & D
2 avenue Pierre Marzin
F-22307 Lannion cedex
Phone: (+ 33) 2 96 05 11 11
Email: emile.stephan@francetelecom.com
Jessie Jewitt
France Telecom R & D
801 Gateway Blvd. Suit 500
South San Francisco, CA 94080
Tel : 1 650 875-1524
Email : jessie.jewitt@francetelecom.com
Full Copyright Statement
"Copyright (C) The Internet Society (2001). All Rights Reserved.
This document and translations of it may be copied and furnished to
others, and derivative works that comment on or otherwise explain it
or assist its implementation may be prepared, copied, published and
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distributed, in whole or in part, without restriction of any kind,
provided that the above copyright notice and this paragraph are
included on all such copies and derivative works. However, this
document itself may not be modified in any way, such as by removing
the copyright notice or references to the Internet Society or other
Internet organizations, except as needed for the purpose of
developing Internet standards in which case the procedures for
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English.
The limited permissions granted above are perpetual and will not be
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This document and the information contained herein is provided on an
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TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING
BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION
HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
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