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IETF RFC 4780

Management Information Base for the Session Initiation Protocol (SIP)

Last modified on Monday, April 30th, 2007

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Network Working Group                                          K. Lingle
Request for Comments: 4780                           Cisco Systems, Inc.
Category: Standards Track                                    J-F. Mule
                                                               CableLabs
                                                                J. Maeng
                                                               D. Walker
                                                              April 2007


                    Management Information Base for
                 the Session Initiation Protocol (SIP)

 Status of This Memo

   This document specifies an Internet standards track protocol for the
   Internet community, and requests discussion and suggestions for
   improvements.  Please refer to the current edition of the "Internet
   Official Protocol Standards" (STD 1) for the standardization state
   and status of this protocol.  Distribution of this memo is unlimited.

 Copyright Notice

   Copyright © The IETF Trust (2007).

 Abstract

   This memo defines a portion of the Management Information Base (MIB)
   for use with network management protocols in the Internet community.
   In particular, it describes a set of managed objects that are used to
   manage Session Initiation Protocol (SIP) entities, which include User
   Agents, and Proxy, Redirect and Registrar servers.




















Lingle, et al.              Standards Track                  PAGE 1 


RFC 4780 SIP MIB Modules April 2007 Table of Contents 1. Introduction ....................................................2 2. Conventions .....................................................2 3. The Internet-Standard Management Framework ......................2 4. Overview ........................................................3 5. Structure of the SIP MIB ........................................3 5.1. Textual Conventions ........................................6 5.2. Relationship to the Network Services MIB ...................6 5.3. IMPORTed MIB Modules and REFERENCE Clauses ................10 6. Accommodating SIP Extension Methods ............................11 7. Definitions ....................................................12 7.1. SIP Textual Conventions ...................................12 7.2. SIP Common MIB Module .....................................15 7.3. SIP User Agent MIB Module .................................55 7.4. SIP Server MIB Module (Proxy, Redirect, and Registrar Servers) ........................................59 8. IANA Considerations ............................................77 9. Security Considerations ........................................78 10. Contributor Acknowledgments ...................................80 11. References ....................................................80 11.1. Normative References .....................................80 11.2. Informative References ...................................81 1. Introduction This memo defines a portion of the Management Information Base (MIB) for use with network management protocols in the Internet community. In particular, it describes a set of managed objects that are used to manage Session Initiation Protocol (SIP) entities, which include User Agents, and Proxy, Redirect and Registrar servers. The managed objects defined in this document are intended to provide basic SIP protocol management for SIP entities. The management of application-specific or service-specific SIP configuration is out of scope. 2. Conventions The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119 [RFC 2119]. 3. The Internet-Standard Management Framework For a detailed overview of the documents that describe the current Internet-Standard Management Framework, please refer to section 7 of RFC 3410 [RFC 3410]. Lingle, et al. Standards Track PAGE 2

RFC 4780 SIP MIB Modules April 2007 Managed objects are accessed via a virtual information store, termed the Management Information Base or MIB. MIB objects are generally accessed through the Simple Network Management Protocol (SNMP). Objects in the MIB are defined using the mechanisms defined in the Structure of Management Information (SMI). This memo specifies a set of MIB modules that are compliant to the SMIv2, which is described in STD 58, comprised of RFC 2578 [RFC 2578], RFC 2579 [RFC 2579], and RFC 2580 [RFC 2580]. 4. Overview SIP [RFC 3261] is an application-layer control (signaling) protocol for creating, modifying, and terminating sessions with one or more participants. These sessions include Internet telephone calls, multimedia distribution, and multimedia conferences. This MIB provides some managed objects for SIP entities defined in RFC 3261 [RFC 3261] - User Agents (UA), and Proxy, Redirect, and Registrar servers. It is intended to provide management of the basic SIP entities. It provides for monitoring of status and protocol statistics, as well as for configuration of SIP entities. 5. Structure of the SIP MIB Four MIB modules are specified: SIP-COMMON-MIB, SIP-SERVER-MIB, SIP- UA-MIB, and SIP-TC-MIB. SIP-COMMON-MIB contains common MIB objects used in all the SIP entities. SIP-SERVER-MIB contains objects specific to Proxy, Redirect, and Registrar servers. SIP-UA-MIB includes objects specific to User Agents. SIP-TC-MIB defines the textual conventions used throughout the MIB modules. The MIB modules contain the following groups of objects: SIP-COMMON-MIB: Management objects common to all the SIP entities o sipCommonMIBObjects * sipCommonCfgBase: This object group defines configuration objects common to all SIP entities, including the SIP protocol version, the type of SIP entity (UA, proxy, redirect, registrar servers), the operational and administrative status, the SIP organization name, the maximum number of SIP transactions an entity can manage, etc. * sipCommonCfgTimer: This object group defines timer configuration objects applicable to SIP user agent and stateful SIP proxy entities. Lingle, et al. Standards Track PAGE 3

RFC 4780 SIP MIB Modules April 2007 * sipCommonSummaryStats: This object group defines a table containing the summary statistics objects applicable to all SIP entities, including the total number of all SIP requests and responses in/out and the total number of transactions. * sipCommonMethodStats: This object group defines a table containing the SIP method statistics objects applicable to all SIP entities, including the number of outbound and inbound requests on a per method basis. Retransmissions, where appropriate, are also included in these statistics. * sipCommonStatusCode: This object group defines a table indicating the number of SIP responses (in and out) that the SIP entity has been requested to monitor on a per-method basis (100, 200, 302, etc.). * sipCommonStatsTrans: This object group defines a table containing a gauge reflecting the number of transactions currently awaiting definitive responses by the managed SIP entity. * sipCommonStatsRetry: This object group defines statistic objects indicating the number of retransmissions sent on a per-method basis. * sipCommonOtherStats: This object group defines additional statistics objects including the number of SIP requests received with unsupported URIs, the number of requests received with unsupported SIP methods, and the number of discarded messages. * sipCommonNotifObjects: This object group defines objects accessible only via a notification (MAX ACCESS clause of accessible-for-notify): they are related to the SNMP notifications defined in this MIB module. The SIP-COMMON-MIB also contains notifications, including: o sipCommonStatusCodeNotif: indicates that a specific status code has been sent or received by the system. o sipCommonStatusCodeThreshExceededNotif: indicates that a specific status code has been sent or received by the system frequently enough to exceed the configured threshold. Lingle, et al. Standards Track PAGE 4

RFC 4780 SIP MIB Modules April 2007 SIP-SERVER-MIB: Groups of objects for SIP Proxy, Redirect, and Registrar servers o sipServerMIBObjects * sipServerCfg: This object group defines common server configuration objects including the SIP server host address. * sipServerProxyCfg: This object group defines configuration objects for SIP Proxy Servers including the proxy mode of operation (stateless, stateful, call stateful), the proxy authentication method(s), realm, etc. * sipServerProxyStats: This object group defines a table containing the statistics objects applicable to SIP Proxy Servers. It includes the number of occurrences of unsupported options being specified in received Proxy-Require headers. * sipServerRegCfg: This object group defines common configuration objects for SIP Registrar servers, including the ability to accept third-party registrations, such as the maximum registration expiry that may be requested by user agents, the maximum number of users the registrar can support, the number of currently registered users, per contact registration information, etc. * sipServerRegStats: This object group contains summary statistics objects for SIP Registrar servers. Precisely, it contains the number of REGISTER requests that have been accepted or rejected. SIP-UA-MIB: Group of objects for SIP User Agents o sipUAMIBObjects * sipUACfgServer: This object group specifies SIP server configuration objects applicable to SIP user agents including the Internet address of the SIP Server the UA uses to register, proxy, or redirect calls. To conform with this specification, an SNMP agent MUST implement the SIP-TC-MIB module, plus the SIP-COMMON-MIB module and one of the SIP entity-type-specific MIB modules (SIP-SERVER-MIB or SIP-UA-MIB) as applicable for each instance of a SIP entity being managed. If a device has more than one SIP entity or multiple instances of the same entity type, it MUST implement multiple SIP modules. Section 5.2 describes handling of multiple instances in detail. Lingle, et al. Standards Track PAGE 5

RFC 4780 SIP MIB Modules April 2007 5.1. Textual Conventions The data types SipTCTransportProtocol, SipTCEntityRole, SipTCOptionTagHeaders, and SipTCMethodName are defined in the SIP- TC-MIB module and used as Textual Conventions in this document. 5.2. Relationship to the Network Services MIB In the design of the SIP MIB, the authors considered the following requirement: the SIP MIB must allow a single system with a single SNMP agent to support multiple instances of various SIP MIB modules. This requirement is met by using the framework provided by the Network Services Monitoring MIB, NETWORK-SERVICES-MIB, RFC 2788 [RFC 2788]. A device implementing the SIP MIB MUST support the NETWORK-SERVICES- MIB and, at a minimum, MUST support the index and name objects (applIndex and applName) in the application table (applTable). In order to allow each instance of a SIP entity to be managed as a separate network service application, a naming convention SHOULD be used to make the application name unique. For example, if a system is running 2 SIP UAs that need to be managed as 2 separate SIP entities, by convention, the application names used in the Network Services Monitoring MIB application table should be "sip_ua1" and "sip_ua2". This convention allows each instance to have its own row in the application table (applTable). It is therefore RECOMMENDED that the following application name conventions be adopted: o for a SIP Proxy entity, the applName value SHOULD be equal to a character string starting with "sip_proxy" followed by a unique application instance identifier, for example, "sip_proxy1", "sip_proxy17". o for a SIP Registrar entity, the applName value SHOULD be equal to a character string starting with "sip_registrar" followed by a unique application instance identifier, for example, "sip_registrar1", "sip_registrar2". o for a SIP User Agent entity, the applName value SHOULD be equal to a character string starting with "sip_ua" followed by a unique application instance identifier, for example, "sip_ua1", "sip_ua2". Lingle, et al. Standards Track PAGE 6

RFC 4780 SIP MIB Modules April 2007 o for any combination of Proxy, Registrar, or Redirect Server being managed as a single aggregate entity, the applName value for the combined server entity SHOULD reflect the appropriate combination followed by a unique application instance identifier. In order to facilitate consistent agent behavior and management application expectations, the following order of names is RECOMMENDED: * if Proxy exists, list first. * if Proxy and Redirect exists, list Redirect second. * if Registrar exists, always list last. For example "sip_proxy1", "sip_proxy_registrar1", "sip_proxy_redirect5", "sip_proxy_redirect_registrar2", or "sip_registrar1". o Note: the value of the network service application index (applIndex) may be different from the instance identifier used in the system (the applIndex is dynamically created and is the value assigned by the SNMP agent at the creation of the table entry, whereas the value of the instance identifier to be used in the application name is provided as part of the application name applName by the system administrator or configuration files of the SIP entity). This note is illustrated in the first example provided below. Finally, the SNMP agent MAY support any combination of the other attributes in applTable. If supported, the following objects SHOULD have values populated as follows: o applVersion: version of the SIP application. o applUptime: the value of applUptime MUST be identical to the value of sipCommonCfgServiceStartTime defined in the SIP-COMMON-MIB module. o applOperStatus: the value of applOperStatus SHOULD reflect the operational status of sipCommonCfgServiceOperStatus, at least by means of a mapping. o applLastChange: the value of applLastChange MUST be identical to the value of sipCommonCfgServiceLastChange defined in the SIP- COMMON module. A number of other objects are defined as part of the applTable. They are not included for the sake of brevity and due to the fact that they do not enhance the concept being presented. Lingle, et al. Standards Track PAGE 7

RFC 4780 SIP MIB Modules April 2007 Example 1: The tables below illustrate how a system acting as both Proxy and Registrar server might be configured to maintain separate SIP- COMMON-MIB instances. The NETWORK-SERVICES-MIB applTable might be populated as follows: +-----------+-------------------+----------------------+ | applIndex | applName | applDescription | +-----------+-------------------+----------------------+ | 1 | "sip_proxy10" | "ACME SIP Proxy" | | 2 | "sip_registrar17" | "ACME SIP Registrar" | +-----------+-------------------+----------------------+ The SIP-COMMON-MIB sipCommonCfgTable would have two rows: one for the proxy (applIndex=1) and one for the registrar (applIndex=2). The SIP-SERVER-MIB tables would, however, only be populated with one row indexed by applIndex=1 and applIndex=2, respectively, if the server provides either proxy or registrar. The SIP-COMMON-MIB sipCommonCfgTable might be populated as: +---------+------------------------+--------------------------+-----+ |applIndex| sipCommonCfgProtocol | sipCommonCfgServiceOper | ... | | | Version | Status | | +---------+------------------------+--------------------------+-----+ | 1 | "SIP/2.0" | up(1) | | | 2 | "SIP/2.0" | restarting(4) | | +---------+------------------------+--------------------------+-----+ while the sipServerProxyCfgTable in SIP-SERVER-MIB might be populated as: +-----------+-------------------------------+-----+ | applIndex | sipServerCfgProxyStatefulness | ... | +-----------+-------------------------------+-----+ | 1 | stateless(1) | | +-----------+-------------------------------+-----+ Lingle, et al. Standards Track PAGE 8

RFC 4780 SIP MIB Modules April 2007 and the sipServerRegUserTable in SIP-SERVER-MIB might be populated as: +-----------+-----------------------+---------------------+-----+ | applIndex | sipServerRegUserIndex | sipServerRegUserUri | ... | +-----------+-----------------------+---------------------+-----+ | 2 | 1 | bob@example.com | | | 2 | 2 | alice@example.com | | | 2 | 3 | jim@example.com | | | 2 | 4 | john@example.com | | +-----------+-----------------------+---------------------+-----+ Example 2: This example illustrates how to represent a system acting as both Proxy and Registrar server, where the two entities share a single instance of SIP-COMMON-MIB. The NETWORK-SERVICES-MIB applTable might be populated as follows: +-----------+------------------------+------------------------------+ | applIndex | applName | applDescription | +-----------+------------------------+------------------------------+ | 1 | "sip_proxy_registrar1" | "ACME SIP Proxy and | | | | Registrar" | +-----------+------------------------+------------------------------+ The SIP-COMMON-MIB sipCommonCfgTable would have only one row to cover both the proxy and the registrar. The SIP-COMMON-MIB sipCommonCfgTable might be populated as: +----------+---------------------------+-----------------------------+ |applIndex |sipCommonCfgProtocolVersion|sipCommonCfgServiceOperStatus| +----------+---------------------------+-----------------------------+ | 1 | "SIP/2.0" | up(1) | +----------+---------------------------+-----------------------------+ Lingle, et al. Standards Track PAGE 9

RFC 4780 SIP MIB Modules April 2007 while the sipServerRegUserTable in SIP-SERVER-MIB might be populated as: +-----------+-----------------------+---------------------+-----+ | applIndex | sipServerRegUserIndex | sipServerRegUserUri | ... | +-----------+-----------------------+---------------------+-----+ | 2 | 1 | bob@example.com | | | 2 | 2 | alice@example.com | | | 2 | 3 | kevin@example.com | | | 2 | 4 | jf@example.com | | +-----------+-----------------------+---------------------+-----+ The NETWORK-SERVICES-MIB assocTable is not considered a requirement for SIP systems. It is not a mandatory group for compliance with the NETWORK-SERVICES-MIB module. The relationship between the value of applOperStatus and sipCommonCfgServiceOperStatus is as follows: +-------------------------------+---------------+-------------------+ | sipCommonCfgServiceOperStatus | -- | applOperStatus | | | corresponds | | | | to --> | | +-------------------------------+---------------+-------------------+ | up | --> | up | | down | --> | down | | congested | --> | congested | | restarting | --> | restarting | | quiescing | --> | quiescing | | testing | --> | up | | unknown | --> | --indeterminate-- | +-------------------------------+---------------+-------------------+ If the sipOperStatus is 'unknown', there is no corresponding value of applOperStatus. Therefore, the last known value of applOperStatus SHOULD be maintained until the sipOperStatus transitions to a value that can be mapped appropriately. 5.3. IMPORTed MIB Modules and REFERENCE Clauses The SIP MIB modules defined in this document IMPORT definitions normatively from the following MIB modules, beyond [RFC 2578], [RFC 2579], and [RFC 2580]: INET-ADDRESS-MIB [RFC 4001], NETWORK- SERVICES-MIB [RFC 2788], SNMP-FRAMEWORK-MIB [RFC 3411]. This MIB module also includes REFERENCE clauses that normatively refer to SIP [RFC 3261] and INET-ADDRESS-MIB [RFC 4001]. Lingle, et al. Standards Track PAGE 10

RFC 4780 SIP MIB Modules April 2007 Finally, this MIB module makes informative references to several RFCs in some of the examples described in the DESCRIPTION clauses, including Reliability of Provisional Responses in SIP [RFC 3262] and SIP over SCTP [RFC 4168]. 6. Accommodating SIP Extension Methods The core set of SIP methods is defined in RFC 3261 [RFC 3261]. Other IETF RFCs define additional methods. In the future, additional methods may be defined. In order to avoid having to update the SIP- COMMON-MIB module to accommodate these extension methods, we use a method identifier name (SipTCMethodName TEXTUAL-CONVENTION) to represent all SIP methods registered with IANA. For example, the sipCommonMethodSupportedTable is the main table for listing all of the SIP methods supported by a system, including the SIP methods defined in RFC 3261 [RFC 3261] and other SIP methods registered with IANA. The table is informational in nature and populated by the system. Entries cannot be added or deleted by an SNMP manager. The SIP specification (RFC 3261 [RFC 3261], Section 27.4) establishes the sub-registries for SIP Methods and Response Codes under http://www.iana.org/assignments/sip-parameters. This document uses the existing sub-registry for the names of registered SIP methods. For example, in the sipCommonMethodSupportedTable of SIP-COMMON-MIB, the sipCommonMethodSupportedName values can be represented as follows: +------------------------------+ | sipCommonMethodSupportedName | +------------------------------+ | "ACK" | | "BYE" | | "CANCEL" | | "INVITE" | | "OPTIONS" | +------------------------------+ Lingle, et al. Standards Track PAGE 11

RFC 4780 SIP MIB Modules April 2007 7. Definitions 7.1. SIP Textual Conventions SIP-TC-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, mib-2 FROM SNMPv2-SMI -- RFC 2578 TEXTUAL-CONVENTION FROM SNMPv2-TC; -- RFC 2579 sipTC MODULE-IDENTITY LAST-UPDATED "200704200000Z" ORGANIZATION "IETF Session Initiation Protocol Working Group" CONTACT-INFO "SIP WG email: sip@ietf.org Co-editor Kevin Lingle Cisco Systems, Inc. postal: 7025 Kit Creek Road P.O. Box 14987 Research Triangle Park, NC 27709 USA email: klingle@cisco.com phone: +1 919 476 2029 Co-editor Joon Maeng email: jmaeng@austin.rr.com Co-editor Jean-Francois Mule CableLabs postal: 858 Coal Creek Circle Louisville, CO 80027 USA email: jf.mule@cablelabs.com phone: +1 303 661 9100 Co-editor Dave Walker email: drwalker@rogers.com" DESCRIPTION "Session Initiation Protocol (SIP) MIB TEXTUAL-CONVENTION module used by other SIP-related MIB Modules. Copyright © The IETF Trust (2007). This version of this MIB module is part of RFC 4780; see the RFC itself for Lingle, et al. Standards Track PAGE 12

RFC 4780 SIP MIB Modules April 2007 full legal notices." REVISION "200704200000Z" DESCRIPTION "Initial version of the IETF SIP-TC-MIB module. This version published as part of RFC 4780." ::= { mib-2 148 } -- -- Textual Conventions -- SipTCTransportProtocol ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This convention is a bit map. Each bit represents a transport protocol. If a bit has value 1, then that selected transport protocol is in some way dependent on the context of the object using this convention. If a bit has value 0, then that transport protocol is not selected. Combinations of bits can be set when multiple transport protocols are selected. bit 0: a protocol other than those defined here bit 1: User Datagram Protocol bit 2: Transmission Control Protocol bit 3: Stream Control Transmission Protocol bit 4: Transport Layer Security Protocol over TCP bit 5: Transport Layer Security Protocol over SCTP " REFERENCE "RFC 3261, Section 18 and RFC 4168" SYNTAX BITS { other(0), -- none of the following udp(1), tcp(2), sctp(3), -- RFC 4168 tlsTcp(4), tlsSctp(5) -- RFC 4168 } SipTCEntityRole ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This convention defines the role of a SIP entity. Examples of SIP entities are proxies, user agents, redirect servers, registrars, or combinations of the above. User Agent (UA): A logical entity that can act as both a user agent client and user agent server. Lingle, et al. Standards Track PAGE 13

RFC 4780 SIP MIB Modules April 2007 User Agent Client (UAC): A logical entity that creates a new request, and then uses the client transaction state machinery to send it. The role of UAC lasts only for the duration of that transaction. In other words, if a piece of software initiates a request, it acts as a UAC for the duration of that transaction. If it receives a request later, it assumes the role of a user agent server for the processing of that transaction. User Agent Server (UAS): A logical entity that generates a response to a SIP request. The response accepts, rejects, or redirects the request. This role lasts only for the duration of that transaction. In other words, if a piece of software responds to a request, it acts as a UAS for the duration of that transaction. If it generates a request later, it assumes the role of a user agent client for the processing of that transaction. Proxy, Proxy Server: An intermediary entity that acts as both a server and a client for the purpose of making requests on behalf of other clients. A proxy server primarily plays the role of routing, which means its job is to ensure that a request is sent to another entity 'closer' to the targeted user. Proxies are also useful for enforcing policy. A proxy interprets and, if necessary, rewrites specific parts of a request message before forwarding it. Redirect Server: A redirect server is a user agent server that generates 3xx responses to requests it receives, directing the client to contact an alternate set of URIs. Registrar: A registrar is a server that accepts REGISTER requests and places the information it receives in those requests into the location service for the domain it handles." REFERENCE "RFC 3261, Section 6" SYNTAX BITS { other(0), userAgent(1), proxyServer(2), redirectServer(3), registrarServer(4) } SipTCOptionTagHeaders ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This convention defines the header fields that use the option Lingle, et al. Standards Track PAGE 14

RFC 4780 SIP MIB Modules April 2007 tags per Section 19.2 of RFC 3261. These tags are used in Require (Section 20.32), Proxy-Require (Section 20.29), Supported (Section 20.37), and Unsupported (Section 20.40) header fields." REFERENCE "RFC 3261, Sections 19.2, 20.32, 20.29, 20.37, and 20.40" SYNTAX BITS { require(0), -- Require header proxyRequire(1), -- Proxy-Require header supported(2), -- Supported header unsupported(3) -- Unsupported header } SipTCMethodName ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This TEXTUAL-CONVENTION is a string that uniquely identifies a SIP method. The scope of uniqueness is the context of all defined SIP methods. Experimental support of extension methods is acceptable and expected. Extension methods are those defined in Internet-Draft documents but not yet allocated and officially sanctioned by IANA. To support experimental extension methods, any object using this TEXTUAL-CONVENTION as syntax MAY return/accept a method identifier value other than those sanctioned by IANA. That system MUST ensure no collisions with officially assigned method names." REFERENCE "RFC 3261, Section 27.4" SYNTAX OCTET STRING (SIZE (1..100)) END 7.2. SIP Common MIB Module SIP-COMMON-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, NOTIFICATION-TYPE, Counter32, Gauge32, TimeTicks, Unsigned32, Lingle, et al. Standards Track PAGE 15

RFC 4780 SIP MIB Modules April 2007 mib-2 FROM SNMPv2-SMI -- RFC 2578 RowStatus, TimeStamp, TruthValue FROM SNMPv2-TC -- RFC 2579 MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUP FROM SNMPv2-CONF -- RFC 2580 SnmpAdminString FROM SNMP-FRAMEWORK-MIB -- RFC 3411 SipTCTransportProtocol, SipTCMethodName, SipTCEntityRole, SipTCOptionTagHeaders FROM SIP-TC-MIB -- RFC 4780 applIndex FROM NETWORK-SERVICES-MIB -- RFC 2788 InetPortNumber FROM INET-ADDRESS-MIB; -- RFC 4001 sipCommonMIB MODULE-IDENTITY LAST-UPDATED "200704200000Z" ORGANIZATION "IETF Session Initiation Protocol Working Group" CONTACT-INFO "SIP WG email: sip@ietf.org Co-editor Kevin Lingle Cisco Systems, Inc. postal: 7025 Kit Creek Road P.O. Box 14987 Research Triangle Park, NC 27709 USA email: klingle@cisco.com phone: +1 919 476 2029 Co-editor Joon Maeng email: jmaeng@austin.rr.com Co-editor Jean-Francois Mule CableLabs Lingle, et al. Standards Track PAGE 16

RFC 4780 SIP MIB Modules April 2007 postal: 858 Coal Creek Circle Louisville, CO 80027 USA email: jf.mule@cablelabs.com phone: +1 303 661 9100 Co-editor Dave Walker email: drwalker@rogers.com" DESCRIPTION "Session Initiation Protocol (SIP) Common MIB module. This module defines objects that may be common to all SIP entities. SIP is an application-layer signaling protocol for creating, modifying and terminating multimedia sessions with one or more participants. These sessions include Internet multimedia conferences and Internet telephone calls. SIP is defined in RFC 3261 (June 2002). This MIB is defined for managing objects that are common to SIP User Agents (UAs), Proxy, Redirect, and Registrar servers. Objects specific to each of these entities MAY be managed using entity specific MIBs defined in other modules. Copyright © The IETF Trust (2007). This version of this MIB module is part of RFC 4780; see the RFC itself for full legal notices." REVISION "200704200000Z" DESCRIPTION "Initial version of the IETF SIP-COMMON-MIB module. This version published as part of RFC 4780." ::= { mib-2 149 } -- Top-Level Components of this MIB. sipCommonMIBNotifications OBJECT IDENTIFIER ::= { sipCommonMIB 0 } sipCommonMIBObjects OBJECT IDENTIFIER ::= { sipCommonMIB 1 } sipCommonMIBConformance OBJECT IDENTIFIER ::= { sipCommonMIB 2 } -- -- This MIB contains objects that are common to all SIP entities. -- -- Common basic configuration sipCommonCfgBase OBJECT IDENTIFIER ::= { sipCommonMIBObjects 1 } -- Protocol timer configuration sipCommonCfgTimer OBJECT IDENTIFIER ::= { sipCommonMIBObjects 2 } -- SIP message summary statistics Lingle, et al. Standards Track PAGE 17

RFC 4780 SIP MIB Modules April 2007 sipCommonSummaryStats OBJECT IDENTIFIER ::= { sipCommonMIBObjects 3 } -- Per method statistics sipCommonMethodStats OBJECT IDENTIFIER ::= { sipCommonMIBObjects 4 } -- Per Status code or status code class statistics sipCommonStatusCode OBJECT IDENTIFIER ::= { sipCommonMIBObjects 5 } -- Transaction statistics sipCommonStatsTrans OBJECT IDENTIFIER ::= { sipCommonMIBObjects 6 } -- Method retry statistics sipCommonStatsRetry OBJECT IDENTIFIER ::= { sipCommonMIBObjects 7 } -- Other statistics sipCommonOtherStats OBJECT IDENTIFIER ::= { sipCommonMIBObjects 8 } -- Accessible-for-notify objects sipCommonNotifObjects OBJECT IDENTIFIER ::= { sipCommonMIBObjects 9 } -- -- Common Configuration Objects -- sipCommonCfgTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonCfgEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the common configuration objects applicable to all SIP entities." ::= { sipCommonCfgBase 1 } sipCommonCfgEntry OBJECT-TYPE SYNTAX SipCommonCfgEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row of common configuration. Each row represents objects for a particular SIP entity instance present in this system. applIndex is used to uniquely identify these instances of SIP entities and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788)." INDEX { applIndex } ::= { sipCommonCfgTable 1 } SipCommonCfgEntry ::= SEQUENCE { Lingle, et al. Standards Track PAGE 18

RFC 4780 SIP MIB Modules April 2007 sipCommonCfgProtocolVersion SnmpAdminString, sipCommonCfgServiceOperStatus INTEGER, sipCommonCfgServiceStartTime TimeTicks, sipCommonCfgServiceLastChange TimeTicks, sipCommonCfgOrganization SnmpAdminString, sipCommonCfgMaxTransactions Unsigned32, sipCommonCfgServiceNotifEnable BITS, sipCommonCfgEntityType SipTCEntityRole } sipCommonCfgProtocolVersion OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS read-only STATUS current DESCRIPTION "This object will reflect the version of SIP supported by this SIP entity. It will follow the same format as SIP version information contained in the SIP messages generated by this SIP entity. For example, entities supporting SIP version 2 will return 'SIP/2.0' as dictated by the standard." REFERENCE "RFC 3261, Section 7.1" ::= { sipCommonCfgEntry 1 } sipCommonCfgServiceOperStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), up(2), down(3), congested(4), restarting(5), quiescing(6), testing(7) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the current operational state of the SIP application. unknown : The operational status cannot be determined for some reason. up : The application is operating normally and is processing (receiving and possibly issuing) SIP requests and responses. down : The application is currently unable to process SIP messages. congested : The application is operational but no additional Lingle, et al. Standards Track PAGE 19

RFC 4780 SIP MIB Modules April 2007 inbound transactions can be accommodated at the moment. restarting : The application is currently unavailable, but it is in the process of restarting and will presumably, soon be able to process SIP messages. quiescing : The application is currently operational but has been administratively put into quiescence mode. Additional inbound transactions MAY be rejected. testing : The application is currently in test mode and MAY not be able to process SIP messages. The operational status values defined for this object are not based on any specific information contained in the SIP standard." ::= { sipCommonCfgEntry 2 } sipCommonCfgServiceStartTime OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime at the time the SIP entity was last started. If started prior to the last re-initialization of the local network management subsystem, then this object contains a zero value." ::= { sipCommonCfgEntry 3 } sipCommonCfgServiceLastChange OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime at the time the SIP entity entered its current operational state. If the current state was entered prior to the last re-initialization of the local network management subsystem, then this object contains a zero value." ::= { sipCommonCfgEntry 4 } sipCommonCfgOrganization OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the organization name that the SIP entity inserts into Organization headers of SIP messages processed by this system. If the string is empty, no Organization header is to be generated." Lingle, et al. Standards Track PAGE 20

RFC 4780 SIP MIB Modules April 2007 REFERENCE "RFC 3261, Section 20.25" ::= { sipCommonCfgEntry 5 } sipCommonCfgMaxTransactions OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the maximum number of simultaneous transactions per second that the SIP entity can manage. In general, the value of this object SHOULD reflect a level of transaction processing per second that is considered high enough to impact the system's CPU and/or memory resources to the point of deteriorating SIP call processing but not high enough to cause catastrophic system failure." ::= { sipCommonCfgEntry 6 } sipCommonCfgServiceNotifEnable OBJECT-TYPE SYNTAX BITS { sipCommonServiceColdStart(0), sipCommonServiceWarmStart(1), sipCommonServiceStatusChanged(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object specifies which SIP service related notifications are enabled. Each bit represents a specific notification. If a bit has a value 1, the associated notification is enabled and will be generated by the SIP entity at the appropriate time. Support for these notifications is OPTIONAL: either none or all notification values are supported. If an implementation does not support this object, it should return a 'noSuchObject' exception to an SNMP GET operation. If notifications are supported, this object's default value SHOULD reflect sipCommonServiceColdStart and sipCommonServiceWarmStart enabled and sipCommonServiceStatusChanged disabled. This object value SHOULD persist across reboots." DEFVAL { { sipCommonServiceColdStart, sipCommonServiceWarmStart } } ::= { sipCommonCfgEntry 7 } sipCommonCfgEntityType OBJECT-TYPE SYNTAX SipTCEntityRole MAX-ACCESS read-only Lingle, et al. Standards Track PAGE 21

RFC 4780 SIP MIB Modules April 2007 STATUS current DESCRIPTION "This object identifies the list of SIP entities to which this row is related. It is defined as a bit map. Each bit represents a type of SIP entity. If a bit has value 1, the SIP entity represented by this row plays the role of this entity type. If a bit has value 0, the SIP entity represented by this row does not act as this entity type. Combinations of bits can be set when the SIP entity plays multiple SIP roles." ::= { sipCommonCfgEntry 8 } -- -- Support for multiple ports -- sipCommonPortTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the list of ports that each SIP entity in this system is allowed to use. These ports can be advertised using the Contact header in a REGISTER request or response." ::= { sipCommonCfgBase 2 } sipCommonPortEntry OBJECT-TYPE SYNTAX SipCommonPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Specification of a particular port. Each row represents those objects for a particular SIP entity present in this system. applIndex is used to uniquely identify these instances of SIP entities and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788)." INDEX { applIndex, sipCommonPort } ::= { sipCommonPortTable 1 } SipCommonPortEntry ::= SEQUENCE { sipCommonPort InetPortNumber, sipCommonPortTransportRcv SipTCTransportProtocol } sipCommonPort OBJECT-TYPE SYNTAX InetPortNumber (1..65535) MAX-ACCESS not-accessible STATUS current Lingle, et al. Standards Track PAGE 22

RFC 4780 SIP MIB Modules April 2007 DESCRIPTION "This object reflects a particular port that can be used by the SIP application." ::= { sipCommonPortEntry 1 } sipCommonPortTransportRcv OBJECT-TYPE SYNTAX SipTCTransportProtocol MAX-ACCESS read-only STATUS current DESCRIPTION "This object will specify the transport protocol the SIP entity will use to receive SIP messages. This object is a bit map. Each bit represents a transport protocol. If a bit has value 1, then that transport protocol is currently being used. If a bit has value 0, then that transport protocol is currently not being used." ::= { sipCommonPortEntry 2 } -- -- Support for SIP option tags (SIP extensions). -- SIP extensions MAY be supported or required by SIP entities. -- sipCommonOptionTagTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonOptionTagEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains a list of the SIP option tags (SIP extensions) that are either required, supported, or unsupported by the SIP entity. These option tags are used in the Require, Proxy-Require, Supported, and Unsupported header fields. Example: If a user agent client supports, and requires the server to support, reliability of provisional responses (RFC 3262), this table contains a row with the option tag string '100rel' in sipCommonOptionTag and the OCTET STRING value of '1010 0000' or '0xA0' in sipCommonOptionTagHeaderField. If a server does not support the required feature (indicated in a Require header to a UAS, or in a Proxy-Require to a Proxy Server), the server returns a 420 Bad Extension listing the feature in an Unsupported header. Normally, the list of such features supported by an entity is static (i.e., will not change over time)." Lingle, et al. Standards Track PAGE 23

RFC 4780 SIP MIB Modules April 2007 REFERENCE "RFC 3261, Sections 19.2, 20.32, 20.29, 20.37, and 20.40" ::= { sipCommonCfgBase 3 } sipCommonOptionTagEntry OBJECT-TYPE SYNTAX SipCommonOptionTagEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A particular SIP option tag (extension) supported or unsupported by the SIP entity, and which may be supported or required by a peer. Each row represents those objects for a particular SIP entity present in this system. applIndex is used to uniquely identify these instances of SIP entities and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788)." INDEX { applIndex, sipCommonOptionTagIndex } ::= { sipCommonOptionTagTable 1 } SipCommonOptionTagEntry ::= SEQUENCE { sipCommonOptionTagIndex Unsigned32, sipCommonOptionTag SnmpAdminString, sipCommonOptionTagHeaderField SipTCOptionTagHeaders } sipCommonOptionTagIndex OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object uniquely identifies a conceptual row in the table." ::= { sipCommonOptionTagEntry 1 } sipCommonOptionTag OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the SIP option tag. The option tag names are registered with IANA and available at http://www.iana.org." REFERENCE "RFC 3261, Section 27.1" ::= { sipCommonOptionTagEntry 2 } sipCommonOptionTagHeaderField OBJECT-TYPE SYNTAX SipTCOptionTagHeaders MAX-ACCESS read-only STATUS current Lingle, et al. Standards Track PAGE 24

RFC 4780 SIP MIB Modules April 2007 DESCRIPTION "This object indicates whether the SIP option tag is supported (Supported header), unsupported (Unsupported header), or required (Require or Proxy-Require header) by the SIP entity. A SIP option tag may be both supported and required." ::= { sipCommonOptionTagEntry 3 } -- -- Supported SIP Methods -- sipCommonMethodSupportedTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonMethodSupportedEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains a list of methods supported by each SIP entity in this system (see the standard set of SIP methods in Section 7.1 of RFC 3261). Any additional methods that may be incorporated into the SIP protocol can be represented by this table without any requirement to update this MIB module. The table is informational in nature and conveys capabilities of the managed system to the SNMP Manager. From a protocol point of view, the list of methods advertised by the SIP entity in the Allow header (Section 20.5 of RFC 3261) MUST be consistent with the methods reflected in this table." ::= { sipCommonCfgBase 4 } sipCommonMethodSupportedEntry OBJECT-TYPE SYNTAX SipCommonMethodSupportedEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A particular method supported by the SIP entity. Each row represents those objects for a particular SIP entity present in this system. applIndex is used to uniquely identify these instances of SIP entities and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788)." INDEX { applIndex, sipCommonMethodSupportedIndex } ::= { sipCommonMethodSupportedTable 1 } SipCommonMethodSupportedEntry ::= SEQUENCE { sipCommonMethodSupportedIndex Unsigned32, sipCommonMethodSupportedName SipTCMethodName } Lingle, et al. Standards Track PAGE 25

RFC 4780 SIP MIB Modules April 2007 sipCommonMethodSupportedIndex OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object uniquely identifies a conceptual row in the table and reflects an assigned number used to identify a specific SIP method. This identifier is suitable for referencing the associated method throughout this and other MIBs supported by this managed system." ::= { sipCommonMethodSupportedEntry 1 } sipCommonMethodSupportedName OBJECT-TYPE SYNTAX SipTCMethodName MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the supported method's name. The method name MUST be all upper case (e.g., 'INVITE')." ::= { sipCommonMethodSupportedEntry 2 } -- -- SIP Timer Configuration -- sipCommonCfgTimerTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonCfgTimerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains timer configuration objects applicable to SIP user agent and SIP stateful Proxy Server entities." ::= { sipCommonCfgTimer 1 } sipCommonCfgTimerEntry OBJECT-TYPE SYNTAX SipCommonCfgTimerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row of timer configuration. Each row represents those objects for a particular SIP entity present in this system. applIndex is used to uniquely identify these instances of SIP entities and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788). The objects in this table entry SHOULD be non-volatile and their value SHOULD be kept at reboot." Lingle, et al. Standards Track PAGE 26

RFC 4780 SIP MIB Modules April 2007 INDEX { applIndex } ::= { sipCommonCfgTimerTable 1 } SipCommonCfgTimerEntry ::= SEQUENCE { sipCommonCfgTimerA Unsigned32, sipCommonCfgTimerB Unsigned32, sipCommonCfgTimerC Unsigned32, sipCommonCfgTimerD Unsigned32, sipCommonCfgTimerE Unsigned32, sipCommonCfgTimerF Unsigned32, sipCommonCfgTimerG Unsigned32, sipCommonCfgTimerH Unsigned32, sipCommonCfgTimerI Unsigned32, sipCommonCfgTimerJ Unsigned32, sipCommonCfgTimerK Unsigned32, sipCommonCfgTimerT1 Unsigned32, sipCommonCfgTimerT2 Unsigned32, sipCommonCfgTimerT4 Unsigned32 } sipCommonCfgTimerA OBJECT-TYPE SYNTAX Unsigned32 (100..1000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the initial value for the retransmit timer for the INVITE method. The retransmit timer doubles after each retransmission, ensuring an exponential backoff in network traffic. This object represents the initial time a SIP entity will wait to receive a provisional response to an INVITE before resending the INVITE request." REFERENCE "RFC 3261, Section 17.1.1.2" DEFVAL { 500 } ::= { sipCommonCfgTimerEntry 1 } sipCommonCfgTimerB OBJECT-TYPE SYNTAX Unsigned32 (32000..300000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the maximum time a SIP entity will wait to receive a final response to an INVITE. The timer is started upon transmission of the initial INVITE request." REFERENCE "RFC 3261, Section 17.1.1.2" Lingle, et al. Standards Track PAGE 27

RFC 4780 SIP MIB Modules April 2007 DEFVAL { 32000 } ::= { sipCommonCfgTimerEntry 2 } sipCommonCfgTimerC OBJECT-TYPE SYNTAX Unsigned32 (180000..300000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the maximum time a SIP Proxy Server will wait to receive a provisional response to an INVITE. The Timer C MUST be set for each client transaction when an INVITE request is proxied." REFERENCE "RFC 3261, Section 16.6" DEFVAL { 180000 } ::= { sipCommonCfgTimerEntry 3 } sipCommonCfgTimerD OBJECT-TYPE SYNTAX Unsigned32 (0..300000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the amount of time that the server transaction can remain in the 'Completed' state when unreliable transports are used. The default value MUST be equal to or greater than 32000 for UDP transport, and its value MUST be 0 for TCP/SCTP transport." REFERENCE "RFC 3261, Section 17.1.1.2" DEFVAL { 32000 } ::= { sipCommonCfgTimerEntry 4 } sipCommonCfgTimerE OBJECT-TYPE SYNTAX Unsigned32 (100..1000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the initial value for the retransmit timer for a non-INVITE method while in 'Trying' state. The retransmit timer doubles after each retransmission until it reaches T2 to ensure an exponential backoff in network traffic. This object represents the initial time a SIP entity will wait to receive a provisional response to the request before resending the non-INVITE request." REFERENCE Lingle, et al. Standards Track PAGE 28

RFC 4780 SIP MIB Modules April 2007 "RFC 3261, Section 17.1.2.2" DEFVAL { 500 } ::= { sipCommonCfgTimerEntry 5 } sipCommonCfgTimerF OBJECT-TYPE SYNTAX Unsigned32 (32000..300000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the maximum time a SIP entity will wait to receive a final response to a non-INVITE request. The timer is started upon transmission of the initial request." REFERENCE "RFC 3261, Section 17.1.2.2" DEFVAL { 32000 } ::= { sipCommonCfgTimerEntry 6 } sipCommonCfgTimerG OBJECT-TYPE SYNTAX Unsigned32 (0..1000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the initial value for the retransmit timer for final responses to INVITE requests. If timer G fires, the response is passed to the transport layer again for retransmission, and timer G is set to fire in MIN(2*T1, T2) seconds. From then on, when timer G fires, the response is passed to the transport again for transmission, and timer G is reset with a value that doubles, unless that value exceeds T2, in which case, it is reset with the value of T2. The default value MUST be T1 for UDP transport, and its value MUST be 0 for reliable transport like TCP/SCTP." REFERENCE "RFC 3261, Section 17.2.1" DEFVAL { 500 } ::= { sipCommonCfgTimerEntry 7 } sipCommonCfgTimerH OBJECT-TYPE SYNTAX Unsigned32 (32000..300000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the maximum time a server will wait to receive an ACK before it abandons retransmitting the response. Lingle, et al. Standards Track PAGE 29

RFC 4780 SIP MIB Modules April 2007 The timer is started upon entering the 'Completed' state." REFERENCE "RFC 3261, Section 17.2.1" DEFVAL { 32000 } ::= { sipCommonCfgTimerEntry 8 } sipCommonCfgTimerI OBJECT-TYPE SYNTAX Unsigned32 (0..10000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the maximum time a SIP entity will wait to receive additional ACK message retransmissions. The timer is started upon entering the 'Confirmed' state. The default value MUST be T4 for UDP transport and its value MUST be 0 for reliable transport like TCP/SCTP." REFERENCE "RFC 3261, Section 17.2.1" DEFVAL { 5000 } ::= { sipCommonCfgTimerEntry 9 } sipCommonCfgTimerJ OBJECT-TYPE SYNTAX Unsigned32 (32000..300000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the maximum time a SIP server will wait to receive retransmissions of non-INVITE requests. The timer is started upon entering the 'Completed' state for non-INVITE transactions. When timer J fires, the server MUST transition to the 'Terminated' state." REFERENCE "RFC 3261, Section 17.2.2" DEFVAL { 32000 } ::= { sipCommonCfgTimerEntry 10 } sipCommonCfgTimerK OBJECT-TYPE SYNTAX Unsigned32 (0..10000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the maximum time a SIP client will wait to receive retransmissions of responses to non-INVITE requests. The timer is started upon entering the 'Completed' state for Lingle, et al. Standards Track PAGE 30

RFC 4780 SIP MIB Modules April 2007 non-INVITE transactions. When timer K fires, the server MUST transition to the 'Terminated' state. The default value MUST be T4 for UDP transport, and its value MUST be 0 for reliable transport like TCP/SCTP." REFERENCE "RFC 3261, Section 17.1.2.2" DEFVAL { 5000 } ::= { sipCommonCfgTimerEntry 11 } sipCommonCfgTimerT1 OBJECT-TYPE SYNTAX Unsigned32 (200..10000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the T1 timer for a SIP entity. T1 is an estimate of the round-trip time (RTT) between the client and server transactions." REFERENCE "RFC 3261, Section 17" DEFVAL { 500 } ::= { sipCommonCfgTimerEntry 12 } sipCommonCfgTimerT2 OBJECT-TYPE SYNTAX Unsigned32 (200..10000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the T2 timer for a SIP entity. T2 is the maximum retransmit interval for non-INVITE requests and INVITE responses. It's used in various parts of the protocol to reset other Timer* objects to this value." REFERENCE "RFC 3261, Section 17" DEFVAL { 4000 } ::= { sipCommonCfgTimerEntry 13 } sipCommonCfgTimerT4 OBJECT-TYPE SYNTAX Unsigned32 (200..10000) UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the T4 timer for a SIP entity. T4 is the maximum duration a message will remain in the network. It represents the amount of time the network will take to clear messages between client and server transactions. It's used in Lingle, et al. Standards Track PAGE 31

RFC 4780 SIP MIB Modules April 2007 various parts of the protocol to reset other Timer* objects to this value." REFERENCE "RFC 3261, Section 17" DEFVAL { 5000 } ::= { sipCommonCfgTimerEntry 14 } -- -- Common Statistics Objects -- -- -- Summary Statistics -- sipCommonSummaryStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonSummaryStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the summary statistics objects applicable to all SIP entities. Each row represents those objects for a particular SIP entity present in this system." ::= { sipCommonSummaryStats 1 } sipCommonSummaryStatsEntry OBJECT-TYPE SYNTAX SipCommonSummaryStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row of summary statistics. Each row represents those objects for a particular SIP entity present in this system. applIndex is used to uniquely identify these instances of SIP entities and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788)." INDEX { applIndex } ::= { sipCommonSummaryStatsTable 1 } SipCommonSummaryStatsEntry ::= SEQUENCE { sipCommonSummaryInRequests Counter32, sipCommonSummaryOutRequests Counter32, sipCommonSummaryInResponses Counter32, sipCommonSummaryOutResponses Counter32, sipCommonSummaryTotalTransactions Counter32, sipCommonSummaryDisconTime TimeStamp } sipCommonSummaryInRequests OBJECT-TYPE Lingle, et al. Standards Track PAGE 32

RFC 4780 SIP MIB Modules April 2007 SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the total number of SIP request messages received by the SIP entity, including retransmissions. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipCommonSummaryDisconTime object in the same row." ::= { sipCommonSummaryStatsEntry 1 } sipCommonSummaryOutRequests OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the total number of SIP request messages sent out (originated and relayed) by the SIP entity. Where a particular message is sent more than once, for example as a retransmission or as a result of forking, each transmission is counted separately. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipCommonSummaryDisconTime object in the same row." ::= { sipCommonSummaryStatsEntry 2 } sipCommonSummaryInResponses OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the total number of SIP response messages received by the SIP entity, including retransmissions. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipCommonSummaryDisconTime object in the same row." ::= { sipCommonSummaryStatsEntry 3 } sipCommonSummaryOutResponses OBJECT-TYPE Lingle, et al. Standards Track PAGE 33

RFC 4780 SIP MIB Modules April 2007 SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the total number of SIP response messages sent (originated and relayed) by the SIP entity including retransmissions. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipCommonSummaryDisconTime object in the same row." ::= { sipCommonSummaryStatsEntry 4 } sipCommonSummaryTotalTransactions OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains a count of the number of transactions that are in progress and transactions that have reached the 'Terminated' state. It is not applicable to stateless SIP Proxy Servers. A SIP transaction occurs between a client and a server, and comprises all messages from the first request sent from the client to the server, up to a final (non-1xx) response sent from the server to the client. If the request is INVITE and the final response is a non-2xx, the transaction also include an ACK to the response. The ACK for a 2xx response to an INVITE request is a separate transaction. The branch ID parameter in the Via header field values serves as a transaction identifier. A transaction is identified by the CSeq sequence number within a single call leg. The ACK request has the same CSeq number as the corresponding INVITE request, but comprises a transaction of its own. In the case of a forked request, each branch counts as a single transaction. For a transaction stateless Proxy Server, this counter is always 0. Lingle, et al. Standards Track PAGE 34

RFC 4780 SIP MIB Modules April 2007 Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipCommonSummaryDisconTime object in the same row." ::= { sipCommonSummaryStatsEntry 5 } sipCommonSummaryDisconTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of the sysUpTime object when the counters for the summary statistics objects in this row last experienced a discontinuity." ::= { sipCommonSummaryStatsEntry 6 } -- -- SIP Method Statistics -- Total counts for each SIP method. -- sipCommonMethodStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonMethodStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the method statistics objects for SIP entities. Each row represents those objects for a particular SIP entity present in this system." ::= { sipCommonMethodStats 1 } sipCommonMethodStatsEntry OBJECT-TYPE SYNTAX SipCommonMethodStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row of per entity method statistics. Each row represents those objects for a particular SIP entity present in this system. applIndex is used to uniquely identify these instances of SIP entities and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788)." INDEX { applIndex, sipCommonMethodStatsName } ::= { sipCommonMethodStatsTable 1 } SipCommonMethodStatsEntry ::= SEQUENCE { sipCommonMethodStatsName SipTCMethodName, sipCommonMethodStatsOutbounds Counter32, Lingle, et al. Standards Track PAGE 35

RFC 4780 SIP MIB Modules April 2007 sipCommonMethodStatsInbounds Counter32, sipCommonMethodStatsDisconTime TimeStamp } sipCommonMethodStatsName OBJECT-TYPE SYNTAX SipTCMethodName MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object uniquely identifies the SIP method related to the objects in a particular row." ::= { sipCommonMethodStatsEntry 1 } sipCommonMethodStatsOutbounds OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the total number of requests sent by the SIP entity, excluding retransmissions. Retransmissions are counted separately and are not reflected in this counter. A Management Station can detect discontinuities in this counter by monitoring the sipCommonMethodStatsDisconTime object in the same row." REFERENCE "RFC 3261, Section 7.1" ::= { sipCommonMethodStatsEntry 2 } sipCommonMethodStatsInbounds OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the total number of requests received by the SIP entity. Retransmissions are counted separately and are not reflected in this counter. A Management Station can detect discontinuities in this counter by monitoring the sipCommonMethodStatsDisconTime object in the same row." REFERENCE "RFC 3261, Section 7.1" ::= { sipCommonMethodStatsEntry 3 } sipCommonMethodStatsDisconTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION Lingle, et al. Standards Track PAGE 36

RFC 4780 SIP MIB Modules April 2007 "The value of the sysUpTime object when the counters for the method statistics objects in this row last experienced a discontinuity." ::= { sipCommonMethodStatsEntry 4 } -- -- Support for specific status codes -- sipCommonStatusCodeTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonStatusCodeEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the list of SIP status codes that each SIP entity in this system has been requested to monitor. It is the mechanism by which specific status codes are monitored. Entries created in this table must not persist across reboots." ::= { sipCommonStatusCode 1 } sipCommonStatusCodeEntry OBJECT-TYPE SYNTAX SipCommonStatusCodeEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This row contains information on a particular SIP status code that the SIP entity has been requested to monitor. Entries created in this table must not persist across reboots. Each row represents those objects for a particular SIP entity present in this system. applIndex is used to uniquely identify these instances of SIP entities and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788)." INDEX { applIndex, sipCommonStatusCodeMethod, sipCommonStatusCodeValue } ::= { sipCommonStatusCodeTable 1 } SipCommonStatusCodeEntry ::= SEQUENCE { sipCommonStatusCodeMethod SipTCMethodName, sipCommonStatusCodeValue Unsigned32, sipCommonStatusCodeIns Counter32, sipCommonStatusCodeOuts Counter32, sipCommonStatusCodeRowStatus RowStatus, sipCommonStatusCodeDisconTime TimeStamp } sipCommonStatusCodeMethod OBJECT-TYPE SYNTAX SipTCMethodName MAX-ACCESS not-accessible Lingle, et al. Standards Track PAGE 37

RFC 4780 SIP MIB Modules April 2007 STATUS current DESCRIPTION "This object uniquely identifies a conceptual row in the table." ::= { sipCommonStatusCodeEntry 1 } sipCommonStatusCodeValue OBJECT-TYPE SYNTAX Unsigned32 (100..999) MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object contains a SIP status code value that the SIP entity has been requested to monitor. All of the other information in the row is related to this value." ::= { sipCommonStatusCodeEntry 2 } sipCommonStatusCodeIns OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the total number of response messages received by the SIP entity with the status code value contained in the sipCommonStatusCodeValue column. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service, or when the monitoring of the status code is temporarily disabled. A Management Station can detect discontinuities in this counter by monitoring the sipCommonStatusCodeDisconTime object in the same row." ::= { sipCommonStatusCodeEntry 3 } sipCommonStatusCodeOuts OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the total number of response messages sent by the SIP entity with the status code value contained in the sipCommonStatusCodeValue column. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service, or when the monitoring of the Status code is temporarily disabled. A Management Station can detect discontinuities in this counter by monitoring the sipCommonStatusCodeDisconTime object in the same row." Lingle, et al. Standards Track PAGE 38

RFC 4780 SIP MIB Modules April 2007 ::= { sipCommonStatusCodeEntry 4 } sipCommonStatusCodeRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The row augmentation in sipCommonStatusCodeNotifTable will be governed by the value of this RowStatus. The values 'createAndGo' and 'destroy' are the only valid values allowed for this object. If a row exists, it will reflect a status of 'active' when queried." ::= { sipCommonStatusCodeEntry 5 } sipCommonStatusCodeDisconTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of the sysUpTime object when the counters for the status code statistics objects in this row last experienced a discontinuity." ::= { sipCommonStatusCodeEntry 6 } -- -- Support for specific status code notifications -- sipCommonStatusCodeNotifTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonStatusCodeNotifEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains objects to control notifications related to particular status codes that each SIP entity in this system has been requested to monitor. There is an entry in this table corresponding to each entry in sipCommonStatusCodeTable. Therefore, this table augments sipCommonStatusCodeTable and utilizes the same index methodology. The objects in this table are not included directly in the sipCommonStatusCodeTable simply to keep the status code notification control objects separate from the actual status code statistics." ::= { sipCommonStatusCode 2 } Lingle, et al. Standards Track PAGE 39

RFC 4780 SIP MIB Modules April 2007 sipCommonStatusCodeNotifEntry OBJECT-TYPE SYNTAX SipCommonStatusCodeNotifEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This row contains information controlling notifications for a particular SIP status code that the SIP entity has been requested to monitor." AUGMENTS { sipCommonStatusCodeEntry } ::= { sipCommonStatusCodeNotifTable 1 } SipCommonStatusCodeNotifEntry ::= SEQUENCE { sipCommonStatusCodeNotifSend TruthValue, sipCommonStatusCodeNotifEmitMode INTEGER, sipCommonStatusCodeNotifThresh Unsigned32, sipCommonStatusCodeNotifInterval Unsigned32 } sipCommonStatusCodeNotifSend OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This object controls whether a sipCommonStatusCodeNotif is emitted when the status code value specified by sipCommonStatusCodeValue is sent or received. If the value of this object is 'true', then a notification is sent. If it is 'false', no notification is sent. Note well that a notification MAY be emitted for every message sent or received that contains the particular status code. Depending on the status code involved, this can cause a significant number of notification emissions that could be detrimental to network performance. Managers are forewarned to be prudent in the use of this object to enable notifications. Look to sipCommonStatusCodeNotifEmitMode for alternative controls for sipCommonStatusCodeNotif emissions." DEFVAL { false } ::= { sipCommonStatusCodeNotifEntry 1 } sipCommonStatusCodeNotifEmitMode OBJECT-TYPE SYNTAX INTEGER { normal(1), oneShot(2), triggered(3) -- read-only } MAX-ACCESS read-write STATUS current DESCRIPTION Lingle, et al. Standards Track PAGE 40

RFC 4780 SIP MIB Modules April 2007 "The object sipCommonStatusCodeNotifSend MUST be set to 'true' for the values of this object to have any effect. It is RECOMMENDED that the desired emit mode be established by this object prior to setting sipCommonStatusCodeNotifSend to 'true'. This object and the sipCommonStatusCodeNotifSend object can obviously be set independently, but their respective values will have a dependency on each other and the resulting notifications. This object specifies the mode for emissions of sipCommonStatusCodeNotif notifications. normal : sipCommonStatusCodeNotif notifications will be emitted by the system for each SIP response message sent or received that contains the desired status code. oneShot : Only one sipCommonStatusCodeNotif notification will be emitted. It will be the next SIP response message sent or received that contains the desired status code. No more notifications are emitted until this object is set to 'oneShot' again or set to 'normal'. This option is provided as a means of quelling the potential promiscuous behavior that can be associated with the sipCommonStatusCodeNotif. triggered : This value is only readable and cannot be set. It reflects that the 'oneShot' case has occurred, and indicates that the mode needs to be reset to get further notifications. The mode is reset by setting this object to 'oneShot' or 'normal'." DEFVAL { oneShot } ::= { sipCommonStatusCodeNotifEntry 2 } sipCommonStatusCodeNotifThresh OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "This object specifies the number of response messages sent or received by this system that are considered excessive. Based on crossing that threshold, a sipCommonStatusCodeThreshExceededInNotif notification or a sipCommonStatusCodeThreshExceededOutNotif will be sent. The sipCommonStatusCodeThreshExceededInNotif and Lingle, et al. Standards Track PAGE 41

RFC 4780 SIP MIB Modules April 2007 sipCommonStatusCodeThreshExceededOutNotif notifications can be used as an early warning mechanism in lieu of using sipCommonStatusCodeNotif. Note that the configuration applied by this object will be applied equally to inbound and outbound response messages." DEFVAL { 500 } ::= { sipCommonStatusCodeNotifEntry 3 } sipCommonStatusCodeNotifInterval OBJECT-TYPE SYNTAX Unsigned32 UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "This object specifies the time interval over which, if sipCommonStatusCodeThresh is exceeded with respect to sent or received messages, a sipCommonStatusCodeThreshExceededInNotif or sipCommonStatusCodeThreshExceededOutNotif notification will be sent. Note that the configuration applied by this object will be applied equally to inbound and outbound response messages." DEFVAL { 60 } ::= { sipCommonStatusCodeNotifEntry 4 } -- -- Transaction Statistics -- sipCommonTransCurrentTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonTransCurrentEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains information on the transactions currently awaiting definitive responses by each SIP entity in this system. This table does not apply to transaction stateless Proxy Servers." ::= { sipCommonStatsTrans 1 } sipCommonTransCurrentEntry OBJECT-TYPE SYNTAX SipCommonTransCurrentEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Information on a particular SIP entity's current transactions. Lingle, et al. Standards Track PAGE 42

RFC 4780 SIP MIB Modules April 2007 Each row represents those objects for a particular SIP entity present in this system. applIndex is used to uniquely identify these instances of SIP entities and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788)." INDEX { applIndex } ::= { sipCommonTransCurrentTable 1 } SipCommonTransCurrentEntry ::= SEQUENCE { sipCommonTransCurrentactions Gauge32 } sipCommonTransCurrentactions OBJECT-TYPE SYNTAX Gauge32 (0..4294967295) MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the number of transactions awaiting definitive (non-1xx) response. In the case of a forked request, each branch counts as a single transaction corresponding to the entity identified by applIndex." ::= { sipCommonTransCurrentEntry 1 } -- -- SIP Retry Statistics -- -- This group contains various statistics objects about -- retransmission counts. -- sipCommonStatsRetryTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonStatsRetryEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains retry statistics objects applicable to each SIP entity in this system." ::= { sipCommonStatsRetry 1 } sipCommonStatsRetryEntry OBJECT-TYPE SYNTAX SipCommonStatsRetryEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row of retry statistics. Each row represents those objects for a particular SIP entity present in this system. applIndex is used to uniquely identify these instances of SIP entities and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788)." Lingle, et al. Standards Track PAGE 43

RFC 4780 SIP MIB Modules April 2007 INDEX { applIndex, sipCommonStatsRetryMethod } ::= { sipCommonStatsRetryTable 1 } SipCommonStatsRetryEntry ::= SEQUENCE { sipCommonStatsRetryMethod SipTCMethodName, sipCommonStatsRetries Counter32, sipCommonStatsRetryFinalResponses Counter32, sipCommonStatsRetryNonFinalResponses Counter32, sipCommonStatsRetryDisconTime TimeStamp } sipCommonStatsRetryMethod OBJECT-TYPE SYNTAX SipTCMethodName MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object uniquely identifies the SIP method related to the objects in a row." ::= { sipCommonStatsRetryEntry 1 } sipCommonStatsRetries OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the total number of request retransmissions that have been sent by the SIP entity. Note that there could be multiple retransmissions per request. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipCommonStatsRetryDisconTime object in the same row." ::= { sipCommonStatsRetryEntry 2 } sipCommonStatsRetryFinalResponses OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the total number of Final Response retries that have been sent by the SIP entity. Note that there could be multiple retransmissions per request. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by Lingle, et al. Standards Track PAGE 44

RFC 4780 SIP MIB Modules April 2007 monitoring the sipCommonStatsRetryDisconTime object in the same row." ::= { sipCommonStatsRetryEntry 3 } sipCommonStatsRetryNonFinalResponses OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the total number of non-Final Response retries that have been sent by the SIP entity. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipCommonStatsRetryDisconTime object in the same row." ::= { sipCommonStatsRetryEntry 4 } sipCommonStatsRetryDisconTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of the sysUpTime object when the counters for the retry statistics objects in this row last experienced a discontinuity." ::= { sipCommonStatsRetryEntry 5 } -- -- Other Common Statistics -- sipCommonOtherStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF SipCommonOtherStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains other common statistics supported by each SIP entity in this system." ::= { sipCommonOtherStats 1 } sipCommonOtherStatsEntry OBJECT-TYPE SYNTAX SipCommonOtherStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Information on a particular SIP entity's other common statistics. Lingle, et al. Standards Track PAGE 45

RFC 4780 SIP MIB Modules April 2007 Each row represents those objects for a particular SIP entity present in this system. applIndex is used to uniquely identify these instances of SIP entities and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788)." INDEX { applIndex } ::= { sipCommonOtherStatsTable 1 } SipCommonOtherStatsEntry ::= SEQUENCE { sipCommonOtherStatsNumUnsupportedUris Counter32, sipCommonOtherStatsNumUnsupportedMethods Counter32, sipCommonOtherStatsOtherwiseDiscardedMsgs Counter32, sipCommonOtherStatsDisconTime TimeStamp } sipCommonOtherStatsNumUnsupportedUris OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "Number of RequestURIs received with an unsupported scheme. A server normally responds to such requests with a 400 Bad Request status code. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipCommonOtherStatsDisconTime object in the same row." ::= { sipCommonOtherStatsEntry 1 } sipCommonOtherStatsNumUnsupportedMethods OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "Number of SIP requests received with unsupported methods. A server normally responds to such requests with a 501 (Not Implemented) or 405 (Method Not Allowed). Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipCommonOtherStatsDisconTime object in the same row." ::= { sipCommonOtherStatsEntry 2 } sipCommonOtherStatsOtherwiseDiscardedMsgs OBJECT-TYPE SYNTAX Counter32 Lingle, et al. Standards Track PAGE 46

RFC 4780 SIP MIB Modules April 2007 MAX-ACCESS read-only STATUS current DESCRIPTION "Number of SIP messages received that, for any number of reasons, was discarded without a response. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipCommonOtherStatsDisconTime object in the same row." ::= { sipCommonOtherStatsEntry 3 } sipCommonOtherStatsDisconTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of the sysUpTime object when the counters for the statistics objects in this row last experienced a discontinuity." ::= { sipCommonOtherStatsEntry 4 } -- -- Notification related objects -- -- -- Status code related notification objects. -- sipCommonStatusCodeNotifTo OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "This object contains the value of the To header in the message containing the status code that caused the notification. The header name will be part of this object value. For example, 'To: Watson '." ::= { sipCommonNotifObjects 1 } sipCommonStatusCodeNotifFrom OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "This object contains the value of the From header in the message containing the status code that caused the Lingle, et al. Standards Track PAGE 47

RFC 4780 SIP MIB Modules April 2007 notification. The header name will be part of this object value. For example, 'From: Watson '." ::= { sipCommonNotifObjects 2 } sipCommonStatusCodeNotifCallId OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "This object contains the value of the Call-ID in the message containing the status code that caused the notification. The header name will be part of this object value. For example, 'Call-ID: 5551212@example.com'." ::= { sipCommonNotifObjects 3 } sipCommonStatusCodeNotifCSeq OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "This object contains the CSeq value in the message containing the status code that caused the notification. The header name will be part of this object value. For example, 'CSeq: 1722 INVITE'." ::= { sipCommonNotifObjects 4 } -- -- General notification related objects. -- sipCommonNotifApplIndex OBJECT-TYPE SYNTAX Unsigned32 (1..2147483647) MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "This object contains the applIndex as described in RFC 2788. This object is created in order to allow a variable binding containing a value of applIndex in a notification." ::= { sipCommonNotifObjects 5 } sipCommonNotifSequenceNumber OBJECT-TYPE SYNTAX Unsigned32 (1..2147483647) MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "This object contains a sequence number for each notification generated by this SIP entity. Each notification SHOULD have a unique sequence number. A network manager can use this information to determine whether notifications from a Lingle, et al. Standards Track PAGE 48

RFC 4780 SIP MIB Modules April 2007 particular SIP entity have been missed. The value of this object MUST start at 1 and increase by 1 with each generated notification. If a system restarts, the sequence number MAY start again from 1." ::= { sipCommonNotifObjects 6 } -- -- Notifications -- sipCommonStatusCodeNotif NOTIFICATION-TYPE OBJECTS { sipCommonNotifSequenceNumber, sipCommonNotifApplIndex, sipCommonStatusCodeNotifTo, sipCommonStatusCodeNotifFrom, sipCommonStatusCodeNotifCallId, sipCommonStatusCodeNotifCSeq, sipCommonStatusCodeIns, sipCommonStatusCodeOuts } STATUS current DESCRIPTION "Signifies that a specific status code has been sent or received by the system." ::= { sipCommonMIBNotifications 1 } sipCommonStatusCodeThreshExceededInNotif NOTIFICATION-TYPE OBJECTS { sipCommonNotifSequenceNumber, sipCommonNotifApplIndex, sipCommonStatusCodeIns } STATUS current DESCRIPTION "Signifies that a specific status code was found to have been received by the system frequently enough to exceed the configured threshold. This notification can be used as an early warning mechanism in lieu of using sipCommonStatusCodeNotif." ::= { sipCommonMIBNotifications 2 } sipCommonStatusCodeThreshExceededOutNotif NOTIFICATION-TYPE OBJECTS { sipCommonNotifSequenceNumber, sipCommonNotifApplIndex, sipCommonStatusCodeOuts } STATUS current Lingle, et al. Standards Track PAGE 49

RFC 4780 SIP MIB Modules April 2007 DESCRIPTION "Signifies that a specific status code was found to have been sent by the system enough to exceed the configured threshold. This notification can be used as an early warning mechanism in lieu of using sipCommonStatusCodeNotif." ::= { sipCommonMIBNotifications 3 } sipCommonServiceColdStart NOTIFICATION-TYPE OBJECTS { sipCommonNotifSequenceNumber, sipCommonNotifApplIndex, sipCommonCfgServiceStartTime } STATUS current DESCRIPTION "Signifies that the SIP service has reinitialized itself or started for the first time. This SHOULD result from a hard 'down' to 'up' administrative status change. The configuration or behavior of the service MAY be altered." ::= { sipCommonMIBNotifications 4 } sipCommonServiceWarmStart NOTIFICATION-TYPE OBJECTS { sipCommonNotifSequenceNumber, sipCommonNotifApplIndex, sipCommonCfgServiceLastChange } STATUS current DESCRIPTION "Signifies that the SIP service has reinitialized itself and is restarting after an administrative 'reset'. The configuration or behavior of the service MAY be altered." ::= { sipCommonMIBNotifications 5 } sipCommonServiceStatusChanged NOTIFICATION-TYPE OBJECTS { sipCommonNotifSequenceNumber, sipCommonNotifApplIndex, sipCommonCfgServiceLastChange, sipCommonCfgServiceOperStatus } STATUS current DESCRIPTION "Signifies that the SIP service operational status has changed." ::= { sipCommonMIBNotifications 6 } -- -- Conformance Lingle, et al. Standards Track PAGE 50

RFC 4780 SIP MIB Modules April 2007 -- sipCommonMIBCompliances OBJECT IDENTIFIER ::= { sipCommonMIBConformance 1 } sipCommonMIBGroups OBJECT IDENTIFIER ::= { sipCommonMIBConformance 2 } -- -- Compliance Statements -- sipCommonCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION "The compliance statement for SIP entities." MODULE -- this module MANDATORY-GROUPS { sipCommonConfigGroup, sipCommonStatsGroup } OBJECT sipCommonStatusCodeRowStatus SYNTAX RowStatus { active(1) } WRITE-SYNTAX RowStatus { createAndGo(4), destroy(6) } DESCRIPTION "Support for createAndWait and notInService is not required." OBJECT sipCommonCfgServiceNotifEnable MIN-ACCESS not-accessible DESCRIPTION "This object is optional and does not need to be supported." GROUP sipCommonInformationalGroup DESCRIPTION "This group is OPTIONAL. A SIP entity can elect to not provide any support for these objects, as they provide optional information." GROUP sipCommonConfigTimerGroup DESCRIPTION "This group is OPTIONAL. A SIP entity can elect to not provide any timer configuration." GROUP sipCommonStatsRetryGroup DESCRIPTION "This group is OPTIONAL. A SIP entity can elect to not provide any retry statistics." GROUP sipCommonNotifGroup DESCRIPTION Lingle, et al. Standards Track PAGE 51

RFC 4780 SIP MIB Modules April 2007 "This group is OPTIONAL. A SIP entity can elect to not provide any notifications. If implemented, the sipCommonStatusCodeNotifGroup and sipCommonNotifObjectsGroup MUST also be implemented." GROUP sipCommonStatusCodeNotifGroup DESCRIPTION "This group is OPTIONAL. A SIP entity can elect to not provide any notifications. If implemented, the sipCommonNotifGroup and sipCommonNotifObjectsGroup MUST also be implemented." GROUP sipCommonNotifObjectsGroup DESCRIPTION "This group is OPTIONAL. A SIP entity can elect to not provide any notifications. If implemented, the sipCommonStatusCodeNotifGroup and sipCommonNotifGroup MUST also be implemented." ::= { sipCommonMIBCompliances 1 } -- -- Units of Conformance -- sipCommonConfigGroup OBJECT-GROUP OBJECTS { sipCommonCfgProtocolVersion, sipCommonCfgServiceOperStatus, sipCommonCfgServiceStartTime, sipCommonCfgServiceLastChange, sipCommonPortTransportRcv, sipCommonOptionTag, sipCommonOptionTagHeaderField, sipCommonCfgMaxTransactions, sipCommonCfgServiceNotifEnable, sipCommonCfgEntityType, sipCommonMethodSupportedName } STATUS current DESCRIPTION "A collection of objects providing configuration common to all SIP entities." ::= { sipCommonMIBGroups 1 } sipCommonInformationalGroup OBJECT-GROUP OBJECTS { sipCommonCfgOrganization } STATUS current Lingle, et al. Standards Track PAGE 52

RFC 4780 SIP MIB Modules April 2007 DESCRIPTION "A collection of objects providing configuration common to all SIP entities." ::= { sipCommonMIBGroups 2 } sipCommonConfigTimerGroup OBJECT-GROUP OBJECTS { sipCommonCfgTimerA, sipCommonCfgTimerB, sipCommonCfgTimerC, sipCommonCfgTimerD, sipCommonCfgTimerE, sipCommonCfgTimerF, sipCommonCfgTimerG, sipCommonCfgTimerH, sipCommonCfgTimerI, sipCommonCfgTimerJ, sipCommonCfgTimerK, sipCommonCfgTimerT1, sipCommonCfgTimerT2, sipCommonCfgTimerT4 } STATUS current DESCRIPTION "A collection of objects providing timer configuration common to all SIP entities." ::= { sipCommonMIBGroups 3 } sipCommonStatsGroup OBJECT-GROUP OBJECTS { sipCommonSummaryInRequests, sipCommonSummaryOutRequests, sipCommonSummaryInResponses, sipCommonSummaryOutResponses, sipCommonSummaryTotalTransactions, sipCommonSummaryDisconTime, sipCommonMethodStatsOutbounds, sipCommonMethodStatsInbounds, sipCommonMethodStatsDisconTime, sipCommonStatusCodeIns, sipCommonStatusCodeOuts, sipCommonStatusCodeRowStatus, sipCommonStatusCodeDisconTime, sipCommonTransCurrentactions, sipCommonOtherStatsNumUnsupportedUris, sipCommonOtherStatsNumUnsupportedMethods, sipCommonOtherStatsOtherwiseDiscardedMsgs, sipCommonOtherStatsDisconTime Lingle, et al. Standards Track PAGE 53

RFC 4780 SIP MIB Modules April 2007 } STATUS current DESCRIPTION "A collection of objects providing statistics common to all SIP entities." ::= { sipCommonMIBGroups 4 } sipCommonStatsRetryGroup OBJECT-GROUP OBJECTS { sipCommonStatsRetries, sipCommonStatsRetryFinalResponses, sipCommonStatsRetryNonFinalResponses, sipCommonStatsRetryDisconTime } STATUS current DESCRIPTION "A collection of objects providing retry statistics." ::= { sipCommonMIBGroups 5 } sipCommonNotifGroup NOTIFICATION-GROUP NOTIFICATIONS { sipCommonStatusCodeNotif, sipCommonStatusCodeThreshExceededInNotif, sipCommonStatusCodeThreshExceededOutNotif, sipCommonServiceColdStart, sipCommonServiceWarmStart, sipCommonServiceStatusChanged } STATUS current DESCRIPTION "A collection of notifications common to all SIP entities." ::= { sipCommonMIBGroups 6 } sipCommonStatusCodeNotifGroup OBJECT-GROUP OBJECTS { sipCommonStatusCodeNotifSend, sipCommonStatusCodeNotifEmitMode, sipCommonStatusCodeNotifThresh, sipCommonStatusCodeNotifInterval } STATUS current DESCRIPTION "A collection of objects related to the control and attribution of notifications common to all SIP entities." ::= { sipCommonMIBGroups 7 } sipCommonNotifObjectsGroup OBJECT-GROUP Lingle, et al. Standards Track PAGE 54

RFC 4780 SIP MIB Modules April 2007 OBJECTS { sipCommonStatusCodeNotifTo, sipCommonStatusCodeNotifFrom, sipCommonStatusCodeNotifCallId, sipCommonStatusCodeNotifCSeq, sipCommonNotifApplIndex, sipCommonNotifSequenceNumber } STATUS current DESCRIPTION "A collection of accessible-for-notify objects related to the notification defined in this MIB module." ::= { sipCommonMIBGroups 8 } END 7.3. SIP User Agent MIB Module SIP-UA-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, Unsigned32, mib-2 FROM SNMPv2-SMI -- RFC 2578 MODULE-COMPLIANCE, OBJECT-GROUP FROM SNMPv2-CONF -- RFC 2580 applIndex FROM NETWORK-SERVICES-MIB -- RFC 2788 InetAddressType, InetAddress FROM INET-ADDRESS-MIB -- RFC 4001 SipTCEntityRole FROM SIP-TC-MIB; -- RFC 4780 sipUAMIB MODULE-IDENTITY LAST-UPDATED "200704200000Z" ORGANIZATION "IETF Session Initiation Protocol Working Group" CONTACT-INFO "SIP WG email: sip@ietf.org Co-editor Kevin Lingle Lingle, et al. Standards Track PAGE 55

RFC 4780 SIP MIB Modules April 2007 Cisco Systems, Inc. postal: 7025 Kit Creek Road P.O. Box 14987 Research Triangle Park, NC 27709 USA email: klingle@cisco.com phone: +1 919 476 2029 Co-editor Joon Maeng email: jmaeng@austin.rr.com Co-editor Jean-Francois Mule CableLabs postal: 858 Coal Creek Circle Louisville, CO 80027 USA email: jf.mule@cablelabs.com phone: +1 303 661 9100 Co-editor Dave Walker email: drwalker@rogers.com" DESCRIPTION "Session Initiation Protocol (SIP) User Agent (UA) MIB module. SIP is an application-layer signaling protocol for creating, modifying, and terminating multimedia sessions with one or more participants. These sessions include Internet multimedia conferences and Internet telephone calls. SIP is defined in RFC 3261 (June 2002). A User Agent is an application that contains both a User Agent Client (UAC) and a User Agent Server (UAS). A UAC is an application that initiates a SIP request. A UAS is an application that contacts the user when a SIP request is received and that returns a response on behalf of the user. The response accepts, rejects, or redirects the request. Copyright © The IETF Trust (2007). This version of this MIB module is part of RFC 4780; see the RFC itself for full legal notices." REVISION "200704200000Z" DESCRIPTION "Initial version of the IETF SIP-UA-MIB module. This version published as part of RFC 4780." ::= { mib-2 150 } -- Top-Level Components of this MIB. sipUAMIBObjects OBJECT IDENTIFIER ::= { sipUAMIB 1 } Lingle, et al. Standards Track PAGE 56

RFC 4780 SIP MIB Modules April 2007 sipUAMIBConformance OBJECT IDENTIFIER ::= { sipUAMIB 2 } -- -- This MIB contains objects related to SIP User Agents. -- sipUACfgServer OBJECT IDENTIFIER ::= { sipUAMIBObjects 1 } -- -- SIP Server Configuration -- sipUACfgServerTable OBJECT-TYPE SYNTAX SEQUENCE OF SipUACfgServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains SIP server configuration objects applicable to each SIP user agent in this system." ::= { sipUACfgServer 1 } sipUACfgServerEntry OBJECT-TYPE SYNTAX SipUACfgServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row of server configuration. Each row represents those objects for a particular SIP user agent present in this system. applIndex is used to uniquely identify these instances of SIP user agents and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788). The same value of applIndex used in the corresponding SIP-COMMON-MIB is used here." INDEX { applIndex, sipUACfgServerIndex } ::= { sipUACfgServerTable 1 } SipUACfgServerEntry ::= SEQUENCE { sipUACfgServerIndex Unsigned32, sipUACfgServerAddressType InetAddressType, sipUACfgServerAddress InetAddress, sipUACfgServerRole SipTCEntityRole } sipUACfgServerIndex OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique identifier of a server address when multiple addresses Lingle, et al. Standards Track PAGE 57

RFC 4780 SIP MIB Modules April 2007 are configured by the SIP entity. If one address isn't reachable, then another can be tried." ::= { sipUACfgServerEntry 1 } sipUACfgServerAddressType OBJECT-TYPE SYNTAX InetAddressType MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the type of address contained in the associated instance of sipUACfgServerAddress." REFERENCE "INET-ADDRESS-MIB (RFC 4001)" ::= { sipUACfgServerEntry 2 } sipUACfgServerAddress OBJECT-TYPE SYNTAX InetAddress MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the address of a SIP server this user agent will use to proxy/redirect calls. The type of this address is determined by the value of the sipUACfgServerAddressType object." REFERENCE "INET-ADDRESS-MIB (RFC 4001)" ::= { sipUACfgServerEntry 3 } sipUACfgServerRole OBJECT-TYPE SYNTAX SipTCEntityRole MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the function of the SIP server this user agent should communicate with: registrar, proxy (outbound proxy), etc." ::= { sipUACfgServerEntry 4 } -- -- Conformance -- sipUAMIBCompliances OBJECT IDENTIFIER ::= { sipUAMIBConformance 1 } sipUAMIBGroups OBJECT IDENTIFIER ::= { sipUAMIBConformance 2 } -- -- Compliance Statements -- sipUACompliance MODULE-COMPLIANCE STATUS current Lingle, et al. Standards Track PAGE 58

RFC 4780 SIP MIB Modules April 2007 DESCRIPTION "The compliance statement for SIP entities that implement the SIP-UA-MIB module." MODULE -- this module MANDATORY-GROUPS { sipUAConfigGroup } ::= { sipUAMIBCompliances 1 } -- -- Units of Conformance -- sipUAConfigGroup OBJECT-GROUP OBJECTS { sipUACfgServerAddressType, sipUACfgServerAddress, sipUACfgServerRole } STATUS current DESCRIPTION "A collection of objects providing information about the configuration of SIP User Agents." ::= { sipUAMIBGroups 1 } END 7.4. SIP Server MIB Module (Proxy, Redirect, and Registrar Servers) SIP-SERVER-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, Counter32, Unsigned32, Gauge32, mib-2 FROM SNMPv2-SMI -- RFC 2578 TruthValue, TimeStamp, DateAndTime FROM SNMPv2-TC -- RFC 2579 MODULE-COMPLIANCE, OBJECT-GROUP FROM SNMPv2-CONF -- RFC 2580 SnmpAdminString FROM SNMP-FRAMEWORK-MIB -- RFC 3411 Lingle, et al. Standards Track PAGE 59

RFC 4780 SIP MIB Modules April 2007 applIndex FROM NETWORK-SERVICES-MIB -- RFC 2788 InetAddressType, InetAddress FROM INET-ADDRESS-MIB; -- RFC 4001 sipServerMIB MODULE-IDENTITY LAST-UPDATED "200704200000Z" ORGANIZATION "IETF Session Initiation Protocol Working Group" CONTACT-INFO "SIP WG email: sip@ietf.org Co-editor: Kevin Lingle Cisco Systems, Inc. postal: 7025 Kit Creek Road P.O. Box 14987 Research Triangle Park, NC 27709 USA email: klingle@cisco.com phone: +1 919 476 2029 Co-editor: Joon Maeng email: jmaeng@austin.rr.com Co-editor: Jean-Francois Mule CableLabs postal: 858 Coal Creek Circle Louisville, CO 80027 USA email: jf.mule@cablelabs.com phone: +1 303 661 9100 Co-editor: Dave Walker email: drwalker@rogers.com " DESCRIPTION "Session Initiation Protocol (SIP) Server MIB module. SIP is an application-layer signaling protocol for creating, modifying, and terminating multimedia sessions with one or more participants. These sessions include Internet multimedia conferences and Internet telephone calls. SIP is defined in RFC 3261 (June 2002). This MIB is defined for the management of SIP Proxy, Redirect, and Registrar Servers. Lingle, et al. Standards Track PAGE 60

RFC 4780 SIP MIB Modules April 2007 A Proxy Server acts as both a client and a server. It accepts requests from other clients, either responding to them or passing them on to other servers, possibly after modification. A Redirect Server accepts requests from clients and returns zero or more addresses to that client. Unlike a User Agent Server, it does not accept calls. A Registrar is a server that accepts REGISTER requests. A Registrar is typically co-located with a Proxy or Redirect Server. Copyright © The IETF Trust (2007). This version of this MIB module is part of RFC 4780; see the RFC itself for full legal notices." REVISION "200704200000Z" DESCRIPTION "Initial version of the IETF SIP-SERVER-MIB module. This version published as part of RFC 4780." ::= { mib-2 151 } -- Top-Level Components of this MIB. sipServerMIBObjects OBJECT IDENTIFIER ::= { sipServerMIB 1 } sipServerMIBConformance OBJECT IDENTIFIER ::= { sipServerMIB 2 } -- -- These groups contain objects common to all SIP servers. -- sipServerCfg OBJECT IDENTIFIER ::= { sipServerMIBObjects 1 } -- -- Common Server Configuration Objects -- sipServerCfgTable OBJECT-TYPE SYNTAX SEQUENCE OF SipServerCfgEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains configuration objects applicable to SIP Redirect and Proxy Servers." ::= { sipServerCfg 1 } sipServerCfgEntry OBJECT-TYPE SYNTAX SipServerCfgEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION Lingle, et al. Standards Track PAGE 61

RFC 4780 SIP MIB Modules April 2007 "A row of common configuration. Each row represents those objects for a particular SIP server present in this system. applIndex is used to uniquely identify these instances of SIP servers and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788). The same value of applIndex used in the corresponding SIP-COMMON-MIB is used here." INDEX { applIndex } ::= { sipServerCfgTable 1 } SipServerCfgEntry ::= SEQUENCE { sipServerCfgHostAddressType InetAddressType, sipServerCfgHostAddress InetAddress } sipServerCfgHostAddressType OBJECT-TYPE SYNTAX InetAddressType MAX-ACCESS read-only STATUS current DESCRIPTION "The type of Internet address by which the SIP server is reachable." REFERENCE "RFC 3261, Section 19.1.1" ::= { sipServerCfgEntry 1 } sipServerCfgHostAddress OBJECT-TYPE SYNTAX InetAddress MAX-ACCESS read-only STATUS current DESCRIPTION "This is the host portion of a SIP URI that is assigned to the SIP server. It MAY contain a fully qualified domain name or an IP address. The length of the value will depend on the type of address specified. The type of address given by this object is controlled by sipServerCfgHostAddressType." REFERENCE "RFC 3261, Section 19.1.1" ::= { sipServerCfgEntry 2 } -- -- This group contains MIB objects -- related to SIP Proxy Servers. -- sipServerProxyCfg OBJECT IDENTIFIER ::= { sipServerMIBObjects 3 } Lingle, et al. Standards Track PAGE 62

RFC 4780 SIP MIB Modules April 2007 sipServerProxyStats OBJECT IDENTIFIER ::= { sipServerMIBObjects 4 } -- -- Proxy Server Configuration -- sipServerProxyCfgTable OBJECT-TYPE SYNTAX SEQUENCE OF SipServerProxyCfgEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains configuration objects applicable to SIP Proxy Servers." ::= { sipServerProxyCfg 1 } sipServerProxyCfgEntry OBJECT-TYPE SYNTAX SipServerProxyCfgEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row of common proxy configuration. Each row represents those objects for a particular SIP server present in this system. applIndex is used to uniquely identify these instances of SIP servers and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788). The same value of applIndex used in the corresponding SIP-COMMON-MIB is used here." INDEX { applIndex } ::= { sipServerProxyCfgTable 1 } SipServerProxyCfgEntry ::= SEQUENCE { sipServerCfgProxyStatefulness INTEGER, sipServerCfgProxyRecursion TruthValue, sipServerCfgProxyRecordRoute TruthValue, sipServerCfgProxyAuthMethod BITS, sipServerCfgProxyAuthDefaultRealm SnmpAdminString } sipServerCfgProxyStatefulness OBJECT-TYPE SYNTAX INTEGER { stateless(1), transactionStateful(2), callStateful(3) } MAX-ACCESS read-only STATUS current DESCRIPTION Lingle, et al. Standards Track PAGE 63

RFC 4780 SIP MIB Modules April 2007 "This object reflects the default mode of operation for the Proxy Server entity. A stateless proxy is a logical entity that does not maintain the client or server transaction state machines when it processes requests. A stateless proxy forwards every request it receives downstream and every response it receives upstream. If the value of this object is stateless(1), the proxy defaults to stateless operations. A transaction stateful proxy, or simply a 'stateful proxy', is a logical entity that maintains the client and server transaction state machines during the processing of a request. A (transaction) stateful proxy is not the same as a call stateful proxy. If the value of this object is transactionStateful(2), the proxy is stateful on a transaction basis. A call stateful proxy is a logical entity if it retains state for a dialog from the initiating INVITE to the terminating BYE request. A call stateful proxy is always transaction stateful, but the converse is not necessarily true. If the value of this object is callStateful(3), the proxy is call stateful." REFERENCE "RFC 3261, Section 16" ::= { sipServerProxyCfgEntry 1 } sipServerCfgProxyRecursion OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects whether or not the Proxy performs a recursive search on the Contacts provided in 3xx redirects. If the value of this object is 'true', a recursive search is performed. If the value is 'false', no search is performed, and the 3xx response is sent upstream towards the source of the request." REFERENCE "RFC 3261 Sections 16.5 and 16.6" ::= { sipServerProxyCfgEntry 2 } sipServerCfgProxyRecordRoute OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current Lingle, et al. Standards Track PAGE 64

RFC 4780 SIP MIB Modules April 2007 DESCRIPTION "This object reflects whether or not the proxy adds itself to the Record-Route header as a default action. This header is used to list the proxies that insist on being in the signaling path for subsequent requests related to the call leg. If the value of this object is 'true', the proxy adds itself to the end of the Record-Route header, creating the header if required. If the value is 'false', the proxy does not add itself to the Record-Route header." REFERENCE "RFC 3261, Section 20.30" ::= { sipServerProxyCfgEntry 3 } -- -- Security -- sipServerCfgProxyAuthMethod OBJECT-TYPE SYNTAX BITS { none(0), tls(1), digest(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the authentication methods that MAY be used to authenticate request originators. bit 0 no authentication is performed bit 1 TLS is used bit 2 HTTP Digest is used." REFERENCE "RFC 3261 Sections 22, 23, 26, 26.2.3" ::= { sipServerProxyCfgEntry 4 } sipServerCfgProxyAuthDefaultRealm OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the default realm value used in Proxy-Authenticate headers. Note that this MAY need to be stored per user, in which case, this default value is ignored. " REFERENCE "RFC 3261, Section 22.1" ::= { sipServerProxyCfgEntry 5 } Lingle, et al. Standards Track PAGE 65

RFC 4780 SIP MIB Modules April 2007 -- -- Proxy Server Statistics -- sipServerProxyStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF SipServerProxyStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the statistics objects applicable to all SIP Proxy Servers in this system." ::= { sipServerProxyStats 1 } sipServerProxyStatsEntry OBJECT-TYPE SYNTAX SipServerProxyStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row of summary statistics. Each row represents those objects for a particular SIP server present in this system. applIndex is used to uniquely identify these instances of SIP servers and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788). The same value of applIndex used in the corresponding SIP-COMMON-MIB is used here." INDEX { applIndex } ::= { sipServerProxyStatsTable 1 } SipServerProxyStatsEntry ::= SEQUENCE { sipServerProxyStatProxyReqFailures Counter32, sipServerProxyStatsDisconTime TimeStamp } sipServerProxyStatProxyReqFailures OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the number of occurrences of unsupported options being specified in received Proxy-Require headers. Such occurrences result in a 420 Bad Extension status code being returned. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by Lingle, et al. Standards Track PAGE 66

RFC 4780 SIP MIB Modules April 2007 monitoring the sipServerProxyStatsDisconTime object in the same row." ::= { sipServerProxyStatsEntry 1 } sipServerProxyStatsDisconTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of the sysUpTime object when the counters for the server statistics objects in this row last experienced a discontinuity." ::= { sipServerProxyStatsEntry 2 } -- -- This group contains MIB objects related to SIP Registrars. -- sipServerRegCfg OBJECT IDENTIFIER ::= { sipServerMIBObjects 5 } sipServerRegStats OBJECT IDENTIFIER ::= { sipServerMIBObjects 6 } -- -- Registrar Configuration -- sipServerRegCfgTable OBJECT-TYPE SYNTAX SEQUENCE OF SipServerRegCfgEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains configuration objects applicable to SIP Registrars." ::= { sipServerRegCfg 1 } sipServerRegCfgEntry OBJECT-TYPE SYNTAX SipServerRegCfgEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row of common Registrar configuration. Each row represents those objects for a particular SIP server present in this system. applIndex is used to uniquely identify these instances of SIP servers and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788). The same value of applIndex used in the corresponding SIP-COMMON-MIB is used here." INDEX { applIndex } ::= { sipServerRegCfgTable 1 } SipServerRegCfgEntry ::= Lingle, et al. Standards Track PAGE 67

RFC 4780 SIP MIB Modules April 2007 SEQUENCE { sipServerRegMaxContactExpiryDuration Unsigned32, sipServerRegMaxUsers Unsigned32, sipServerRegCurrentUsers Gauge32, sipServerRegDfltRegActiveInterval Unsigned32 } sipServerRegMaxContactExpiryDuration OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the maximum expiry that may be requested by a User Agent for a particular Contact. User Agents can specify expiry using either an Expiry header in a REGISTER request, or using an Expires parameter in a Contact header in a REGISTER request. If the value requested by the User Agent is greater than the value of this object, then the contact information is given the duration specified by this object, and that duration is indicated to the User Agent in the response." ::= { sipServerRegCfgEntry 1 } sipServerRegMaxUsers OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the maximum number of users that the Registrar supports. The current number of users is reflected by sipServerRegCurrentUsers." ::= { sipServerRegCfgEntry 2 } sipServerRegCurrentUsers OBJECT-TYPE SYNTAX Gauge32 (0..4294967295) MAX-ACCESS read-only STATUS current DESCRIPTION "This object reflects the number of users currently registered with the Registrar." ::= { sipServerRegCfgEntry 3 } sipServerRegDfltRegActiveInterval OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION Lingle, et al. Standards Track PAGE 68

RFC 4780 SIP MIB Modules April 2007 "This object reflects the default time interval the Registrar considers registrations to be active. The value is used to compute the Expires header in the REGISTER response. If a user agent requests a time interval shorter than specified by this object, the Registrar SHOULD honor that request. If a Contact entry does not have an 'expires' parameter, the value of the Expires header field is used instead. If a Contact entry has no 'expires' parameter and no Expires header field is present, the value of this object is used as the default value." REFERENCE "RFC 3261, Section 10.2" ::= { sipServerRegCfgEntry 4 } -- -- Per User Information -- sipServerRegUserTable OBJECT-TYPE SYNTAX SEQUENCE OF SipServerRegUserEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains information on all users registered to each Registrar in this system." ::= { sipServerRegCfg 2 } sipServerRegUserEntry OBJECT-TYPE SYNTAX SipServerRegUserEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This entry contains information for a single user registered to this Registrar. Each row represents those objects for a particular SIP server present in this system. applIndex is used to uniquely identify these instances of SIP servers and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788). The same value of applIndex used in the corresponding SIP-COMMON-MIB is used here." INDEX { applIndex, sipServerRegUserIndex } ::= { sipServerRegUserTable 1 } SipServerRegUserEntry ::= SEQUENCE { sipServerRegUserIndex Unsigned32, sipServerRegUserUri SnmpAdminString, sipServerRegUserAuthenticationFailures Counter32, sipServerRegUserDisconTime TimeStamp } Lingle, et al. Standards Track PAGE 69

RFC 4780 SIP MIB Modules April 2007 sipServerRegUserIndex OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object uniquely identifies a conceptual row in the table." ::= { sipServerRegUserEntry 1 } sipServerRegUserUri OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the user's address-of-record. It is the main form by which the Registrar knows the user. The format is typically 'user@domain'. It is contained in the To header for all REGISTER requests." ::= { sipServerRegUserEntry 2 } sipServerRegUserAuthenticationFailures OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains a count of the number of times the user has failed authentication. Discontinuities in the value of this counter can occur due to successful user authentications and at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipServerRegUserDisconTime object in the same row." ::= { sipServerRegUserEntry 3 } sipServerRegUserDisconTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of the sysUpTime object when the counters for the user registration statistics objects in this row last experienced a discontinuity." ::= { sipServerRegUserEntry 4 } -- -- Per Contact Information -- sipServerRegContactTable OBJECT-TYPE SYNTAX SEQUENCE OF SipServerRegContactEntry Lingle, et al. Standards Track PAGE 70

RFC 4780 SIP MIB Modules April 2007 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains information on every location where a registered user (specified by sipServerRegUserIndex) wishes to be found (i.e., the user has provided contact information to each SIP Registrar in this system)." ::= { sipServerRegCfg 3 } sipServerRegContactEntry OBJECT-TYPE SYNTAX SipServerRegContactEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This entry contains information for a single Contact. Multiple contacts may exist for a single user. Each row represents those objects for a particular SIP server present in this system. applIndex is used to uniquely identify these instances of SIP servers and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788). The same value of applIndex used in the corresponding SIP-COMMON-MIB is used here." INDEX { applIndex, sipServerRegUserIndex, sipServerRegContactIndex } ::= { sipServerRegContactTable 1 } SipServerRegContactEntry ::= SEQUENCE { sipServerRegContactIndex Unsigned32, sipServerRegContactDisplayName SnmpAdminString, sipServerRegContactURI SnmpAdminString, sipServerRegContactLastUpdated TimeStamp, sipServerRegContactExpiry DateAndTime, sipServerRegContactPreference SnmpAdminString } sipServerRegContactIndex OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Along with the sipServerRegUserIndex, this object uniquely identifies a conceptual row in the table." ::= { sipServerRegContactEntry 1 } Lingle, et al. Standards Track PAGE 71

RFC 4780 SIP MIB Modules April 2007 sipServerRegContactDisplayName OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the display name for the Contact. For example, 'Santa at Home', or 'Santa on his Sled', corresponding to contact URIs of sip:BigGuy@example.com or sip:sclaus817@example.com, respectively." ::= { sipServerRegContactEntry 2 } sipServerRegContactURI OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains either a SIP URI where the user can be contacted. This URI is normally returned to a client from a Redirect Server, or is used as the RequestURI in a SIP request line for requests forwarded by a proxy." ::= { sipServerRegContactEntry 3 } sipServerRegContactLastUpdated OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the time when this contact information was accepted. If the contact information is updated via a subsequent REGISTER of the same information, this object is also updated." ::= { sipServerRegContactEntry 4 } sipServerRegContactExpiry OBJECT-TYPE SYNTAX DateAndTime MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the date and time when the contact information will no longer be valid. Such times may be specified by the user at registration (i.e., Expires header or expiry parameter in the Contact information), or a system default can be applied." ::= { sipServerRegContactEntry 5 } sipServerRegContactPreference OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS read-only Lingle, et al. Standards Track PAGE 72

RFC 4780 SIP MIB Modules April 2007 STATUS current DESCRIPTION "This object indicates a relative preference for the particular Contact header field value compared to other bindings for this address-of-record. A registering user may provide this preference as a 'qvalue' parameter in the Contact header. The format of this item is a decimal number between 0 and 1 (for example 0.9). Higher values indicate locations preferred by the user." REFERENCE "RFC 3261, Section 10.2.1.2, 16.6, and 20.10" ::= { sipServerRegContactEntry 6 } -- -- Registrar Statistics -- sipServerRegStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF SipServerRegStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the summary statistics objects applicable to all SIP Registrars in this system." ::= { sipServerRegStats 1 } sipServerRegStatsEntry OBJECT-TYPE SYNTAX SipServerRegStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row of summary statistics. Each row represents those objects for a particular SIP server present in this system. applIndex is used to uniquely identify these instances of SIP servers and correlate them through the common framework of the NETWORK-SERVICES-MIB (RFC 2788). The same value of applIndex used in the corresponding SIP-COMMON-MIB is used here." INDEX { applIndex } ::= { sipServerRegStatsTable 1 } SipServerRegStatsEntry ::= SEQUENCE { sipServerRegStatsAcceptedRegs Counter32, sipServerRegStatsRejectedRegs Counter32, sipServerRegStatsDisconTime TimeStamp } Lingle, et al. Standards Track PAGE 73

RFC 4780 SIP MIB Modules April 2007 sipServerRegStatsAcceptedRegs OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains a count of the number of REGISTER requests that have been accepted (status code 200) by the Registrar. This includes additions of new contact information, refreshing contact information, as well as requests for deletion of contact information. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipServerRegStatsDisconTime object in the same row." ::= { sipServerRegStatsEntry 1 } sipServerRegStatsRejectedRegs OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains a count of the number REGISTER requests that have been rejected by the Registrar. Discontinuities in the value of this counter can occur at re-initialization of the SIP entity or service. A Management Station can detect discontinuities in this counter by monitoring the sipServerRegStatsDisconTime object in the same row." ::= { sipServerRegStatsEntry 2 } sipServerRegStatsDisconTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of the sysUpTime object when the counters for the registrar statistics objects in this row last experienced a discontinuity." ::= { sipServerRegStatsEntry 3 } -- -- Conformance -- sipServerMIBCompliances OBJECT IDENTIFIER ::= { sipServerMIBConformance 1 } Lingle, et al. Standards Track PAGE 74

RFC 4780 SIP MIB Modules April 2007 sipServerMIBGroups OBJECT IDENTIFIER ::= { sipServerMIBConformance 2 } -- -- Compliance Statements -- sipServerProxyServerCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION "The compliance statement for SIP entities acting as Proxy Servers." MODULE -- this module MANDATORY-GROUPS { sipServerConfigGroup, sipServerProxyConfigGroup, sipServerProxyStatsGroup } ::= { sipServerMIBCompliances 1 } sipRedirectServerCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION "The compliance statement for SIP entities acting as Redirect Servers." MODULE -- this module MANDATORY-GROUPS { sipServerConfigGroup } ::= { sipServerMIBCompliances 2 } sipServerRegistrarServerCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION "The compliance statement for SIP entities acting as Registrars." MODULE -- this module MANDATORY-GROUPS { sipServerConfigGroup, sipServerRegistrarConfigGroup, sipServerRegistrarStatsGroup } GROUP sipServerRegistrarUsersGroup DESCRIPTION "This is an optional group." ::= { sipServerMIBCompliances 3 } -- -- Units of Conformance -- sipServerConfigGroup OBJECT-GROUP OBJECTS { sipServerCfgHostAddressType, sipServerCfgHostAddress Lingle, et al. Standards Track PAGE 75

RFC 4780 SIP MIB Modules April 2007 } STATUS current DESCRIPTION "A collection of objects providing configuration common to SIP Proxy and Redirect servers." ::= { sipServerMIBGroups 1 } sipServerProxyConfigGroup OBJECT-GROUP OBJECTS { sipServerCfgProxyStatefulness, sipServerCfgProxyRecursion, sipServerCfgProxyRecordRoute, sipServerCfgProxyAuthMethod, sipServerCfgProxyAuthDefaultRealm } STATUS current DESCRIPTION "A collection of objects providing configuration for SIP Proxy servers." ::= { sipServerMIBGroups 2 } sipServerProxyStatsGroup OBJECT-GROUP OBJECTS { sipServerProxyStatProxyReqFailures, sipServerProxyStatsDisconTime } STATUS current DESCRIPTION "A collection of objects providing statistics for SIP Proxy servers." ::= { sipServerMIBGroups 3 } sipServerRegistrarConfigGroup OBJECT-GROUP OBJECTS { sipServerRegMaxContactExpiryDuration, sipServerRegMaxUsers, sipServerRegCurrentUsers, sipServerRegDfltRegActiveInterval } STATUS current DESCRIPTION "A collection of objects providing configuration for SIP Registrars." ::= { sipServerMIBGroups 4 } sipServerRegistrarStatsGroup OBJECT-GROUP OBJECTS { sipServerRegStatsAcceptedRegs, Lingle, et al. Standards Track PAGE 76

RFC 4780 SIP MIB Modules April 2007 sipServerRegStatsRejectedRegs, sipServerRegStatsDisconTime } STATUS current DESCRIPTION "A collection of objects providing statistics for SIP Registrars." ::= { sipServerMIBGroups 5 } sipServerRegistrarUsersGroup OBJECT-GROUP OBJECTS { sipServerRegUserUri, sipServerRegUserAuthenticationFailures, sipServerRegUserDisconTime, sipServerRegContactDisplayName, sipServerRegContactURI, sipServerRegContactLastUpdated, sipServerRegContactExpiry, sipServerRegContactPreference } STATUS current DESCRIPTION "A collection of objects related to registered users." ::= { sipServerMIBGroups 6 } END 8. IANA Considerations The MIB modules defined in this document use the following IANA- assigned OBJECT IDENTIFIER values recorded in the SMI Numbers registry: +--------------+-------------------------+ | Descriptor | OBJECT IDENTIFIER value | +--------------+-------------------------+ | sipTC | { mib-2 148 } | | sipCommonMIB | { mib-2 149 } | | sipUAMIB | { mib-2 150 } | | sipServerMIB | { mib-2 151 } | +--------------+-------------------------+ Lingle, et al. Standards Track PAGE 77

RFC 4780 SIP MIB Modules April 2007 9. Security Considerations There are a number of management objects defined in the SIP-COMMON- MIB MIB module with a MAX-ACCESS clause of read-write and/or read- create. 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. The following read-create object in SIP-COMMON-MIB is used to configure the status code statistics that will be monitored by the SIP entity: sipCommonStatusCodeRowStatus: If this object is SET maliciously, it may result in an over- allocation of resources in a system for the purpose of accumulating and maintaining statistics. The following read-write objects in SIP-COMMON-MIB are used to configure the behavior of certain SNMP notifications potentially generated by a SIP entity: sipCommonStatusCodeNotifSend, sipCommonStatusCodeNotifEmitMode, sipCommonStatusCodeNotifThresh, sipCommonStatusCodeNotifInterval, sipCommonCfgServiceNotifEnable: If these objects are SET maliciously, it may result in a system and/or network performance impact due to the generation of SNMP notifications. Some of the readable objects in the MIB modules (i.e., objects with a MAX-ACCESS other than not-accessible) may be considered sensitive or vulnerable in some network environments. It is thus important to control even GET and/or NOTIFY access to these objects and possibly to even encrypt the values of these objects when sending them over the network via SNMP. The following object values may contain private or confidential customer information like first name, last name, customer identification, location, company affiliation, the time the information was updated, etc. sipServerRegContactDisplayName, sipServerRegContactURI, sipServerRegContactLastUpdated and sipCommonCfgOrganization. Lingle, et al. Standards Track PAGE 78

RFC 4780 SIP MIB Modules April 2007 The sipCommonCfgTable table contains some objects that may help attackers gain knowledge about the status and operations of the SIP service. In particular, the object value of sipCommonCfgServiceOperStatus may indicate that the SIP entity is in congested state and may lead attackers to build additional service attacks to overload the system. The sipCommonCfgEntityType object indicates the type of SIP entity, and the sipCommonMethodSupportedTable table contains in the SIP- COMMON-MIB MIB module list of SIP methods supported by each entity in the system. Gaining access to this information may allow attackers to build method-specific attacks or use unsupported methods to create denial-of-service attack scenarios. In the SIP-UA-MIB MIB module, the sipUACfgServerTable contains the address of the SIP servers providing services to the UA, and obtaining this information may disclose some private or sensitive information about the SIP service usage. In the SIP-SERVER-MIB MIB module, the sipServerCfgProxyAuthMethod object defines the authentication methods supported by the server and may be used to build specific denial-of-service attackers targeted at the security mechanisms employed by the SIP entity. SNMP versions prior to SNMPv3 did not include adequate security. 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 set of MIB modules. It is RECOMMENDED that implementers consider the security features as provided by the SNMPv3 framework (see RFC 3410 [RFC 3410]), including full support for the SNMPv3 cryptographic mechanisms (for authentication and privacy). Further, deployment of SNMP versions prior to SNMPv3 is NOT RECOMMENDED. Instead, it is RECOMMENDED to deploy SNMPv3 and to enable cryptographic security. It is then a customer/operator responsi when bility to ensure that the SNMP entity giving access to an instance of this MIB module 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. Lingle, et al. Standards Track PAGE 79

RFC 4780 SIP MIB Modules April 2007 10. Contributor Acknowledgments We wish to thank the members of the IETF SIP and SIPPING working groups, and the SIP-MIB Design team for their comments and suggestions. Detailed comments were provided by Tom Taylor, Kavitha Patchayappan, Dan Romascanu, Cullen Jennings, Orit Levin, AC Mahendran, Mary Barnes, Rohan Mahy, Bob Penfield, Charles Eckel, and Dean Willis. Special thanks to Bert Wijnen for his expert reviews, which have greatly improved the SIP MIB modules. 11. References 11.1. Normative References [RFC 2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [RFC 3261] Rosenberg, J., Schulzrinne, H., Camarillo, G., Johnston, A., Peterson, J., Sparks, R., Handley, M., and E. Schooler, "SIP: Session Initiation Protocol", RFC 3261, June 2002. [RFC 2578] McCloghrie, K., Perkins, D., and J. Schoenwaelder, "Structure of Management Information Version 2 (SMIv2)", STD 58, RFC 2578, April 1999. [RFC 2579] McCloghrie, K., Perkins, D., and J. Schoenwaelder, "Textual Conventions for SMIv2", STD 58, RFC 2579, April 1999. [RFC 2580] McCloghrie, K., Perkins, D., and J. Schoenwaelder, "Conformance Statements for SMIv2", STD 58, RFC 2580, April 1999. [RFC 2788] Freed, N. and S. Kille, "Network Services Monitoring MIB", RFC 2788, March 2000. [RFC 3411] Harrington, D., Presuhn, R., and B. Wijnen, "An Architecture for Describing Simple Network Management Protocol (SNMP) Management Frameworks", STD 62, RFC 3411, December 2002. [RFC 4001] Daniele, M., Haberman, B., Routhier, S., and J. Schoenwaelder, "Textual Conventions for Internet Network Addresses", RFC 4001, February 2005. Lingle, et al. Standards Track PAGE 80

RFC 4780 SIP MIB Modules April 2007 11.2. Informative References [RFC 3410] Case, J., Mundy, R., Partain, D., and B. Stewart, "Introduction and Applicability Statements for Internet- Standard Management Framework", RFC 3410, December 2002. [RFC 3262] Rosenberg, J. and H. Schulzrinne, "Reliability of Provisional Responses in Session Initiation Protocol (SIP)", RFC 3262, June 2002. [RFC 4168] Rosenberg, J., Schulzrinne, H., and G. Camarillo, "The Stream Control Transmission Protocol (SCTP) as a Transport for the Session Initiation Protocol (SIP)", RFC 4168, October 2005. Lingle, et al. Standards Track PAGE 81

RFC 4780 SIP MIB Modules April 2007 Authors' Addresses Kevin Lingle Cisco Systems, Inc. 7025 Kit Creek Road P.O. Box 14987 Research Triangle Park, NC 27709 US Phone: +1 919 476 2029 EMail: klingle@cisco.com Jean-Francois Mule CableLabs 858 Coal Creek Circle Louisville, CO 80027 US Phone: +1 303 661 9100 EMail: jf.mule@cablelabs.com Joon Maeng 5612 Sedona Drive Austin, TX 78759 US Phone: +1 512 418 0590 EMail: jmaeng@austin.rr.com Dave Walker EMail: drwalker@rogers.com Lingle, et al. Standards Track PAGE 82

RFC 4780 SIP MIB Modules April 2007 Full Copyright Statement Copyright © The IETF Trust (2007). This document is subject to the rights, licenses and restrictions contained in BCP 78, and except as set forth therein, the authors retain all their rights. This document and the information contained herein are provided on an "AS IS" basis and THE CONTRIBUTOR, THE ORGANIZATION HE/SHE REPRESENTS OR IS SPONSORED BY (IF ANY), THE INTERNET SOCIETY, THE IETF TRUST AND THE INTERNET ENGINEERING TASK FORCE DISCLAIM 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. Intellectual Property The IETF takes no position regarding the validity or scope of any Intellectual Property Rights or other rights that might be claimed to pertain to the implementation or use of the technology described in this document or the extent to which any license under such rights might or might not be available; nor does it represent that it has made any independent effort to identify any such rights. Information on the procedures with respect to rights in RFC documents can be found in BCP 78 and BCP 79. Copies of IPR disclosures made to the IETF Secretariat and any assurances of licenses to be made available, or the result of an attempt made to obtain a general license or permission for the use of such proprietary rights by implementers or users of this specification can be obtained from the IETF on-line IPR repository at http://www.ietf.org/ipr. The IETF invites any interested party to bring to its attention any copyrights, patents or patent applications, or other proprietary rights that may cover technology that may be required to implement this standard. Please address the information to the IETF at ietf-ipr@ietf.org. Acknowledgement Funding for the RFC Editor function is currently provided by the Internet Society. Lingle, et al. Standards Track PAGE 83

Management Information Base for the Session Initiation Protocol (SIP) RFC TOTAL SIZE: 160460 bytes PUBLICATION DATE: Monday, April 30th, 2007 LEGAL RIGHTS: The IETF Trust (see BCP 78)


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