Network Working GroupInternet Engineering Task Force (IETF) T. BurbridgeInternet-DraftRequest for Comments: 8193 P. EardleyIntended status:Category: Standards Track BTExpires: October 23, 2017ISSN: 2070-1721 M. Bagnulo Universidad Carlos III de Madrid J. Schoenwaelder Jacobs University BremenApril 21,August 2017 Information Model for Large-Scale Measurement Platforms(LMAP) draft-ietf-lmap-information-model-18(LMAPs) Abstract This Information Model applies to the Measurement Agent withina Large-Scale Measurement Platform.an LMAP framework. Assuchsuch, it outlines the information that is(pre-)configuredconfigured or preconfigured on the Measurement Agent or exists in communications with a Controller or Collector within an LMAP framework. The purpose of such an Information Model is to provide aprotocolprotocol- anddevice independentdevice-independent view of the Measurement Agent that can be implemented via one or more Control and Reportprotocols. Requirements Language 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 [RFC2119].Protocols. Status of This Memo ThisInternet-Draftissubmitted in full conformance with the provisions of BCP 78 and BCP 79. Internet-Drafts are working documentsan Internet Standards Track document. This document is a product of the Internet Engineering Task Force (IETF).Note that other groups may also distribute working documents as Internet-Drafts. The listIt represents the consensus ofcurrent Internet- Drafts is at http://datatracker.ietf.org/drafts/current/. Internet-Drafts are draft documents validthe IETF community. It has received public review and has been approved fora maximumpublication by the Internet Engineering Steering Group (IESG). Further information on Internet Standards is available in Section 2 ofsix monthsRFC 7841. Information about the current status of this document, any errata, and how to provide feedback on it may beupdated, replaced, or obsoleted by other documentsobtained atany time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress." This Internet-Draft will expire on October 23, 2017.http://www.rfc-editor.org/info/rfc8193. Copyright Notice Copyright (c) 2017 IETF Trust and the persons identified as the document authors. All rights reserved. This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3 2. Requirements Language . . . . . . . . . . . . . . . . . . . . 4 3. Notation . . . . . . . . . . . . . . . . . . . . . . . . . .5 3.4 4. LMAP Information Model . . . . . . . . . . . . . . . . . . .6 3.1. Pre-Configuration5 4.1. Preconfiguration Information . . . . . . . . . . . . . .10 3.1.1.9 4.1.1. Definition of ma-preconfig-obj . . . . . . . . . . .11 3.2.10 4.2. Configuration Information . . . . . . . . . . . . . . . . 113.2.1.4.2.1. Definition of ma-config-obj . . . . . . . . . . . . .13 3.3.12 4.3. Instruction Information . . . . . . . . . . . . . . . . . 143.3.1.4.3.1. Definition of ma-instruction-obj . . . . . . . . . . 163.3.2.4.3.2. Definition of ma-suppression-obj . . . . . . . . . . 173.4.4.4. Logging Information . . . . . . . . . . . . . . . . . . . 183.4.1.4.4.1. Definition of ma-log-obj . . . . . . . . . . . . . .20 3.5.19 4.5. Capability and Status Information . . . . . . . . . . . . 203.5.1.4.5.1. Definition of ma-capability-obj . . . . . . . . . . . 203.5.2.4.5.2. Definition of ma-capability-task-obj . . . . . . . . 213.5.3.4.5.3. Definition of ma-status-obj . . . . . . . . . . . . . 213.5.4.4.5.4. Definition of ma-status-schedule-obj . . . . . . . . 223.5.5.4.5.5. Definition of ma-status-action-obj . . . . . . . . . 233.5.6.4.5.6. Definition of ma-status-suppression-obj . . . . . . .26 3.5.7.25 4.5.7. Definition of ma-status-interface-obj . . . . . . . . 263.6.4.6. Reporting Information . . . . . . . . . . . . . . . . . .27 3.6.1.26 4.6.1. Definition of ma-report-obj . . . . . . . . . . . . .29 3.6.2.28 4.6.2. Definition of ma-report-result-obj . . . . . . . . . 293.6.3.4.6.3. Definition of ma-report-conflict-obj . . . . . . . . 313.6.4.4.6.4. Definition of ma-report-table-obj . . . . . . . . . .32 3.6.5.31 4.6.5. Definition of ma-report-row-obj . . . . . . . . . . . 323.7.4.7. Common Objects: Schedules . . . . . . . . . . . . . . . . 323.7.1.4.7.1. Definition of ma-schedule-obj . . . . . . . . . . . . 343.7.2.4.7.2. Definition of ma-action-obj . . . . . . . . . . . . . 353.8.4.8. Common Objects: Channels . . . . . . . . . . . . . . . . 363.8.1.4.8.1. Definition of ma-channel-obj . . . . . . . . . . . .37 3.9.36 4.9. Common Objects: Task Configurations . . . . . . . . . . . 373.9.1.4.9.1. Definition of ma-task-obj . . . . . . . . . . . . . .39 3.9.2.38 4.9.2. Definition of ma-option-obj . . . . . . . . . . . . . 393.10.4.10. Common Objects: Registry Information . . . . . . . . . . 403.10.1.4.10.1. Definition of ma-registry-obj . . . . . . . . . . . 403.11.4.11. Common Objects: Event Information . . . . . . . . . . . . 403.11.1.4.11.1. Definition of ma-event-obj . . . . . . . . . . . . . 413.11.2.4.11.2. Definition of ma-periodic-obj . . . . . . . . . . . 433.11.3.4.11.3. Definition of ma-calendar-obj . . . . . . . . . . . 433.11.4.4.11.4. Definition of ma-one-off-obj . . . . . . . . . . . . 453.11.5.4.11.5. Definition of ma-immediate-obj . . . . . . . . . . .46 3.11.6.45 4.11.6. Definition of ma-startup-obj . . . . . . . . . . . .46 3.11.7.45 4.11.7. Definition of ma-controller-lost-obj . . . . . . . . 463.11.8.4.11.8. Definition of ma-controller-connected-obj . . . . . 464.5. Example Execution . . . . . . . . . . . . . . . . . . . . . .47 5.46 6. IANA Considerations . . . . . . . . . . . . . . . . . . . . .48 6.47 7. Security Considerations . . . . . . . . . . . . . . . . . . .49 7. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 4948 8. References . . . . . . . . . . . . . . . . . . . . . . . . .5048 8.1. Normative References . . . . . . . . . . . . . . . . . .5048 8.2. Informative References . . . . . . . . . . . . . . . . .50 Appendix A. Change History . .49 Acknowledgements . . . . . . . . . . . . . . . . .51 A.1. Non-editorial changes since -17. . . . . . . 50 Authors' Addresses . . . . . .51 A.2. Non-editorial changes since -16. . . . . . . . . . . . .51 A.3. Non-editorial changes since -15. . . .. . . . . . . . . 51 A.4. Non-editorial changes since -14 . . . . . . . . . . . . . 51 A.5. Non-editorial changes since -13 . . . . . . . . . . . . . 52 A.6. Non-editorial changes since -12 . . . . . . . . . . . . . 52 A.7. Non-editorial changes since -11 . . . . . . . . . . . . . 52 A.8. Non-editorial changes since -10 . . . . . . . . . . . . . 52 A.9. Non-editorial changes since -09 . . . . . . . . . . . . . 52 A.10. Non-editorial changes since -08 . . . . . . . . . . . . . 53 A.11. Non-editorial changes since -07 . . . . . . . . . . . . . 53 A.12. Non-editorial changes since -06 . . . . . . . . . . . . . 53 A.13. Non-editorial changes since -05 . . . . . . . . . . . . . 54 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 5450 1. Introduction A large-scale measurement platform is a collection of components that work in a coordinated fashion to perform measurements from a large number of vantage points. A typical use case is the execution of broadband measurements [RFC7536]. The main components of a large- scale measurement platform are the Measurement Agents(hereafter MAs),(MAs), theController(s)Controller(s), and the Collector(s). The MAs are the elements actually performing the measurements. The MAs are controlled by exactly one Controller at atimetime, and the Collectors gather the results generated by the MAs. In a nutshell, the normal operation of a large-scale measurement platform starts with the Controller instructing a set of one or more MAs to perform a set of one or more Measurement Tasks at a certain point in time. The MAs execute the instructions from a Controller, and once they have done so, they report the results of the measurements to one or more Collectors. The overall framework for a large-scale measurement platform as used in this document is described in detail in [RFC7594]. A large-scale measurement platform involves basically three types of protocols, namely, a ControlprotocolProtocol (orprotocols)Protocols) between a Controller and the MAs, a ReportprotocolProtocol (orprotocols)Protocols) between the MAs and theCollector(s)Collector(s), and several measurement protocols between the MAs and Measurement Peers (MPs), used to actually perform the measurements. Inadditionaddition, some information is required to be configured on the MA prior to any communication with a Controller. This document defines theinformation modelInformation Model for both the Control andtheReportprotocolsProtocols along withpre-configuration informationPreconfiguration Information that is required on the MA before communicating with the Controller, broadly named as the LMAP Information Model. The measurement protocols are out of the scope of this document. As defined in [RFC3444], the LMAP Information Model defines the concepts involved in a large-scale measurement platform at a high level of abstraction, independent of any specific implementation or actual protocol used to exchange the information. It is expected that the proposedinformation modelInformation Model can be used with different protocols in different measurement platform architectures and across different types of MA devices (e.g., home gateway, smartphone, PC, or router). A YANG data model implementing theinformation modelInformation Model can be found in[I-D.ietf-lmap-yang].[RFC8194]. The definition of an Information Model serves a number of purposes: 1. To guide thestandardisationstandardization of one or more Control and Report protocols and data models 2. To enable high-levelinter-operabilityinteroperability between different Control and ReportprotocolsProtocols by facilitating translation between their respective data models such that a Controller could instruct sub- populations of MAs using different protocols 3. To form agreement of what information needs to be held by an MA and passed over the Control and Report interfaces and support the functionality described in the LMAP framework 4. To enable existing protocols and data models to be assessed for their suitability as part of a large-scale measurement system 2. Requirements Language The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in BCP 14 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here. 3. Notation This document uses aprogramming language-likenotation similar to a programming language to define the properties of the objects of theinformation model.Information Model. An optional property is enclosed by square brackets, [ ], and a list property is indicated by two numbers in angle brackets, <m..n>, where m indicates the minimal number of values, and n is the maximum. The symbol * for n means no upper bound. The object definitions usea couple ofseveral base types that are defined as follows: int A type representing signed or unsigned integer numbers. Thisinformation modelInformation Model does not define a precision nor does it make a distinction between signed and unsigned number ranges. This type is also used to represent enumerations. boolean A type representing a boolean value. string A type representing a human-readable string consisting of a (possibly restricted) subset of Unicode and ISO/IEC 10646 [ISO.10646] characters. datetime A type representing a date and time using the Gregorian calendar. The datetime format MUST conform to RFC 3339 [RFC3339]. uuid A type representing a Universally Unique IDentifier(UUID((UUID) as defined in RFC 4122 [RFC4122]. The UUID values are expected to be unique within an installation of alarge- scalelarge-scale measurement system. uri A type representing a Uniform Resource Identifier as defined in STD 66 [RFC3986]. ip-address A type representing an IP address. This type supports both IPv4 and IPv6 addresses. counter A non-negative integer that monotonically increases. Counters may havediscontinuitiesdiscontinuities, and they are not expected to persist across restarts. credentials An opaque type representing credentials needed by a cryptographic mechanism to secure communication. Data models must expand this opaque type as needed and required by the security protocols utilized. data An opaque type representing data obtained from measurements. Names of objects are generally assumed to be unique within an implementation.3.4. LMAP Information Model The information described herein relates to the information stored,receivedreceived, or transmitted by a Measurement Agent as described within the LMAP framework [RFC7594]. As such, some subsets of thisinformation modelInformation Model are applicable to the measurementController,Controller and Collector and to any device management system thatpre-configurespreconfigures the Measurement Agent. The information described in these models will be transmitted by protocols using interfaces between the Measurement Agent and such systems according to aData Model.data model. Theinformation modelInformation Model is divided into six aspects.FirstlyFirstly, the grouping of information facilitates reader understanding. Secondly, the particular groupings chosen are expected to map to different protocols or different transmissions within those protocols. 1.Pre-ConfigurationPreconfiguration Information. Informationpre-configuredpreconfigured on the Measurement Agent prior to any communication with other components of the LMAP architecture (i.e., the Controller,Collectorthe Collector, and Measurement Peers), specifically detailing how to communicate with a Controller and whether the device is enabled to participate as an MA. 2. Configuration Information. Update of thepre-configuration informationPreconfiguration Information during the registration of the MA or subsequent communication with the Controller, along with the configuration of further parameters about the MA (rather than the Measurement Tasks it should perform) that were not mandatory for the initial communication between the MA and a Controller. 3. Instruction Information. Information that is received by the MA from the Controller pertaining to the Measurement Tasks that should be executed. This includes thetaskTask execution Schedules (other than the Controller communication Schedule supplied as(pre)configuration information)Configuration or Preconfiguration Information) and related information such as the Task Configuration, communication Channels toCollectorsCollectors, andscheduleEventand Timinginformation. It also includes Task Suppression information that is used toover-rideoverride normal Task execution. 4. Logging Information. Information transmitted from the MA to the Controller detailing the results of any configuration operations along with error andstatus informationStatus Information from the operation of the MA. 5. Capability and Status Information. Information on the general status and capabilities of the MA. For example, the set of measurements that are supported on the device. 6. Reporting Information. Information transmitted from the MA to one or moreCollectorsCollectors, including measurement results and the context in which they were conducted. Inadditionaddition, the MA may hold further information not described herein,andwhich may be optionally transferred to or from other systems including the Controller and Collector. One example of information in this category is subscriber or line information that may be extracted by ataskTask and reported by the MA in the reporting communication to a Collector. It should also be noted that the MA may be in communication with other management systemswhichthat may be responsible for configuring and retrieving information from the MA device. Such systems, where available, can perform an important role in transferring thepre- configuration informationPreconfiguration Information to the MA or enabling/disabling the measurement functionality of the MA. The granularity of data transmitted in each operation of the Control and Report Protocols is not dictated by the Information Model. For example, the Instruction object may be delivered in a single operation. Alternatively, Schedules and Task Configurations may be separated or even each Schedule/Task Configuration may be delivered individually.SimilarlySimilarly, the Information Model does not dictate whether data is read, write, or read/write. For example, some Control Protocols may have the ability to read back Configuration and Instructioninformation which haveInformation that has been previously set on the MA. Lastly, while some protocols may simply overwrite information (forexampleexample, refreshing the entire Instruction Information), other protocols may have the ability to update or delete selected items of information. The information modeled by the six aspects of theinformation modelInformation Model is supported by a number of common information objects. These objects are also described later in this document andcompriseare comprised of: a. Schedules. A set of Schedules tells the MA to execute Actions. An Action of a Schedule leads to the execution of a Task. Without aScheduleSchedule, no Task (including measurements or reporting or communicating with the Controller) is ever executed. Schedules are used within the Instruction to specify whattasksTasks should be performed, when, and how to direct their results. A Schedule is also used within thepre-ConfigurationPreconfiguration and ConfigurationinformationInformation in order to execute the Task or Tasks required to communicate with the Controller. A specific Schedule can only be active once. Attempts to start a Schedule while the same Schedule is still running will fail. b. Channels. A set of Channel objects are used to communicate with a number of endpoints (i.e., the Controller and Collectors). Each Channel object contains the information required for the communication with a single endpoint such as the target location and security details. c. Task Configurations. A set of Task Configurations is used to configure the Tasks that are run by the MA. This includes the registry entries for the Task and any configuration parameters, represented as Task Options. Task Configurations are referenced from a Schedule in order to specify what Tasks the MA should execute. d. Events. A set of Event objects that can be referenced from the Schedules. Each Schedule always references exactly one Event object that determines when thescheduleSchedule is executed. An Event object specifies either a singleton or a series ofeventsEvents that indicate when Tasks should be executed. A commonly used kind of Eventobjects areobject is the Timingobjects.object. For Event objects specifying a series ofevents,Events, it is generally a good idea to configure an end time and to refresh the end time as needed to ensure that MAs thatlooselose connectivity to theircontrollerController do not continue executing Schedules forever. Figure 1 illustrates the structure in which these common information objects are referenced. The references are achieved by each object (Task Configuration, Event) being given a short textual name that is used by other objects. The objects shown in parenthesis are part of the internal object structure of a Schedule. Channels are not shown in the diagram since they are only used as an option by selected Task Configurations but are similarly referenced using a short text name. Schedule |-- triggered by --> Event | |-- executes --> Action 1 | |-- using --> Task Configuration | | | `-- feeding to --> Destination Schedule : : `-- executes --> Action N |-- using --> Task Configuration | `-- feeding to --> Destination Schedule Figure 1: Relationship between Schedules, Events, Actions, Task Configurations, and Destination Schedules The primary function of an MA is to execute Schedules. A Schedule, which is triggered by an Event, executes a number of Actions. An Action refers to aConfigured Taskconfigured Task, and it may feed results to a Destination Schedule.Both,Both Actions andConfiguredconfigured Tasks can provide parameters, represented as Action Options and Task Options. Tasks can implement a variety of different functions. While in terms of the Information Model, all Tasks have the same structure, it can help conceptually to think of different Task categories: 1. Measurement Tasks measure some aspect of network performance or traffic. They may also capture contextual information from the MA device or network interfaces such as the device type or interface speed. 2. Data Transfer Tasks support the communication with a Controller and Collectors: A. Reporting Tasks report the results of Measurement Tasks to Collectors B. One or more ControlTask(s)Tasks implement the Control Protocol and communicate with theController.Controller 3. Data Analysis Tasks can exist toanalyseanalyze data from other Measurement Tasks locally on theMAMA. 4. Data Management Tasks may exist toclean-up, filtercleanup, filter, or compress data on the MA such as Measurement Taskresultsresults. Figure 1 indicates that Actions can produce data that is fed into Destination Schedules. This can by used by Actions implementing Measurement Tasks to feed measurement results to a Schedule that triggers Actions implementing Reporting Tasks. Data fed to a Destination Schedule is consumed by the first Action of the Destination Schedule if the Destination Schedule is using the sequential or pipelined executionmodemode, and it is consumed by all Actions of the Destination Schedule if the Destination Schedule is using parallel execution mode.3.1. Pre-Configuration4.1. Preconfiguration Information This information is the minimal information that needs to bepre- configuredpreconfigured to the MA in order for it to successfully communicate with a Controller during the registration process. Some of thePre- ConfigurationPreconfiguration Information elements are repeated in the Configuration Information in order to allow an LMAP Controller to update these items. Thepre-configuration informationPreconfiguration Information also contains some elements that are not under the control of the LMAP framework (such as the device identifier and device security credentials). ThisPre-ConfigurationPreconfiguration Information needs to include a URL of the initial Controller from whereconfiguration informationConfiguration Information can be communicated along with the security information required for thecommunicationcommunication, including the certificate of the Controller (or the certificate of the Certification Authoritywhichthat was used to issue the certificate for the Controller). All this is expressed as a Channel. While multiple Channels may be provided in thePre- Configuration InformationPreconfiguration Information, they must all be associated with a single Controller (e.g., over different interfaces or network protocols). Where the MA pulls information from the Controller, thePre- ConfigurationPreconfiguration Information also needs to contain the timing of the communication with the Controller as well as the nature of the communication itself (such as the protocol and data to be transferred). The timing is represented as an Event that invokes a Schedule that executes the Task(s) responsible for communication with the Controller. It is this Task (or Tasks) thatimplementimplements the ControlprotocolProtocol between the MA and the Controller andutilisesutilizes the Channel information. The Task(s) may take additional parameters, as defined by a Task Configuration. Even where information is pushed to the MA from the Controller (rather than pulled by the MA), a Schedule still needs to be supplied. In thiscasecase, the Schedule will simply execute a Controller listener Task when the MA is started. A Channel is still required for the MA to establish secure communication with the Controller. It can be seen that these Channels,SchedulesSchedules, and Task Configurations for the initialMA-Controllercommunication between the MA and its Controller are no different in terms of the Information Model to any other Channel,ScheduleSchedule, or Task Configuration that might execute a Measurement Task or report the measurement results (as described later). The MA may bepre-configuredpreconfigured with anMA ID,MA-ID or may use a Device ID in the first Controller contact before it is assigned anMA ID.MA-ID. The Device ID may be aMACMedia Access Control (MAC) address or some other device identifier expressed as a URI. If theMA IDMA-ID is not provided at this stage, then it must be provided by the Controller during Configuration.3.1.1.4.1.1. Definition of ma-preconfig-obj object { [uuid ma-preconfig-agent-id;] ma-task-obj ma-preconfig-control-tasks<1..*>; ma-channel-obj ma-preconfig-control-channels<1..*>; ma-schedule-obj ma-preconfig-control-schedules<1..*>; [uri ma-preconfig-device-id;] credentials ma-preconfig-credentials; } ma-preconfig-obj; The ma-preconfig-obj describes information that needs to be available to the MA in order to bootstrap communication with a Controller. The ma-preconfig-obj consists of the following elements: ma-preconfig-agent-id: An optionaluuidUUID uniquely identifying themeasurement agent.Measurement Agent. ma-preconfig-control-tasks: An unordered set oftaskTask objects. ma-preconfig-control-channels: An unordered set ofchannelChannel objects. ma-preconfig-control-schedules: An unordered set of scheduling objects. ma-preconfig-device-id: An optional identifier for the device. ma-preconfig-credentials: The security credentials used by themeasurement agent. 3.2.Measurement Agent. 4.2. Configuration Information During registration or at any later point at which the MA contacts the Controller (orvice-versa),vice versa), the choice of Controller, details for the timing of communication with theControllerController, or parameters for the communication Task(s) can be changed (as captured by the Channels,SchedulesSchedules, and Task Configurations objects). Forexampleexample, thepre- configuredpreconfigured Controller (specified as a Channel or Channels) may beover-riddenoverridden with a specific Controller that is more appropriate to the MA device type,locationlocation, or characteristics of the network (e.g., access technology type or broadband product). The initial communication Schedule may beover-riddenoverridden with one more relevant to routine communications between the MA and the Controller. While some ControlprotocolsProtocols may only use a single Schedule, other protocols may use several Schedules (and relateddata transferData Transfer Tasks) to update the Configuration Information, transfer the Instruction Information, transfer Capability and StatusInformationInformation, and send other information to the Controller such as log or error notifications. Multiple Channels may be used to communicate with the same Controller over multiple interfaces (e.g., to sendlogging informationLogging Information over a different network). Inadditionaddition, the MA will be given further items of information that relate specifically to the MA rather than the measurements it is to conduct or how to report results. The assignment of anIDidentifier to theMAMeasurement Agent is mandatory. If theMAMeasurement AgentIDIdentifier was not optionally provided during thepre-configurationpreconfiguration, then one must be provided by the Controller during Configuration.OptionallyOptionally, aGroup IDGroup-ID may also be givenwhichthat identifies a group of interest to which that MA belongs. Forexampleexample, the group could represent an ISP, broadband product, technology, market classification, geographic region, or a combination of multiple such characteristics. Additional flags control whether theMA IDMA-ID or theGroup IDGroup-ID are included in Reports. The reporting of aGroup IDGroup-ID without theMA IDMA-ID may allow the MA to remain anonymous, which may be particularly useful to prevent tracking of mobile MA devices.OptionallyOptionally, an MA can also be configured to stop executing any Instruction Schedule if the Controller is unreachable. This can be used as a fail-safe to stop Measurement and other Tasks from being conducted when there is doubt that the Instruction Information is still valid. This is simply represented as a time window in seconds since the last communication with theControllerController, after which an Event is generated that can trigger the suspension of Instruction Schedules. The appropriate value of the time window will depend on the specified communication Schedule with the Controller and the duration for which the system is willing to tolerate continued operation with potentially stale Instruction Information. WhilePre-ConfigurationPreconfiguration Information is persistent upon a device reset or power cycle, the persistency of the Configuration Information may be device dependent. Some devices may revert back to theirpre- configurationpreconfiguration state upon reboot or factory reset, while other devices may store all Configuration and InstructioninformationInformation in persistent storage. A Controller can check whether an MA has the latest Configuration and InstructioninformationInformation by examining the Capability and StatusinformationInformation for the MA.3.2.1.4.2.1. Definition of ma-config-obj object { uuid ma-config-agent-id; ma-task-obj ma-config-control-tasks<1..*>; ma-channel-obj ma-config-control-channels<1..*>; ma-schedule-obj ma-config-control-schedules<1..*>; credentials ma-config-credentials; [string ma-config-group-id;] [string ma-config-measurement-point;] [boolean ma-config-report-agent-id;] [boolean ma-config-report-group-id;] [boolean ma-config-report-measurement-point;] [int ma-config-controller-timeout;] } ma-config-obj; The ma-config-obj consists of the following elements: ma-config-agent-id: AuuidUUID uniquely identifying themeasurement agent.Measurement Agent. ma-config-control-tasks: An unordered set oftaskTask objects. ma-config-control-channels: An unordered set ofchannelChannel objects. ma-config-control-schedules: An unordered set of scheduling objects. ma-config-credentials: The security credentials used by themeasurement agent.Measurement Agent. ma-config-group-id: An optional identifier of the group ofmeasurement agentsMeasurement Agents thismeasurement agentMeasurement Agent belongs to. ma-config-measurement-point: An optional identifier for the measurement point indicating where themeasurement agentMeasurement Agent is located on a path (see [RFC7398] for further details). ma-config-report-agent-id: An optional flag indicating whether theagent identifier (ma- config-agent-id)Agent Identifier (ma-config-agent-id) is included in reports. The default value is true. ma-config-report-group-id: An optional flag indicating whether thegroup identifier (ma- config-group-id)Group-ID (ma-config-group-id) is included in reports. The default value is false. ma-config-report-measurement-point: An optional flag indicating whether the measurement point (ma-config-measurement-point) should be included in reports. The default value is false. ma-config-controller-timeout: A timer is started after each successful contact with acontroller.Controller. When the timer reaches the controller-timeout (measured in seconds), aneventEvent is raised indicating that connectivity to thecontrollerController has been lost (seema-controller- lost-obj). 3.3.ma-controller-lost-obj). 4.3. Instruction Information The Instructioninformation modelInformation Model has four sub-elements: 1. Instruction Task Configurations 2. Report Channels 3. Instruction Schedules 4. Suppression The Instruction supports the execution of all Tasks on the MA except those that deal with communication with the Controller (specified in(pre-)configuration information).Configuration or Preconfiguration Information). The Tasks are configured in Instruction Task Configurations and included by reference in the Actions of Instruction Schedules that specify when to execute them. The results can be communicated to otherSchedulesSchedules, or a Task may implement a Reporting Protocol and communicate results over Report Channels. Suppression is used to temporarily stop the execution of new Tasks as specified by the Instruction Schedules (and optionally to stop ongoing Tasks). A Task Configuration is used to configure the mandatory and optional parameters of a Task. It also serves to instruct the MA about the Task including the ability to resolve the Task to an executable andspecifyingto specify the schema for the Task parameters. A Report Channel defines how to communicate with a single remote system specified by a URL. A Report Channel is used to send results to a single Collector but is no different in terms of the Information Model to the Control Channel used to transfer information between the MA and the Controller. Several Report Channels can be defined to enable results to be split or duplicated across different destinations. A single Channel can be used by multiple (reporting) Task Configurations to transfer data to the same Collector. A single Reporting Task Configuration can also be included in multiple Schedules.E.g.,For example, a single Collector may receive data at three different cycle rates, with one Schedule reporting hourly, another reportingdailydaily, and a third specifying that results should be sent immediately for on-demandmeasurement tasks. AlternativelyMeasurement Tasks. Alternatively, multiple Report Channels can be used to send Measurement Task results to different Collectors. The details of the Channel element is described later as it is common to several objects. Instruction Schedules specify which Actions to execute according to a given triggering Event. An Action extends aConfiguredconfigured Task with additional specific parameters. An Event can trigger the execution of a singleActionAction, or it can trigger a repeated series of Actions. The Schedule also specifies how to linkTasksoutput data from Tasks to other Schedules. Measurement Suppression information is used toover-rideoverride the Instruction Schedule and temporarily stop measurements or other Tasks from running on the MA for a defined or indefinite period. While conceptually measurements can be stopped by simply removing them from the Measurement Schedule, splitting out separate information on Measurement Suppression allows this information to be updated on the MA on a different timing cycle or protocol implementation to the Measurement Schedule. It is also considered that it will be easier for a human operator to implement a temporary explicitsuppressionSuppression rather than having to move to a reduced Schedule and thenroll-backroll back at a later time. It should be noted thatcontrol schedulesControl Schedules andtasksTasks cannot be suppressed as evidenced by the lack ofsuppressionSuppression information in the Configuration. Thecontrol scheduleControl Schedule must only referencetasksTasks listed ascontrol tasksControl Tasks (i.e., within the Configurationinformation).Information). A single Suppression object is able to enable/disable a set of Instruction Tasks that are tagged forsuppression.Suppression. This enablesfine grainedfine-grained control on which Tasks are suppressed. Suppression of both matching Actions and Measurement Schedules is supported. Support for disabling specific Actions allows malfunctioning ormis-configuredmisconfigured Tasks or Actions that have an impact on a particular part of the network infrastructure (e.g., a particular Measurement Peer) to be targeted. Support for disabling specific Schedules allows for particularly heavy cycles or sets of less essential Measurement Tasks to be suppressed quickly and effectively. Note that Suppression has no effect on either Controller Tasks or Controller Schedules. Suppression stops new Tasks from executing. In addition, the Suppression information also supports an additionalBooleanboolean that is used to select whetheron-going tasksongoing Tasks are also to be terminated. Unsuppression is achieved through either overwriting the Measurement Suppression information (e.g., changing 'enabled' to False) or through the use of anEndend time such that the Measurement Suppression will no longer be in effect beyond this time. The goal when defining these four different elements is to allow each part of theinformation modelInformation Model to change without affecting the other three elements. Forexampleexample, it is envisaged that the Report Channels and the set of Task Configurations will be relatively static. The Instruction Schedule, on the other hand, is likely to be more dynamic, as the measurement panel and test frequency are changed for various business goals. Another example is that measurements can be suppressed with a Suppression command without removing the existing Instruction Schedules that would continue to apply after the Suppression expires or is removed. In terms of theController-MAcommunication between the MA and its Controller, this can reduce the data overhead. It also encourages there-usereuse of the same standard Task Configurations and Reporting Channels to help ensure consistency and reduce errors.3.3.1.4.3.1. Definition of ma-instruction-obj object { ma-task-obj ma-instruction-tasks<0..*>; ma-channel-obj ma-instruction-channels<0..*>; ma-schedule-obj ma-instruction-schedules<0..*>; [ma-suppression-obj ma-instruction-suppressions<0..*>;] } ma-instruction-obj; An ma-instruction-obj consists of the following elements: ma-instruction-tasks: A possibly empty unordered set oftaskTask objects. ma-instruction-channels: A possibly empty unordered set ofchannelChannel objects. ma-instruction-schedules: A possibly empty unordered set ofscheduleSchedule objects. ma-instruction-suppressions: An optional possibly empty unordered set ofsuppressionSuppression objects.3.3.2.4.3.2. Definition of ma-suppression-obj object { string ma-suppression-name; [ma-event-obj ma-suppression-start;] [ma-event-obj ma-suppression-end;] [string ma-suppression-match<0..*>;] [boolean ma-suppression-stop-running;] } ma-suppression-obj; The ma-suppression-obj controls thesuppressionSuppression ofschedulesSchedules oractionsActions and consists of the following elements: ma-suppression-name: A name uniquely identifying asuppression.Suppression. ma-suppression-start: The optionaleventEvent indicating whensuppressionSuppression starts. If not present, thesuppressionSuppression starts immediately, i.e., as if the value would be 'immediate'. ma-suppression-end: The optionaleventEvent indicating whensuppressionSuppression ends. If not present, thesuppressionSuppression does not have a defined end, i.e., thesuppressionSuppression remains for an indefinite period of time. ma-suppression-match: An optional and possibly empty unordered set of match patterns. ThesuppressionSuppression will apply to allschedulesSchedules (and theiractions)Actions) that have a matching value in theirma-schedule- suppression-tagsma-schedule-suppression-tags and allactionsActions that have a matching value in theirma- action-suppression-tags.ma-action-suppression-tags. Pattern matching is done using a glob style pattern (see below). ma-suppression-stop-running: An optional boolean indicating whethersuppressionSuppression will stop any running matchingschedulesSchedules oractions.Actions. The default value for this boolean is false. Glob style pattern matching is following POSIX.2 fnmatch() [POSIX.2] without special treatment of file paths: * matches a sequence of characters ? matches a single character [seq] matches any character in seq [!seq] matches any character not in seq A backslash followed by a character matches the following character. In particular: \* matches * \? matches ? \\ matches \ A sequence seq may be a sequence of characters (e.g.,[abc][abc]) or a range of characters (e.g., [a-c]).3.4.4.4. Logging Information The MA may report on the success or failure of Configuration or Instruction communications from the Controller. Inadditionaddition, further operational logs may be produced during the operation of theMAMA, and updates tocapabilitiesCapabilities may also be reported. Reporting this information is achieved in exactly the same manner as scheduling any other Task. We make no distinction between a Measurement Task conducting an active or passive network measurement and onewhichthat solely retrieves static or dynamic information from the MA such ascapabilitiesCapabilities orlogging information.Logging Information. One or more loggingtasksTasks can be programmed or configured to capture subsets of the Logging Information. These loggingtasksTasks are then executed bySchedulesSchedules, which also specify that the resultant data is to be transferred over the Controller Channels. The type of Logging Information will fall into three different categories: 1. Success/failure/warning messages in response to information updates from the Controller. Failure messages could be produced due to some inability to receive or parse the Controllercommunication,communication or if the MA is not able to act as instructed. For example: * "Measurement Schedules updated OK" * "Unable to parse JSON" * "Missing mandatory element: Measurement Timing" * "'Start' does not conform to schema - expected datetime" * "Date specified is in the past" * "'Hour' must be in the range 1..24" * "Schedule A refers to non-existent Measurement Task Configuration" * "Measurement Task Configuration Xregistryregistry, entry Y not found" * "Updated Measurement Task Configurations do not include M used by Measurement Schedule N" 2. Operational updates from the MA. For example: * "Out of memory: cannot record result" * "Collector 'collector.example.com' not responding" * "Unexpected restart" * "Suppression timeout" * "Failed to execute Measurement Task Configuration H" 3. Status updates from the MA. For example: * "Device interface added: eth3" * "Supported measurements updated" * "New IP address on eth0: xxx.xxx.xxx.xxx" This Information Model document does not detail the precise format oflogging informationLogging Information since it is to a large extent protocol and MA specific. However, some common information can be identified.3.4.1.4.4.1. Definition of ma-log-obj object { uuid ma-log-agent-id; datetime ma-log-event-time; int ma-log-code; string ma-log-description; } ma-log-obj; The ma-log-obj models the generic aspects of a logging object and consists of the following elements: ma-log-agent-id: A uuid uniquely identifying themeasurement agent.Measurement Agent. ma-log-event-time: The date and time of theeventEvent reported in the logging object. ma-log-code: Amachine readablemachine-readable code describing theevent.Event. ma-log-description: Ahuman readablehuman-readable description of theevent. 3.5.Event. 4.5. Capability and Status Information The MA will hold Capability Information that can be retrieved by a Controller. Capabilities include the device interface details available to Measurement Tasks as well as the set of Measurement Tasks/Roles (specified by registry entries) that are actually installed or available on the MA. StatusinformationInformation includes the times that operations were last performed such as contacting the Controller or producing Reports.3.5.1.4.5.1. Definition of ma-capability-obj object { string ma-capability-hardware; string ma-capability-firmware; string ma-capability-version; [string ma-capability-tags<0..*>;] [ma-capability-task-obj ma-capability-tasks<0..*>;] } ma-capability-obj; The ma-capability-obj provides information about thecapabilitiesCapabilities of themeasurement agentMeasurement Agent and consists of the following elements: ma-capability-hardware: A description of the hardware of the device themeasurement agentMeasurement Agent is running on. ma-capability-firmware: A description of the firmware of the device themeasurement agentMeasurement Agent is running on. ma-capability-version: The version of themeasurement agent.Measurement Agent. ma-capability-tags: An optional unordered set of tags that provide additional information about thecapabilitiesCapabilities of themeasurement agent.Measurement Agent. ma-capability-tasks: An optional unordered set of capability objects for each supportedtask. 3.5.2.Task. 4.5.2. Definition of ma-capability-task-obj object { string ma-capability-task-name; ma-registry-obj ma-capability-task-functions<0..*>; string ma-capability-task-version; } ma-capability-task-obj; The ma-capability-task-obj provides information about the capability of ataskTask and consists of the following elements: ma-capability-task-name: A name uniquely identifying atask.Task. ma-capability-task-functions: A possibly empty unordered set of registry entries identifying functions thistaskTask implements. ma-capability-task-version: The version of themeasurement task. 3.5.3.Measurement Task. 4.5.3. Definition of ma-status-obj object { uuid ma-status-agent-id; [uri ma-status-device-id;] datetime ma-status-last-started; ma-status-interface-obj ma-status-interfaces<0..*>; [ma-status-schedule-obj ma-status-schedules<0..*>;] [ma-status-suppression-obj ma-status-suppressions<0..*>;] } ma-status-obj; The ma-status-obj providesstatus informationStatus Information about themeasurement agentMeasurement Agent and consists of the following elements: ma-status-agent-id: A uuid uniquely identifying themeasurement agent.Measurement Agent. ma-status-device-id: A URI identifying the device. ma-status-last-started: The date and time themeasurement agentMeasurement Agent last started. ma-status-interfaces: An unordered set of network interfaces available on the device. ma-status-schedules: An optional unordered set of status objects for eachschedule.Schedule. ma-status-suppressions: An optional unordered set of status objects for eachsuppression. 3.5.4.Suppression. 4.5.4. Definition of ma-status-schedule-obj object { string ma-status-schedule-name; string ma-status-schedule-state; int ma-status-schedule-storage; counter ma-status-schedule-invocations; counter ma-status-schedule-suppressions; counter ma-status-schedule-overlaps; counter ma-status-schedule-failures; datetime ma-status-schedule-last-invocation; [ma-status-action-obj ma-status-schedule-actions<0..*>;] } ma-status-schedule-obj; The ma-status-schedule-obj providesstatus informationStatus Information about the status of ascheduleSchedule and consists of the following elements: ma-status-schedule-name: The name of thescheduleSchedule this status object refers to. ma-status-schedule-state: The state of theschedule.Schedule. The value 'enabled' indicates that thescheduleSchedule is currently enabled. The value 'suppressed' indicates that thescheduleSchedule is currently suppressed. The value 'disabled' indicates that thescheduleSchedule is currently disabled. The value 'running' indicates that thescheduleSchedule is currently running. ma-status-schedule-storage: The amount of secondary storage (e.g., allocated in a file system) holding temporary data allocated to thescheduleSchedule in bytes. This object reports the amount of allocated physical storage and not the storage used by logical data records. Data models should use a 64-bit integer type. ma-status-schedule-invocations Number of invocations of thisschedule.Schedule. This counter does not include suppressed invocations or invocations that were prevented due to an overlap with a previous invocation of thisschedule.Schedule. ma-status-schedule-suppressions Number of suppressed executions of thisschedule.Schedule. ma-status-schedule-overlaps Number of executions prevented due to overlaps with a previous invocation of thisschedule.Schedule. ma-status-schedule-failures Number of failed executions of thisschedule.Schedule. A failed execution is an execution where at least oneactionAction failed. ma-status-schedule-last-invocation: The date and time of the last invocation of thisschedule.Schedule. ma-status-schedule-actions: An optional ordered list of status objects for eachactionAction of theschedule. 3.5.5.Schedule. 4.5.5. Definition of ma-status-action-obj object { string ma-status-action-name; string ma-status-action-state; int ma-status-action-storage; counter ma-status-action-invocations; counter ma-status-action-suppressions; counter ma-status-action-overlaps; counter ma-status-action-failures; datetime ma-status-action-last-invocation; datetime ma-status-action-last-completion; int ma-status-action-last-status; string ma-status-action-last-message; datetime ma-status-action-last-failed-completion; int ma-status-action-last-failed-status; string ma-status-action-last-failed-message; } ma-status-action-obj; The ma-status-action-obj providesstatus informationStatus Information about anactionAction of ascheduleSchedule and consists of the following elements: ma-status-action-name: The name of theactionAction of ascheduleSchedule this status object refers to. ma-status-action-state: The state of theaction.Action. The value 'enabled' indicates that theactionAction is currently enabled. The value 'suppressed' indicates that theactionAction is currently suppressed. The value 'disabled' indicates that theactionAction is currently disabled. The value 'running' indicates that theactionAction is currently running. ma-status-action-storage: The amount of secondary storage (e.g., allocated in a file system) holding temporary data allocated to theactionAction in bytes. This object reports the amount of allocated physical storage and not the storage used by logical data records. Data models should use a 64-bit integer type. ma-status-action-invocations Number of invocations of thisaction.Action. This counter does not include suppressed invocations or invocations that were prevented due to an overlap with a previous invocation of thisaction.Action. ma-status-action-suppressions Number of suppressed executions of thisaction.Action. ma-status-action-overlaps Number of executions prevented due to overlaps with a previous invocation of thisaction.Action. ma-status-action-failures Number of failed executions of thisaction.Action. ma-status-action-last-invocation: The date and time of the last invocation of thisaction.Action. ma-status-action-last-completion: The date and time of the last completion of thisaction.Action. ma-status-action-last-status: The status code returned by the last execution of thisaction.Action. ma-status-action-last-message: The status message produced by the last execution of thisaction.Action. ma-status-action-last-failed-completion: The date and time of the last failed completion of thisaction.Action. ma-status-action-last-failed-status: The status code returned by the last failed execution of thisaction.Action. ma-status-action-last-failed-message: The status message produced by the last failed execution of thisaction. 3.5.6.Action. 4.5.6. Definition of ma-status-suppression-obj object { string ma-status-suppression-name; string ma-status-suppression-state; } ma-status-suppression-obj; The ma-status-suppression-obj providesstatus informationStatus Information aboutthatthe status of asuppressionSuppression and consists of the following elements: ma-status-suppression-name: The name of thesuppressionSuppression this status object refers to. ma-status-suppression-state: The state of thesuppression.Suppression. The value 'enabled' indicates that thesuppressionSuppression is currently enabled. The value'active'active' indicates that thesuppressionSuppression is currently active. The value 'disabled' indicates that thesuppressionSuppression is currently disabled.3.5.7.4.5.7. Definition of ma-status-interface-obj object { string ma-status-interface-name; string ma-status-interface-type; [int ma-status-interface-speed;] [string ma-status-interface-link-layer-address;] [ip-address ma-status-interface-ip-addresses<0..*>;] [ip-address ma-status-interface-gateways<0..*>;] [ip-address ma-status-interface-dns-servers<0..*>;] } ma-status-interface-obj; The ma-status-interface-obj providesstatus informationStatus Information about network interfaces and consists of the following elements: ma-status-interface-name: A name uniquely identifying a network interface. ma-status-interface-type: The type of the network interface. ma-status-interface-speed: An optional indication of the speed of the interface (measured inbits-per-bits per second). ma-status-interface-link-layer-address: An optional link-layer address of the interface. ma-status-interface-ip-addresses: An optional ordered list of IP addresses assigned to the interface. ma-status-interface-gateways: An optional ordered list of gateways assigned to the interface. ma-status-interface-dns-servers: An optional ordered list of DNS servers assigned to the interface.3.6.4.6. Reporting Information At a point in time specified by a Schedule, the MA will executetasksTasks that communicate a set of measurement results to the Collector. These Reporting Tasks will be configured to transmittaskTask results over a specified Report Channel to a Collector. It should be noted that the output from Tasks does not need to be sent to communication Channels. It can alternatively, or additionally, be sent to other Tasks on the MA. This facilitates using a first Measurement Task to control the operation of a later Measurement Task (such as first probing available line speed and then adjusting the operation of a video testing measurement) and also to allow local processing of data to output alarms (e.g., when performance drops from earlier levels). Of course, subsequent Tasks also include Tasks that implement thereporting protocol(s)Reporting Protocol(s) and transfer data to one or moreCollector(s).Collectors. The Report generated by a Reporting Task is structured hierarchically to avoid repetition of report header and Measurement Task Configuration information. The report starts with the timestamp of the report generation on the MA and details about the MA including the optional Measurement AgentIDIdentifier andGroup IDGroup-ID (controlled by the Configuration Information). Much of the reportInformationinformation is optional and will depend on the implementation of the Reporting Task and any parameters defined in the Task Configuration for the Reporting Task. Forexampleexample, some Reporting Tasks may choose not to include the Measurement Task Configuration or Action parameters, while others may do so dependent on the Controller setting a configurable parameter in the Task Configuration. It is possible for a Reporting Task to send just theReportreport header (datetime and optionalagent IDAgent Identifier and/orGroup ID)Group-ID) if no measurement data is available. Whether to send such empty reports again is dependent on the implementation of the Reporting Task and potential Task Configuration parameter. The handling of measurement data on the MA before generating a Report and transfer from the MA to the Collector is dependent on the implementation of the device,MAMA, and/or scheduled Tasks and not defined by the LMAP standards. Such decisions may include limits to the measurement data storage and what to do when such available storage becomes depleted. It is generally suggested that implementations running out of storage stop executing newmeasurement tasksMeasurement Tasks and retain old measurement data. No context information, such as line speed or broadband product are included within the report header information as this data is reported by individualtasksTasks at the time they execute. Either a Measurement Task can report contextual parameters that are relevant to that particularmeasurement,measurement or specifictasksTasks can be used to gather a set of contextual and environmental data at certain times independent of thereporting schedule.Reporting Schedule. After the report headerinformationinformation, the results are reported grouped according to different Measurement Task Configurations. Each Task section optionally starts with replicating the Measurement Task Configuration information before the result headers (titles for data columns) and the result data rows. The Options reported are those used for the scheduled execution of the Measurement Task and therefore include the Options specified in the Task Configuration as well as additional Options specified in the Action. The Action Options are appended to the Task Configuration Options in exactly the same order as they were provided to the Task during execution. The result row data includes a time for the start of the measurement and optionally an end time where the duration also needs to be considered in the data analysis. Some Measurement Tasks may optionally include an indication of the cross-traffic although the definition of cross-traffic is left up to each individual Measurement Task. Some Measurement Tasks may also output other environmental measures in addition to cross-traffic such as CPUutlilisationutilization or interface speed. Whereas the Configuration and InstructioninformationInformation represent information transmitted via the Control Protocol, the Report represents the information that is transmitted via the Report Protocol. It is constructed at the time of sending a report and represents the inherent structure of the information that is sent to the Collector.3.6.1.4.6.1. Definition of ma-report-obj object { datetime ma-report-date; [uuid ma-report-agent-id;] [string ma-report-group-id;] [string ma-report-measurement-point;] [ma-report-result-obj ma-report-results<0..*>;] } ma-report-obj; The ma-report-obj provides themeta-datametadata of a single report and consists of the following elements: ma-report-date: The date and time when the report was sent to acollector.Collector. ma-report-agent-id: An optional uuid uniquely identifying themeasurement agent.Measurement Agent. ma-report-group-id: An optional identifier of the group ofmeasurement agentsMeasurement Agents thismeasurement agentMeasurement Agent belongs to. ma-report-measurement-point: An optional identifier for the measurement point indicating where themeasurement agentMeasurement Agent is located on a path (see [RFC7398] for further details). ma-report-results: An optional and possibly empty unordered set of result objects.3.6.2.4.6.2. Definition of ma-report-result-obj object { string ma-report-result-schedule-name; string ma-report-result-action-name; string ma-report-result-task-name; [ma-option-obj ma-report-result-options<0..*>;] [string ma-report-result-tags<0..*>;] datetime ma-report-result-event-time; datetime ma-report-result-start-time; [datetime ma-report-result-end-time;] [string ma-report-result-cycle-number;] int ma-report-result-status; [ma-report-conflict-obj ma-report-result-conflicts<0..*>;] [ma-report-table-obj ma-report-result-tables<0..*>;] } ma-report-result-obj; The ma-report-result-obj provides themeta-datametadata of a result report of a single executedaction.Action. It consists of the following elements: ma-report-result-schedule-name: The name of thescheduleSchedule that produced the result. ma-report-result-action-name: The name of theactionAction in thescheduleSchedule that produced the result. ma-report-result-task-name: The name of thetaskTask that produced the result. ma-report-result-options: An optional ordered joined list of options provided by thetaskTask object and theactionAction object when theactionAction was started. ma-report-result-tags: An optional unordered set of tags. This is the joined set of tags provided by thetask object and the action objectTask object, Action object, andscheduleSchedule object when theactionAction was started. ma-report-result-event-time: The date and time of theeventEvent that triggered thescheduleSchedule of theactionAction that produced the reported result values. The date and time does not include any added randomization. ma-report-result-start-time: The date and time of the start of theactionAction that produced the reported result values. ma-report-result-end-time: An optional date and time indicating when theactionAction finished. ma-report-result-cycle-number: An optional cycle number derived from ma-report-result-event-time. It is the time closest toma-report-result- event-timema-report-result-event-time that is a multiple of the ma-event-cycle-interval of theeventEvent that triggered the execution of theschedule.Schedule. The value is only present in an ma-report-result-obj if theeventEvent that triggered the execution of thescheduleSchedule has a definedma-event- cycle-interval.ma-event-cycle-interval. The cycle number is represented in the format YYYYMMDD.HHMMSS where YYYY represents the year, MM the month (1..12), DD the day of the months (01..31), HH the hour (00..23), MM the minute (00..59), and SS the second (00..59). The cycle number is using Coordinated Universal Time (UTC). ma-report-result-status: The status code returned by the execution of theaction.Action. ma-report-result-conflicts: A possibly empty set of conflictactionsActions that might have impacted the measurement results being reported. ma-report-result-tables: An optional and possibly empty unordered set of result tables.3.6.3.4.6.3. Definition of ma-report-conflict-obj object { string ma-report-conflict-schedule-name; string ma-report-conflict-action-name; string ma-report-conflict-task-name; } ma-report-conflict-obj; The ma-report-conflict-obj provides the information about a conflictingactionAction that might have impacted the measurement results. It consists of the following elements: ma-report-result-schedule-name: The name of thescheduleSchedule that may have impacted the result. ma-report-result-action-name: The name of theactionAction in thescheduleSchedule that may have impacted the result. ma-report-result-task-name: The name of thetaskTask that may have impacted the result.3.6.4.4.6.4. Definition of ma-report-table-obj object { [ma-registry-obj ma-report-table-functions<0..*>;] [string] ma-report-table-column-labels<0..*>;] [ma-report-row-obj ma-report-table-rows<0..*>;] } ma-report-table-obj; The ma-report-table-obj represents a result table and consists of the following elements: ma-report-table-functions: An optional and possibly empty unordered set of registry entries identifying the functions for which resultsthatare reported. ma-report-table-column-labels: An optional and possibly empty ordered list of column labels. ma-report-table-rows: A possibly empty ordered list of result rows.3.6.5.4.6.5. Definition of ma-report-row-obj object { data ma-report-row-values<0..*>; } ma-report-row-obj; The ma-report-row-obj represents a result row and consists of the following elements: ma-report-row-values: A possibly empty ordered list of result values. When present, it contains an ordered list of values that align to the set of column labels for the report.3.7.4.7. Common Objects: Schedules A Schedule specifies the execution of a single or repeated series of Actions. An Action extends aConfiguredconfigured Task with additional specific parameters. Each Schedule contains basically two elements: an ordered list of Actions to be executed and an Event object triggering the execution of the Schedule. The Schedule states what Actions to run (with what configuration) and when to run the Actions. A Schedule may optionally have an Event that stops the execution of the Schedule or a maximum duration after which ascheduleSchedule is stopped. Multiple Actions contained as an ordered list of a single Measurement Schedule will be executed according to the execution mode of the Schedule. In sequential mode, Actions will be executed sequentially and in parallel mode, all Actions will be executed concurrently. In pipelined mode, data produced by one Action is passed to the subsequent Action. Actions contained in different Schedules execute in parallel with such conflicts being reported in the Reporting Information where necessary. If two or more Schedules have the same start time, then the two will execute in parallel. There is no mechanism toprioritiseprioritize onescheduleSchedule over another or to mutex scheduledtasks.Tasks. As well as specifying which Actions to execute, the Schedule also specifies how to link the data outputs from each Action to other Schedules. Specifying this within the Schedule allows the highest level of flexibility since it is even possible to send the output from different executions of the same Task Configuration to different destinations. A single Task producing multiple different outputs is expected to properly tag the differentresult.results. An Action receiving the output can then filter the results based on the tag if necessary. For example, a Measurement Task might report routine results to a data Reporting Task in a Schedule that communicates hourly via theBroadband PPPbroadband interface, but it also outputs emergency conditions via an alarm Reporting Task in a different Schedule communicating immediately over aGPRS channel.General Packet Radio Service (GPRS) Channel. Note thattask-to-taskTask-to-Task data transfer is always specified in association with the scheduled execution of the sendingtask -Task -- there is no need for a corresponding input specification for the receivingtask.Task. While it is likely that an MA implementation will use a queue mechanism between the Schedules or Actions, this Information Model does not mandate or define a queue. The Information Model, however, reports the storage allocated to Schedules and Actions so that storage usage can be monitored. Furthermore, it is recommended that MA implementations by default retain old data and stop the execution of newmeasurement tasksMeasurement Tasks if the MA runs out of storage capacity. When specifying thetaskTask to execute within the Schedule, i.e., creating an Action, it is possible to add to theAction optionOption parameters. This allows the Task Configuration to determine the common characteristics of a Task, while selected parameters (e.g., the test target URL) are defined within asoptionOption parameters of the Action in theschedule.Schedule. A singleTasksTask's Configuration can even be used multiple times in the samescheduleSchedule with different additional parameters. This allows for efficiency in creating and transferring the Instruction. Note that the semantics of what happens if anoptionOption is defined multiple times(either in(in either the Task Configuration,Actionthe Action, orinboth) is notstandardisedstandardized and will depend upon the Task. For example, sometasksTasks may legitimately take multiple values for a single parameter. Where Options are specified in both the Action and the Task Configuration, the Action Options are appended to those specified in the Task Configuration. Example: An Action of a Schedule references a single Measurement Task Configuration for measuring UDP latency. It specifies that results are to be sent to a Schedule with a Reporting Action. This Reporting Task of the Reporting Action is executed by a separate Schedule that specifies that it should run hourly at 5 minutes past the hour. Whenrunrun, this Reporting Action takes the data generated by the UDP latency Measurement Task as well as any other data to be included in the hourly report and transfers it to the Collector over the Report Channel specified within its own Schedule. Schedules and Actions may optionally also be given tags that are included in result reports sent to a Collector. In addition,schedulesSchedules can be givensuppressionSuppression tags that may be used to select Schedules and Actions forsuppression. 3.7.1.Suppression. 4.7.1. Definition of ma-schedule-obj object { string ma-schedule-name; ma-event-obj ma-schedule-start; [ma-event-obj ma-schedule-end;] [int ma-schedule-duration;] ma-action-obj ma-schedule-actions<0..*>; string ma-schedule-execution-mode; [string ma-schedule-tags<0..*>;] [string ma-schedule-suppression-tags<0..*>;] } ma-schedule-obj; The ma-schedule-obj is the main scheduling object. It consists of the following elements: ma-schedule-name: A name uniquely identifying a scheduling object. ma-schedule-start: AneventEvent object indicating when thescheduleSchedule starts. ma-schedule-end: An optionaleventEvent object controlling the forceful termination of scheduledactions.Actions. When theeventEvent occurs, allactionsActions of thescheduleSchedule will be forced to terminate gracefully. ma-schedule-duration: An optional duration in seconds for theschedule.Schedule. AllactionsActions of thescheduleSchedule will be forced to terminate gracefully after the duration number of seconds past the start of theschedule.Schedule. ma-schedule-actions: A possibly empty ordered list ofactionsActions to invoke when thescheduleSchedule starts. ma-schedule-execution-mode: Indicates whether theactionsActions should be executed sequentially, in parallel, or in a pipelined mode (where data produced by oneactionAction is passed to the subsequentaction).Action). The default execution mode is pipelined. ma-schedule-tags: An optional unordered set of tags that are reported together with the measurement results to acollector.Collector. ma-schedule-suppression-tags: An optional unordered set ofsuppressionSuppression tags that are used to selectschedulesSchedules to be suppressed.3.7.2.4.7.2. Definition of ma-action-obj object { string ma-action-name; string ma-action-config-task-name; [ma-option-obj ma-action-task-options<0..*>;] [string ma-action-destinations<0..*>;] [string ma-action-tags<0..*>;] [string ma-action-suppression-tags<0..*>;] } ma-action-obj; The ma-action-obj models ataskTask together with itsschedule specific task optionsSchedule-specific Task Options anddestination schedules.Destination Schedules. It consists of the following elements: ma-action-name: A name uniquely identifying anactionAction of a scheduling object. ma-action-config-task-name: A name identifying the configuredtaskTask to be invoked by theaction.Action. ma-action-task-options: An optional and possibly empty ordered list of options (name-value pairs) that are passed to thetaskTask by appending them to the options configured for thetaskTask object. ma-action-destinations: An optional and possibly empty unordered set of names ofdestination schedulesDestination Schedules that consume output produced by thisaction.Action. ma-action-tags: An optional unordered set of tags that are reported together with the measurement results to acollector.Collector. ma-action-suppression-tags: An optional unordered set ofsuppressionSuppression tags that are used to selectactionsActions to be suppressed.3.8.4.8. Common Objects: Channels A Channel defines abi-directionalbidirectional communication mechanism between the MA and a Controller or Collector. Multiple Channels can be defined to enable results to be split or duplicated across different Collectors. Each Channel contains the details of the remote endpoint (including location and security credential information such as a certificate). The timing of when to communicate over a Channel is specified by theScheduleSchedule, which executes the corresponding Control or Reporting Task. The certificate can be the digital certificate associated to theFQDNFully Qualified Domain Name (FQDN) in theURLURL, or it can be the certificate of the Certification Authority that was used to issue the certificate for the FQDN(Fully Qualified Domain Name)of the target URL (which will be retrieved later on using a communication protocol such asTLS).Transport Layer Security (TLS)). In order to establish a securechannel,Channel, the MA will use its own security credentials (in the Configuration Information) and the given credentials for the individual Channelend-point.endpoint. As with the Task Configurations, each Channel is also given a text name by which it can be referenced as a Task Option. Although the same in terms of information, Channels used for communication with the Controller are referred to as Control Channels whereas Channels to Collectors are referred to as Report Channels.HenceHence, Control Channels will be referenced from Control Tasks executed by a Control Schedule, whereas Report Channels will be referenced from within Reporting Tasks executed by an Instruction Schedule. Multiple interfaces are also supported. Forexampleexample, the Reporting Task could be configured to send some results over GPRS. This is especially useful when such results indicate the loss of connectivity on a different network interface. Example: A Channel used for reporting results may specify that results are to be sent to the URL (https://collector.example.org/ report/), using the appropriate digital certificate to establish a securechannel. 3.8.1.Channel. 4.8.1. Definition of ma-channel-obj object { string ma-channel-name; url ma-channel-target; credentials ma-channel-credentials; [string ma-channel-interface-name;] } ma-channel-obj; The ma-channel-obj consists of the following elements: ma-channel-name: A unique name identifying thechannelChannel object. ma-channel-target: A URL identifying the targetchannelChannel endpoint. ma-channel-credentials: The security credentials needed to establish a securechannel.Channel. ma-channel-interface-name: An optional name of the network interface to be used. If not present, the IP protocol stack will select a suitable interface.3.9.4.9. Common Objects: Task ConfigurationsConceptuallyConceptually, each Task Configuration defines the parameters of a Task that theMeasurement Agent (MA)MA may perform at some point in time. It does not by itself actually instruct the MA to perform them at any particular time (this is done by a Schedule). Tasks can be Measurement Tasks (i.e., those Tasks actually performing some type of passive or active measurement) or any other scheduled activity performed by the MA such as transferring information to or from the Controller and Collectors. Other examples of Tasks may include data manipulation or processing Tasks conducted on the MA. A Measurement Task Configuration is the same in information terms to any other Task Configuration. BothmeasurementMeasurement andnon-measurementnon-Measurement Tasks may have registry entries to enable the MA to uniquely identify the Task it should execute and retrieve the schema for any parameters that may be passed to the Task. Registry entries are specified as a URI and can therefore be used to identify the Task within a namespace or point to a web or local file location for the Task information. As mentioned previously, these URIs may be used to identify the Measurement Task in a public namespace[I-D.ietf-ippm-metric-registry].such as the to-be-created IPPM registry described in [IPPM-REG]. Example: A Measurement Task Configuration may configure a single Measurement Task for measuring UDP latency. The Measurement Task Configuration could define the destination port and address for the measurement as well as the duration, internal packet timingstrategystrategy, and other parameters (forexampleexample, a stream for one hour and sending one packet every 500 ms). It may also define the output type and possible parameters (forexampleexample, the output type can be the 95th percentile mean) where themeasurement taskMeasurement Task accepts such parameters. It does not define when thetaskTask starts (this is defined by the Schedule element), so it does not by itself instruct the MA to actually perform this Measurement Task. The Task Configuration will include a local short name for reference by a Schedule. Task Configurations may also refer to registry entries as described above. Inadditionaddition, the Task can be configured through a set of configuration Options. The nature and number of these Options will depend upon the Task. TheseoptionsOptions are expressed as name-valuepairspairs, although the 'value' may be a structured object instead of a simple string or numeric value. The implementation of these name-value pairs will vary between data models. An Option that must be present for Reporting Tasks is the Channel reference specifying how to communicate with a Collector. This is included in thetask optionsTask Options and will have a value that matches achannelChannel name that has been defined in the Instruction.SimilarlySimilarly, Control Tasks will have a similaroptionOption with the value set to a specified Control Channel. A Reporting Task might also have a flag parameter, defined as an Option, to indicate whether to send a report without measurement results if there is no measurement result data pending to be transferred to the Collector. Inadditionaddition, manytasksTasks willalso take asreceive (as aparameterparameter) information about which interface tooperate over.use. Inadditionaddition, the Task Configuration may optionally also be given tags that can carry a Measurement Cycle ID. The purpose of this ID is to easily identify a set of measurement results that have been produced by Measurement Tasks with comparable Options. This ID could be manually incremented or otherwise changed when an Option change isimplementedimplemented, which could mean that two sets of results should not be directly compared.3.9.1.4.9.1. Definition of ma-task-obj object { string ma-task-name; ma-registry-obj ma-task-functions<0..*>; [ma-option-obj ma-task-options<0..*>;] [string ma-task-tags<0..*>;] } ma-task-obj; The ma-task-obj defines a configuredtaskTask that can be invoked as part of anaction.Action. A configuredtaskTask can be referenced by itsnamename, and it contains a possibly empty set of URIs to link to registry entries. Options allow the configuration oftaskTask parameters (in the form of name-value pairs). The ma-task-obj consists of the following elements: ma-task-name: A name uniquely identifying a configuredtaskTask object. ma-task-functions: A possibly empty unordered set of registry entries identifying the functions of the configuredtask.Task. ma-task-options: An optional and possibly empty ordered list of options (name-value pairs) that are passed to the configuredtask.Task. ma-task-tags: An optional unordered set of tags that are reported together with the measurement results to acollector. 3.9.2.Collector. 4.9.2. Definition of ma-option-obj object { string ma-option-name; [object ma-option-value;] } ma-option-obj; The ma-option-obj models a name-value pair and consists of the following elements: ma-option-name: The name of the option. ma-option-value: The optional value of the option. The ma-option-obj is used to define Task Configuration Options. Task Configuration Options are generallytaskTask specific. FortasksTasks associated with an entry in a registry, the registry may define well- known option names (e.g., the so-called parameters in the to-be- created IPPM metric registry[I-D.ietf-ippm-metric-registry]).described in [IPPM-REG]). Control and Reporting Tasks need to know the Channel they are going to use. The common option name for specifying thechannelChannel is "channel" where the option's value refers to the name of an ma-channel-obj.3.10.4.10. Common Objects: Registry Information Tasks andactionsActions can be associated with entries in a registry. A registry object refers to an entry in a registry (identified by aURI)URI), and it may define a set of roles.3.10.1.4.10.1. Definition of ma-registry-obj object { uri ma-registry-uri; [string ma-registry-role<0..*>;] } ma-registry-obj; The ma-registry-obj refers to an entry of aregistryregistry, and it defines the associated role(s). The ma-registry-obj consists of the following elements: ma-registry-uri: A URI identifying an entry in a registry. ma-registry-role: An optional and possibly empty unordered set of roles for the identified registry entry.3.11.4.11. Common Objects: Event Information The Event information object used throughout theinformation modelsInformation Models can initially take one of several different forms. Additional forms may be defined later in order to bind the execution ofschedulesSchedules to additionalevents.Events. The initially defined Event forms are: 1. Periodic Timing: Emits multipleeventsEvents periodically according to an interval time defined in seconds 2. Calendar Timing: Emits multipleeventsEvents according to acalendarcalendar- based pattern, e.g., 22 minutes past each hour of the day on weekdays 3.One OffOne-Off Timing: Emits oneeventEvent at a specific date and time 4. Immediate: Emits oneeventEvent as soon as possible 5. Startup: Emits aneventEvent whenever the MA is started (e.g., at device startup) 6. Controller Lost: Emits aneventEvent when connectivity to thecontrollerController has been lost 7. Controller Connected: Emits aneventEvent when connectivity to thecontrollerController has been(re-)established Optionallyestablished or re-established Optionally, each of the Event options may also specify a randomness that should be evaluated and applied separately to each indicatedevent.Event. This randomness parameter defines a uniform interval in seconds over which the start of thetaskTask is delayed from the starting times specified by theeventEvent object. Both thePeriodicperiodic andCalendarcalendar timing objects allow for a series of Actions to be executed. While both have an optional end time, it is best practice to always configure an end time and refresh the information periodically to ensure that lost MAs do not continue theirtasksTasks forever. StartupeventsEvents are only created on device startup, not when a new Instruction is transferred to the MA. If scheduledtaskTask execution is desired both on the transfer of the Instruction and on devicerestartrestart, then both the Immediate and Startup timing needs to be used in conjunction. The datetime format used for all elements in theinformation modelInformation Model MUST conform to RFC 3339 [RFC3339].3.11.1.4.11.1. Definition of ma-event-obj object { string ma-event-name; union { ma-periodic-obj ma-event-periodic; ma-calendar-obj ma-event-calendar; ma-one-off-obj ma-event-one-off; ma-immediate-obj ma-event-immediate; ma-startup-obj ma-event-startup; ma-controller-lost-obj ma-event-controller-lost; ma-controller-connected-obj ma-event-controller-connected; } [int ma-event-random-spread;] [int ma-event-cycle-interval;] } ma-event-obj; The ma-event-obj is the maineventEvent object. Event objects are identified by a name. A genericeventEvent object itself contains a more specificeventEvent object. The set of specificeventEvent objects should be extensible. The initial set of specificeventEvent objects is further described below. The ma-event-obj also includes an optional uniform random spread that can be used to randomize the start times ofschedulesSchedules triggered by anevent.Event. The ma-event-obj consists of the following elements: ma-event-name: The name uniquely identifies aneventEvent object. Schedules refer toeventEvent objects by this name. ma-event-periodic: The ma-event-periodic is present for periodic timing objects. ma-event-calendar: The ma-event-calendar is present for calendar timing objects. ma-event-one-off: The ma-event-one-off is present for one-off timing objects. ma-event-immediate: The ma-event-immediate is present for immediateeventEvent objects. ma-event-startup: The ma-event-startup is present for startupeventEvent objects. ma-event-controller-lost: The ma-event-controller-lost is present for connectivity tocontrollerController losteventEvent objects. ma-event-controller-connected: The ma-event-controller-connected is present for connectivity toa controllerController establishedeventEvent objects. ma-event-random-spread: The optional ma-event-random-spread adds a random delay defined in seconds to theeventEvent object. No random delay is added ifma-event- random-spreadma-event-random-spread does not exist. ma-event-cycle-interval: The optional ma-event-cycle-interval defines the duration of the time interval in seconds that is used to calculate cycle numbers. No cycle number is calculated ifma-event- cycle-intervalma-event-cycle-interval does not exist.3.11.2.4.11.2. Definition of ma-periodic-obj object { [datetime ma-periodic-start;] [datetime ma-periodic-end;] int ma-periodic-interval; } ma-periodic-obj; The ma-periodic-obj timing object has an optional start and an optional end time plus a periodic interval. Schedules using anma- periodic-objma-periodic-obj are started periodically between the start and end time. The ma-periodic-obj consists of the following elements: ma-periodic-start: The optional date and time at which Schedules using this object are first started. If notpresentpresent, it defaults to immediate. ma-periodic-end: The optional date and time at which Schedules using this object are last started. If notpresentpresent, it defaults to indefinite. ma-periodic-interval: The interval defines the time in seconds between two consecutive starts oftasks. 3.11.3.Tasks. 4.11.3. Definition of ma-calendar-obj CalendarTimingtiming supports the routine execution of Schedules at specific times and/or on specific dates. It can support more flexible timing thanPeriodic Timingperiodic timing since the execution of Schedules does not have to be uniformly spaced. Forexampleexample, aCalendar Timingcalendar timing could support the execution of a Measurement Task every hour between6pm6 pm and midnight on weekdays only. CalendarTimingtiming is also required to perform measurements at meaningful times in relation to network usage (e.g., at peak times). If the optionaltimezonetime zone offset is notsuppliedsupplied, then local system time is assumed. This is essential in some use cases to ensure consistent peak-time measurements as well as supporting MA devices that may be in an unknowntimezonetime zone or to roam between differenttimezonestime zones (but know their owntimezonetime zone information such as through the mobile network). The calendar elements within theCalendar Timingcalendar timing do not have defaults in order to avoid accidental high-frequency execution of Tasks. If all possible values for an element aredesireddesired, then the wildcard * is used. object { [datetime ma-calendar-start;] [datetime ma-calendar-end;] [string ma-calendar-months<0..*>;] [string ma-calendar-days-of-week<0..*>;] [string ma-calendar-days-of-month<0..*>;] [string ma-calendar-hours<0..*>;] [string ma-calendar-minutes<0..*>;] [string ma-calendar-seconds<0..*>;] [int ma-calendar-timezone-offset;] } ma-calendar-obj; ma-calendar-start: The optional date and time at which Schedules using this object are first started. If notpresentpresent, it defaults to immediate. ma-calendar-end: The optional date and time at which Schedules using this object are last started. If notpresentpresent, it defaults to indefinite. ma-calendar-months: The optional set of months (1-12) on whichtasksTasks scheduled using this object are started. The wildcard * means all months. If not present, it defaults to no months. ma-calendar-days-of-week: The optional set of days of a week ("Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun") on whichtasksTasks scheduled using this object are started. The wildcard * means all days of the week. If not present, it defaults to no days. ma-calendar-days-of-month: The optional set of days of amonthsmonth (1-31) on whichtasksTasks scheduled using this object are started. The wildcard * means all days of amonths.month. If not present, it defaults to no days. ma-calendar-hours: The optional set of hours (0-23) on whichtasksTasks scheduled using this object are started. The wildcard * means all hours of a day. If not present, it defaults to no hours. ma-calendar-minutes: The optional set of minutes (0-59) on whichtasksTasks scheduled using this object are started. The wildcard * means all minutes of an hour. If not present, it defaults to nohours.minutes. ma-calendar-seconds: The optional set of seconds (0-59) on whichtasksTasks scheduled using this object are started. The wildcard * means all seconds of an hour. If not present, it defaults to no seconds. ma-calendar-timezone-offset: The optionaltimezone offesttime zone offset inhours.minutes. If not present, it defaults to the system's localtimezone.time zone. If a day of the month is specified that does not exist in the month (e.g., the 29th ofFeburary)February), then those values are ignored.3.11.4.4.11.4. Definition of ma-one-off-obj object { datetime ma-one-off-time; } ma-one-off-obj; The ma-one-off-obj timing object specifies a fixed point in time. Schedules using an ma-one-off-obj are started once at the specified date and time. The ma-one-off-obj consists of the following elements: ma-one-off-time: The date and time at which Schedules using this object are started.3.11.5.4.11.5. Definition of ma-immediate-obj object { // empty } ma-immediate-obj; The ma-immediate-objeventEvent object has no further information elements. Schedules using an ma-immediate-obj are started as soon as possible.3.11.6.4.11.6. Definition of ma-startup-obj object { // empty } ma-startup-obj; The ma-startup-objeventEvent object has no further information elements. Schedules orsuppressionsSuppressions using an ma-startup-obj are started at MA initialization time.3.11.7.4.11.7. Definition of ma-controller-lost-obj object { // empty } ma-controller-lost-obj; The ma-controller-lost-objeventEvent object has no further information elements. The ma-controller-lost-obj indicates that connectivity to thecontrollerController has been lost. This is determined by a timer started after each successful contact with acontroller.Controller. When the timer reaches the controller-timeout (measured in seconds),an ma- controller-lost-obj eventa ma-controller-lost-obj Event is generated. ThiseventEvent may be used to start asuppression. 3.11.8.Suppression. 4.11.8. Definition of ma-controller-connected-obj object { // empty } ma-controller-connected-obj; The ma-controller-connected-objeventEvent object has no further information elements. The ma-controller-connected-obj indicates that connectivity to thecontrollerController has been established again after it was lost. ThiseventEvent may be used to end asuppression. 4.Suppression. 5. Example Execution The example execution has twoevent sourcesEvent sources, E1 andE2E2, and threeschedulesSchedules, S1, S2, and S3. ThescheduleSchedule S3 is started byeventsEvents ofeventEvent source E2 while theschedulesSchedules S1 and S2 are both started byeventsEvents of theeventEvent source E1. TheschedulesSchedules S1 and S2 have twoactions eachActions each, andscheduleSchedule S3 has a singleaction.Action. TheeventEvent source E2 has no randomization while theeventEvent source E1 has the randomization r. Figure 2 shows a possible timeline of an execution. The time T is progressing downwards. The dottedvertialvertical line indicates progress of time while a dotted horizontal line indicates whichscheduleSchedules are triggered by anevent. Tilded linesEvent. Lines of tildes indicate data flowing from anactionAction to anotherschedule.Schedule. Actions within ascheduleSchedule are named A1, A2, etc. E2 E1 T S1 S2 S3 sequential parallel pipelined : e0 + : : e0+r + .......... + .......... ++ : | A1 A1 || A2 : + |+ ~~~~~~~> : | A2 | : | + ~~~~~~~~> : + ~~~~~~~~~~~~~~~~~~~~~> : : e1 + : e1+r + .......... + .......... ++ : | A1 A1 || : | +|~~~~~~~> : | | A2 : + +~~~~~~~> : | A2 : + ~~~~~~~~~~~~~~~~~~~~> e0 + ................................... + : | A1 e3 + | e3+r + .......... + .......... ++ | : | A1 A1 || A2 | : + ++ ~~~~~~> | : | A2 + : + ~~~~~~~~~~~~~~~~~~~~> V Figure 2: Example Execution Note that implementations must handle possible concurrency issues. In the example execution,actionAction A1 ofscheduleSchedule S3 is consuming the data that has been forwarded toscheduleSchedule S3 while additional data is arriving fromactionAction A2 ofscheduleSchedule S2.5.6. IANA Considerations This documentmakes no request of IANA. Note to the RFC Editor: this section may be removed on publication as an RFC. 6.does not require any IANA actions. 7. Security Considerations This Information Model deals with information about the control and reporting of the Measurement Agent. There are broadly two security considerations for such an Information Model.FirstlyFirstly, the Information Model has to be sufficient to establish secure communicationchannelsChannels to the Controller and Collector such that other information can be sent and received securely. Additionally, any mechanisms that the Network Operator or other device administrator employs topre-configurepreconfigure the MA must also be secure to protect unauthorized parties from modifyingpre-configuration information.Preconfiguration Information. These mechanisms are important to ensure that the MA cannot be hijacked, forexampleexample, to participate in a distributeddenial of servicedenial-of-service attack. The second consideration is that no mandated information items should pose a risk to confidentiality or privacy given such secure communicationchannels.Channels. For this latterreasonreason, items such as the MA context andMA IDMA-ID are left optional and can be excluded from some deployments. This may, for example, allow the MA to remain anonymous and for information about location or other context that might be used to identify or track the MA to be omitted or blurred. Implementations and deployments should also be careful about exposing device-ids when this is not strictly needed. An implementation of this Information Model should support all the security and privacy requirements associated with the LMAP Framework [RFC7594]. In addition, users of this Information Model are advised to choose identifiers forGroup IDs, tagsGroup-IDs, tags, or names ofinformation modelInformation Model objects (e.g., configuredtasks, schedulesTasks, Schedules, oractions)Actions) that do not reveal any sensitive information to people authorized to process measurement results but who are not authorized to know details about the Measurement Agents that were used to perform the measurement.7. Acknowledgements Several people contributed to this specification by reviewing early versions and actively participating in the LMAP working group (apologies to those unintentionally omitted): Vaibhav Bajpai, Michael Bugenhagen, Timothy Carey, Alissa Cooper, Kenneth Ko, Al Morton, Dan Romascanu, Henning Schulzrinne, Andrea Soppera, Barbara Stark, and Jason Weil. Trevor Burbridge, Philip Eardley, Marcelo Bagnulo and Juergen Schoenwaelder worked in part on the Leone research project, which received funding from the European Union Seventh Framework Programme [FP7/2007-2013] under grant agreement number 317647. Juergen Schoenwaelder was partly funded by Flamingo, a Network of Excellence project (ICT-318488) supported by the European Commission under its Seventh Framework Programme.8. References 8.1. Normative References [ISO.10646] International Organization for Standardization, "Information Technology - UniversalMultiple-OctetCoded Character Set (UCS)", ISO Standard 10646:2014, September 2014. [POSIX.2] TheIEEE and TheOpen Group,"The Open Group"Standard for Information Technology - Portable Operating System Interface (POSIX(R)) BaseSpecificationsSpecifications, Issue 7", IEEE Standard1003.1-2008,1003.1, 2016 Edition, DOI, 10.1109/IEEESTD.2016.7582338, September 2016. [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI10.17487/ RFC2119,10.17487/RFC2119, March 1997,<http://www.rfc-editor.org/info/rfc2119>.<https://www.rfc- editor.org/info/rfc2119>. [RFC3339] Klyne, G. and C. Newman, "Date and Time on the Internet: Timestamps", RFC 3339, DOI 10.17487/RFC3339, July 2002,<http://www.rfc-editor.org/info/rfc3339>.<https://www.rfc-editor.org/info/rfc3339>. [RFC3986] Berners-Lee, T., Fielding, R., and L. Masinter, "Uniform Resource Identifier (URI): Generic Syntax", STD 66, RFC 3986, DOI 10.17487/RFC3986, January 2005,<http://www.rfc-editor.org/info/rfc3986>.<https://www.rfc-editor.org/info/rfc3986>. [RFC4122] Leach, P., Mealling, M., and R. Salz, "A Universally Unique IDentifier (UUID) URN Namespace", RFC 4122, DOI10 .17487/RFC4122,10.17487/RFC4122, July 2005,<http://www.rfc-editor.org/info/rfc4122>.<https://www.rfc- editor.org/info/rfc4122>. [RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174, May 2017, <https://www.rfc-editor.org/info/rfc8174>. 8.2. Informative References[I-D.ietf-ippm-metric-registry][IPPM-REG] Bagnulo, M., Claise, B., Eardley, P., Morton, A., and A. Akhter, "Registry for Performance Metrics",draft-ietf- ippm-metric-registry-10 (work in progress), November 2016. [I-D.ietf-lmap-yang] Schoenwaelder, J. and V. Bajpai, "A YANG Data Model for LMAP Measurement Agents", draft-ietf-lmap-yang-10 (workWork inprogress), JanuaryProgress, draft-ietf-ippm-metric-registry-12, June 2017. [RFC3444] Pras, A. and J. Schoenwaelder, "On the Difference between Information Models and Data Models", RFC 3444, DOI10 .17487/RFC3444,10.17487/RFC3444, January 2003,<http://www.rfc-editor.org/info/rfc3444>.<https://www.rfc- editor.org/info/rfc3444>. [RFC7398] Bagnulo, M., Burbridge, T., Crawford, S., Eardley, P., and A. Morton, "A Reference Path and Measurement Points for Large-Scale Measurement of Broadband Performance", RFC 7398, DOI 10.17487/RFC7398, February 2015,<http://www.rfc-editor.org/info/rfc7398>.<https://www.rfc-editor.org/info/rfc7398>. [RFC7536] Linsner, M., Eardley, P., Burbridge, T., and F. Sorensen, "Large-Scale Broadband Measurement Use Cases", RFC 7536, DOI 10.17487/RFC7536, May 2015,<http://www.rfc-editor.org/info/rfc7536>.<https://www.rfc- editor.org/info/rfc7536>. [RFC7594] Eardley, P., Morton, A., Bagnulo, M., Burbridge, T., Aitken, P., and A. Akhter, "A Framework for Large-Scale Measurement of Broadband Performance (LMAP)", RFC 7594, DOI 10.17487/RFC7594, September 2015,<http://www.rfc-editor.org/info/rfc7594>. Appendix A. Change History Note to the RFC Editor: this section should be removed on publication as an RFC. A.1. Non-editorial changes since -17 o The information model is subdivided into aspects and not sections. o Changes to address the GEN-ART review comments. A.2. Non-editorial changes since -16 o Addressing Alissa Cooper's review comments. A.3. Non-editorial changes since -15 o The reference to the framework is now informational. A.4. Non-editorial changes since -14 o Clarified that the cycle number is in UTC. A.5. Non-editorial changes since -13 o Removed the ma-config-device-id from the ma-config-obj. o Added ma-config-report-group-id and clarified how two flags ma- config-report-agent-id and ma-config-report-group-id work. A.6. Non-editorial changes since -12 o Renamed the ma-metrics-registry-obj to ma-registry-obj since tasks may refer to different registries (not just a metrics registry). o Clarifications and bug fixes. A.7. Non-editorial changes since -11 o Clarifications and bug fixes. A.8. Non-editorial changes since -10 o Rewrote the text concerning the well-known "channel" option name. o Added ma-report-result-event-time, ma-report-result-cycle-number, and ma-event-cycle-interval. o Added ma-capability-tags. o Added a new section showing an example execution. o Several clarifications and bug fixes. A.9. Non-editorial changes since -09 o Added ma-status-schedule-storage and ma-status-action-storage. o Removed suppress-by-default. o Moved ma-report-result-metrics of the ma-report-result-obj to ma- report-table-metrics of the ma-report-table-obj so that the relationship between metrics and result tables is clear. o Added ma-report-conflict-obj. o Added ma-report-result-status to ma-report-result-obj. o Several clarifications and bug fixes. A.10. Non-editorial changes since -08 o Refactored the ma-report-task-obj into the ma-report-result-obj. o Introduced the ma-report-table-obj so that a result can contain multiple tables. o Report schedule, action, and task name as part of the ma-report- result-obj. o Report conflicts per ma-report-result-obj<https://www.rfc- editor.org/info/rfc7594>. [RFC8194] Schoenwaelder, J. andnot per ma-report- row-obj. o Report the start/end time as part of the ma-report-result-obj. A.11. Non-editorial changes since -07 o Added ma-schedule-end and ma-schedule-duration. o Changed the granularity of scheduler timings to seconds. o Added ma-status-suppression-obj to report the status of suppressions as done in theV. Bajpai, "A YANGdata model. o Added countersData Model for LMAP Measurement Agents", RFC 8194, DOI 10.17487/RFC8194, August 2017, <http://www.rfc-editor.org/info/rfc8194>. Acknowledgements Several people contributed toschedulethis specification by reviewing early draft versions andaction status objects to match the countersactively participating in theYANG data model. o Using tags to pass information such as a measurement cycle identifierLMAP Working Group (apologies tothe collector. o Using suppression tagsthose unintentionally omitted): Vaibhav Bajpai, Michael Bugenhagen, Timothy Carey, Alissa Cooper, Kenneth Ko, Al Morton, Dan Romascanu, Henning Schulzrinne, Andrea Soppera, Barbara Stark, andglob-style matching to select schedulesJason Weil. Marcelo Bagnulo, Trevor Burbridge, Philip Eardley, andactions to be suppressed. A.12. Non-editorial changes since -06 o The default execution mode is pipelined (LI12) o Added text to define which action consumes dataJuergen Schoenwaelder worked insequential, pipelines, and parallel execution mode (LI11) o Added ma-config-measurement-point, ma-report-measurement-point, and ma-config-report-measurement-point to configure and report the measurement point (LI10) o Turned ma-suppression-obj into a list that uses a start event and a stop event to define the start and end of suppression; this unifies the handling of suppression and loss of controller connectivity (LI09) o Added ma-controller-lost-obj and ma-controller-ok-obj event objects (LI09) o Added ma-status-schedule-obj to report the status of a schedule and refactored ma-task-status-obj into ma-status-action-obj to report the status of an action (LI07, LI08) o Introduced a common ma-metric-registry-obj that identifies a metric and a set of associated roles and added this object to expose metric capabilities and to support the configuration of metrics and to reportpart on themetrics used (LI06) o Introduced ma-capability-obj and ma-capability-task-obj to exposeLeone research project, which received funding from thecapabilities of a measurement agent (LI05) o Use 'ordered list' or 'unordered set' instead of list, collection, etc. (LI02) o Clarification that Actions are part ofEuropean Union Seventh Framework Programme [FP7/2007-2013] under grant agreement number 317647. Juergen Schoenwaelder was partly funded by Flamingo, aSchedule (LI03) o Deleted terms that are not strictly needed (LI04) A.13. Non-editorial changes since -05 o A task can now reference multiply registry entries. o Consistent usageNetwork ofthe term Action and Task. o Schedules are triggeredExcellence project (ICT-318488) supported byEvents instead of Timings; Timings are just one of many possible event sources. o Actions feed into other Schedules (instead of Actions within other Schedules). o Removedthenotion of multiple task outputs. o Support for sequential, parallel, and pipelined execution of Actions.European Commission under its Seventh Framework Programme. Authors' Addresses Trevor Burbridge BT Adastral Park, Martlesham Heath Ipswich IP5 3RE United Kingdom Email: trevor.burbridge@bt.com Philip Eardley BT Adastral Park, Martlesham Heath Ipswich IP5 3RE United Kingdom Email: philip.eardley@bt.com Marcelo Bagnulo Universidad Carlos III de Madrid Av. Universidad 30 Leganes, Madrid 28911 Spain Email: marcelo@it.uc3m.es Juergen Schoenwaelder Jacobs University Bremen Campus Ring 1 Bremen 28759 Germany Email: j.schoenwaelder@jacobs-university.de