From 735b8680ee2e546bbaceb9ffb4ae8db043779516 Mon Sep 17 00:00:00 2001 From: Ulas Kozat Date: Thu, 16 Feb 2017 11:17:14 -0800 Subject: JIRA DOMINO-23 new directory structure new API description split documents Change-Id: Iedffd5266c19f9713930011ef8fde7e55fd3ae66 Signed-off-by: Ulas Kozat --- docs/userguide/feature.userguide.rst | 393 ----------------------------------- 1 file changed, 393 deletions(-) delete mode 100644 docs/userguide/feature.userguide.rst (limited to 'docs/userguide/feature.userguide.rst') diff --git a/docs/userguide/feature.userguide.rst b/docs/userguide/feature.userguide.rst deleted file mode 100644 index 664553d..0000000 --- a/docs/userguide/feature.userguide.rst +++ /dev/null @@ -1,393 +0,0 @@ -.. This work is licensed under a Creative Commons Attribution 4.0 International License. -.. http://creativecommons.org/licenses/by/4.0 -.. (c) Ulas C. Kozat Huawei R&D USA - -================== -Domino Description -================== - -Domino provides a distribution service for Network Service Descriptors (NSDs) and -Virtual Network Function Descriptors (VNFDs) that are composed using Tosca Simple -Profile for Network Functions Virtualization -(http://docs.oasis-open.org/tosca/tosca-nfv/v1.0/tosca-nfv-v1.0.html). -Domino service is targeted towards supporting many SDN controllers, service orchestrators, -VNF Managers (VNFMs), Virtual Infastructure Managers (VIMs), Operation and Business Support -Systems that produce and/or consume NSDs and VNFDs. - -Producers of NSDs and VNFDs use Domino Service as an entry point to publish these -descriptors. Consumers of NSDs and VNFDs subscribe with the Domino Service and declare -their resource capabilities to onboard and perform Life Cycle Management (LCM) for Network -Services (NSs) and Virtual Network Functions (VNFs). Thus, Domino acts as a broker for -NSs and VNFs described in a Tosca template. - -============================= -Domino Capabilities and Usage -============================= - -Labels in Domino -================ - -Domino's pub/sub architecture is based on labels (see Fig. 1 below). -Each Template Producer and Template Consumer is expected to run a local Domino Client -to publish templates and subscribe for labels. - -.. _fig-label: - -.. figure:: ../etc/domino_pubsub_system.jpeg - :width: 350px - :align: center - :height: 300px - :alt: alternate text - :figclass: align-center - - Domino provides a pub/sub server for NSDs and VNFDs - -Domino Service does not interpret what the labels mean. Domino derives labels directly from -the normative definitions in TOSCA Simple YAML Profile for NFV. Domino parses the policy -rules included in the NSD/VNFD, form "policy" labels, and determine which resources are -associated with which set of labels. Domino identifies which Domino Clients can host -which resource based on the label subscriptions by these clients. Once mapping of resources -to the clients are done, new NSDs/VNFDs are created based on the mapping. These new -NSDs/VNFDs are translated and delivered to the clients. - -Label Format and Examples -========================= - -Domino supports policy labels in the following form: - -.. code-block:: bash - - :properties: - -Orchestrators, controllers, and managers use Domino service to announce their -capabilities by defining labels in this form and subscribing for these labels with -the Domino Server. - -For instance a particular VIM that is capable of performing an -affinity based VNF or VDU placement at host machine granularity can specify a label -in the form: - -.. code-block:: bash - - tosca.policies.Placement.affinity:properties:granularity:hostlevel - -When the VIM registers with the Domino Service and subscribed for that label, Domino views -this VIM as a candidate location that can host a VNF or VDU requesting affinity based -placement policy at host machine granularity. - -Another use case is the announcement of lifecycle management capabilities for VNFs and -VNF Forwarding Graphs (VNFFG) by different SDN Controllers (SDN-Cs), VNFMs, or VIMs. -For instance - -.. code-block:: bash - - tosca.policies.Scaling.VNFFG:properties:session_continuity:true - -can be used as a label to indicate that when a scaling operation on a VNFFG (e.g., add -more VNFs into the graph) is requested, existing session can still be enforced to go -through the same chain of VNF instances. - -To utilize Domino's domain mapping services for virtual network resources (e.g., VNF, VDU, -VNFFG, CP, VL, etc.), a network service or network function request must include -policy rules that are composed of policy types and property values that match to the -label announcements of these domains. For instance, when a TOSCA template includes a -policy rule with type "tosca.policies.Scaling.VNFFG" and property field -"session_continuity" set as "true" targeting one or more VNFFGs, this serves as the hint -for the Domino Server to identify all the Domain Clients that subscribed the label -"tosca.policies.Scaling.VNFFG:properties:session_continuity:true". - -Template Example for Label Extraction -===================================== - -Consider the following NSD TOSCA template: - -.. code-block:: bash - - tosca_definitions_version: tosca_simple_profile_for_nfv_1_0_0 - description: Template for deploying a single server with predefined properties. - metadata: - template_name: TOSCA NFV Sample Template - policy_types: - tosca.policies.Placement.Geolocation: - description: Geolocation policy - derived_from: tosca.policies.Placement - topology_template: - node_templates: - VNF1: - type: tosca.nodes.nfv.VNF - properties: - id: vnf1 - vendor: acmetelco - version: 1.0 - VNF2: - type: tosca.nodes.nfv.VNF - properties: - id: vnf2 - vendor: ericsson - version: 1.0 - VNF3: - type: tosca.nodes.nfv.VNF - properties: - id: vnf3 - vendor: huawei - version: 1.0 - policies: - - rule1: - type: tosca.policies.Placement.Geolocation - targets: [ VNF1 ] - properties: - region: [ us-west-1 ] - - rule2: - type: tosca.policies.Placement.Geolocation - targets: [ VNF2, VNF3 ] - properties: - region: [ us-west-1 , us-west-2 ] - -Domino Server extracts all possible policy labels by exhaustively concatenating key-value -pairs under the properties section of the policy rules to the policy type of these rules: - -.. code-block:: bash - - tosca.policies.Placement.Geolocation:properties:region:us-west-1 - tosca.policies.Placement.Geolocation:properties:region:us-west-2 - -Furthermore, Domino Server iterates over the targets specified under policy rules to generate a set of labels for each target node: - -.. code-block:: bash - - required_labels['VNF1'] = { tosca.policies.Placement.Geolocation:properties:region:us-west-1 } - required_labels['VNF2'] = { tosca.policies.Placement.Geolocation:properties:region:us-west-1 , tosca.policies.Placement.Geolocation:properties:region:us-west-2} - required_labels['VNF3'] = { tosca.policies.Placement.Geolocation:properties:region:us-west-1 , tosca.policies.Placement.Geolocation:properties:region:us-west-2} - -When a Template Consuming site (e.g., VNFM or VIM) registers with the Domino Server using -Domino Client, it becomes an eligible candidate for template distribution with an initially -empty set of label subscriptions. Suppose three different Domino Clients register with the -Domino Server and subscribe for some or none of the policy labels such that the Domino Server -has the current subscription state as follows: - -.. code-block:: bash - - subscribed_labels[site-1] = { } #this is empty set - subscribed_labels[site-2] = { tosca.policies.Placement.Geolocation:properties:region:us-west-1 } - subscribed_labels[site-3] = { tosca.policies.Placement.Geolocation:properties:region:us-west-1 , tosca.policies.Placement.Geolocation:properties:region:us-west-2} - - -Based on the TOSCA example and hypothetical label subscriptions above, Domino Server identifies -all the VNFs can be hosted by Site-3, while VNF1 can be hosted by both Site-2 and Site-3. -Note that Site-1 cannot host any of the VNFs listed in the TOSCA file. When a VNF can be hosted -by multiple sites, Domino Server picks the site that can host the most number of VNFs. When not -all VNFs can be hosted on the same site, the TOSCA file is partitioned into multiple files, one -for each site. These files share a common part (e.g, meta-data, policy-types, version, -description, virtual resources that are not targeted by any policy rule, etc.). Each site -specific file has also a non-common part that only appears in that file (i.e., virtual -resources explicitly assigned to that site and the policy rules that accompany those virtual -resources. - -In the current Domino convention, if a VNF (or any virtual resource) does not have a policy -rule (i.e., it is not specified as a target in any of the policy rules) and it also is not -dependent on any VNF (or any virtual resource) that is assigned to another site, that resource -is wild carded by default and treated as part of the "common part". Also note that currently -Domino does not support all or nothing semantics: if some of the virtual resources are not -mappable to any domain because they are targets of policy rules that are not supported by any -site, these portions will be excluded while the remaining virtual resources will be still be -part of one or more template files to be distributed to hosting sites. When NSDs and VNFDs are -prepared, these conventions must be kept in mind. In the future releases, these conventions can -change based on the new use cases. - -For the example above, no partitioning would occur as all VNFs are mapped onto site-3; -Domino Server simply delivers the Tosca file to Domino Client hosted on site-3. When TOSCA -cannot be consumed by a particular site directly, Domino Server can utilize -existing translators (e.g., heat-translator) to first translate the template before delivery. - -Internal Processing Pipeline at Domino Server -============================================= - -Fig. 2 shows the block diagram for the processing stages of a published TOSCA template. -Domino Client issues an RPC call publish(tosca file). Domino Server passes the received tosca -file to Label Extractor that outputs resource labels. Domain Mapper uses the extracted labels -and tosca file to find mappings from resources to domains as well as the resource dependencies. -Resource to domain mappings and resource dependencies are utilized to partition the -orchestration template into individual resource orchestration templates (one for each domain). -If a translation is required (e.g., TOSCA to HOT), individual resource orchestration templates -are first translated and then placed on a template distribution workflow based on resource -dependencies. Message Sender block in the server takes one distribution task at a time from the -workflow generator and pushes the orchestration template to the corresponding Domino Client. - -.. _fig-pipe: - -.. figure:: ../etc/domino_server_processing.png - :width: 400px - :align: center - :height: 350px - :alt: alternate text - :figclass: align-center - - Domino Service Processing Pipeline - -Resource Scheduling -=================== - -Domino Service currently supports maximum packing strategy when a virtual resource type can -be hosted on multiple candidate sites. Initially, Domino Scheduler identifies virtual resources -that has only one feasible site for hosting. Each such virtual resource is trivially assigned -to its only feasible site. The remaining virtual resources with multiple candidate locations -are sequentially allocated to one of their candidate locations that has the most virtual -resource assignments so far. Note that wildcarded resources are assigned to all sites. To -prevent wildcarding within the current release, (i) all sites must subscribed to a base policy -with a dummy key-value pair defined under the properties tab and (ii) all the independent -resources must be specified as target of that policy in NSD or VNFD file. - -============================================ -Domino and API Usage Guidelines and Examples -============================================ - -Using domino-cli Client -======================= - -Prerequisites: - -1. Make sure that domino-cli.py is in +x mode. - -2. Change directory to where domino-cli.py, DominoClient.py and DominoServer.py are located or include file path in the PATH environment variable. - -3. Start the Domino Server: - -.. code-block:: bash - - ./DominoServer.py --log=debug - -4. Start the Domino Client: - -.. code-block:: bash - - ./DominoClient.py -p --cliport --log=debug - -Note1: The default log level is WARNING and omitting --log option will lead to minimal/no logging on the console - -Note2: domino_conf.py file includes most of the default values - -* Registration Command - -Command line input: - -.. code-block:: bash - - ./domino-cli.py register - -This message has the following fields that are automatically filled in. - -.. code-block:: bash - - Message Type (= REGISTER) - DESIRED UDID (= if not allocated, this will be assigned as Unique Domino ID) - Sequence Number (=incremented after each RPC call) - IP ADDR (= IP address of DOMINO Client to be used by DOMINO Server for future RPC Calls to this client) - TCP PORT (= TCP port of DOMINO Client to be used by DOMINO Server for future RPC Calls to this client) - Supported Templates (= Null, this field not used currently) - -* Heart Beat Command - -Command line input: - -.. code-block:: bash - - ./domino-cli.py heartbeat - -This message has the following fields that are automatically filled in. - -.. code-block:: bash - - Message Type (= HEART_BEAT) - UDID (= Unique Domino ID assigned during registration) - Sequence Number (=incremented after each RPC call) - -* Label and Template Type Subscription Command - -.. code-block:: bash - - ./domino-cli.py subscribe -l -t - -Note that -l can be substituted by --label and -t can be substituted by --ttype. - -More than one label or template type can be subscribed within the same command line as comma separated labels or template types - -.. code-block:: bash - - ./domino-cli.py subscribe -l ,, -t ,, - -To subscribe more than one label or template type, one can also repeat the options -l and -t, e.g.: - -.. code-block:: bash - - ./domino-cli.py subscribe -l -l -l -t -t -t - -It is safe to call subscribe command multiple times with duplicate labels. - -This message has the following fields that are automatically filled in. - -.. code-block:: bash - - Message Type (= SUBSCRIBE) - UDID (= Unique Domino ID assigned during registration) - Sequence Number (=incremented after each RPC call) - Template Operation (= APPEND) - Label Operation (= APPEND) - -The following fields are filled in based on arguments passed on via -l/--label and -t/--ttype flags - -Subscribe RPC also supports options for label using - --lop=APPEND/DELETE/OVERWRITE -and for supported template types using - --top=APPEND/DELETE/OVERWRITE. -When unspecified, the default is APPEND. -DELETE deletes existing labels (template types) specified in the current call via key -l/--label (-t/--ttype). -OVERWRITE removes the current set of labels (template types) and sets it to the new set of values passed in the same RPC call. - -By default, no translation service is provided. Currently, only TOSCA to Heat -Orchestration Template (HOT) translation is supported using OpenStack -heat-translator library. A domain that requires HOT files must subscribe HOT -template type using - -.. code-block:: bash - - ./domino-cli.py subscribe -t hot - -* Template Publishing Command - -.. code-block:: bash - - ./domino-cli.py publish -t - -Note that -t can be substituted by --tosca-file. - -If -t or --tosca-file flag is used multiple times, the last tosca file passed as input will be used. This usage is not recommended as undefined/unintended results may emerge as the Domino client will continue to publish. - -This message has the following fields that are automatically filled in. - -.. code-block:: bash - - Message Type (= SUBSCRIBE) - UDID (= Unique Domino ID assigned during registration) - Sequence Number (=incremented after each RPC call) - Template Type (= TOSCA) - Template File - -Interactive CLI mode --------------------- - -To enter this mode, start Domino Client with interactive console option set as true, i.e., --iac=true: - -.. code-block:: bash - - ./DominoClient -p --iax=true --log=DEBUG - -The rest of the API calls are the same as in the case of using domino-cli.py except that at the prompt there is no need to write "domino-cli.py , e.g.,: - -.. code-block:: bash - - >>register - >>heartbeat - >>subscribe -l -t - >>publish -t - -The interactive CLI mode is mainly supported for manual testing. -- cgit 1.2.3-korg