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Flows & Sequence Diagrams
Each edge location has infra local controller, which has a bootstrap cluster, which has all the components required to boot up the compute cluster.
Platform Architecture
Infra-global-controller:
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R2 Release cover only Infra local controller:
Baremetal Operator
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ICN project injects the user data in each server regarding network configuration, remote command execution using ssh and maintain a common secure mechanism for all provisioning the servers. Each local controller maintains IP address management for that edge location. For more information refer - Metal3 Baremetal Operator in ICN stack
BPA Operator:
ICN uses the BPA operator to install KUD. It can install KUD either on Baremetal hosts or on Virtual Machines. The BPA operator is also used to install software on the machines after KUD has been installed successfully
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More on BPA Restful API can be found at ICN Rest API.
KuD
Kubernetes deployment (KUD) is a project that uses Kubespray to bring up a Kubernetes deployment and some addons on a provisioned machine. As it already part of ONAP it can be effectively reused to deploy the K8s App components(as shown in fig. II), NFV Specific components and NFVi SDN controller in the edge cluster. In R2 release KuD will be used to deploy the K8s addon such as Virlet, OVN, NFD, and Intel device plugins such as SRIOV in the edge location(as shown in figure I). In R3 release, KuD will be evolved as "ICN Operator" to install all K8s addons. For more information on the architecture of KuD please find the information here.
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ONAP is used as Service orchestration in ICN BP. A lightweight golang version of ONAP is developed as part of Multicloud-k8s project in ONAP community. ICN BP developed containerized KUD multi-cluster to install the onap4k8s as a plugin in any cluster provisioned by BPA operator. ONAP4k8s installed EdgeX Foundry Workload, vFW application to install in any edge location.
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Openness: ChenjieXu (Deactivated)
SDEWAN:
SDWAN module is worked as a software-defined router which can be used to define the rules when connecting to the external internet. It is implemented as CNF instead of VNF for better performance and effective deployment, and leverage OpenWRT (an open-source project based on Linux, and used on embedded devices to route network traffic) and mwan3 package (for wan interfaces management) to implement its functionalities, detail information can be found at: SDWAN Module Design: ICN - SDEWAN
SDEWAN controller: Huifeng Le (Deactivated) cheng1.li ruoyu.ying
Cloud Storage:
Cloud Storage which used by BPA Rest Agent to provide storage service for image objects with binary, container and operating system. There are 2 solutions, MinIO and GridFS, with the consideration of Cloud native and Data reliability, we propose to use MinIO, which is CNCF project for object storage and compatible with Amazon S3 API, and provide language plugins for client application, it is also easy to deploy in Kubernetes and flexible scale-out. MinIO also provide storage service for HTTP Server. Since MinIO need export volume in bootstrap, local-storage is a simple solution but lack of reliability for the data safety, we will switch to reliability volume provided by Ceph CSI RBD in next release. Detail information can be found at: Cloud Storage Design
Software components:
Components | Link | Akraino Release target |
Provision stack - Metal3 | R2 | |
Host Operating system | Ubuntu 18.04 | R2 |
NIC drivers | R2 | |
ONAP | R2 | |
Workloads | OpenWRT SDWAN - https://openwrt.org/ | R2 |
KUD | R2 | |
Kubespray | R2 | |
K8s | R2 | |
Docker | https://github.com/docker - 18.09 | R2 |
Virtlet | R2 | |
SDN - OVN | R2 | |
OpenvSwitch | https://github.com/openvswitch/ovs - 2.10.1 | R2 |
Ansible | https://github.com/ansible/ansible - 2.7.10 | R2 |
Helm | https://github.com/helm/helm - 2.9.1 | R2 |
Istio | https://github.com/istio/istio - 1.0.3 | R2 |
Rook/Ceph | R2 | |
MetalLB | R2 | |
Device Plugins | https://github.com/intel/intel-device-plugins-for-kubernetes - SRIOV | R2 |
Node Feature Discovery | R2 | |
CNI | https://github.com/coreos/flannel/ - release tag v0.11.0 https://github.com/containernetworking/cni - release tag v0.7.0 https://github.com/containernetworking/plugins - release tag v0.8.1 https://github.com/containernetworking/cni#3rd-party-plugins - Multus v3.3tp, SRIOV CNI v2.0( with SRIOV Network Device plugin) | R2 |
Hardware and Software Management
Software Management
ICN BP R2 Timelines
Hardware Management
Hostname | CPU Model | Memory | Storage | 1GbE: NIC#, VLAN, (Connected extreme 480 switch) | 10GbE: NIC# VLAN, Network (Connected with IZ1 switch) |
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Jump | 2xE5-2699 | 64GB | 3TB (Sata) | IF0: VLAN 110 (DMZ) | IF2: VLAN 112 (Private) |
node1 | 2xE5-2699 | 64GB | 3TB (Sata) | IF0: VLAN 110 (DMZ) | IF2: VLAN 112 (Private) |
node2 | 2xE5-2699 | 64GB | 3TB (Sata) | IF0: VLAN 110 (DMZ) | IF2: VLAN 112 (Private) |
node3 | 2xE5-2699 | 64GB | 3TB (Sata) | IF0: VLAN 110 (DMZ) | IF2: VLAN 112 (Private) |
node4 | 2xE5-2699 | 64GB | 3TB (Sata) | IF0: VLAN 110 (DMZ) | IF2: VLAN 112 (Private) |
node5 | 2xE5-2699 | 64GB | 3TB (Sata) | IF0: VLAN 110 (DMZ) | IF2: VLAN 112 (Private) |
Licensing
GNU/common license
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