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- To create secure overlays where each overlay connects application and hub clusters together.
- To allow application connectivity with external entities and entities of other clusters.
System Architecture
SDEWAN central controller The system includes the following components micro-services as showed in below diagram:
- Web UI: a HTML5 based web UI to provide configuration of Application Cluster Registration, Hub Registration, Overlay, Application/Service Registration and Status tracking.
- API Server: Exports Restful API for Application Cluster management, Hub management, Overlay management, Status monitoring management, logging.
- Scheduler ManagerSDEWAN Central Controller:
- API Router: provides REST API router for SDEWAN Central Controller
- OverlayObjectManager: overlay registration, generate overlay root cert
- HubObjectManager: hub registration and setup hub connection mesh
- DeviceObjectManager: device/cluster registration and setup device connection mesh (if device has public IP)
- HubDeviceObjectManager: setup connection between hub and device
- IPRangeObjectManager: ip range registration and allocate/free overlay ip for device
- ProposalObjectManager: proposal registration
- DeviceConnManager: only support GET, query connection status of device
- HubConnObjectManager: only support GET, query connection status of hub
- Observability framework: system status monitoring, including connection status, CNF status etc.
- Rsync: a daemon service which accepts request from API server from SDEWAN Central Controller (through RPC) then generates deploy relevant K8s CRs of SD-EWAN CNFs of various hubs and edges to establish the tunnels.
- SDEWAN Management Mongo DB: a database to store information such as edge clusters, hubs, overlays, ip addresses, application/services etc.
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- Etcd: a metadata database to exchange configuration information between SDEWAN Central Controller and Rsync
System Design
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Assumption
IP
- Central Cloud has public IP as CIP
- Traffic Hub has public IP as HIP1 HIP2, ...
- Edge Location (Device) may have public IP in one edge node as EIP1, ... or don't have public IP (behind a gateway as EGIP1, ...)
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Restful API definition and Back-End flow
Resource | Description | URL | Fields | Back-End flow |
---|---|---|---|---|
Overlay | Define a group of edge location clusters (devices) and hubs, a overlay is usually owned by one customer and full mesh connections are setup automacally between hub-hub and device-device (with public IPs) | /scc/v1/overlays |
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Registration:
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Proposal | Define proposals which can be used for IPsec tunnel in this overlay | /scc/v1/ |
overlays/{overlay-name}/proposals |
| Registration:
|
Hub | Define a traffic Hub in an overlay | /scc/v1/overlays/{overlay-name)/hubs |
Register Hub:
- Trigger: Admin add/update hub information in Web UI or Remote Client Call with below informations:
- Name, Description
- Public IP address list
- Managed IP ( ? )
- Shared flag (whether the hub can be shared cross overlays)
- Overlay name
- CertificateId
- Kubeconfig
- Steps:
- Save in DB
Setup control plane host-host tunnel with Central Cloud (e.g. Add a new IPSec policy in Central Cloud CNF with: left: CIP, right: HIP, CertificateId)
Opens:
- In case multiple public IPs, needs to define which HIP (Managed IP?) should be used in connection with Central Cloud - Yes?
Flow: Edge Location
Register Edge Location:
- Trigger: Admin add/update edge location information in Web UI or Remote Client Call with below informations:
- Name, Description
- External IP address (empty if no public IP)
- Flag as force Hub connectivity (Valid if external public IP is not empty)
- Flag as use Hub for internet connectivity
- Flag as Dedicated SFC
- Number of overlay IP addresses
- CertificateId
- Kubeconfig
- Owned Hub id
- Owned Hub port (optional, used as proxy for Edge location's k8s server)
- Steps:
- Save in DB
if public ip is not empty, Setup host-host tunnel with Central Cloud (e.g. Add a new IPSec policy in Central Cloud CNF with: left: CIP, right: EIP, CertificateId)if public ip is empty, no more actions (suppose the tunnel had been setup after edge location setup)- if Owned Hub port is none, auto assign a port, then Setup DNAT rule (if DesPort: Owned Hub Port then change Destination IP: EOIP, DesPort: 443) in SDEWAN CNF of Owned Hub
- Verify connection to Edge location's k8s API server
Opens:
- the OIP for control plane (with Central Cloud) will be generated by Hub responder, shall this OIP be used for data plane (e.g. edge1↔hub↔edge2) in Add-edge-location flow in overlay, and the Number of overlay IP address will be used to block Add-edge-location flow if exceeded?
Flow: Overlay
Add-basic-information:
- Trigger: Admin add/update edge location information in Web UI or Remote Client Call with below informations:
- Name, Description
- CertificateId
- Overlay IP ranges
- Steps:
- Save in DB
Opens:
- Can overlay IP ranges be same for different overlay? (Suppose "yes" as supposing the edges belongs to different overlays will not communicate even share the same hub)
- How to avoid EMCO deploy different microservices of one application into different overlays?
Add-hub:
- Trigger: Admin add/update hub overlay information in Web UI or Remote Client Call with below informations:
- Overlay name
- hub name
- Hub ip (if hub has more than 1 public IPs)
- Hub overlay ip ranges
- Steps:
- Save hub list information in DB
- Setup hub-hub tunnel (data plane): e.g. left: HIP1, right: HIP2, overlay CertificateId
Setup hub as responder of edge-hub tunnel (data plane): e.g. left: HIP, leftsubnet: Hub overlay ip subnet, rightsourceip: Hub overlay ip ranges
Opens:
- Does it need define overlay ip ranges special for a hub or use overlay's ip range directly?
- Can 2 Hub setup 2 channels with different masks/interface ids (Need check)?
- How to keep monitoring and restart IPsec tunnel if failed? - Enable IPsec DPD (Dead Peer Detection)
Add-edge-location:
- Trigger: Admin add/update application cluster overlay information in Web UI or Remote Client Call with below information:
- Overlay name
- edge location name
- connected Hub name(s)
- Steps:
- Save application cluster overlay information in DB
Setup edge-hub tunnel with first hub (data plane): e.g. as Initiator - left: %any, leftsourceip:%config, right: HIP, rightsubnet:0.0.0.0/0, overlay CertificateIdGet the assigned OIP, save to DB and broadcast to other hubs (add to exclude list of its responder - Need to check how to do it)- Setup edge-hub tunnel with all hubs (data plane): e.g. as host-host tunnel
- Edge - left: EOIP, right: HIP, overlay's CertificateId
- Hub - left: HIP, right: EOIP, overlay's CertificateId
Opens:
- Suppose a edge location can only belong to one overlay at the same time? - Yes and hub is only belong to one overlay, right?
- Can edge location connected to more than 1 hubs? if yes, Can it be assigned multiple OIPs from different hubs? - Yes
For edge with public ip, does it need setup Initiator-responder tunnel or host-host tunnel with hub?- Does it need configuration in Overlay to configure edge-edge tunnel (support one edge has public ip) and in which flow?
Flow: Application Connection
Add-application-rule:
- Trigger: Admin add/update application crule in Web UI or Remote Client (ONAP4K8s connectivity orchestrator?) Call with below informations:
- Application name
- Deployed edge location name
- Firewall/SNAT/DNAT
- Steps:
- Save application rule information in DB
- Setup openwrt rules in SDEWAN CNF of edge location
Add-application2application-rule:
- Trigger: Admin add/update application crule in Web UI or Remote Client (ONAP4K8s connectivity orchestrator?) Call with below informations:
- Application1 name
- Application2 name, port
- Edge location1 names for application1
- Edge location2 names for application2
- Steps:
- Save application2application rule information in DB
- Setup openwrt SNAT rule of SDEWAN CNF for edge location1
- Setup openwrt DNAT rule of SDEWAN CNF for edge location2
- Setup ip route rule in hubs between edge location1 and edge location2
Opens:
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| Registration:
| |||
IPRange | Define the overlay IPrange which will be used as OIP of devices | /scc/v1/overlays/{overlay-name}/ipranges |
| Registration:
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Device | Define a edge location device information which may be a CNF, VNF or PNF | /scc/v1/overlays/{overlay-name}/devices |
| Registration:
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Hub-device connection | Define a connection between hub and device | /scc/v1/overlays/{overlay-name}/hubs/{hub-name}/devices/{device-name} |
| Create:
Todo: Confirm "ip route" rule for OIP in this hub and all other hub are setup automatically or need new CR to execute linux shell in host |
Error handling
DB Schema
Module Design
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