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7. User can additionally check the log files to track the progress of edge site installation, by logging into the regional_node_ip via ssh, and running this command: tail -f /var/log/akraino/scriptexecutor.log

Tempest Tests

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OpenStack stack output show ats-demo --all

Field      

Value                                                                                 

client_url

{

"output_value": "http://192.168.48.223:8089/", 
"output_key": "client_url", 
"description": "URL for client"

}

client_ip

{

"output_value": "192.168.48.223",
"output_key": "client_ip", 
"description": "IP of the client"

}

server_url 

{

"output_value": "http://192.168.48.226:8080/bbb_sunflower_1080p_30fps_normal.mp4",
"output_key": "server_url", 
"description": "URL for server"

}

server_ip  

{

"output_value": "192.168.48.226",
"output_key": "server_ip", 
"description": "IP of the server"

}



Info

VNF can also be on-boarded using ONAP. Refer the documentation.


Appendix

Edge Site Configuration - Rover (Single-Node Cluster)

This configuration file is written as a series of shell key/value assignments.

Sample input file template with all required parameters are provided in the ‘Build or Deploy an Edge Node' section.

Key Name(s)

Notes

Example

SRV_NAME

Server hostname
SRV_NAME=aknode45

SRV_OOB_IP SRV_OOB_USR SRV_OOB_PWD

Out-of-band interface information for the server (iDRAC, ilo, etc.)
SRV_OOB_IP=192.168.41.45
SRV_OOB_USR=root
SRV_OOB_PWD=XXXXXXXX

SRV_MAC

MAC address of the server used during the build
SRV_MAC=3c:fd:fe:b8:02:90

SRV_OEM

Server OEM: Dell or HPE (case sensitive)
SRV_OEM=Dell

SRV_IPXE_INF SRV_BLD_INF SRV_BOOT_DEVICE

Network interface used during the build when ipxe.efi and the OS are booted
SRV_IPXE_INF=net8
SRV_BLD_INF=enp135s0f0
SRV_BOOT_DEVICE=sdg

SRV_BLD_SCRIPT

ipxe script based on the OS version and target kernel. Valid values are script-hwe-16.04.4-amd64.ipxe or script-16.04.4-amd64.ipxe

SRV_BLD_SCRIPT=script-hwe-16.04.5-amd64.ipxe

SRV_BIOS_TEMPLATE SRV_BOOT_TEMPLATE SRV_HTTP_BOOT_DEV

XML template used to set BIOS and RAID configuration.
SRV_BIOS_TEMPLATE=dell_r740_g14_uefi_base.xml.template
SRV_BOOT_TEMPLATE=dell_r740_g14_uefi_httpboot.xml.template
SRV_HTTP_BOOT_DEV=NIC.Slot.7-1-1
SRV_FIRSTBOOT_TEMPLATE

Template for script to run on first boot to setup the server. Current options are:

firstboot.sh.template
firstboot-genesis.sh.template
firstboot-airship-iab.sh.template

SRV_FIRSTBOOT_TEMPLATE=firstboot.sh.template

SRV_VLAN

VLAN to use during the build and final network configuration
SRV_VLAN=41

SRV_MTU SRV_IP SRV_SUBNET SRV_NETMASK SRV_GATEWAY SRV_DNS SRV_DOMAIN SRV_DNSSEARCH SRV_NTP

Basic network information for DHCP configuration and final server network settings
SRV_MTU=9000
SRV_IP=192.168.2.45
SRV_SUBNET=192.168.2.0
SRV_NETMASK=255.255.255.0
SRV_GATEWAY=192.168.2.200
SRV_DNS=192.168.2.85
SRV_DOMAIN=lab.akraino.org
SRV_DNSSEARCH=lab.akraino.org
SRV_NTP=ntp.ubuntu.org

SRV_PWD

Root password for the server being built
SRV_PWD=XXXXXXXX

SRV_BOND

SRV_SLAVE1

SRV_SLAVE2

Network bond information
SRV_BOND=bond0
SRV_SLAVE1=enp135s0f0
SRV_SLAVE2=enp135s0f1


Create New Edge Site locations

Info

The Akraino seed code comes with default two sites: MTN1, MTN2 representing two lab sites in Middletown, NJ. This step of connecting to the database and creating edge_site records are only required if the user wishes to deploy on other sites.

To deploy a Rover (Single-Node Cluster) Edge Node, perform the following steps:

  • Check if the Akraino (Docker Containers) packages are stood up.
  • Connect to PostgreSQL database providing the host IP (name).
Code Block
languagebash
jdbc:postgresql://<IP-address-of-DB-host>:6432/postgres
user name = admin
password = abc123


Info
use ‘pgAdmin |||’ Postgres client tool or connect to Postgres DB using SQL interface  


  • Execute the following SQL insert, bearing in mind these value substitutions:
    • edge_site_id: Any unique increment value. This is usually 1 but does not have to be.
    • edge_site_name: Human-readable Edge Node name.
    • region_id: Edge Node region number. Use select * from akraino.Region; to determine the appropriate value. Observe the region number associations returned from the query: Use 1 for US East, 2 for US West, and so on.

Code Block
languagebash
> insert into akraino.edge_site(edge_site_id, edge_site_name, crt_login_id, crt_dt, upd_login_id, upd_dt, region_id)
  values( 1, 'Atlanta', user, now(), user, now(),1);


ONAP Configuration

This configuration file is written as a YAML dictionary named parameters.

This dictionary will be selectively inserted into the ONAP VM environment file, depending on overall configuration.

Key Name

Notes

Example

public_net_nameThe name assigned to the OpenStack network that will be created and used by the ONAP VM. An existing network may be used by referencing its name here.
public_net_name: public
public_physical_net_provider_nameThe physical provider network name for the public network. CAUTION: If the physical provider network cannot be found, the automated deployment process will terminate with an error.
  # Assume vlan50 is the VLAN created 
  # for the OpenStack Project (tenant)
  public_physical_net_provider_name: vlan50
provider_segmentation_idThe VLAN tag of the physical provider network
  # Assume vlan50
  provider_segmentation_id: 50
public_physical_net_typeThe physical network type. Specify VLAN or flatNOTE:When flat is in use, provider_segmentation_id will be ignored. 
  public_physical_net_type: vlan
public_subnet_nameThe subnet name. An existing subnet may be used by referencing its name here.
  public_subnet_name: public-subnet
public_subnet_cidrThe subnet’s CIDR. The ONAP VM will be assigned an IP within this subnet. 
  public_subnet_cidr: 192.168.102.0/24
public_subnet_allocation_startThe allocation start of the IP pool. Together with public_subnet_allocation_end it defines the range of IPs assigned to VMs.
  public_subnet_allocation_start: 192.168.102.100
public_subnet_allocation_endThe allocation end of the IP pool. Together with public_subnet_allocation_start it defines the range of IPs assigned to VMs.
  public_subnet_allocation_end: 192.168.102.200
public_subnet_dns_nameserverThe subnet's DNS server
  public_subnet_dns_nameserver: 8.8.8.8
public_subnet_gateway_ipThe subnet's Gateway IP
  public_subnet_gateway_ip: 192.168.102.1
flavor_nameVM flavor for the ONAP VM. The installation creates m1.onapx1.onapxx1.onap flavors, all of which are recommended for use.
  flavor_name: x1.onap
onap_vm_public_keyThe public key used to access the ONAP VM. A URL pointing to the key may be used here.
  onap_vm_public_key: PUBLIC_KEY
http_proxyOptional http proxy URL including port. If the network is accessible without a proxy, please leave empty.
  http_proxy: http://proxy.yourdomain.com:8888
https_proxyOptional https proxy URL including the port. If the network is accessible without a proxy, please leave empty.
  https_proxy: https://proxy.yourdomain.com:8888
no_proxyOptional list of domains, IPs, and CIDRs that do not require a proxy, separated by commas. Do not use spaces. If the network is accessible without a proxy, please leave empty.
  no_proxy: 127.0.0.1
keystone_admin_passwordThe keystone admin password. 
  keystone_admin_password: XXXXXXXX
onap_tenant_passwordThe keystone password for the ONAP project (formerly known as a tenant in OpenStack parlance). 
  onap_tenant_password: XXXXXXXX
onap_artifacts_http_repoOptional HTTP repository URL for ONAP artifacts. When deploying a self-contained Edge Node without Internet access, all ONAP artifacts must be downloaded from ONAP Nexus to a HTTP server, using this URL. If HTTP is not being used to download artifacts, please leave empty.
  onap_artifacts_http_repo: http://192.168.102.220/onap