Install Orchestrator
This page walks through a full, vanilla Orchestrator install.
If you want to install a specific release version, see the notes in the deployment intro.
Prerequisites
We assume MAGMA_ROOT is set as described in the
deployment intro.
This walkthrough assumes you already have the following
- a registered domain name
- a blank AWS account
- an AWS credential with admin permissions
If your AWS account is not blank, this can cause errors while Terraforming. If you know what you're doing, this is fine - otherwise, consider signing up for a new account.
Finally, our install process assumes the chosen region contains at least 3 availability zones. This should be the case for all major regions.
Assemble Certificates
Before Terraforming specific resources, we'll assemble the relevant certificates.
First, create a local directory to hold the certificates you will use for your Orchestrator deployment. These certificates will be uploaded to AWS Secrets Manager and you can delete them locally afterwards.
mkdir -p ~/secrets/certs
cd ~/secrets/certs
You will need the following certificates and private keys placed in this directory
- The public SSL certificate for your Orchestrator domain,
with
CN=*.yourdomain.com. This can be an SSL certificate chain, but it must be in one file - The private key which corresponds to the above SSL certificate
- The root CA certificate which verifies your SSL certificate
If you aren't worried about a browser warning, you can generate self-signed versions of these certs
${MAGMA_ROOT}/orc8r/cloud/deploy/scripts/self_sign_certs.sh yourdomain.com
Alternatively, if you already have these certs, rename and move them as follows
- Rename your public SSL certificate to
controller.crt - Rename your SSL certificate's private key to
controller.key - Rename your SSL certificate's root CA certificate to
rootCA.pem - Put these three files under the directory you created above
Next, with the domain certs placed in the correct directory, generate the application certs
${MAGMA_ROOT}/orc8r/cloud/deploy/scripts/create_application_certs.sh yourdomain.com
NOTE: yourdomain.com above should match the relevant Terraform variables in
subsequent sections. For example, if in main.tf the orc8r_domain_name is
orc8r.yourdomain.com, then that same domain should be used when requesting
or generating all the above certs.
Finally, create the admin_operator.pfx file, protected with a password of
your choosing
$ openssl pkcs12 -export -inkey admin_operator.key.pem -in admin_operator.pem -out admin_operator.pfx
Enter Export Password:
Verifying - Enter Export Password:
admin_operator.pem and admin_operator.key.pem are the files that NMS will
use to authenticate itself with the Orchestrator API. admin_operator.pfx is
for you to add to your keychain if you'd like to use the Orchestrator REST API
directly (on macOS, double-click the admin_operator.pfx file and add it to
your keychain, inputting the same password chosen above).
The certs directory should now look like this
$ ls -1 ~/secrets/certs/
admin_operator.key.pem
admin_operator.pem
admin_operator.pfx
bootstrapper.key
certifier.key
certifier.pem
controller.crt
controller.key
fluentd.key
fluentd.pem
rootCA.pem
rootCA.key
Install Orchestrator
With the relevant certificates assembled, we can move on to Terraforming the infrastructure and application.
Initialize Terraform
Create a new root Terraform module in a location of your choice by creating a
new main.tf file. Follow the example Terraform root module at
orc8r/cloud/deploy/terraform/orc8r-helm-aws/examples/basic but make sure to
override the following parameters
nms_db_passwordmust be at least 8 charactersorc8r_db_passwordmust be at least 8 charactersorc8r_domain_nameyour registered domain namedocker_registryregistry containing desired Orchestrator containersdocker_userdocker_passhelm_reporepo containing desired Helm chartshelm_userhelm_passseed_certs_dir: local certs directory (e.g."~/secrets/certs")orc8r_tag: tag used when you published your Orchestrator containersorc8r_deployment_type: type of orc8r deployment (fwa,federated_fwa,all)
If you don't know what values to put for the docker_* and helm_* variables,
go through the building Orchestrator section first.
Make sure that the source variables for the module definitions point to
github.com/magma/magma//orc8r/cloud/deploy/terraform/<module>?ref=v1.4.
Adjust any other parameters as you see fit - check the READMEs for the
relevant Terraform modules to see additional variables that can be set.
Finally, initialize Terraform
$ terraform init
Initializing modules...
Initializing the backend...
Initializing provider plugins...
Terraform has been successfully initialized!
Terraform Infrastructure
The two Terraform modules are organized so that orc8r-aws contains all the
resource definitions for the cloud infrastructure that you'll need to run
Orchestrator and orc8r-helm-aws contains all the application components
behind Orchestrator. On the very first installation, you'll have to
terraform apply the infrastructure before the application. On later changes
to your Terraform root module, you can make all changes at once with a single
terraform apply.
With your root module set up, run
$ terraform apply -target=module.orc8r
# NOTE: actual resource count will depend on your root module variables
Apply complete! Resources: 70 added, 0 changed, 0 destroyed.
This terraform apply will create a
kubeconfig
file in the same directory as your root Terraform module. To access the
K8s cluster, either set your KUBECONFIG environment variable to point to this
file or pull this file into your default kubeconfig file at ~/.kube/config.
For example, with the realpath utility
installed, you can set the kubeconfig with
export KUBECONFIG=$(realpath kubeconfig_orc8r)
Terraform Secrets
From your same root Terraform module, seed the certificates and secrets we generated earlier by running
$ terraform apply -target=module.orc8r-app.null_resource.orc8r_seed_secrets
Apply complete! Resources: 1 added, 0 changed, 0 destroyed.
The secrets should now be successfully uploaded to AWS Secrets Manager.
NOTE: if this isn't your first time applying the orc8r_seed_secrets resource,
you'll need to first
terraform taint module.orc8r-app.null_resource.orc8r_seed_secrets.
Terraform Application
With the underlying infrastructure and secrets in place, we can now install the Orchestrator application.
From your same root Terraform module, install the Orchestrator application by running
$ terraform apply
Apply complete! Resources: 16 added, 0 changed, 0 destroyed.
Create an Orchestrator Admin User
The NMS requires some basic certificate-based authentication when making calls to the Orchestrator API. To support this, we need to add the relevant certificate as an admin user to the controller.
NOTE: in the below kubectl commands, use the -n flag, or
kubens, to select the appropriate K8s
namespace (by default this is orc8r). Also, assumes kubeconfig is set
correctly from above.
Create the Orchestrator admin user with the admin_operator certificate
created earlier
export ORC_POD=$(kubectl get pod -n orc8r -l app.kubernetes.io/component=orchestrator -o jsonpath='{.items[0].metadata.name}')
kubectl -n orc8r exec ${ORC_POD} -- envdir /var/opt/magma/envdir /var/opt/magma/bin/accessc add-existing -admin -cert /var/opt/magma/certs/admin_operator.pem admin_operator
If you want to verify the admin user was successfully created, inspect the output from
$ kubectl -n orc8r exec ${ORC_POD} -- envdir /var/opt/magma/envdir /var/opt/magma/bin/accessc list-certs
# NOTE: actual values will differ
Serial Number: 83550F07322CEDCD; Identity: Id_Operator_admin_operator; Not Before: 2020-06-26 22:39:55 +0000 UTC; Not After: 2030-06-24 22:39:55 +0000 UTC
At this point, you can rm -rf ~/secrets to remove the certificates from your
local disk (we recommend this for security). If you ever need to update your
certificates, you can create this local directory again and terraform taint
the null_resource to re-upload local certificates to Secrets Manager. You'll
also need to add a new admin user with the updated admin_operator cert.
Create an NMS Admin User
Create an admin user for the master organization on the NMS
export NMS_POD=$(kubectl -n orc8r get pod -l app.kubernetes.io/component=magmalte -o jsonpath='{.items[0].metadata.name}')
kubectl -n orc8r exec -it ${NMS_POD} -- yarn setAdminPassword master ADMIN_USER_EMAIL ADMIN_USER_PASSWORD
DNS Resolution
EKS has been set up with ExternalDNS, so AWS Route53 will already have the appropriate CNAME records for the relevant subdomains of Orchestrator at this point. You will need to configure your DNS records on your managed domain name to use the Route53 nameservers in order to resolve these subdomains.
The example Terraform root module has an output nameservers which will list
the Route53 nameservers for the hosted zone for Orchestrator. Access these
via terraform output (you have probably already noticed identical output
from every terraform apply). Output should be of the form:
Outputs:
nameservers = [
"ns-xxxx.awsdns-yy.org",
"ns-xxxx.awsdns-yy.co.uk",
"ns-xxxx.awsdns-yy.com",
"ns-xxxx.awsdns-yy.net",
]
If you chose a subdomain prefix for your Orchestrator domain name in your
root Terraform module, you only need to provide a single NS record to your
domain registrar, mapping the subdomain to the above name servers.
For example, for the subdomain orc8r, this record would notionally take
the form { orc8r -> [ns-xxxx.awsdns-yy.org, ...] }.
If you didn't choose a subdomain prefix, then you can still point the whole domain to AWS via the single NS record. Alternatively, if this is undesirable, provide NS records for each of the following subdomains
- nms
- controller
- bootstrapper-controller
- api
For example, for the domain mydomain, these records would notionally take
the form
{ nms -> [ns-xxxx.awsdns-yy.org, ...], controller -> [ns-xxxx.awsdns-yy.org, ...], ... }.
Verify the Deployment
After a few minutes the NS records should propagate. Confirm successful
deployment by visiting the master NMS organization at e.g.
https://master.nms.yoursubdomain.yourdomain.com and logging in with the
ADMIN_USER_EMAIL and ADMIN_USER_PASSWORD provided above.
NOTE: the https:// is required. If you self-signed certs above, the browser
will rightfully complain. Either ignore the browser warnings at your own risk
(some versions of Chrome won't allow this at all), or e.g.
import the root CA from above on a per-browser basis
.
For interacting with the Orchestrator REST API, a good starting point is the
Swagger UI available at https://api.yoursubdomain.yourdomain.com/apidocs/v1/.
If desired, you can also visit the AWS endpoints directly. The relevant
services are nginx-proxy for NMS and orc8r-nginx-proxy for Orchestrator
API. Remember to include https://, as well as the port number for
non-standard TLS ports.
$ kubectl get services
# NOTE: values will differ, e.g. the EXTERNAL-IP column
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
fluentd LoadBalancer 172.20.213.111 aaa.us-west-2.elb.amazonaws.com 24224:31621/TCP 3h13m
magmalte ClusterIP 172.20.197.108 <none> 8081/TCP 3h13m
nginx-proxy LoadBalancer 172.20.1.201 www.us-west-2.elb.amazonaws.com 443:32422/TCP 3h13m
orc8r-accessd ClusterIP 172.20.128.137 <none> 9180/TCP 3h13m
orc8r-alertmanager ClusterIP 172.20.165.206 <none> 9093/TCP 3h13m
orc8r-alertmanager-configurer ClusterIP 172.20.92.62 <none> 9101/TCP 3h13m
orc8r-analytics ClusterIP 172.20.152.243 <none> 9180/TCP 3h13m
orc8r-bootstrap-nginx LoadBalancer 172.20.232.199 xxx.us-west-2.elb.amazonaws.com 80:31116/TCP,443:31302/TCP,8444:31093/TCP 3h13m
orc8r-bootstrapper ClusterIP 172.20.65.124 <none> 9180/TCP 3h13m
orc8r-certifier ClusterIP 172.20.89.150 <none> 9180/TCP 3h13m
orc8r-clientcert-nginx LoadBalancer 172.20.143.232 yyy.us-west-2.elb.amazonaws.com 80:30546/TCP,443:31400/TCP,8443:30781/TCP 3h13m
orc8r-configurator ClusterIP 172.20.56.203 <none> 9180/TCP 3h13m
orc8r-ctraced ClusterIP 172.20.134.117 <none> 9180/TCP 3h13m
orc8r-device ClusterIP 172.20.103.126 <none> 9180/TCP 3h13m
orc8r-directoryd ClusterIP 172.20.4.31 <none> 9180/TCP 3h13m
orc8r-dispatcher ClusterIP 172.20.124.178 <none> 9180/TCP 3h13m
orc8r-ha ClusterIP 172.20.201.112 <none> 9180/TCP 3h13m
orc8r-lte ClusterIP 172.20.225.103 <none> 9180/TCP,8080/TCP 3h13m
orc8r-metricsd ClusterIP 172.20.159.39 <none> 9180/TCP,8080/TCP 3h13m
orc8r-nginx-proxy LoadBalancer 172.20.52.234 zzz.us-west-2.elb.amazonaws.com 80:30034/TCP,8443:31884/TCP,8444:31829/TCP,443:30124/TCP 3h13m
orc8r-obsidian ClusterIP 172.20.41.215 <none> 9180/TCP,8080/TCP 3h13m
orc8r-orchestrator ClusterIP 172.20.172.120 <none> 9180/TCP,8080/TCP 3h13m
orc8r-policydb ClusterIP 172.20.95.10 <none> 9180/TCP,8080/TCP 3h13m
orc8r-prometheus ClusterIP 172.20.65.141 <none> 9090/TCP 3h13m
orc8r-prometheus-cache ClusterIP 172.20.111.91 <none> 9091/TCP,9092/TCP 3h13m
orc8r-prometheus-configurer ClusterIP 172.20.106.4 <none> 9100/TCP 3h13m
orc8r-service-registry ClusterIP 172.20.146.78 <none> 9180/TCP 3h13m
orc8r-smsd ClusterIP 172.20.63.198 <none> 9180/TCP,8080/TCP 3h13m
orc8r-state ClusterIP 172.20.185.245 <none> 9180/TCP 3h13m
orc8r-streamer ClusterIP 172.20.57.35 <none> 9180/TCP 3h13m
orc8r-subscriberdb ClusterIP 172.20.238.111 <none> 9180/TCP,8080/TCP 3h13m
orc8r-tenants ClusterIP 172.20.173.57 <none> 9180/TCP,8080/TCP 3h13m
orc8r-user-grafana ClusterIP 172.20.149.141 <none> 3000/TCP 3h13m
Upgrade the Deployment
You can upgrade the deployment by changing one or both of the following
variables in your root Terraform module, before running terraform apply
orc8r_tagcontainer image versionorc8r_chart_versionHelm chart version
Changes to the Terraform modules between releases may require some updates to your root Terraform module - these will be communicated in release notes.