This document shows you how to deploy a regional internal Application Load Balancer with Cloud Run. To set this up, you use a serverless NEG backend for the load balancer.
Before you try this procedure, make sure you are familiar with the following topics:
The guide shows you how to configure an Application Load Balancer that proxies requests to a serverless NEG backend.
Serverless NEGs let you use Cloud Run services with your load balancer. After you configure a load balancer with the serverless NEG backend, requests to the load balancer are routed to the Cloud Run backend.
Before you begin
Install Google Cloud SDK
Install the Google Cloud CLI tool. See gcloud overview for conceptual and installation information about the tool.
If you haven't run the gcloud CLI previously, first run
gcloud init
to initialize your gcloud
directory.
Deploy a Cloud Run service
The instructions on this page assume you already have a Cloud Run service running.
For the example on this page, you can use any of the Cloud Run quickstarts to deploy a Cloud Run service.
The serverless NEG, the load balancer, and any client VMs must be in the same region as the Cloud Run service.To prevent access to the Cloud Run service from the
Internet, restrict ingress to internal
. Traffic
from the internal Application Load Balancer is considered internal traffic.
gcloud run deploy CLOUD_RUN_SERVICE_NAME \ --platform=managed \ --allow-unauthenticated \ --ingress=internal \ --region=REGION \ --image=IMAGE_URL
Note the name of the service that you create. The rest of this page shows you how to set up a load balancer that routes requests to this service.
Configure permissions
To follow this guide, you need to create a serverless NEG and create a load balancer in a project. You must be either a project owner or editor, or you have the following Compute Engine IAM roles and permissions:
Task | Required role |
---|---|
Create load balancer and networking components | Network Admin |
Create and modify NEGs | Compute Instance Admin |
Create and modify SSL certificates | Security Admin |
Configure the network and subnets
To configure the network and its subnets, you'll perform the following tasks:
- Create a VPC network and subnet.
- Create a proxy-only subnet.
Create the VPC network
Create a custom mode VPC network, then the subnets that you want within a region.
Console
In the Google Cloud console, go to the VPC networks page.
Click Create VPC network.
For Name, enter
lb-network
.For Subnet creation mode, select Custom.
In the New subnet section, specify the following configuration parameters for a subnet:
- For Name, enter
lb-subnet
. - Select a Region.
- For IP address range, enter
10.1.2.0/24
. - Click Done.
- For Name, enter
Click Create.
gcloud
Create the custom VPC network by using the
gcloud compute networks create
command:gcloud compute networks create lb-network --subnet-mode=custom
Create a subnet in the
lb-network
network. This example uses an IP address range of10.1.2.0/24
for the subnet. You can configure any valid subnet range.gcloud compute networks subnets create lb-subnet \ --network=lb-network \ --range=10.1.2.0/24 \ --region=REGION
Create a proxy-only subnet
Create a proxy-only subnet for all regional Envoy-based load
balancers in a
specific region of the lb-network
network.
Console
In the Google Cloud console, go to the VPC networks page.
Click the name of the Shared VPC network that you want to add the proxy-only subnet to.
Click Add subnet.
In the Name field, enter
proxy-only-subnet
.Select a Region.
Set Purpose to Regional Managed Proxy.
Enter an IP address range as
10.129.0.0/23
.Click Add.
gcloud
Create the proxy-only subnet by using the
gcloud compute networks subnets create
command.This example uses an IP address range of
10.129.0.0/23
for the proxy-only subnet. You can configure any valid subnet range.gcloud compute networks subnets create proxy-only-subnet \ --purpose=REGIONAL_MANAGED_PROXY \ --role=ACTIVE \ --region=REGION \ --network=lb-network \ --range=10.129.0.0/23
Create the load balancer
In the following diagram, the load balancer uses a serverless NEG backend to direct requests to a serverless Cloud Run service.
Traffic going from the load balancer to the serverless NEG backends uses special routes defined outside your VPC that are not subject to firewall rules. Therefore, if your load balancer only has serverless NEG backends, you don't need to create firewall rules to allow traffic from the proxy-only subnet to the serverless backend.
Console
Start your configuration
In the Google Cloud console, go to the Load balancing page.
- Click Create load balancer.
- For Type of load balancer, select Application Load Balancer (HTTP/HTTPS) and click Next.
- For Public facing or internal, select Internal and click Next.
- For Cross-region or single region deployment, select Best for regional workloads and click Next.
- Click Configure.
Basic configuration
- For the name of the load balancer, enter
serverless-lb
. - Select the Network as
lb_network
. - Keep the window open to continue.
Configure the frontend
- Before you proceed, make sure you have an SSL certificate.
- Click Frontend configuration.
- Enter a Name.
- To configure an internal Application Load Balancer, fill in the fields as follows.
- Under Protocol, select HTTPS.
- Under Subnetwork, select the subnetwork.
- Under IP version, select IPv4.
- Under IP address, select Ephemeral.
- Under Port, select
443
. Under Certificate, select an existing SSL certificate or create a new certificate.
The following example shows you how to create Compute Engine SSL certificates:
- Click Create a new certificate.
- In the Name field, enter a name.
- In the appropriate fields, upload your PEM-formatted files:
- Certificate
- Private key
- Click Create.
- Optional: To create an HTTP load balancer, do the following:
- Under Protocol, select HTTP.
- Under Subnetwork, select the subnetwork.
- Under IP version, select IPv4.
- Under IP address, select Ephemeral.
- Under Port, select
80
. - Click Done.
If you want to test this process without setting up an SSL certificate resource, you can set up an HTTP load balancer.
Configure the backend services
- Click Backend configuration.
- In the Create or select backend services drop-down menu, hold the pointer over Backend services, and then select Create a backend service.
- In the Create a backend service window, enter a Name.
- Under Backend type, select Serverless network endpoint group.
- Leave Protocol unchanged. This parameter is ignored.
- Under Backends > New backend, select Create serverless network endpoint group.
- In the Create serverless network endpoint group window, enter a Name.
- Under Region, the region of the load balancer is displayed.
- From the Serverless network endpoint group type field, select Cloud Run. Cloud Run is the only supported type.
- Select Select service name.
- From the Service drop-down list, select the Cloud Run service that you want to create a load balancer for.
- Click Done.
- Click Create.
- In the Create backend service window, click Create.
Configure routing rules
Routing rules determine how your traffic is directed. You can direct traffic to a backend service or a Kubernetes service. Any traffic not explicitly matched with a host and path matcher is sent to the default service.
- Click Simple host and path rule.
- Select a backend service from the Backend drop-down list.
Review the configuration
- Click Review and finalize.
- Review the values for Backend, Host and Path rules and Frontend.
- Optional: Click Equivalent Code to view the REST API request that will be used to create the load balancer.
- Click Create. Wait for the load balancer to be created.
- Click the name of the load balancer (serverless-lb).
- Note the IP address of the load balancer for the next task.
gcloud
- Create a serverless NEG for your Cloud Run
service:
gcloud compute network-endpoint-groups create SERVERLESS_NEG_NAME \ --region=REGION \ --network-endpoint-type=serverless \ --cloud-run-service=CLOUD_RUN_SERVICE_NAME
- Create a regional backend service. Set the
--protocol
to HTTP. This parameter is ignored but it is required because the--protocol
otherwise defaults to TCP.gcloud compute backend-services create BACKEND_SERVICE_NAME \ --load-balancing-scheme=INTERNAL_MANAGED \ --protocol=HTTP \ --region=REGION
- Add the serverless NEG as a backend to the backend service:
gcloud compute backend-services add-backend BACKEND_SERVICE_NAME \ --region=REGION \ --network-endpoint-group=SERVERLESS_NEG_NAME \ --network-endpoint-group-region=REGION
- Create a regional URL map to route incoming requests to the backend service:
gcloud compute url-maps create URL_MAP_NAME \ --default-service=BACKEND_SERVICE_NAME \ --region=REGION
This example URL map only targets one backend service representing a single serverless app, so you don't need to set up host rules or path matchers. - Optional: Perform this step if you are using HTTPS between the client and
the load balancer. This step is not required for HTTP load balancers.
You can create either Compute Engine or Certificate Manager certificates. Use any of the following methods to create certificates using Certificate Manager:
- Regional self-managed certificates. For information about creating and using regional self-managed certificates, see deploy a regional self-managed certificate. Certificate maps are not supported.
Regional Google-managed certificates. Certificate maps are not supported.
The following types of regional Google-managed certificates are supported by Certificate Manager:
- Regional Google-managed certificates with per-project DNS authorization. For more information, see Deploy a regional Google-managed certificate.
- Regional Google-managed (private) certificates with Certificate Authority Service. For more information, see Deploy a regional Google-managed certificate with CA Service.
After you create certificates, attach the certificate directly to the target proxy.
To create a regional self-managed SSL certificate resource:gcloud compute ssl-certificates create SSL_CERTIFICATE_NAME \ --certificate CRT_FILE_PATH \ --private-key KEY_FILE_PATH \ --region=REGION
- Create a regional target proxy to route requests to the URL map.
For an HTTP load balancer, create an HTTP target proxy:gcloud compute target-http-proxies create TARGET_HTTP_PROXY_NAME \ --url-map=URL_MAP_NAME \ --region=REGION
For an HTTPS load balancer, create an HTTPS target proxy. The proxy is the portion of the load balancer that holds the SSL certificate for HTTPS Load Balancing, so you also load your certificate in this step.gcloud compute target-https-proxies create TARGET_HTTPS_PROXY_NAME \ --ssl-certificates=SSL_CERTIFICATE_NAME \ --url-map=URL_MAP_NAME \ --region=REGION
- Create a forwarding rule to route incoming requests to the proxy.
Don't use the proxy-only subnet for the forwarding rule IP address. You can
configure any valid IP address from the subnet
(
lb-subnet
).
For an HTTP load balancer:gcloud compute forwarding-rules create HTTP_FORWARDING_RULE_NAME \ --load-balancing-scheme=INTERNAL_MANAGED \ --network=lb-network \ --subnet=lb-subnet \ --target-http-proxy=TARGET_HTTP_PROXY_NAME \ --target-http-proxy-region=REGION \ --region=REGION \ --ports=80
For an HTTPS load balancer:gcloud compute forwarding-rules create HTTPS_FORWARDING_RULE_NAME \ --load-balancing-scheme=INTERNAL_MANAGED \ --network=lb-network \ --subnet=lb-subnet \ --target-https-proxy=TARGET_HTTPS_PROXY_NAME \ --target-https-proxy-region=REGION \ --region=REGION \ --ports=443
Test the load balancer
Now that you have configured your load balancer, you can start sending traffic to the load balancer's IP address.
Create a client VM
This example creates a client VM (vm-client
) in the same region as the
load balancer. The client is used to validate the load balancer's configuration
and demonstrate expected behavior.
gcloud
The client VM can be in any zone in the same REGION as the load balancer, and it can use any subnet in the same VPC network.
gcloud compute instances create vm-client \ --image-family=debian-10 \ --image-project=debian-cloud \ --tags=allow-ssh \ --network=lb-network \ --subnet=lb-subnet \ --zone=ZONE
Configure the firewall rule
This example requires the following firewall rule for the test client VM:
fw-allow-ssh
. An ingress rule, applicable to the test client VM,
that allows incoming SSH connectivity on TCP port 22
from any
address. You can choose a more restrictive source IP address range for this
rule; for example, you can specify just the IP address ranges of the system from
which you initiate SSH sessions. This example uses the target tag allow-ssh
.
Console
- In the Google Cloud console, go to the Firewall policies page.
Go to Firewall policies - Click Create firewall rule to create the rule to allow incoming
SSH connections:
- Name:
allow-ssh
- Network:
lb-network
- Direction of traffic: Ingress
- Action on match: Allow
- Targets: Specified target tags
- Target tags:
allow-ssh
- Source filter: IPv4 ranges
- Source IPv4 ranges:
0.0.0.0/0
- Protocols and ports:
- Choose Specified protocols and ports.
- Select the TCP checkbox, and then enter
22
for the port number.
- Name:
- Click Create.
gcloud
Create the
fw-allow-ssh
firewall rule to allow SSH connectivity to VMs with the network tagallow-ssh
. When you omitsource-ranges
, Google Cloud interprets the rule to mean any source.gcloud compute firewall-rules create fw-allow-ssh \ --network=lb-network \ --action=allow \ --direction=ingress \ --target-tags=allow-ssh \ --rules=tcp:22
Send traffic to the load balancer
It might take a few minutes for the load balancer configuration to propagate after you first deploy it.
Connect to the client instance using SSH.
gcloud compute ssh vm-client \ --zone=ZONE
Verify that the load balancer is serving the Cloud Run service homepage as expected.
For HTTP testing, run:
curl IP_ADDRESS
For HTTPS testing, run:
curl -k -s 'https://TEST_DOMAIN_URL:443' --connect-to TEST_DOMAIN_URL:443:IP_ADDRESS:443
Replace TEST_DOMAIN_URL with the domain associated with your application. For example,
test.example.com
.The
-k
flag causes curl to skip certificate validation.
Additional configuration options
This section expands on the configuration example to provide alternative and additional configuration options. All of the tasks are optional. You can perform them in any order.
Using a URL mask
When creating a serverless NEG, instead of selecting a specific Cloud Run service, you can use a URL mask to point to multiple services serving at the same domain. A URL mask is a template of your URL schema. The serverless NEG uses this template to extract the service name from the incoming request's URL and map the request to the appropriate service.
URL masks are particularly useful if your service is mapped to a custom domain rather than to the default address that Google Cloud provides for the deployed service. A URL mask lets you target multiple services and versions with a single rule even when your application is using a custom URL pattern.
If you haven't already done so, make sure you read the Serverless NEGS overview: URL Masks.
Construct a URL mask
To construct a URL mask for your load balancer, start with the URL of your
service. This example uses a sample serverless app running at
https://example.com/login
. This is the URL where the app's login
service
is served.
- Remove the
http
orhttps
from the URL. You are left withexample.com/login
. - Replace the service name with a placeholder for the URL mask.
- Cloud Run: Replace the
Cloud Run service name with the
placeholder
<service>
. If the Cloud Run service has a tag associated with it, replace the tag name with the placeholder<tag>
. In this example, the URL mask you are left with isexample.com/<service>
.
- Cloud Run: Replace the
Cloud Run service name with the
placeholder
Optional: If the service name can be extracted from the path portion of the URL, the domain can be omitted. The path part of the URL mask is distinguished by the first slash (
/
) character. If a slash (/
) is not present in the URL mask, the mask is understood to represent the host only. Therefore, for this example, the URL mask can be reduced to/<service>
.Similarly, if
<service>
can be extracted from the host part of the URL, you can omit the path altogether from the URL mask.You can also omit any host or subdomain components that come before the first placeholder as well as any path components that come after the last placeholder. In such cases, the placeholder captures the required information for the component.
Here are a few more examples that demonstrate these rules:
This table assumes that you have a custom domain called example.com
and
all your Cloud Run services are being mapped
to this domain.
Service, Tag name | Cloud Run custom domain URL | URL mask |
---|---|---|
service: login | https://login-home.example.com/web | <service>-home.example.com |
service: login | https://example.com/login/web | example.com/<service> or /<service> |
service: login, tag: test | https://test.login.example.com/web | <tag>.<service>.example.com |
service: login, tag: test | https://example.com/home/login/test | example.com/home/<service>/<tag> or /home/<service>/<tag> |
service: login, tag: test | https://test.example.com/home/login/web | <tag>.example.com/home/<service> |
Creating a serverless NEG with a URL mask
Console
For a new load balancer, you can use the same end-to-end process as described previously in this document. When configuring the backend service, instead of selecting a specific service, enter a URL mask.
If you have an existing load balancer, you can edit the backend configuration and have the serverless NEG point to a URL mask instead of a specific service.
To add a URL mask-based serverless NEG to an existing backend service, do the following:
- In the Google Cloud console, go to the Load balancing page.
Go to Load balancing - Click the name of the load balancer that has the backend service you want to edit.
- On the Load balancer details page, click Edit.
- On the Edit global external Application Load Balancer page, click Backend configuration.
- On the Backend configuration page, click Edit for the backend service you want to modify.
- Click Add backend.
- Select Create Serverless network endpoint group.
- For the Name, enter
helloworld-serverless-neg
. - Under Region, the region of the load balancer is displayed.
- Under Serverless network endpoint group type, Cloud Run is the only supported network endpoint group type.
- Select Use URL Mask.
- Enter a URL mask. For information about how to create a URL mask, see Constructing a URL mask.
- Click Create.
- In the New backend, click Done.
- Click Update.
gcloud
To create a serverless NEG with a sample URL mask of
example.com/<service>
:
gcloud compute network-endpoint-groups create SERVERLESS_NEG_MASK_NAME \ --region=REGION \ --network-endpoint-type=serverless \ --cloud-run-url-mask="example.com/<service>"
Update client HTTP keepalive timeout
The load balancer created in the previous steps has been configured with a default value for the client HTTP keepalive timeout.To update the client HTTP keepalive timeout, use the following instructions.
Console
In the Google Cloud console, go to the Load balancing page.
- Click the name of the load balancer that you want to modify.
- Click Edit.
- Click Frontend configuration.
- Expand Advanced features. For HTTP keepalive timeout, enter a timeout value.
- Click Update.
- To review your changes, click Review and finalize, and then click Update.
gcloud
For an HTTP load balancer, update the target HTTP proxy by using the
gcloud compute target-http-proxies update
command.
gcloud compute target-http-proxies update TARGET_HTTP_PROXY_NAME \ --http-keep-alive-timeout-sec=HTTP_KEEP_ALIVE_TIMEOUT_SEC \ --region=REGION
For an HTTPS load balancer, update the target HTTPS proxy by using the
gcloud compute target-https-proxies update
command.
gcloud compute target-https-proxies update TARGET_HTTP_PROXY_NAME \ --http-keep-alive-timeout-sec=HTTP_KEEP_ALIVE_TIMEOUT_SEC \ --region REGION
Replace the following:
TARGET_HTTP_PROXY_NAME
: the name of the target HTTP proxy.TARGET_HTTPS_PROXY_NAME
: the name of the target HTTPS proxy.HTTP_KEEP_ALIVE_TIMEOUT_SEC
: the HTTP keepalive timeout value from 5 to 600 seconds.
Deleting a serverless NEG
A network endpoint group cannot be deleted if it is attached to a backend service. Before you delete a NEG, ensure that it is detached from the backend service.
Console
- To make sure the serverless NEG you want to delete is not
in use by any backend service, go to the Backend services tab on the
Load balancing components page.
Go to Backend services - If the serverless NEG is in use, do the following:
- Click the name of the backend service that is using the serverless NEG.
- Click Edit.
- From the list of Backends, click to remove the serverless NEG backend from the backend service.
- Click Save.
- Go to the Network endpoint group page in the Google Cloud console.
Go to Network endpoint group - Select the checkbox for the serverless NEG you want to delete.
- Click Delete.
- Click Delete again to confirm.
gcloud
To remove a serverless NEG from a backend service, you must specify the region where the NEG was created.
gcloud compute backend-services remove-backend BACKEND_SERVICE_NAME \ --network-endpoint-group=SERVERLESS_NEG_NAME \ --network-endpoint-group-region=REGION \ --region=REGION
To delete the serverless NEG:
gcloud compute network-endpoint-groups delete SERVERLESS_NEG_NAME \ --region=REGION
What's next
- Deploy a regional internal Application Load Balancer with Cloud Run by using Terraform
- Clean up a load balancing setup
- Deprovision Shared VPC
- Regional internal Application Load Balancer logging and monitoring
- Troubleshoot issues with regional internal Application Load Balancers