Professional Cloud Network Engineer

Section 1: Designing and planning a Google Cloud network (~26% of the exam)

1.1 Designing an overall network architecture. Considerations include:

    ●  Designing for high availability, failover, disaster recovery, and scale.

    ●  Designing the DNS topology (e.g., on-premises, Cloud DNS).

    ●  Designing for security and data exfiltration prevention requirements.

    ●  Choosing a load balancer for an application.

    ●  Designing for hybrid connectivity (e.g., Private Google Access for hybrid connectivity).

    ●  Planning for Google Kubernetes Engine (GKE) networking (e.g., secondary ranges, scale potential based on IP address space, access to GKE control plane).

    ●  Planning Identity and Access Management (IAM) roles including managing IAM roles in a Shared VPC environment.

    ●  Incorporating micro segmentation for security purposes (e.g., using metadata, tags, service accounts, secure tags).

    ●  Planning for connectivity to managed services (e.g., private services access, Private Service Connect, Serverless VPC Access). 

    ●  Differentiating between network tiers (e.g., Premium and Standard).

    ●  Designing for VPC Service Controls.

1.2 Designing Virtual Private Cloud (VPC) networks. Considerations include:

    ●  Choosing the VPC type and quantity (e.g., standalone or Shared VPC, number of VPC environments).

    ●  Determining how the networks connect based on requirements (e.g., VPC Network Peering, VPC Network Peering with Network Connectivity Center, Private Service Connect).

    ●  Planning the IP address management strategy (e.g., subnets, IPv6, bring your own IP (public advertised prefix (PAP) and public delegated prefix (PDP)), Private NAT, non-RFC 1918, managed services).

    ●  Planning a global or regional network environment.

    ●  Planning the firewall strategy (e.g., VPC firewall rules, Cloud Next Generation Firewall, hierarchical firewall rules). 

    ●  Planning custom routes (static or policy-based) for third-party device insertion (e.g., network virtual appliance). 

1.3 Designing a resilient and performant hybrid and multi-cloud network. Considerations include:

    ●  Designing for datacenter connectivity including bandwidth constraints (e.g., Dedicated Interconnect, Partner Interconnect, Cloud VPN).

    ●  Designing for multi-cloud connectivity (e.g., Cloud VPN, Cross-Cloud Interconnect).

    ●  Designing for branch office connectivity (e.g., IPSec VPN, SD-WAN appliances).

    ●  Choosing when to use Direct Peering or a Verified Peering Provider. 

    ●  Designing high-availability and disaster recovery connectivity strategies.

    ●  Selecting regional or global dynamic routing mode.

    ●  Accessing multiple VPCs from on-premises locations (e.g., Shared VPC, multi-VPC peering and Network Connectivity Center topologies).

    ●  Accessing Google Services and APIs privately from on-premises locations (e.g., Private Service Connect for Google APIs).

    ●  Accessing Google-managed services through VPC Network Peering connections (e.g., private services access, Service Networking).

    ●  Designing the IP address space across on-premises locations and cloud environments (e.g., internal ranges, planning to avoid overlaps).

    ●  Designing the DNS peering and forwarding strategy (e.g., DNS forwarding path).

1.4 Designing an IP addressing plan for Google Kubernetes Engine (GKE). Considerations include:

    ●  Choosing between public or private cluster nodes and node pools.

    ●  Choosing between public or private control plane endpoints.

    ●  Choosing between GKE Autopilot mode or Standard mode.

    ●  Planning subnets and alias IPs.

    ●  Selecting RFC 1918, non-RFC 1918, and/or privately used public IP (PUPI) addresses.

    ●  Planning for IPv6.

Section 2: Implementing Virtual Private Cloud (VPC) networks (~22% of the exam)

2.1 Configuring VPCs. Considerations include:

    ●  Creating Google Cloud VPC resources (e.g., networks, subnets, firewall rules or policy, private services access subnet).

    ●  Configuring VPC Network Peering.

    ●  Creating a Shared VPC network and sharing subnets with other projects.

    ●  Configuring API access to Google services (e.g., Private Google Access, public interfaces).

    ●  Expanding VPC subnet ranges after creation.

2.2 Configuring VPC routing. Considerations include:

    ●  Setting up static and dynamic routing.

    ●  Configuring global or regional dynamic routing.

    ●  Implementing routing using network tags and priority.

    ●  Implementing an internal load balancer as a next hop.

    ●  Configuring custom route import/export over VPC Network Peering.

    ●  Configuring Policy-based Routing.

2.3 Configuring Network Connectivity Center. Considerations include:

    ●  Managing VPC topology (e.g., star topology, hub and spokes, mesh topology).

    ●  Implementing Private NAT.

2.4 Configuring and maintaining Google Kubernetes Engine clusters. Considerations include:

    ●  Creating VPC-native clusters using alias IPs.

    ●  Setting up clusters with Shared VPC.

    ●  Configuring private clusters and private control plane endpoints.

    ●  Adding authorized networks for cluster control plane endpoints.

    ●  Configuring Cloud Service Mesh.

    ●  Enabling GKE Dataplane V2.

    ●  Configuring source NAT (SNAT) and IP Masquerade policies.

    ●  Creating GKE network policies.

    ●  Configuring Pod ranges and service ranges, and deploying additional Pod ranges for GKE clusters.

2.5 Configuring and managing Cloud Next Generation Firewall (NGFW) rules. Considerations include:

    ●  Creating the firewall rules and regional/global policies.

    ●  Mapping target network tags, service accounts, and secure tags.

    ●  Migrating from firewall rules to firewall policies.

    ●  Configuring firewall rule criteria (e.g., rule priority, network protocols, ingress and egress rules).

    ●  Configuring Firewall Rules Logging.

    ●  Configuring hierarchical firewall policies.

    ●  Configuring the intrusion prevention service (IPS).

    ●  Implementing fully qualified domain name (FQDN) firewall objects.

Section 3: Configuring managed network services (~21% of the exam)

3.1 Configuring load balancing. Considerations include:

    ●  Configuring backend services (e.g., network endpoint groups (NEGs), managed instance groups).

    ●  Configuring backends and backend services with the balancing method (e.g., RPS, CPU, custom), session affinity, and serving capacity.

    ●  Configuring URL maps.

    ●  Configuring forwarding rules.

    ●  Defining firewall rules to allow traffic and health checks to backend services.

    ●  Creating health checks for backend services and target instance groups.

    ●  Configuring protocol forwarding.

    ●  Accommodating workload increases by using autoscaling or manual scaling.

    ●  Configuring load balancers for GKE (e.g., GKE Gateway controller, GKE Ingress controller, NEG).

    ●  Setting up traffic management on Application Load Balancers (e.g., traffic splitting, traffic mirroring, URL rewrites). 

3.2 Configuring Google Cloud Armor policies. Considerations include:

    ●  Configuring security policies.

    ●  Implementing web application firewall (WAF) rules (e.g., SQL injection, cross-site scripting, remote file inclusion).

    ●  Attaching security policies to load balancer backends.

    ●  Configuring advanced network DDoS protection. 

    ●  Configuring edge and network edge security policies.

    ●  Configuring Adaptive Protection.

    ●  Configuring rate limiting.

    ●  Configuring bot management.

    ●  Applying Google Threat Intelligence.

3.3 Configuring Cloud CDN. Considerations include:

    ●  Setting up Cloud CDN for supported origins (e.g., managed instance groups, Cloud Storage buckets, Cloud Run).

    ●  Setting up Cloud CDN for external backends (internet NEGs) and third-party object storage.

    ●  Invalidating cached content.

    ●  Configuring signed URLs.

3.4 Configuring and maintaining Cloud DNS. Considerations include:

    ●  Managing Cloud DNS zones and records.

    ●  Migrating to Cloud DNS.

    ●  Enabling DNS Security Extensions (DNSSEC).

    ●  Configuring DNS forwarding and DNS server policies.

    ●  Integrating on-premises DNS with Google Cloud.

    ●  Using split-horizon DNS.

    ●  Setting up DNS peering.

    ●  Configuring Cloud DNS and external-DNS operator for GKE.

3.5 Configuring and securing internet egress traffic. Considerations include:

    ●  Assigning NAT IP addresses (e.g., automatic, manual).

    ●  Configuring port allocations (e.g., static, dynamic).

    ●  Customizing timeouts.

    ●  Configuring organization policy constraints for Cloud NAT. 

    ●  Configuring Private NAT.

    ●  Configuring Secure Web Proxy.

3.6  Configuring network packet inspection. Considerations include: 

    ●  Routing and inspecting inter-VPC traffic using multi-NIC VMs (e.g., next-generation firewall appliances).

    ●  Configuring an internal load balancer as a next hop for highly available multi-NIC VM routing.

    ●  Enabling Layer 7 packet inspection in Cloud NGFW.

Section 4: Implementing hybrid network interconnectivity (~18% of the exam)

4.1 Configuring Cloud Interconnect. Considerations include:

    ●  Creating Dedicated Interconnect connections and configuring VLAN attachments.

    ●  Creating Partner Interconnect connections and configuring VLAN attachments.

    ●  Creating Cross-Cloud Interconnect connections and configuring VLAN attachments.

    ●  Setting up and enabling MACsec. 

    ●  Configuring HA VPN over Cloud Interconnect.

4.2 Configuring a site-to-site IPSec VPN. Considerations include:

    ●  Configuring HA VPN. 

    ●  Configuring Classic VPN (e.g., route-based, policy-based). 

4.3 Configuring Cloud Router. Considerations include:

    ●  Implementing Border Gateway Protocol (BGP) attributes (e.g., ASN, route priority/MED, link-local addresses, authentication).

    ●  Configuring Bidirectional Forwarding Detection (BFD).

    ●  Creating custom advertised routes and custom learned routes.

4.4 Configuring Network Connectivity Center. Considerations include:

    ●  Creating hybrid spokes (e.g., VPN, Cloud Interconnect).

    ●  Establishing site-to-site data transfer.

    ●  Creating Router appliances (RAs).

Section 5: Managing, monitoring, and troubleshooting network operations (~13% of the exam)

5.1 Logging and monitoring with Google Cloud Observability. Considerations include:

    ●  Enabling and reviewing logs for networking components (e.g., Cloud VPN, Cloud Router, VPC Service Controls, Cloud NGFW, Firewall Insights, VPC Flow Logs, Cloud DNS, Cloud NAT).

    ●  Monitoring metrics of networking components (e.g., Cloud VPN, Cloud Interconnect and VLAN attachments, Cloud Router, load balancers, Google Cloud Armor, Cloud NAT).

5.2 Maintaining and troubleshooting connectivity issues. Considerations include:

    ●  Draining and redirecting traffic flows with Application Load Balancers.

    ●  Tuning and troubleshooting Cloud NGFW rules or policies.

    ●  Managing and troubleshooting VPNs.

    ●  Troubleshooting Cloud Router BGP peering issues.

    ●  Troubleshooting with VPC Flow Logs, firewall logs, and Packet Mirroring.

5.3 Using Network Intelligence Center to monitor and troubleshoot common networking issues. Considerations include:

    ●  Using Network Topology to visualize throughput and traffic flows.

    ●  Using Connectivity Tests to diagnose route and firewall misconfigurations.

    ●  Using Performance Dashboard to identify packet loss and latency (e.g., Google-wide, project scoped).

    ●  Using Firewall Insights to monitor rule hit count and identify shadowed rules.

    ●  Using Network Analyzer to identify network failures, suboptimal configurations, and utilization warnings.