CNFs NAT64

Overview

Cloud-Native Network Functions (CNFs) NAT64 provides the ability to process IPv6 to IPv4 application traffic, specifically between IPv6 only clients and IPv4 only servers. To provide NAT64, the Service Proxy Traffic Management Microkernel (TMM) Proxy Pod first translates DNS queries using the well-known NAT64 64:ff9b:: prefix, by converting the IPv4 response into an IPv6 hexidecimal format, and appending the result to the host portion of the well-known NAT64 prefix. The TMM Proxy Pod then uses NAT to translate connections to 64:ff9b::/96 destinations, proxying the IPv6 client addresses and IPv4 application addresses.

Connection example

When the IPv6 only client requires a connection to IPv4 only server www.64test.com, the TMM Proxy Pod first performs a DNS query, and converts the response 40.40.40.1 to hex value 28282801. The hex conversion is appended to the host portion of the well-known NAT64 prefix as 64:ff9b::2828:2801. When the IPv6 client connects to 64:ff9b::2828:2801 through the TMM Proxy Pod, the network packet is sent to destination 40.40.40.1, and connections between the endpoints continue to flow through the TMM Proxy Pod for the life of the connection

Required CNFs CRs

NAT64 requires CNFs Custom Resources (CRs) installed in this order:

  • The F5BigDnsApp specifies a DNS listener used to translate and convert DNS queries.
  • The F5BigNatPolicy specifies the IPv4 and IPv6 translation addresses.
  • The optional F5BigFwPolicy filters subscriber connections by IP address.
  • The optional F5BigLogProfile sends connection events to remote logging servers.
  • The F5BigContextSecure processes and load balances subscriber connections.

This document describes, and guides you through the DNS64 CR implementation.

Requirements

Ensure you have:

Installation

Use this installation procedure to configure the TMM Proxy Pod for NAT64 functionality.

_images/spk_info.png Tip: Open a second shell to view the CNFs Event Logs while installing.

  1. Optional: The example F5BigLogHslpub CR specifies a remote server with IP/port [2002::10:30:2:220]:514, and the udp protocol. Copy and paste the example into a YAML file:

    Note: The F5BigLogHslpub CR will be referenced by the F5BigLogProfile.

    apiVersion: k8s.f5net.com/v1
    kind: F5BigLogHslpub
    metadata:
      name: "cnf-hsl-pub"
      namespace: "cnf-gateway"
    spec:
      pool:
      - name: "hsl-pool"
        endpoint:
        - "[2002::10:30:2:220]:514"
      syslog:
      - name: "cnf-syslog"
        format: "rfc5424"
        protocol: "udp"
        pool: "hsl-pool"
    
  2. Install the F5BigLogHslpub CR:

    oc apply -f cnf-hsl-cr.yaml
    

    In this example, the BIG-IP Controller logs indicate the F5BigLogHslpub CR was added/updated:

    I0202 12:00:00.12347   1 event.go:282 Event(v1.ObjectReference{Kind:"F5Hslpub",
    F5Hslpub cnf-gateway/cnf-hsl-pub was added/updated
    
  3. Optional: The example F5BigLogProfile CR captures NAT events such as connection start and end, and firewall events such as packet match and drop. Copy and paste the CR nto a YAML file:

    Note: The F5BigLogProfile CR will be referenced by the F5BigContextSecure CR.

    apiVersion: "k8s.f5net.com/v1"
    kind: F5BigLogProfile
    metadata:
      name: "cnf-log-profile"
      namespace: "cnf-gateway"
    spec:
      name: "cnf-logs"
      nat:
        enabled: true
        logSubscriberID: true
        publisher: "cnf-hsl-pub"
        inbound:
          start:
            mode: "enabled"
          end:
            mode: "enabled"
        quotaExceeded:
          mode: "enabled"
        errors:
          mode: "enabled"
      firewall:
        enabled: true
        network:
          publisher: "cnf-hsl-pub"
          events:
            aclMatchAccept: true
            aclMatchDrop: true
            tcpEvents: true
            translationFields: true
    
  4. Install the F5BigLogProfile CR:

    oc apply -f cnf-log-cr.yaml
    

    In this example, the BIG-IP Controller logs indicate the F5BigLogProfile CR was added/updated:

    I0202 12:00:00.12348   1 event.go:282 Event(v1.ObjectReference{Kind:"F5LogProfile", 
    LogProfile cnf-gateway/cnf-log-profile was added/updated
    
  5. The example F5BigDnsApp CR receives DNS queries on IP 2002::10:20:2:10, and sends the query to 10.30.2.220 for resolution. IPv4 only responses are converted and appended to the NAT64 well-known prefix 64:ff9b::. Copy and paste the example CR into a YAML file:

    Note: The F5BigDnsApp CR will be referenced by the F5BigContextSecure CR.

    apiVersion: "k8s.f5net.com/v1"
    kind: F5BigDnsApp
    metadata:
      name: "cnf-dns-64"
      namespace: "cnf-gateway"
    spec:
      destination:
        ipv6Address: "2002::10:20:2:10"
        port: 53
      snat:
        type: "automap"
      dns:
        dns64Mode: "secondary"
        dns64Prefix: "64:ff9b::"
        dns64AdditionalSectionRewrite: "v4-only"
      ipProtocol: "udp"
      udp:
      pool:
        members:
          - address: "10.30.2.220"
            port: 53
    
  6. Install the F5BigDnsApp CR:

    oc apply -f cnf-dns-cr.yaml
    

    In this example, the BIG-IP Controller logs indicate the F5BigDnsApp CR was added/updated:

    I0202 12:00:00.12345   1 event.go:282 Event(v1.ObjectReference{Kind:"F5Dns", 
    F5Dns cnf-gateway/cnf-dns-64 was added/updated
    
  7. The example F5BigNatPolicy CR NATs subscriber connections sourced from IPv6 prefix 2002::10:20:2:0/112, and destined to the IPv6 prefix 64:ff9b::0/96. Subscribers source IP addresses will NAT to an IPv6 address within the 10.200.2.1-10.200.2.11 range, and be sent to the server’s IPv4 address. Copy and paste the CR into a YAML file:

    Note: The F5BigNatPolicy CR will be referenced by the F5BigContextSecure CR.

    apiVersion: "k8s.f5net.com/v1"
    kind: F5BigNatPolicy
    metadata:
      name: "cnf-nat-64"
      namespace: "cnf-gateway"
    spec:
      sourceTranslation:
        - name: "trans-64"
          type: "dynamic-pat"
          addresses:
            - "10.200.2.1-10.200.2.11"
          port: "8000-8500"
          routeAdvertisement: true
          icmpEcho: true
          proxyArp: true
      rule:
        - name: rule-ip64
          ipProtocol: any
          source:
            addresses:
             - "2002::10:20:2:0/112"
          destination:
            addresses:
             - "64:ff9b::0/96"
          sourceTranslation: "trans-64"
    
  8. Install the F5BigNatPolicy CR:

    oc apply -f cnf-nat-cr.yaml
    

    In this example, the BIG-IP Controller logs indicate the F5BigNatPolicy CR was added/updated:

    I0202 12:00:00.12345   1 event.go:282 Event(v1.ObjectReference{Kind:"F5NatPolicy", 
    NatPolicy cnf-gateway/cnf-nat-64 was added/updated
    
  9. Optional: The example F5BigFwPolicy allows connections only from the IPv6 prefix 2002::10:20:2:0/112. Copy and past the CR into a YAML file:

    Note: The F5BigFwPolicy CR will be referenced by the F5BigContextSecure CR.

    apiVersion: "k8s.f5net.com/v1"
    kind: F5BigFwPolicy
    metadata:
      name: "cnf-fw-64"
      namespace: "cnf-gateway"
    spec:
      rule:
       - name: allow-10-20
         action: "accept"
         logging: true
         ipProtocol: any
         source:
           addresses:
             - "2002::10:20:2:0/112"
       - name: drop-all
         action: "drop"
         logging: true
         ipProtocol: any
         source:
           addresses:
             - "::/0"
    
  10. Install the F5BigFwPolicy CR:

    oc apply -f cnf-fw-cr.yaml
    

    In this example, the BIG-IP Controller logs indicate the F5BigFwPolicy CR was added/updated:

    I0202 12:00:00.12346   1 event.go:282 Event(v1.ObjectReference{Kind:"F5FirewallPolicy", 
    FirewallPolicy cnf-gateway/cnf-fw-64 was added/updated
    
  11. The F5BigContextSecure CR listens for connections destined to the 64:ff9b::0/96 prefix on service port 80, and processes application traffic by referencing the installed CRs. Copy and paste the CR into a YAML file:

    apiVersion: k8s.f5net.com/v1
    kind: F5BigContextSecure
    metadata:
      name: "cnf-64-context"
      namespace: "cnf-gateway"
    spec:
       ipv6destinationAddress: "::/0"
       destinationPort: 80
       firewallEnforcedPolicy: "cnf-fw-64"
       natPolicy: "cnf-nat-64"
       logProfile: "cnf-log-profile"
       ipProtocol: "any"
       profile: "fastL4"
    
  12. Install the F5BigContextSecure CR:

    oc apply -f f5-cnf-64-context.yaml
    

    In this example, the BIG-IP Controller logs indicate the F5BigContextSecure CR was added/updated:

    I0202 12:00:00:12350    1 event.go:282] Event(v1.ObjectReference{Kind:"F5SecureContext", 
    SecureContext cnf-gateway/cnf-64-context was added/updated
    
  13. Continue to the Traffic statistics section after testing the application.

Traffic statistics

If you have installed the TMM Debug container, use the following steps to gather traffic processing statistics for the F5BigNatPolicy, F5BigFwPolicy and F5BigContextSecure CRs.

  1. Log in to the TMM debug Pod:

    In this example, the TMM debug container is in the cnf-gateway namespace:

    oc exec -it deploy/f5-tmm -c debug -n cnf-gateway -- bash
    
  2. Verify F5BigNatPolicy connection statistics:

    tmctl -d blade fw_nat_rule_stat
    
    context_type context_name                          rule_name
    --------- ---------------------------------------  --------------------------
    virtual   cnf-cnf-context-secure-SecureContext_vs  10-20-subnet-natpolicyrule
    
    micro_rules counter last_hit_time action
    ----------- ------- ------------- ------
              1       8    1643836695      0
    
    tmctl -d blade fw_nat_trans_stat -s type,name,translation_requests
    
    type         name        translation_requests
    ------------ ----------- --------------------
    fw_src_trans transparent                    8
    fw_dst_trans transparent                    8
    fw_src_trans automap                        0
    
  3. Verify the F5BigNatPolicy client IP address mappings:

    lsndb list all
    
    Client                                          Connections
    -----------------------------------------------------------
    0 client with 0 connection found.
    LSN Persistence Entries
    Client                                          Translation
    -----------------------------------------------------------
    10.20.2.220:52110                           10.200.2.8:8265
    10.20.2.220                                 10.200.2.8
    2 persist entries found.
    LSN port block allocations
    Client                                          Port block
    ----------------------------------------------------------
    0 port block entries found.
    LSN Inbound Mapping Entries
    Translation                                         Client
    ----------------------------------------------------------
    10.200.2.8:8265                          10.20.2.220:52110
    10.200.2.7:8397                          10.20.2.220:52106
    
  4. Verify the F5BigFwPolicy statistics:

    tmctl -d blade fw_rule_stat -s rule_name,counter,last_hit_time,action
    
    rule_name                  counter last_hit_time action
    -------------------------- ------- ------------- ------
    allow-4-firewallpolicyrule       1    1646355700      2
    allow-6-firewallpolicyrule       1    1646355702      2
    drop-4-firewallpolicyrule        0             0      0
    drop-6-firewallpolicyrule        0             0      0
    
  5. Verify the F5BigDnsApp DNS Profile statistics:

    tmctl -d blade profile_dns_stat -s name,queries,responses
    
    name                               queries responses
    ---------------------------------- ------- ---------
    cnf-gateway-cnf-dns-64-profile_dns      20        20
    
  6. Verify the F5BigContextSecure, and F5BigDnsApp virtual server statistics:

    tmctl -d blade virtual_server_stat -s name,clientside.tot_conns
    
    name                                   clientside.tot_conns
    -------------------------------------- --------------------
    cnf-gateway-ipv64-vip-SecureContext_vs                   15
    cnf-gateway-dns-64-virtual_server                        20
    

Feedback

Provide feedback to improve this document by emailing cnfdocs@f5.com.

Supplemental

  • Wikipedia NAT64 overvew.