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diff --git a/docs/configuration/nat/cgnat.rst b/docs/configuration/nat/cgnat.rst new file mode 100644 index 00000000..70916318 --- /dev/null +++ b/docs/configuration/nat/cgnat.rst @@ -0,0 +1,143 @@ +.. _cgnat: + +##### +CGNAT +##### + +:abbr:`CGNAT (Carrier-Grade Network Address Translation)` , also known as +Large-Scale NAT (LSN), is a type of network address translation used by +Internet Service Providers (ISPs) to enable multiple private IP addresses to +share a single public IP address. This technique helps to conserve the limited +IPv4 address space. +The 100.64.0.0/10 address block is reserved for use in carrier-grade NAT + +Overview +======== + +CGNAT works by placing a NAT device within the ISP's network. This device +translates private IP addresses from customer networks to a limited pool of +public IP addresses assigned to the ISP. This allows many customers to share a +smaller number of public IP addresses. + +Not all :rfc:`6888` requirements are implemented in CGNAT. + +Implemented the following :rfc:`6888` requirements: + +- REQ 2: A CGN must have a default "IP address pooling" behavior of "Paired". + CGN must use the same external IP address mapping for all sessions associated + with the same internal IP address, be they TCP, UDP, ICMP, something else, + or a mix of different protocols. +- REQ 3: The CGN function should not have any limitations on the size or the + contiguity of the external address pool. +- REQ 4: A CGN must support limiting the number of external ports (or, + equivalently, "identifiers" for ICMP) that are assigned per subscriber + +Advantages of CGNAT +------------------- + +- **IPv4 Address Conservation**: CGNAT helps mitigate the exhaustion of IPv4 addresses by allowing multiple customers to share a single public IP address. +- **Scalability**: ISPs can support more customers without needing a proportional increase in public IP addresses. +- **Cost-Effective**: Reduces the cost associated with acquiring additional public IPv4 addresses. + +Considerations +-------------- + +- **Traceability Issues**: Since multiple users share the same public IP address, tracking individual users for security and legal purposes can be challenging. +- **Performance Overheads**: The translation process can introduce latency and potential performance bottlenecks, especially under high load. +- **Application Compatibility**: Some applications and protocols may not work well with CGNAT due to their reliance on unique public IP addresses. +- **Port Allocation Limits**: Each public IP address has a limited number of ports, which can be exhausted, affecting the ability to establish new connections. +- **Port Control Protocol**: PCP is not implemented. + +Port calculation +================ + +When implementing CGNAT, ensuring that there are enough ports allocated per subscriber is critical. Below is a summary based on RFC 6888. + +1. **Total Ports Available**: + + - Total Ports: 65536 (0 to 65535) + - Reserved Ports: Assume 1024 ports are reserved for well-known services and administrative purposes. + - Usable Ports: 65536 - 1024 = 64512 + +2. **Estimate Ports Needed per Subscriber**: + + - Example: A household might need 1000 ports to ensure smooth operation for multiple devices and applications. + +3. **Calculate the Number of Subscribers per Public IP**: + + - Usable Ports / Ports per Subscriber + - 64512 / 1000 ≈ 64 subscribers per public IP + + +Configuration +============= + +.. cfgcmd:: set nat cgnat pool external <pool-name> external-port-range <port-range> + + Set an external port-range for the external pool, the default range is + 1024-65535. Multiple entries can be added to the same pool. + +.. cfgcmd:: set nat cgnat pool external <pool-name> external-port-range per-user-limit port <num> + + Set external source port limits that will be allocated to each subscriber + individually. The default value is 2000. + +.. cfgcmd:: set nat cgnat pool external <pool-name> range [address | address range | network] + + Set the range of external IP addresses for the CGNAT pool. + +.. cfgcmd:: set nat cgnat pool internal <pool-name> range [address range | network] + + Set the range of internal IP addresses for the CGNAT pool. + +.. cfgcmd:: set nat cgnat pool rule <num> source pool <internal-pool-name> + + Set the rule for the source pool. + +.. cfgcmd:: set nat cgnat pool rule <num> translation pool <external-pool-name> + + Set the rule for the translation pool. + + + +Configuration Examples +====================== + +Single external address +----------------------- + +Example of setting up a basic CGNAT configuration: +In the following example, we define an external pool named `ext-1` with one external IP address + + +Each subscriber will be allocated a maximum of 2000 ports from the external pool. + +.. code-block:: none + + set nat cgnat pool external ext1 external-port-range '1024-65535' + set nat cgnat pool external ext1 per-user-limit port '2000' + set nat cgnat pool external ext1 range '192.0.2.222/32' + set nat cgnat pool internal int1 range '100.64.0.0/28' + set nat cgnat rule 10 source pool 'int1' + set nat cgnat rule 10 translation pool 'ext1' + +Multiple external addresses +--------------------------- + +.. code-block:: none + + set nat cgnat pool external ext1 external-port-range '1024-65535' + set nat cgnat pool external ext1 per-user-limit port '8000' + set nat cgnat pool external ext1 range '192.0.2.1-192.0.2.2' + set nat cgnat pool external ext1 range '203.0.113.253-203.0.113.254' + set nat cgnat pool internal int1 range '100.64.0.1-100.64.0.32' + set nat cgnat rule 10 source pool 'int1' + set nat cgnat rule 10 translation pool 'ext1' + + + +Further Reading +=============== + +- :rfc:`6598` - IANA-Reserved IPv4 Prefix for Shared Address Space +- :rfc:`6888` - Requirements for CGNAT
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