IP Addresses
1 Introduction
2 Generic IP Addresses and Networks
make-ip-address
make-network
2.1 IP Address Operations
ip-address?
ip-address=?
ip-address<?
ip-address<=?
ip-address>?
ip-address>=?
ip-address-bitcount
ip-address-dec
ip-address-inc
ip-address-size
ip-address-version
ip-address->bytes
ip-address->number
ip-address->string
2.2 Network Operations
network?
network
network-address
network-last-address
network-prefix
network-hostmask
network-netmask
network-size
network-member
network-version
network->string
network->stream
3 IPv4
3.1 IPv4 Addresses
ipv4-address?
bytes->ipv4-address
number->ipv4-address
string->ipv4-address
4 IPv6
4.1 IPv6 Addresses
ipv6-address?
bytes->ipv6-address
number->ipv6-address
string->ipv6-address
8.12

IP Addresses🔗ℹ

Bogdan Popa <bogdan@defn.io>

 (require net/ip) package: net-ip-lib

1 Introduction🔗ℹ

This package provides utilities for working with IP addresses and networks in Racket.

2 Generic IP Addresses and Networks🔗ℹ

All IP addresses and network versions support the operations that follow.

procedure

(make-ip-address ip)  ip-address?

  ip : string?

procedure

(make-ip-address ip)  ip-address?

  ip : bytes?

procedure

(make-ip-address ip version)  ip-address?

  ip : exact-nonnegative-integer?
  version : (or/c 4 16)
Parse an IP address.

IPv4 examples:
> (require net/ip)
> (make-ip-address "127.0.0.1")

(make-ip-address "127.0.0.1")

> (make-ip-address #"\177\0\0\1")

(make-ip-address "127.0.0.1")

> (make-ip-address 127 4)

(make-ip-address "0.0.0.127")

IPv6 examples:
> (require net/ip)
> (make-ip-address "::1")

(make-ip-address "0:0:0:0:0:0:0:1")

> (make-ip-address #"\377\377\0\0\0\0\0\0\0\0\0\0\0\0\0\0")

(make-ip-address "ffff:0:0:0:0:0:0:0")

> (make-ip-address "2001:db8::1")

(make-ip-address "2001:db8:0:0:0:0:0:1")

procedure

(make-network ip prefix)  network?

  ip : (or/c ip-address? string?)
  prefix : exact-nonnegative-integer?

procedure

(make-network ip mask)  network?

  ip : (or/c ip-address? string?)
  mask : (or/c ip-address? string?)

procedure

(make-network cidr)  network?

  cidr : string?
Parse a network.

IPv4 examples:
> (require net/ip)
> (make-network "192.168.1.0/24")

(make-network "192.168.1.0/24")

> (make-network "192.168.1.0" 24)

(make-network "192.168.1.0/24")

> (make-network "192.168.1.0" "255.255.255.0")

(make-network "192.168.1.0/24")

> (make-network (make-ip-address "192.168.1.0") 24)

(make-network "192.168.1.0/24")

IPv6 examples:
> (require net/ip)
> (make-network "::1/128")

(make-network "0:0:0:0:0:0:0:1/128")

> (make-network "::1" 128)

(make-network "0:0:0:0:0:0:0:1/128")

> (make-network "::1" "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff")

(make-network "0:0:0:0:0:0:0:1/128")

> (make-network (make-ip-address "::1") 128)

(make-network "0:0:0:0:0:0:0:1/128")

2.1 IP Address Operations🔗ℹ

procedure

(ip-address? addr)  boolean?

  addr : any/c
Return #t when addr is an IP address.

procedure

(ip-address=? addr other)  boolean?

  addr : ip-address?
  other : ip-address?

procedure

(ip-address<? addr other)  boolean?

  addr : ip-address?
  other : ip-address?

procedure

(ip-address<=? addr other)  boolean?

  addr : ip-address?
  other : ip-address?

procedure

(ip-address>? addr other)  boolean?

  addr : ip-address?
  other : ip-address?

procedure

(ip-address>=? addr other)  boolean?

  addr : ip-address?
  other : ip-address?
Compare addr and other. These functions raise exn:fail:contract? when the two addresses are of different versions.

Count the number of set high bits in addr.

Examples:
> (require net/ip)
> (ip-address-bitcount (make-ip-address "0.0.0.0"))

0

> (ip-address-bitcount (make-ip-address "255.255.255.0"))

24

> (ip-address-bitcount (make-ip-address "255.255.255.255"))

32

> (ip-address-bitcount (make-ip-address "ffff::"))

16

procedure

(ip-address-dec addr [n])  ip-address?

  addr : ip-address?
  n : exact-nonnegative-integer? = 1
Return an ip-address? smaller than addr by n. Raises exn:fail:contract? if the resulting address would be smaller than 0.

procedure

(ip-address-inc addr [n])  ip-address?

  addr : ip-address?
  n : exact-nonnegative-integer? = 1
Return an ip-address? greater than addr by n. Raises exn:fail:contract? if the resulting address would be greater than the maximum address for that particular version.

procedure

(ip-address-size addr)  (or/c 32 128)

  addr : ip-address?
Return 32 or 128 depending on the version of addr. This number represents the size in bits of each type of address.

procedure

(ip-address-version addr)  (or/c 4 6)

  addr : ip-address?
Return 4 or 6 depending on the version of addr.

procedure

(ip-address->bytes addr)  bytes?

  addr : ip-address?
Pack addr into an array of bytes in network order (big endian).

procedure

(ip-address->number addr)  exact-nonnegative-integer?

  addr : ip-address?
Convert addr to a number.

procedure

(ip-address->string addr)  string?

  addr : ip-address?
Convert addr to a string.

2.2 Network Operations🔗ℹ

procedure

(network? net)  boolean?

  net : any/c
Return #t when net is a network.

procedure

(network addr prefix)  network?

  addr : ip-address?
  prefix : exact-nonnegative-integer?
Construct a network from addr and prefix. Raises exn:fail:contract? if prefix is too large for addr.

procedure

(network-address net)  ip-address?

  net : network?
Return the network address for net.

procedure

(network-last-address net)  ip-address?

  net : network?
Return the last ip address in net.

procedure

(network-prefix net)  exact-nonnegative-integer?

  net : network?
Return the prefix for net.

procedure

(network-hostmask net)  ip-address?

  net : network?
Return the host mask for net.

procedure

(network-netmask net)  ip-address?

  net : network?
Return the net mask for net.

procedure

(network-size net)  exact-nonnegative-integer?

  net : network?
Return the total number of ip addresses in net.

procedure

(network-member net addr)  boolean?

  net : network?
  addr : ip-address?
Return #t if addr is a member of net.

procedure

(network-version net)  (or/c 4 6)

  net : network?
Return 4 or 6 depending on the version of net.

procedure

(network->string net)  string?

  net : network?
Convert net to a string.

procedure

(network->stream net)  (stream/c ip-address?)

  net : network?
Convert net to a stream of all the ip addresses contained inside it.

3 IPv4🔗ℹ

These functions are specific to IPv4 addresses.

3.1 IPv4 Addresses🔗ℹ

procedure

(ipv4-address? addr)  boolean?

  addr : any/c
Return #t when addr is an IPv4 address.

procedure

(bytes->ipv4-address bs)  ipv4-address?

  bs : bytes?
Unpack a byte array in network order (big endian) into an IPv4 address. Must be exactly four bytes long,otherwise an exn:fail:contract? is raised.

Return the IPv4 address represented by value. value must be between 0 and 2^32-1, otherwise an exn:fail:contract? is raised.

procedure

(string->ipv4-address ip)  ipv4-address?

  ip : string?
Parse an IPv4 address. Includes support for compressed notation, similar to what is available on most UNIX systems.

Examples:
> (require net/ip)
> (string->ipv4-address "127.0.0.1")

(make-ip-address "127.0.0.1")

> (string->ipv4-address "127.1")

(make-ip-address "127.0.0.1")

> (string->ipv4-address "192.168.1")

(make-ip-address "192.168.0.1")

4 IPv6🔗ℹ

These functions are specific to IPv6 addresses.

4.1 IPv6 Addresses🔗ℹ

procedure

(ipv6-address? addr)  boolean?

  addr : any/c
Return #t when addr is an IPv6 address.

procedure

(bytes->ipv6-address ip)  ipv6-address?

  ip : bytes?
Unpack a byte array in network order (big endian) into an IPv6 address. Must be exactly sixteen bytes long, otherwise an exn:fail:contract? is raised.

Return the IPv6 address represented by value. value must be between 0 and 2^128-1, otherwise an exn:fail:contract? is raised.

procedure

(string->ipv6-address ip)  ipv6-address?

  ip : string?
Parse an IPv6 address.

Examples:
> (require net/ip)
> (string->ipv6-address "::1")

(make-ip-address "0:0:0:0:0:0:0:1")

> (string->ipv6-address "ff:ab:cd::ff")

(make-ip-address "ff:ab:cd:0:0:0:0:ff")

> (string->ipv6-address "201:db:ee::1")

(make-ip-address "201:db:ee:0:0:0:0:1")

> (string->ipv6-address "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff")

(make-ip-address "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff")