Start9/start-os
2
0
Fork 0
mirror of https://github.com/Start9Labs/start-os.git synced 2026-03-26 18:31:52 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
08c672c024bad7ab8e42da4d50ec520065766eff
start-os/sdk/base/lib/util/ip.ts
Matt Hill d4e019c87b add comments to everything potentially consumer facing (#3127) 
* add comments to everything potentially consumer facing

* rework smtp

---------

Co-authored-by: Aiden McClelland <3732071+dr-bonez@users.noreply.github.com>
2026-02-24 14:29:09 -07:00

330 lines
10 KiB
TypeScript
Raw Blame History

/**
* Represents an IPv4 or IPv6 address as raw octets with arithmetic and comparison operations.
*
* IPv4 addresses have 4 octets, IPv6 addresses have 16 octets.
*
* @example
* ```ts
* const ip = IpAddress.parse("192.168.1.1")
* const next = ip.add(1) // 192.168.1.2
* ```
*/
export class IpAddress {
private renderedOctets: number[]
protected constructor(
public octets: number[],
private renderedAddress: string,
) {
this.renderedOctets = [...octets]
}
/**
* Parses an IP address string into an IpAddress instance.
* Supports both IPv4 dotted-decimal and IPv6 colon-hex notation (including `::` shorthand).
* @param address - The IP address string to parse
* @returns A new IpAddress instance
* @throws Error if the address format is invalid
*/
static parse(address: string): IpAddress {
let octets
if (address.includes(':')) {
octets = new Array(16).fill(0)
const segs = address.split(':')
let idx = 0
let octIdx = 0
while (segs[idx]) {
const num = parseInt(segs[idx], 16)
octets[octIdx++] = num >> 8
octets[octIdx++] = num & 255
idx += 1
}
const lastSegIdx = segs.length - 1
if (idx < lastSegIdx) {
idx = lastSegIdx
octIdx = 15
while (segs[idx]) {
const num = parseInt(segs[idx], 16)
octets[octIdx--] = num & 255
octets[octIdx--] = num >> 8
idx -= 1
}
}
} else {
octets = address.split('.').map(Number)
if (octets.length !== 4) throw new Error('invalid ipv4 address')
}
if (octets.some((o) => isNaN(o) || o > 255)) {
throw new Error('invalid ip address')
}
return new IpAddress(octets, address)
}
/**
* Creates an IpAddress from a raw octet array.
* @param octets - Array of 4 octets (IPv4) or 16 octets (IPv6), each 0-255
* @returns A new IpAddress instance
* @throws Error if the octet array length is not 4 or 16, or any octet exceeds 255
*/
static fromOctets(octets: number[]) {
if (octets.length == 4) {
if (octets.some((o) => o > 255)) {
throw new Error('invalid ip address')
}
return new IpAddress(octets, octets.join('.'))
} else if (octets.length == 16) {
if (octets.some((o) => o > 255)) {
throw new Error('invalid ip address')
}
let pre = octets.slice(0, 8)
while (pre[pre.length - 1] == 0) {
pre.pop()
}
let post = octets.slice(8)
while (post[0] == 0) {
post.unshift()
}
if (pre.length + post.length == 16) {
return new IpAddress(octets, octets.join(':'))
} else {
return new IpAddress(octets, pre.join(':') + '::' + post.join(':'))
}
} else {
throw new Error('invalid ip address')
}
}
/** Returns true if this is an IPv4 address (4 octets). */
isIpv4(): boolean {
return this.octets.length === 4
}
/** Returns true if this is an IPv6 address (16 octets). */
isIpv6(): boolean {
return this.octets.length === 16
}
/** Returns true if this is a public IPv4 address (not in any private range). */
isPublic(): boolean {
return this.isIpv4() && !PRIVATE_IPV4_RANGES.some((r) => r.contains(this))
}
/**
* Returns a new IpAddress incremented by `n`.
* @param n - The integer amount to add (fractional part is truncated)
* @returns A new IpAddress with the result
* @throws Error on overflow
*/
add(n: number): IpAddress {
let octets = [...this.octets]
n = Math.floor(n)
for (let i = octets.length - 1; i >= 0; i--) {
octets[i] += n
if (octets[i] > 255) {
n = octets[i] >> 8
octets[i] &= 255
} else {
break
}
}
if (octets[0] > 255) {
throw new Error('overflow incrementing ip')
}
return IpAddress.fromOctets(octets)
}
/**
* Returns a new IpAddress decremented by `n`.
* @param n - The integer amount to subtract (fractional part is truncated)
* @returns A new IpAddress with the result
* @throws Error on underflow
*/
sub(n: number): IpAddress {
let octets = [...this.octets]
n = Math.floor(n)
for (let i = octets.length - 1; i >= 0; i--) {
octets[i] -= n
if (octets[i] < 0) {
n = Math.ceil(Math.abs(octets[i]) / 256)
octets[i] = ((octets[i] % 256) + 256) % 256
} else {
break
}
}
if (octets[0] < 0) {
throw new Error('underflow decrementing ip')
}
return IpAddress.fromOctets(octets)
}
/**
* Compares this address to another, returning -1, 0, or 1.
* @param other - An IpAddress instance or string to compare against
* @returns -1 if this < other, 0 if equal, 1 if this > other
*/
cmp(other: string | IpAddress): -1 | 0 | 1 {
if (typeof other === 'string') other = IpAddress.parse(other)
const len = Math.max(this.octets.length, other.octets.length)
for (let i = 0; i < len; i++) {
const left = this.octets[i] || 0
const right = other.octets[i] || 0
if (left > right) {
return 1
} else if (left < right) {
return -1
}
}
return 0
}
/** The string representation of this IP address (e.g. `"192.168.1.1"` or `"::1"`). Cached and recomputed only when octets change. */
get address(): string {
if (
this.renderedOctets.length === this.octets.length &&
this.renderedOctets.every((o, idx) => o === this.octets[idx])
) {
// already rendered
} else if (this.octets.length === 4) {
this.renderedAddress = this.octets.join('.')
this.renderedOctets = [...this.octets]
} else if (this.octets.length === 16) {
const contigZeros = this.octets.reduce(
(acc, x, idx) => {
if (x === 0) {
acc.current++
} else {
acc.current = 0
}
if (acc.current > acc.end - acc.start) {
acc.end = idx + 1
acc.start = acc.end - acc.current
}
return acc
},
{ start: 0, end: 0, current: 0 },
)
if (contigZeros.end - contigZeros.start >= 2) {
return `${this.octets.slice(0, contigZeros.start).join(':')}::${this.octets.slice(contigZeros.end).join(':')}`
}
this.renderedAddress = this.octets.join(':')
this.renderedOctets = [...this.octets]
} else {
console.warn('invalid octet length for IpAddress', this.octets)
}
return this.renderedAddress
}
}
/**
* Represents an IP network (CIDR notation) combining an IP address with a prefix length.
* Extends IpAddress with network-specific operations like containment checks and broadcast calculation.
*
* @example
* ```ts
* const net = IpNet.parse("192.168.1.0/24")
* net.contains("192.168.1.100") // true
* net.broadcast() // 192.168.1.255
* ```
*/
export class IpNet extends IpAddress {
private constructor(
octets: number[],
public prefix: number,
address: string,
) {
super(octets, address)
}
/**
* Creates an IpNet from an IpAddress and prefix length.
* @param ip - The base IP address
* @param prefix - The CIDR prefix length (0-32 for IPv4, 0-128 for IPv6)
* @returns A new IpNet instance
* @throws Error if prefix exceeds the address bit length
*/
static fromIpPrefix(ip: IpAddress, prefix: number): IpNet {
if (prefix > ip.octets.length * 8) {
throw new Error('invalid prefix')
}
return new IpNet(ip.octets, prefix, ip.address)
}
/**
* Parses a CIDR notation string (e.g. `"192.168.1.0/24"`) into an IpNet.
* @param ipnet - The CIDR string to parse
* @returns A new IpNet instance
*/
static parse(ipnet: string): IpNet {
const [address, prefixStr] = ipnet.split('/', 2)
const ip = IpAddress.parse(address)
const prefix = Number(prefixStr)
return IpNet.fromIpPrefix(ip, prefix)
}
/**
* Checks whether this network contains the given address or subnet.
* @param address - An IP address or subnet (string, IpAddress, or IpNet)
* @returns True if the address falls within this network's range
*/
contains(address: string | IpAddress | IpNet): boolean {
if (typeof address === 'string') address = IpAddress.parse(address)
if (address instanceof IpNet && address.prefix < this.prefix) return false
if (this.octets.length !== address.octets.length) return false
let prefix = this.prefix
let idx = 0
while (idx < this.octets.length && prefix >= 8) {
if (this.octets[idx] !== address.octets[idx]) {
return false
}
idx += 1
prefix -= 8
}
if (prefix === 0 || idx >= this.octets.length) return true
const mask = 255 ^ (255 >> prefix)
return (this.octets[idx] & mask) === (address.octets[idx] & mask)
}
/** Returns the network address (all host bits zeroed) for this subnet. */
zero(): IpAddress {
let octets: number[] = []
let prefix = this.prefix
for (let idx = 0; idx < this.octets.length; idx++) {
if (prefix >= 8) {
octets[idx] = this.octets[idx]
prefix -= 8
} else {
const mask = 255 ^ (255 >> prefix)
octets[idx] = this.octets[idx] & mask
prefix = 0
}
}
return IpAddress.fromOctets(octets)
}
/** Returns the broadcast address (all host bits set to 1) for this subnet. */
broadcast(): IpAddress {
let octets: number[] = []
let prefix = this.prefix
for (let idx = 0; idx < this.octets.length; idx++) {
if (prefix >= 8) {
octets[idx] = this.octets[idx]
prefix -= 8
} else {
const mask = 255 >> prefix
octets[idx] = this.octets[idx] | mask
prefix = 0
}
}
return IpAddress.fromOctets(octets)
}
/** The CIDR notation string for this network (e.g. `"192.168.1.0/24"`). */
get ipnet() {
return `${this.address}/${this.prefix}`
}
}
/** All private IPv4 ranges: loopback (127.0.0.0/8), Class A (10.0.0.0/8), Class B (172.16.0.0/12), Class C (192.168.0.0/16). */
export const PRIVATE_IPV4_RANGES = [
IpNet.parse('127.0.0.0/8'),
IpNet.parse('10.0.0.0/8'),
IpNet.parse('172.16.0.0/12'),
IpNet.parse('192.168.0.0/16'),
]
/** IPv4 loopback network (127.0.0.0/8). */
export const IPV4_LOOPBACK = IpNet.parse('127.0.0.0/8')
/** IPv6 loopback address (::1/128). */
export const IPV6_LOOPBACK = IpNet.parse('::1/128')
/** IPv6 link-local network (fe80::/10). */
export const IPV6_LINK_LOCAL = IpNet.parse('fe80::/10')
/** Carrier-Grade NAT (CGNAT) address range (100.64.0.0/10), per RFC 6598. */
export const CGNAT = IpNet.parse('100.64.0.0/10')
Reference in New Issue View Git Blame Copy Permalink