jpictl/pkg/zones/rings.go

package zones

import (
	"fmt"
	"net/netip"

	"git.jpi.io/amery/jpictl/pkg/wireguard"
)

const (
	// MaxZoneID indicates the highest ID allowed for a Zone
	MaxZoneID = 0xf
	// MaxNodeID indicates the highest Machine ID allowed within a Zone
	MaxNodeID = 0xff - 1
	// RingsCount indicates how many wireguard rings we have
	RingsCount = 2
	// RingZeroPort is the port wireguard uses for ring0
	RingZeroPort = 51800
	// RingOnePort is the port wireguard uses for ring1
	RingOnePort = 51810
)

// RingInfo contains represents the Wireguard endpoint details
// for a Machine on a particular ring
type RingInfo struct {
	Ring    int                `toml:"ring"`
	Enabled bool               `toml:"enabled,omitempty"`
	Keys    *wireguard.KeyPair `toml:"keys,omitempty"`
}

// Merge attempts to combine two RingInfo structs
func (ri *RingInfo) Merge(alter *RingInfo) error {
	switch {
	case ri.Ring != alter.Ring:
		// different ring
		return fmt.Errorf("invalid %s: %v ≠ %v", "ring", ri.Ring, alter.Ring)
	case ri.Enabled && !alter.Enabled:
		// can't disable via Merge
		return fmt.Errorf("invalid %s: %v → %v", "enabled", ri.Enabled, alter.Enabled)
	case !canMergeKeyPairs(ri.Keys, alter.Keys):
		// incompatible keypairs
		return fmt.Errorf("invalid %s: %s ≠ %s", "keys", ri.Keys, alter.Keys)
	}

	return ri.unsafeMerge(alter)
}

func (ri *RingInfo) unsafeMerge(alter *RingInfo) error {
	// enable via Merge
	if alter.Enabled {
		ri.Enabled = true
	}

	switch {
	case ri.Keys == nil:
		// assign keypair
		ri.Keys = alter.Keys
	case alter.Keys != nil:
		// fill the gaps on our keypair
		if ri.Keys.PrivateKey.IsZero() {
			ri.Keys.PrivateKey = alter.Keys.PrivateKey
		}
		if ri.Keys.PublicKey.IsZero() {
			ri.Keys.PublicKey = alter.Keys.PublicKey
		}
	}

	return nil
}

func canMergeKeyPairs(p1, p2 *wireguard.KeyPair) bool {
	switch {
	case p1 == nil || p2 == nil:
		return true
	case !p1.PrivateKey.IsZero() && !p2.PrivateKey.IsZero() && !p1.PrivateKey.Equal(p2.PrivateKey):
		return false
	case !p1.PublicKey.IsZero() && !p2.PublicKey.IsZero() && !p1.PublicKey.Equal(p2.PublicKey):
		return false
	default:
		return true
	}
}

// RingAddressEncoder provides encoder/decoder access for a particular
// Wireguard ring
type RingAddressEncoder struct {
	ID     int
	Port   uint16
	Encode func(zoneID, nodeID int) (netip.Addr, bool)
	Decode func(addr netip.Addr) (zoneID, nodeID int, ok bool)
}

var (
	// RingZero is a wg0 address encoder/decoder
	RingZero = RingAddressEncoder{
		ID:     0,
		Port:   RingZeroPort,
		Decode: ParseRingZeroAddress,
		Encode: RingZeroAddress,
	}
	// RingOne is a wg1 address encoder/decoder
	RingOne = RingAddressEncoder{
		ID:     1,
		Port:   RingOnePort,
		Decode: ParseRingOneAddress,
		Encode: RingOneAddress,
	}
	// Rings provides indexed access to the ring address encoders
	Rings = [RingsCount]RingAddressEncoder{
		RingZero,
		RingOne,
	}
)

// ValidZoneID checks if the given zoneID is a valid 4 bit zone number.
//
// 0 is reserved, and only allowed when composing CIDRs.
func ValidZoneID(zoneID int) bool {
	switch {
	case zoneID < 0 || zoneID > MaxZoneID:
		return false
	default:
		return true
	}
}

// ValidNodeID checks if the given nodeID is a valid 8 bit number.
// nodeID is unique within a Zone.
// 0 is reserved, and only allowed when composing CIDRs.
func ValidNodeID(nodeID int) bool {
	switch {
	case nodeID < 0 || nodeID > MaxNodeID:
		return false
	default:
		return true
	}
}

// ParseRingZeroAddress extracts zone and node ID from a wg0 [netip.Addr]
// wg0 addresses are of the form `10.0.{{zoneID}}.{{nodeID}}`
func ParseRingZeroAddress(addr netip.Addr) (zoneID int, nodeID int, ok bool) {
	if addr.IsValid() {
		a4 := addr.As4()

		if a4[0] == 10 && a4[1] == 0 {
			return int(a4[2]), int(a4[3]), true
		}
	}
	return 0, 0, false
}

// RingZeroAddress returns a wg0 IP address
func RingZeroAddress(zoneID, nodeID int) (netip.Addr, bool) {
	switch {
	case !ValidZoneID(zoneID) || !ValidNodeID(nodeID):
		return netip.Addr{}, false
	default:
		a4 := [4]uint8{10, 0, uint8(zoneID), uint8(nodeID)}
		return netip.AddrFrom4(a4), true
	}
}

// ParseRingOneAddress extracts zone and node ID from a wg1 [netip.Addr]
// wg1 addresses are of the form `10.{{zoneID << 4}}.{{nodeID}}`
func ParseRingOneAddress(addr netip.Addr) (zoneID int, nodeID int, ok bool) {
	if addr.IsValid() {
		a4 := addr.As4()

		if a4[0] == 10 && a4[2] == 0 {
			zoneID = int(a4[1] >> 4)
			nodeID = int(a4[3])
			return zoneID, nodeID, true
		}
	}
	return 0, 0, false
}

// RingOneAddress returns a wg1 IP address
func RingOneAddress(zoneID, nodeID int) (netip.Addr, bool) {
	switch {
	case !ValidZoneID(zoneID) || !ValidNodeID(nodeID):
		return netip.Addr{}, false
	default:
		a4 := [4]uint8{10, 0, uint8(zoneID << 4), uint8(nodeID)}
		return netip.AddrFrom4(a4), true
	}
}
zones: add helpers to compose and parse wg0/wg1 addresses Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`package zones`

zones: introduce RingInfo and Machine.Rings RingInfo includes Wireguard ring related details Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`import (`
zones: introduce RingInfo.Merge() Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`"fmt"`
zones: introduce RingInfo and Machine.Rings RingInfo includes Wireguard ring related details Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`"net/netip"`

			`"git.jpi.io/amery/jpictl/pkg/wireguard"`
			`)`
zones: add helpers to compose and parse wg0/wg1 addresses Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago
zones: introduce ValidZoneID() and ValidNodeID() Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`const (`
			`// MaxZoneID indicates the highest ID allowed for a Zone`
			`MaxZoneID = 0xf`
			`// MaxNodeID indicates the highest Machine ID allowed within a Zone`
			`MaxNodeID = 0xff - 1`
zones: introduce RingAddressEncoder and RingZero/RingOne implementations Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`// RingsCount indicates how many wireguard rings we have`
			`RingsCount = 2`
zones: add Port information to RingAddressEncoder Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`// RingZeroPort is the port wireguard uses for ring0`
			`RingZeroPort = 51800`
			`// RingOnePort is the port wireguard uses for ring1`
			`RingOnePort = 51810`
zones: introduce RingAddressEncoder and RingZero/RingOne implementations Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`)`

zones: introduce RingInfo and Machine.Rings RingInfo includes Wireguard ring related details Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`// RingInfo contains represents the Wireguard endpoint details`
			`// for a Machine on a particular ring`
			`type RingInfo struct {`
			Ring int `toml:"ring"`
			Enabled bool `toml:"enabled,omitempty"`
			Keys *wireguard.KeyPair `toml:"keys,omitempty"`
			`}`

zones: introduce RingInfo.Merge() Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`// Merge attempts to combine two RingInfo structs`
			`func (ri RingInfo) Merge(alter RingInfo) error {`
			`switch {`
			`case ri.Ring != alter.Ring:`
			`// different ring`
			`return fmt.Errorf("invalid %s: %v ≠ %v", "ring", ri.Ring, alter.Ring)`
zones: allow RingInfo.Merge() to enable, but not disable Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`case ri.Enabled && !alter.Enabled:`
			`// can't disable via Merge`
			`return fmt.Errorf("invalid %s: %v → %v", "enabled", ri.Enabled, alter.Enabled)`
zones: introduce RingInfo.Merge() Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`case !canMergeKeyPairs(ri.Keys, alter.Keys):`
			`// incompatible keypairs`
			`return fmt.Errorf("invalid %s: %s ≠ %s", "keys", ri.Keys, alter.Keys)`
			`}`

zones: allow RingInfo.Merge() to enable, but not disable Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`return ri.unsafeMerge(alter)`
			`}`

			`func (ri RingInfo) unsafeMerge(alter RingInfo) error {`
			`// enable via Merge`
			`if alter.Enabled {`
			`ri.Enabled = true`
			`}`

zones: introduce RingInfo.Merge() Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`switch {`
			`case ri.Keys == nil:`
			`// assign keypair`
			`ri.Keys = alter.Keys`
			`case alter.Keys != nil:`
			`// fill the gaps on our keypair`
			`if ri.Keys.PrivateKey.IsZero() {`
			`ri.Keys.PrivateKey = alter.Keys.PrivateKey`
			`}`
			`if ri.Keys.PublicKey.IsZero() {`
			`ri.Keys.PublicKey = alter.Keys.PublicKey`
			`}`
			`}`

			`return nil`
			`}`

			`func canMergeKeyPairs(p1, p2 *wireguard.KeyPair) bool {`
			`switch {`
			`case p1 == nil \|\| p2 == nil:`
			`return true`
			`case !p1.PrivateKey.IsZero() && !p2.PrivateKey.IsZero() && !p1.PrivateKey.Equal(p2.PrivateKey):`
			`return false`
			`case !p1.PublicKey.IsZero() && !p2.PublicKey.IsZero() && !p1.PublicKey.Equal(p2.PublicKey):`
			`return false`
			`default:`
			`return true`
			`}`
			`}`

zones: introduce RingAddressEncoder and RingZero/RingOne implementations Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`// RingAddressEncoder provides encoder/decoder access for a particular`
			`// Wireguard ring`
			`type RingAddressEncoder struct {`
			`ID int`
zones: add Port information to RingAddressEncoder Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`Port uint16`
zones: introduce RingAddressEncoder and RingZero/RingOne implementations Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`Encode func(zoneID, nodeID int) (netip.Addr, bool)`
			`Decode func(addr netip.Addr) (zoneID, nodeID int, ok bool)`
			`}`

			`var (`
			`// RingZero is a wg0 address encoder/decoder`
			`RingZero = RingAddressEncoder{`
			`ID: 0,`
zones: add Port information to RingAddressEncoder Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`Port: RingZeroPort,`
zones: introduce RingAddressEncoder and RingZero/RingOne implementations Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`Decode: ParseRingZeroAddress,`
			`Encode: RingZeroAddress,`
			`}`
			`// RingOne is a wg1 address encoder/decoder`
			`RingOne = RingAddressEncoder{`
			`ID: 1,`
zones: add Port information to RingAddressEncoder Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`Port: RingOnePort,`
zones: introduce RingAddressEncoder and RingZero/RingOne implementations Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`Decode: ParseRingOneAddress,`
			`Encode: RingOneAddress,`
			`}`
			`// Rings provides indexed access to the ring address encoders`
			`Rings = [RingsCount]RingAddressEncoder{`
			`RingZero,`
			`RingOne,`
			`}`
zones: introduce ValidZoneID() and ValidNodeID() Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`)`

			`// ValidZoneID checks if the given zoneID is a valid 4 bit zone number.`
			`//`
			`// 0 is reserved, and only allowed when composing CIDRs.`
			`func ValidZoneID(zoneID int) bool {`
			`switch {`
			`case zoneID < 0 \|\| zoneID > MaxZoneID:`
			`return false`
			`default:`
			`return true`
			`}`
			`}`

			`// ValidNodeID checks if the given nodeID is a valid 8 bit number.`
			`// nodeID is unique within a Zone.`
			`// 0 is reserved, and only allowed when composing CIDRs.`
			`func ValidNodeID(nodeID int) bool {`
			`switch {`
			`case nodeID < 0 \|\| nodeID > MaxNodeID:`
			`return false`
			`default:`
			`return true`
			`}`
			`}`

zones: add helpers to compose and parse wg0/wg1 addresses Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`// ParseRingZeroAddress extracts zone and node ID from a wg0 [netip.Addr]`
zones: introduce ValidZoneID() and ValidNodeID() Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			// wg0 addresses are of the form `10.0.{{zoneID}}.{{nodeID}}`
zones: add helpers to compose and parse wg0/wg1 addresses Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`func ParseRingZeroAddress(addr netip.Addr) (zoneID int, nodeID int, ok bool) {`
			`if addr.IsValid() {`
			`a4 := addr.As4()`

			`if a4[0] == 10 && a4[1] == 0 {`
			`return int(a4[2]), int(a4[3]), true`
			`}`
			`}`
			`return 0, 0, false`
			`}`

			`// RingZeroAddress returns a wg0 IP address`
zones: introduce ValidZoneID() and ValidNodeID() Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`func RingZeroAddress(zoneID, nodeID int) (netip.Addr, bool) {`
			`switch {`
			`case !ValidZoneID(zoneID) \|\| !ValidNodeID(nodeID):`
			`return netip.Addr{}, false`
			`default:`
			`a4 := [4]uint8{10, 0, uint8(zoneID), uint8(nodeID)}`
			`return netip.AddrFrom4(a4), true`
			`}`
zones: add helpers to compose and parse wg0/wg1 addresses Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`}`

			`// ParseRingOneAddress extracts zone and node ID from a wg1 [netip.Addr]`
zones: introduce ValidZoneID() and ValidNodeID() Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			// wg1 addresses are of the form `10.{{zoneID << 4}}.{{nodeID}}`
zones: add helpers to compose and parse wg0/wg1 addresses Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`func ParseRingOneAddress(addr netip.Addr) (zoneID int, nodeID int, ok bool) {`
			`if addr.IsValid() {`
			`a4 := addr.As4()`

			`if a4[0] == 10 && a4[2] == 0 {`
			`zoneID = int(a4[1] >> 4)`
			`nodeID = int(a4[3])`
			`return zoneID, nodeID, true`
			`}`
			`}`
			`return 0, 0, false`
			`}`

			`// RingOneAddress returns a wg1 IP address`
zones: introduce ValidZoneID() and ValidNodeID() Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`func RingOneAddress(zoneID, nodeID int) (netip.Addr, bool) {`
			`switch {`
			`case !ValidZoneID(zoneID) \|\| !ValidNodeID(nodeID):`
			`return netip.Addr{}, false`
			`default:`
			`a4 := [4]uint8{10, 0, uint8(zoneID << 4), uint8(nodeID)}`
			`return netip.AddrFrom4(a4), true`
			`}`
zones: add helpers to compose and parse wg0/wg1 addresses Signed-off-by: Alejandro Mery <amery@jpi.io> 1 year ago			`}`