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195 lines
4.9 KiB
195 lines
4.9 KiB
package zones |
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import ( |
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"fmt" |
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"net/netip" |
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"git.jpi.io/amery/jpictl/pkg/wireguard" |
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) |
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const ( |
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// MaxZoneID indicates the highest ID allowed for a Zone |
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MaxZoneID = 0xf |
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// MaxNodeID indicates the highest Machine ID allowed within a Zone |
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MaxNodeID = 0xff - 1 |
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// RingsCount indicates how many wireguard rings we have |
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RingsCount = 2 |
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) |
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// RingInfo contains represents the Wireguard endpoint details |
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// for a Machine on a particular ring |
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type RingInfo struct { |
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Ring int `toml:"ring"` |
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Enabled bool `toml:"enabled,omitempty"` |
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Keys *wireguard.KeyPair `toml:"keys,omitempty"` |
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Address netip.Addr `toml:"address,omitempty"` |
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} |
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// Merge attempts to combine two RingInfo structs |
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func (ri *RingInfo) Merge(alter *RingInfo) error { |
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switch { |
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case ri.Ring != alter.Ring: |
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// different ring |
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return fmt.Errorf("invalid %s: %v ≠ %v", "ring", ri.Ring, alter.Ring) |
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case ri.Enabled != alter.Enabled: |
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// different state |
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return fmt.Errorf("invalid %s: %v ≠ %v", "enabled", ri.Enabled, alter.Enabled) |
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case !canMergeAddress(ri.Address, alter.Address): |
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// different address |
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return fmt.Errorf("invalid %s: %v ≠ %v", "address", ri.Address, alter.Address) |
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case !canMergeKeyPairs(ri.Keys, alter.Keys): |
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// incompatible keypairs |
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return fmt.Errorf("invalid %s: %s ≠ %s", "keys", ri.Keys, alter.Keys) |
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} |
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switch { |
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case ri.Keys == nil: |
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// assign keypair |
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ri.Keys = alter.Keys |
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case alter.Keys != nil: |
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// fill the gaps on our keypair |
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if ri.Keys.PrivateKey.IsZero() { |
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ri.Keys.PrivateKey = alter.Keys.PrivateKey |
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} |
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if ri.Keys.PublicKey.IsZero() { |
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ri.Keys.PublicKey = alter.Keys.PublicKey |
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} |
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} |
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if addressEqual(ri.Address, netip.Addr{}) { |
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// assign address |
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ri.Address = alter.Address |
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} |
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return nil |
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} |
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func canMergeAddress(ip1, ip2 netip.Addr) bool { |
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var zero netip.Addr |
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switch { |
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case addressEqual(ip1, zero) || addressEqual(ip2, zero) || addressEqual(ip1, ip2): |
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return true |
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default: |
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return false |
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} |
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} |
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func addressEqual(ip1, ip2 netip.Addr) bool { |
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return ip1.Compare(ip2) == 0 |
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} |
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func canMergeKeyPairs(p1, p2 *wireguard.KeyPair) bool { |
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switch { |
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case p1 == nil || p2 == nil: |
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return true |
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case !p1.PrivateKey.IsZero() && !p2.PrivateKey.IsZero() && !p1.PrivateKey.Equal(p2.PrivateKey): |
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return false |
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case !p1.PublicKey.IsZero() && !p2.PublicKey.IsZero() && !p1.PublicKey.Equal(p2.PublicKey): |
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return false |
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default: |
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return true |
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} |
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} |
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// RingAddressEncoder provides encoder/decoder access for a particular |
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// Wireguard ring |
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type RingAddressEncoder struct { |
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ID int |
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Encode func(zoneID, nodeID int) (netip.Addr, bool) |
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Decode func(addr netip.Addr) (zoneID, nodeID int, ok bool) |
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} |
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var ( |
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// RingZero is a wg0 address encoder/decoder |
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RingZero = RingAddressEncoder{ |
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ID: 0, |
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Decode: ParseRingZeroAddress, |
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Encode: RingZeroAddress, |
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} |
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// RingOne is a wg1 address encoder/decoder |
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RingOne = RingAddressEncoder{ |
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ID: 1, |
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Decode: ParseRingOneAddress, |
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Encode: RingOneAddress, |
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} |
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// Rings provides indexed access to the ring address encoders |
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Rings = [RingsCount]RingAddressEncoder{ |
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RingZero, |
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RingOne, |
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} |
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) |
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// ValidZoneID checks if the given zoneID is a valid 4 bit zone number. |
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// |
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// 0 is reserved, and only allowed when composing CIDRs. |
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func ValidZoneID(zoneID int) bool { |
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switch { |
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case zoneID < 0 || zoneID > MaxZoneID: |
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return false |
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default: |
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return true |
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} |
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} |
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// ValidNodeID checks if the given nodeID is a valid 8 bit number. |
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// nodeID is unique within a Zone. |
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// 0 is reserved, and only allowed when composing CIDRs. |
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func ValidNodeID(nodeID int) bool { |
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switch { |
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case nodeID < 0 || nodeID > MaxNodeID: |
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return false |
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default: |
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return true |
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} |
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} |
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// ParseRingZeroAddress extracts zone and node ID from a wg0 [netip.Addr] |
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// wg0 addresses are of the form `10.0.{{zoneID}}.{{nodeID}}` |
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func ParseRingZeroAddress(addr netip.Addr) (zoneID int, nodeID int, ok bool) { |
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if addr.IsValid() { |
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a4 := addr.As4() |
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if a4[0] == 10 && a4[1] == 0 { |
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return int(a4[2]), int(a4[3]), true |
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} |
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} |
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return 0, 0, false |
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} |
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// RingZeroAddress returns a wg0 IP address |
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func RingZeroAddress(zoneID, nodeID int) (netip.Addr, bool) { |
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switch { |
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case !ValidZoneID(zoneID) || !ValidNodeID(nodeID): |
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return netip.Addr{}, false |
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default: |
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a4 := [4]uint8{10, 0, uint8(zoneID), uint8(nodeID)} |
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return netip.AddrFrom4(a4), true |
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} |
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} |
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// ParseRingOneAddress extracts zone and node ID from a wg1 [netip.Addr] |
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// wg1 addresses are of the form `10.{{zoneID << 4}}.{{nodeID}}` |
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func ParseRingOneAddress(addr netip.Addr) (zoneID int, nodeID int, ok bool) { |
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if addr.IsValid() { |
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a4 := addr.As4() |
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if a4[0] == 10 && a4[2] == 0 { |
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zoneID = int(a4[1] >> 4) |
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nodeID = int(a4[3]) |
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return zoneID, nodeID, true |
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} |
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} |
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return 0, 0, false |
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} |
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// RingOneAddress returns a wg1 IP address |
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func RingOneAddress(zoneID, nodeID int) (netip.Addr, bool) { |
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switch { |
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case !ValidZoneID(zoneID) || !ValidNodeID(nodeID): |
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return netip.Addr{}, false |
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default: |
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a4 := [4]uint8{10, 0, uint8(zoneID << 4), uint8(nodeID)} |
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return netip.AddrFrom4(a4), true |
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} |
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}
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