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@ -4,28 +4,86 @@ import (
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"fmt" |
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"io/fs" |
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"net/netip" |
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"strconv" |
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"git.jpi.io/amery/jpictl/pkg/rings" |
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"git.jpi.io/amery/jpictl/pkg/wireguard" |
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) |
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const ( |
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// RingsCount indicates how many wireguard rings we have
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RingsCount = 2 |
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// RingZeroPort is the port wireguard uses for ring0
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RingZeroPort = 51800 |
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// RingOnePort is the port wireguard uses for ring1
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RingOnePort = 51810 |
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) |
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// WireguardInterfaceID represents the number in the `wg%v`
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// interface name.
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type WireguardInterfaceID uint |
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// AsWireguardInterfaceID returns the [WireguardInterfaceID] for
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// a valid [rings.RingID].
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func AsWireguardInterfaceID(ring rings.RingID) (WireguardInterfaceID, error) { |
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switch ring { |
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case rings.RingZeroID: |
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return 0, nil |
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case rings.RingOneID: |
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return 1, nil |
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default: |
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return 0, ErrInvalidRing(ring) |
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} |
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} |
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// MustWireguardInterfaceID returns the [WireguardInterfaceID] for
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// a valid [rings.RingID], and panics if it's not.
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func MustWireguardInterfaceID(ring rings.RingID) WireguardInterfaceID { |
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id, err := AsWireguardInterfaceID(ring) |
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if err != nil { |
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panic(err) |
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} |
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return id |
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} |
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// RingID tells the [rings.RingID] of the [WireguardInterfaceID].
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func (wi WireguardInterfaceID) RingID() rings.RingID { |
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return rings.RingID(wi + 1) |
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} |
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// PubFile returns "wgN.pub"
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func (wi WireguardInterfaceID) PubFile() string { |
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return fmt.Sprintf("wg%v.pub", wi) |
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} |
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// KeyFile returns "wgN.key"
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func (wi WireguardInterfaceID) KeyFile() string { |
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return fmt.Sprintf("wg%v.key", wi) |
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} |
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// ConfFile returns "wgN.conf"
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func (wi WireguardInterfaceID) ConfFile() string { |
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return fmt.Sprintf("wg%v.conf", wi) |
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} |
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// Files returns all wgN.ext file names.
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func (wi WireguardInterfaceID) Files() (keyFile, pubFile, confFile string) { |
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prefix := "wg" + strconv.Itoa(int(wi)) |
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return prefix + ".key", prefix + ".pub", prefix + ".conf" |
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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 |
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Ring WireguardInterfaceID |
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Enabled bool |
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Keys wireguard.KeyPair |
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} |
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// RingID returns the [rings.RingID] for this [RingInfo].
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func (ri *RingInfo) RingID() rings.RingID { |
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return rings.RingID(ri.Ring + 1) |
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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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@ -51,7 +109,7 @@ func (ri *RingInfo) unsafeMerge(alter *RingInfo) error {
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ri.Enabled = true |
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} |
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// fill the gaps on our keypair
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// fill the gaps on our key pair
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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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@ -76,100 +134,34 @@ func canMergeKeyPairs(p1, p2 wireguard.KeyPair) bool {
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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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ID rings.RingID |
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Port uint16 |
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Encode func(zoneID rings.ZoneID, nodeID rings.NodeID) (netip.Addr, bool) |
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Decode func(addr netip.Addr) (zoneID rings.ZoneID, nodeID rings.NodeID, ok bool) |
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Encode func(rings.RegionID, rings.ZoneID, rings.NodeID) (netip.Addr, error) |
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Decode func(addr netip.Addr) (rings.RegionID, rings.ZoneID, rings.NodeID, 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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ID: rings.RingZeroID, |
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Port: RingZeroPort, |
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Decode: ParseRingZeroAddress, |
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Encode: RingZeroAddress, |
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Decode: rings.DecodeRingZeroAddress, |
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Encode: rings.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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ID: rings.RingOneID, |
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Port: RingOnePort, |
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Decode: ParseRingOneAddress, |
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Encode: RingOneAddress, |
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Decode: rings.DecodeRingOneAddress, |
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Encode: rings.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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Rings = []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 rings.ZoneID) bool { |
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return zoneID == 0 || zoneID.Valid() |
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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 rings.NodeID) bool { |
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return nodeID == 0 || nodeID.Valid() |
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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 rings.ZoneID, nodeID rings.NodeID, 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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zoneID = rings.ZoneID(a4[2]) |
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nodeID = rings.NodeID(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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// RingZeroAddress returns a wg0 IP address
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func RingZeroAddress(zoneID rings.ZoneID, nodeID rings.NodeID) (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 rings.ZoneID, nodeID rings.NodeID, 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 = rings.ZoneID(a4[1] >> 4) |
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nodeID = rings.NodeID(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 rings.ZoneID, nodeID rings.NodeID) (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, uint8(zoneID << 4), 0, uint8(nodeID)} |
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return netip.AddrFrom4(a4), true |
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} |
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} |
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var ( |
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_ MachineIterator = (*Ring)(nil) |
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_ ZoneIterator = (*Ring)(nil) |
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@ -192,14 +184,15 @@ func (r *Ring) AddPeer(p *Machine) bool {
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nodeID := p.ID |
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zoneID := p.Zone() |
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addr, _ := r.Encode(zoneID, nodeID) |
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regionID := p.Region() |
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addr, _ := r.Encode(regionID, zoneID, nodeID) |
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rp := &RingPeer{ |
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Node: p, |
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Address: addr, |
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PrivateKey: ri.Keys.PrivateKey, |
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PeerConfig: wireguard.PeerConfig{ |
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Name: fmt.Sprintf("%s-%v", p.Name, r.ID), |
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Name: fmt.Sprintf("%s-%v", p.Name, ri.Ring), |
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PublicKey: ri.Keys.PublicKey, |
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Endpoint: wireguard.EndpointAddress{ |
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Host: p.FullName(), |
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@ -222,27 +215,27 @@ func (r *Ring) AddPeer(p *Machine) bool {
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} |
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func (r *Ring) setRingZeroAllowedIPs(rp *RingPeer) { |
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zoneID, _, _ := r.Decode(rp.Address) |
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regionID, zoneID, _, _ := r.Decode(rp.Address) |
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// everyone on ring0 is a gateway to ring1
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addr, _ := RingOneAddress(zoneID, 0) |
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rp.AllowCIDR(addr, 12) |
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subnet, _ := rings.RingOnePrefix(regionID, zoneID) |
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rp.AllowSubnet(subnet) |
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// peer
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rp.AllowCIDR(rp.Address, 32) |
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} |
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func (r *Ring) setRingOneGatewayAllowedIPs(rp *RingPeer) { |
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zoneID, _, _ := r.Decode(rp.Address) |
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regionID, zoneID, _, _ := r.Decode(rp.Address) |
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// peer
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rp.AllowCIDR(rp.Address, 32) |
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// ring1 gateways connect to all other ring1 networks
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r.ForEachZone(func(z *Zone) bool { |
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if z.ID != zoneID { |
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addr, _ := r.Encode(z.ID, 0) |
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rp.AllowCIDR(addr, 12) |
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if !z.Is(regionID, zoneID) { |
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subnet := z.RingOnePrefix() |
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rp.AllowSubnet(subnet) |
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} |
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return false |
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}) |
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@ -251,7 +244,7 @@ func (r *Ring) setRingOneGatewayAllowedIPs(rp *RingPeer) {
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r.ForEachZone(func(z *Zone) bool { |
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z.ForEachMachine(func(p *Machine) bool { |
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if p.IsGateway() { |
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addr, _ := RingZeroAddress(z.ID, p.ID) |
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addr, _ := p.RingZeroAddress() |
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rp.AllowCIDR(addr, 32) |
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} |
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return false |
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@ -318,15 +311,29 @@ type RingPeer struct {
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// AllowCIDR allows an IP range via this peer
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func (rp *RingPeer) AllowCIDR(addr netip.Addr, bits int) { |
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cidr := netip.PrefixFrom(addr, bits) |
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rp.PeerConfig.AllowedIPs = append(rp.PeerConfig.AllowedIPs, cidr) |
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rp.AllowSubnet(netip.PrefixFrom(addr, bits)) |
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} |
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// AllowSubnet allows an IP range via this peer
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func (rp *RingPeer) AllowSubnet(subnet netip.Prefix) { |
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rp.PeerConfig.AllowedIPs = append(rp.PeerConfig.AllowedIPs, subnet) |
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} |
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// NewRing composes a new Ring for Wireguard setup
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func NewRing(z ZoneIterator, m MachineIterator, ring int) (*Ring, error) { |
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r := &Ring{ |
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RingAddressEncoder: Rings[ring], |
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ZoneIterator: z, |
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func NewRing(z ZoneIterator, m MachineIterator, ringID rings.RingID) (*Ring, error) { |
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var r *Ring |
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for _, ring := range Rings { |
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if ringID == ring.ID { |
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r = &Ring{ |
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RingAddressEncoder: ring, |
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ZoneIterator: z, |
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} |
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break |
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} |
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} |
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if r == nil { |
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return nil, ErrInvalidRing(ringID) |
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} |
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m.ForEachMachine(func(p *Machine) bool { |
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