338 lines
8.4 KiB
Go
338 lines
8.4 KiB
Go
package db
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import (
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"crypto/rand"
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"database/sql"
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"errors"
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"fmt"
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"math/big"
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"net/netip"
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"sync"
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"github.com/juanfont/headscale/hscontrol/types"
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"github.com/juanfont/headscale/hscontrol/util"
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"github.com/rs/zerolog/log"
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"go4.org/netipx"
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"gorm.io/gorm"
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"tailscale.com/net/tsaddr"
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)
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// IPAllocator is a singleton responsible for allocating
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// IP addresses for nodes and making sure the same
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// address is not handed out twice. There can only be one
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// and it needs to be created before any other database
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// writes occur.
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type IPAllocator struct {
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mu sync.Mutex
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prefix4 *netip.Prefix
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prefix6 *netip.Prefix
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// Previous IPs handed out
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prev4 netip.Addr
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prev6 netip.Addr
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// strategy used for handing out IP addresses.
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strategy types.IPAllocationStrategy
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// Set of all IPs handed out.
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// This might not be in sync with the database,
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// but it is more conservative. If saves to the
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// database fails, the IP will be allocated here
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// until the next restart of Headscale.
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usedIPs netipx.IPSetBuilder
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}
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// NewIPAllocator returns a new IPAllocator singleton which
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// can be used to hand out unique IP addresses within the
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// provided IPv4 and IPv6 prefix. It needs to be created
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// when headscale starts and needs to finish its read
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// transaction before any writes to the database occur.
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func NewIPAllocator(
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db *HSDatabase,
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prefix4, prefix6 *netip.Prefix,
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strategy types.IPAllocationStrategy,
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) (*IPAllocator, error) {
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ret := IPAllocator{
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prefix4: prefix4,
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prefix6: prefix6,
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strategy: strategy,
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}
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var v4s []sql.NullString
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var v6s []sql.NullString
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if db != nil {
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err := db.Read(func(rx *gorm.DB) error {
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return rx.Model(&types.Node{}).Pluck("ipv4", &v4s).Error
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})
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if err != nil {
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return nil, fmt.Errorf("reading IPv4 addresses from database: %w", err)
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}
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err = db.Read(func(rx *gorm.DB) error {
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return rx.Model(&types.Node{}).Pluck("ipv6", &v6s).Error
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})
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if err != nil {
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return nil, fmt.Errorf("reading IPv6 addresses from database: %w", err)
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}
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}
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var ips netipx.IPSetBuilder
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// Add network and broadcast addrs to used pool so they
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// are not handed out to nodes.
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if prefix4 != nil {
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network4, broadcast4 := util.GetIPPrefixEndpoints(*prefix4)
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ips.Add(network4)
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ips.Add(broadcast4)
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// Use network as starting point, it will be used to call .Next()
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// TODO(kradalby): Could potentially take all the IPs loaded from
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// the database into account to start at a more "educated" location.
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ret.prev4 = network4
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}
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if prefix6 != nil {
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network6, broadcast6 := util.GetIPPrefixEndpoints(*prefix6)
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ips.Add(network6)
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ips.Add(broadcast6)
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ret.prev6 = network6
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}
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// Fetch all the IP Addresses currently handed out from the Database
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// and add them to the used IP set.
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for _, addrStr := range append(v4s, v6s...) {
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if addrStr.Valid {
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addr, err := netip.ParseAddr(addrStr.String)
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if err != nil {
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return nil, fmt.Errorf("parsing IP address from database: %w", err)
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}
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ips.Add(addr)
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}
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}
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// Build the initial IPSet to validate that we can use it.
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_, err := ips.IPSet()
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if err != nil {
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return nil, fmt.Errorf(
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"building initial IP Set: %w",
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err,
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)
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}
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ret.usedIPs = ips
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return &ret, nil
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}
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func (i *IPAllocator) Next() (*netip.Addr, *netip.Addr, error) {
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i.mu.Lock()
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defer i.mu.Unlock()
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var err error
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var ret4 *netip.Addr
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var ret6 *netip.Addr
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if i.prefix4 != nil {
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ret4, err = i.next(i.prev4, i.prefix4)
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if err != nil {
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return nil, nil, fmt.Errorf("allocating IPv4 address: %w", err)
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}
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i.prev4 = *ret4
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}
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if i.prefix6 != nil {
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ret6, err = i.next(i.prev6, i.prefix6)
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if err != nil {
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return nil, nil, fmt.Errorf("allocating IPv6 address: %w", err)
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}
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i.prev6 = *ret6
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}
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return ret4, ret6, nil
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}
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var ErrCouldNotAllocateIP = errors.New("failed to allocate IP")
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func (i *IPAllocator) nextLocked(prev netip.Addr, prefix *netip.Prefix) (*netip.Addr, error) {
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i.mu.Lock()
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defer i.mu.Unlock()
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return i.next(prev, prefix)
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}
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func (i *IPAllocator) next(prev netip.Addr, prefix *netip.Prefix) (*netip.Addr, error) {
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var err error
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var ip netip.Addr
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switch i.strategy {
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case types.IPAllocationStrategySequential:
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// Get the first IP in our prefix
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ip = prev.Next()
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case types.IPAllocationStrategyRandom:
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ip, err = randomNext(*prefix)
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if err != nil {
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return nil, fmt.Errorf("getting random IP: %w", err)
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}
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}
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// TODO(kradalby): maybe this can be done less often.
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set, err := i.usedIPs.IPSet()
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if err != nil {
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return nil, err
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}
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for {
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if !prefix.Contains(ip) {
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return nil, ErrCouldNotAllocateIP
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}
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// Check if the IP has already been allocated
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// or if it is a IP reserved by Tailscale.
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if set.Contains(ip) || isTailscaleReservedIP(ip) {
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switch i.strategy {
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case types.IPAllocationStrategySequential:
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ip = ip.Next()
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case types.IPAllocationStrategyRandom:
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ip, err = randomNext(*prefix)
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if err != nil {
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return nil, fmt.Errorf("getting random IP: %w", err)
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}
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}
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continue
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}
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i.usedIPs.Add(ip)
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return &ip, nil
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}
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}
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func randomNext(pfx netip.Prefix) (netip.Addr, error) {
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rang := netipx.RangeOfPrefix(pfx)
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fromIP, toIP := rang.From(), rang.To()
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var from, to big.Int
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from.SetBytes(fromIP.AsSlice())
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to.SetBytes(toIP.AsSlice())
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// Find the max, this is how we can do "random range",
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// get the "max" as 0 -> to - from and then add back from
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// after.
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tempMax := big.NewInt(0).Sub(&to, &from)
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out, err := rand.Int(rand.Reader, tempMax)
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if err != nil {
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return netip.Addr{}, fmt.Errorf("generating random IP: %w", err)
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}
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valInRange := big.NewInt(0).Add(&from, out)
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ip, ok := netip.AddrFromSlice(valInRange.Bytes())
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if !ok {
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return netip.Addr{}, fmt.Errorf("generated ip bytes are invalid ip")
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}
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if !pfx.Contains(ip) {
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return netip.Addr{}, fmt.Errorf(
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"generated ip(%s) not in prefix(%s)",
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ip.String(),
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pfx.String(),
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)
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}
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return ip, nil
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}
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func isTailscaleReservedIP(ip netip.Addr) bool {
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return tsaddr.ChromeOSVMRange().Contains(ip) ||
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tsaddr.TailscaleServiceIP() == ip ||
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tsaddr.TailscaleServiceIPv6() == ip
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}
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// BackfillNodeIPs will take a database transaction, and
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// iterate through all of the current nodes in headscale
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// and ensure it has IP addresses according to the current
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// configuration.
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// This means that if both IPv4 and IPv6 is set in the
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// config, and some nodes are missing that type of IP,
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// it will be added.
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// If a prefix type has been removed (IPv4 or IPv6), it
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// will remove the IPs in that family from the node.
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func (db *HSDatabase) BackfillNodeIPs(i *IPAllocator) ([]string, error) {
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var err error
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var ret []string
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err = db.Write(func(tx *gorm.DB) error {
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if i == nil {
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return errors.New("backfilling IPs: ip allocator was nil")
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}
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log.Trace().Msgf("starting to backfill IPs")
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nodes, err := ListNodes(tx)
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if err != nil {
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return fmt.Errorf("listing nodes to backfill IPs: %w", err)
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}
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for _, node := range nodes {
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log.Trace().Uint64("node.id", node.ID.Uint64()).Msg("checking if need backfill")
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changed := false
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// IPv4 prefix is set, but node ip is missing, alloc
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if i.prefix4 != nil && node.IPv4 == nil {
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ret4, err := i.nextLocked(i.prev4, i.prefix4)
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if err != nil {
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return fmt.Errorf("failed to allocate ipv4 for node(%d): %w", node.ID, err)
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}
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node.IPv4 = ret4
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changed = true
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ret = append(ret, fmt.Sprintf("assigned IPv4 %q to Node(%d) %q", ret4.String(), node.ID, node.Hostname))
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}
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// IPv6 prefix is set, but node ip is missing, alloc
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if i.prefix6 != nil && node.IPv6 == nil {
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ret6, err := i.nextLocked(i.prev6, i.prefix6)
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if err != nil {
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return fmt.Errorf("failed to allocate ipv6 for node(%d): %w", node.ID, err)
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}
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node.IPv6 = ret6
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changed = true
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ret = append(ret, fmt.Sprintf("assigned IPv6 %q to Node(%d) %q", ret6.String(), node.ID, node.Hostname))
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}
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// IPv4 prefix is not set, but node has IP, remove
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if i.prefix4 == nil && node.IPv4 != nil {
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ret = append(ret, fmt.Sprintf("removing IPv4 %q from Node(%d) %q", node.IPv4.String(), node.ID, node.Hostname))
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node.IPv4 = nil
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changed = true
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}
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// IPv6 prefix is not set, but node has IP, remove
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if i.prefix6 == nil && node.IPv6 != nil {
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ret = append(ret, fmt.Sprintf("removing IPv6 %q from Node(%d) %q", node.IPv6.String(), node.ID, node.Hostname))
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node.IPv6 = nil
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changed = true
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}
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if changed {
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err := tx.Save(node).Error
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if err != nil {
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return fmt.Errorf("saving node(%d) after adding IPs: %w", node.ID, err)
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}
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}
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}
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return nil
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})
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return ret, err
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}
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