mirror of https://github.com/slackhq/nebula.git
218 lines
6.6 KiB
Go
218 lines
6.6 KiB
Go
package nebula
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import (
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"crypto/rand"
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"encoding/binary"
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"fmt"
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"net"
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"time"
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"github.com/sirupsen/logrus"
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)
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const (
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// Total time to try a handshake = sequence of HandshakeTryInterval * HandshakeRetries
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// With 100ms interval and 20 retries is 23.5 seconds
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DefaultHandshakeTryInterval = time.Millisecond * 100
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DefaultHandshakeRetries = 20
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// DefaultHandshakeWaitRotation is the number of handshake attempts to do before starting to use other ips addresses
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DefaultHandshakeWaitRotation = 5
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)
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var (
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defaultHandshakeConfig = HandshakeConfig{
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tryInterval: DefaultHandshakeTryInterval,
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retries: DefaultHandshakeRetries,
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waitRotation: DefaultHandshakeWaitRotation,
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}
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)
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type HandshakeConfig struct {
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tryInterval time.Duration
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retries int
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waitRotation int
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}
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type HandshakeManager struct {
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pendingHostMap *HostMap
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mainHostMap *HostMap
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lightHouse *LightHouse
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outside *udpConn
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config HandshakeConfig
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OutboundHandshakeTimer *SystemTimerWheel
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InboundHandshakeTimer *SystemTimerWheel
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}
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func NewHandshakeManager(tunCidr *net.IPNet, preferredRanges []*net.IPNet, mainHostMap *HostMap, lightHouse *LightHouse, outside *udpConn, config HandshakeConfig) *HandshakeManager {
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return &HandshakeManager{
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pendingHostMap: NewHostMap("pending", tunCidr, preferredRanges),
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mainHostMap: mainHostMap,
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lightHouse: lightHouse,
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outside: outside,
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config: config,
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OutboundHandshakeTimer: NewSystemTimerWheel(config.tryInterval, config.tryInterval*time.Duration(config.retries)),
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InboundHandshakeTimer: NewSystemTimerWheel(config.tryInterval, config.tryInterval*time.Duration(config.retries)),
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}
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}
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func (c *HandshakeManager) Run(f EncWriter) {
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clockSource := time.Tick(c.config.tryInterval)
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for now := range clockSource {
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c.NextOutboundHandshakeTimerTick(now, f)
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c.NextInboundHandshakeTimerTick(now)
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}
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}
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func (c *HandshakeManager) NextOutboundHandshakeTimerTick(now time.Time, f EncWriter) {
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c.OutboundHandshakeTimer.advance(now)
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for {
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ep := c.OutboundHandshakeTimer.Purge()
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if ep == nil {
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break
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}
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vpnIP := ep.(uint32)
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index, err := c.pendingHostMap.GetIndexByVpnIP(vpnIP)
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if err != nil {
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continue
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}
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hostinfo, err := c.pendingHostMap.QueryVpnIP(vpnIP)
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if err != nil {
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continue
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}
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// If we haven't finished the handshake and we haven't hit max retries, query
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// lighthouse and then send the handshake packet again.
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if hostinfo.HandshakeCounter < c.config.retries && !hostinfo.HandshakeComplete {
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if hostinfo.remote == nil {
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// We continue to query the lighthouse because hosts may
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// come online during handshake retries. If the query
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// succeeds (no error), add the lighthouse info to hostinfo
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ips, err := c.lightHouse.Query(vpnIP, f)
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if err == nil {
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for _, ip := range ips {
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hostinfo.AddRemote(ip)
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}
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hostinfo.ForcePromoteBest(c.mainHostMap.preferredRanges)
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}
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}
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hostinfo.HandshakeCounter++
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// We want to use the "best" calculated ip for the first 5 attempts, after that we just blindly rotate through
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// all the others until we can stand up a connection.
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if hostinfo.HandshakeCounter > c.config.waitRotation {
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hostinfo.rotateRemote()
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}
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// Ensure the handshake is ready to avoid a race in timer tick and stage 0 handshake generation
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if hostinfo.HandshakeReady && hostinfo.remote != nil {
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err := c.outside.WriteTo(hostinfo.HandshakePacket[0], hostinfo.remote)
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if err != nil {
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hostinfo.logger().WithField("udpAddr", hostinfo.remote).
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WithField("initiatorIndex", hostinfo.localIndexId).
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WithField("remoteIndex", hostinfo.remoteIndexId).
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WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
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WithError(err).Error("Failed to send handshake message")
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} else {
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//TODO: this log line is assuming a lot of stuff around the cached stage 0 handshake packet, we should
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// keep the real packet struct around for logging purposes
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hostinfo.logger().WithField("udpAddr", hostinfo.remote).
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WithField("initiatorIndex", hostinfo.localIndexId).
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WithField("remoteIndex", hostinfo.remoteIndexId).
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WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
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Info("Handshake message sent")
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}
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}
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// Readd to the timer wheel so we continue trying wait HandshakeTryInterval * counter longer for next try
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//l.Infoln("Interval: ", HandshakeTryInterval*time.Duration(hostinfo.HandshakeCounter))
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c.OutboundHandshakeTimer.Add(vpnIP, c.config.tryInterval*time.Duration(hostinfo.HandshakeCounter))
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} else {
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c.pendingHostMap.DeleteVpnIP(vpnIP)
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c.pendingHostMap.DeleteIndex(index)
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}
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}
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}
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func (c *HandshakeManager) NextInboundHandshakeTimerTick(now time.Time) {
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c.InboundHandshakeTimer.advance(now)
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for {
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ep := c.InboundHandshakeTimer.Purge()
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if ep == nil {
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break
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}
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index := ep.(uint32)
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vpnIP, err := c.pendingHostMap.GetVpnIPByIndex(index)
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if err != nil {
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continue
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}
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c.pendingHostMap.DeleteIndex(index)
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c.pendingHostMap.DeleteVpnIP(vpnIP)
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}
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}
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func (c *HandshakeManager) AddVpnIP(vpnIP uint32) *HostInfo {
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hostinfo := c.pendingHostMap.AddVpnIP(vpnIP)
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// We lock here and use an array to insert items to prevent locking the
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// main receive thread for very long by waiting to add items to the pending map
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c.OutboundHandshakeTimer.Add(vpnIP, c.config.tryInterval)
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return hostinfo
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}
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func (c *HandshakeManager) DeleteVpnIP(vpnIP uint32) {
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//l.Debugln("Deleting pending vpn ip :", IntIp(vpnIP))
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c.pendingHostMap.DeleteVpnIP(vpnIP)
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}
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func (c *HandshakeManager) AddIndex(index uint32, ci *ConnectionState) (*HostInfo, error) {
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hostinfo, err := c.pendingHostMap.AddIndex(index, ci)
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if err != nil {
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return nil, fmt.Errorf("Issue adding index: %d", index)
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}
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//c.mainHostMap.AddIndexHostInfo(index, hostinfo)
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c.InboundHandshakeTimer.Add(index, time.Second*10)
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return hostinfo, nil
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}
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func (c *HandshakeManager) AddIndexHostInfo(index uint32, h *HostInfo) {
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c.pendingHostMap.AddIndexHostInfo(index, h)
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}
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func (c *HandshakeManager) DeleteIndex(index uint32) {
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//l.Debugln("Deleting pending index :", index)
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c.pendingHostMap.DeleteIndex(index)
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}
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func (c *HandshakeManager) QueryIndex(index uint32) (*HostInfo, error) {
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return c.pendingHostMap.QueryIndex(index)
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}
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func (c *HandshakeManager) EmitStats() {
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c.pendingHostMap.EmitStats("pending")
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c.mainHostMap.EmitStats("main")
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}
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// Utility functions below
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func generateIndex() (uint32, error) {
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b := make([]byte, 4)
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_, err := rand.Read(b)
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if err != nil {
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l.Errorln(err)
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return 0, err
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}
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index := binary.BigEndian.Uint32(b)
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if l.Level >= logrus.DebugLevel {
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l.WithField("index", index).
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Debug("Generated index")
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}
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return index, nil
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}
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