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c3a8e63100
We were previously using the netlink API to see if there are chains/rules that already exist. This works fine in environments where there is either full nftable support or no support at all. However, we have identified certain environments which have partial nftable support and the only feasible way of detecting such an environment is to try to create some of the chains that we need. This adds a check to create a dummy postrouting chain which is immediately deleted. The goal of the check is to ensure we are able to use nftables and that it won't error out later. This check is only done in the path where we detected that the system has no preexisting nftable rules. Updates #5621 Updates #8555 Updates #8762 Signed-off-by: Maisem Ali <maisem@tailscale.com>
293 lines
7.1 KiB
Go
293 lines
7.1 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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// TODO(#8502): add support for more architectures
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//go:build linux && (arm64 || amd64)
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package linuxfw
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import (
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"fmt"
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"sort"
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"strings"
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"github.com/google/nftables"
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"github.com/google/nftables/expr"
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"github.com/google/nftables/xt"
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"github.com/josharian/native"
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"golang.org/x/sys/unix"
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"tailscale.com/types/logger"
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"tailscale.com/util/cmpx"
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)
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// DebugNetfilter prints debug information about netfilter rules to the
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// provided log function.
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func DebugNetfilter(logf logger.Logf) error {
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conn, err := nftables.New()
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if err != nil {
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return err
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}
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chains, err := conn.ListChains()
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if err != nil {
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return fmt.Errorf("cannot list chains: %w", err)
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}
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if len(chains) == 0 {
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logf("netfilter: no chains")
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return nil
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}
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for _, chain := range chains {
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logf("netfilter: table=%s chain=%s", chain.Table.Name, chain.Name)
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rules, err := conn.GetRules(chain.Table, chain)
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if err != nil {
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continue
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}
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sort.Slice(rules, func(i, j int) bool {
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return rules[i].Position < rules[j].Position
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})
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for i, rule := range rules {
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logf("netfilter: rule[%d]: pos=%d flags=%d", i, rule.Position, rule.Flags)
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for _, ex := range rule.Exprs {
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switch v := ex.(type) {
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case *expr.Meta:
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key := cmpx.Or(metaKeyNames[v.Key], "UNKNOWN")
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logf("netfilter: Meta: key=%s source_register=%v register=%d", key, v.SourceRegister, v.Register)
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case *expr.Cmp:
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op := cmpx.Or(cmpOpNames[v.Op], "UNKNOWN")
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logf("netfilter: Cmp: op=%s register=%d data=%s", op, v.Register, formatMaybePrintable(v.Data))
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case *expr.Counter:
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// don't print
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case *expr.Verdict:
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kind := cmpx.Or(verdictNames[v.Kind], "UNKNOWN")
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logf("netfilter: Verdict: kind=%s data=%s", kind, v.Chain)
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case *expr.Target:
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logf("netfilter: Target: name=%s info=%s", v.Name, printTargetInfo(v.Name, v.Info))
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case *expr.Match:
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logf("netfilter: Match: name=%s info=%+v", v.Name, printMatchInfo(v.Name, v.Info))
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case *expr.Payload:
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logf("netfilter: Payload: op=%s src=%d dst=%d base=%s offset=%d len=%d",
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payloadOperationTypeNames[v.OperationType],
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v.SourceRegister, v.DestRegister,
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payloadBaseNames[v.Base],
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v.Offset, v.Len)
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// TODO(andrew): csum
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case *expr.Bitwise:
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var xor string
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for _, b := range v.Xor {
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if b != 0 {
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xor = fmt.Sprintf(" xor=%v", v.Xor)
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break
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}
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}
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logf("netfilter: Bitwise: src=%d dst=%d len=%d mask=%v%s",
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v.SourceRegister, v.DestRegister, v.Len, v.Mask, xor)
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default:
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logf("netfilter: unknown %T: %+v", v, v)
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}
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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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// detectNetfilter returns the number of nftables rules present in the system.
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func detectNetfilter() (int, error) {
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// Frist try creating a dummy postrouting chain. Emperically, we have
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// noticed that on some devices there is partial nftables support and the
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// kernel rejects some chains that are valid on other devices. This is a
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// workaround to detect that case.
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//
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// This specifically allows us to run in on GKE nodes using COS images which
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// have partial nftables support (as of 2023-10-18). When we try to create a
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// dummy postrouting chain, we get an error like:
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// add chain: conn.Receive: netlink receive: no such file or directory
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nft, err := newNfTablesRunner(logger.Discard)
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if err != nil {
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return 0, FWModeNotSupportedError{
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Mode: FirewallModeNfTables,
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Err: fmt.Errorf("cannot create nftables runner: %w", err),
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}
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}
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if err := nft.createDummyPostroutingChains(); err != nil {
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return 0, FWModeNotSupportedError{
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Mode: FirewallModeNfTables,
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Err: err,
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}
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}
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conn, err := nftables.New()
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if err != nil {
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return 0, FWModeNotSupportedError{
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Mode: FirewallModeNfTables,
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Err: err,
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}
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}
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chains, err := conn.ListChains()
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if err != nil {
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return 0, FWModeNotSupportedError{
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Mode: FirewallModeNfTables,
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Err: fmt.Errorf("cannot list chains: %w", err),
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}
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}
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var validRules int
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for _, chain := range chains {
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rules, err := conn.GetRules(chain.Table, chain)
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if err != nil {
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continue
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}
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validRules += len(rules)
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}
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return validRules, nil
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}
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func printMatchInfo(name string, info xt.InfoAny) string {
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var sb strings.Builder
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sb.WriteString(`{`)
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var handled bool = true
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switch v := info.(type) {
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// TODO(andrew): we should support these common types
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//case *xt.ConntrackMtinfo3:
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//case *xt.ConntrackMtinfo2:
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case *xt.Tcp:
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fmt.Fprintf(&sb, "Src:%s Dst:%s", formatPortRange(v.SrcPorts), formatPortRange(v.DstPorts))
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if v.Option != 0 {
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fmt.Fprintf(&sb, " Option:%d", v.Option)
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}
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if v.FlagsMask != 0 {
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fmt.Fprintf(&sb, " FlagsMask:%d", v.FlagsMask)
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}
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if v.FlagsCmp != 0 {
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fmt.Fprintf(&sb, " FlagsCmp:%d", v.FlagsCmp)
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}
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if v.InvFlags != 0 {
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fmt.Fprintf(&sb, " InvFlags:%d", v.InvFlags)
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}
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case *xt.Udp:
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fmt.Fprintf(&sb, "Src:%s Dst:%s", formatPortRange(v.SrcPorts), formatPortRange(v.DstPorts))
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if v.InvFlags != 0 {
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fmt.Fprintf(&sb, " InvFlags:%d", v.InvFlags)
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}
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case *xt.AddrType:
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var sprefix, dprefix string
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if v.InvertSource {
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sprefix = "!"
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}
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if v.InvertDest {
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dprefix = "!"
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}
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// TODO(andrew): translate source/dest
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fmt.Fprintf(&sb, "Source:%s%d Dest:%s%d", sprefix, v.Source, dprefix, v.Dest)
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case *xt.AddrTypeV1:
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// TODO(andrew): translate source/dest
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fmt.Fprintf(&sb, "Source:%d Dest:%d", v.Source, v.Dest)
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var flags []string
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for flag, name := range addrTypeFlagNames {
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if v.Flags&flag != 0 {
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flags = append(flags, name)
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}
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}
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if len(flags) > 0 {
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sort.Strings(flags)
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fmt.Fprintf(&sb, "Flags:%s", strings.Join(flags, ","))
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}
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default:
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handled = false
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}
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if handled {
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sb.WriteString(`}`)
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return sb.String()
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}
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unknown, ok := info.(*xt.Unknown)
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if !ok {
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return fmt.Sprintf("(%T)%+v", info, info)
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}
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data := []byte(*unknown)
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// Things where upstream has no type
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handled = true
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switch name {
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case "pkttype":
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if len(data) != 8 {
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handled = false
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break
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}
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pkttype := int(native.Endian.Uint32(data[0:4]))
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invert := int(native.Endian.Uint32(data[4:8]))
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var invertPrefix string
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if invert != 0 {
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invertPrefix = "!"
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}
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pkttypeName := packetTypeNames[pkttype]
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if pkttypeName != "" {
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fmt.Fprintf(&sb, "PktType:%s%s", invertPrefix, pkttypeName)
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} else {
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fmt.Fprintf(&sb, "PktType:%s%d", invertPrefix, pkttype)
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}
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default:
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handled = true
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}
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if !handled {
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return fmt.Sprintf("(%T)%+v", info, info)
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}
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sb.WriteString(`}`)
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return sb.String()
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}
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func printTargetInfo(name string, info xt.InfoAny) string {
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var sb strings.Builder
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sb.WriteString(`{`)
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unknown, ok := info.(*xt.Unknown)
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if !ok {
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return fmt.Sprintf("(%T)%+v", info, info)
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}
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data := []byte(*unknown)
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// Things where upstream has no type
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switch name {
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case "LOG":
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if len(data) != 32 {
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fmt.Fprintf(&sb, `Error:"bad size; want 32, got %d"`, len(data))
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break
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}
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level := data[0]
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logflags := data[1]
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prefix := unix.ByteSliceToString(data[2:])
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fmt.Fprintf(&sb, "Level:%d LogFlags:%d Prefix:%q", level, logflags, prefix)
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default:
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return fmt.Sprintf("(%T)%+v", info, info)
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}
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sb.WriteString(`}`)
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return sb.String()
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}
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