mirror of
https://github.com/tailscale/tailscale.git
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7330aa593e
On some platforms (notably macOS and iOS) we look up the default interface to bind outgoing connections to. This is both duplicated work and results in logspam when the default interface is not available (i.e. when a phone has no connectivity, we log an error and thus cause more things that we will try to upload and fail). Fixed by passing around a netmon.Monitor to more places, so that we can use its cached interface state. Fixes #7850 Updates #7621 Signed-off-by: Mihai Parparita <mihai@tailscale.com>
280 lines
9.1 KiB
Go
280 lines
9.1 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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// Package netlog provides a logger that monitors a TUN device and
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// periodically records any traffic into a log stream.
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package netlog
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import (
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"context"
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"encoding/json"
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"fmt"
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"io"
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"log"
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"net/http"
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"net/netip"
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"sync"
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"time"
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"tailscale.com/logpolicy"
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"tailscale.com/logtail"
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"tailscale.com/net/connstats"
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"tailscale.com/net/netmon"
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"tailscale.com/net/sockstats"
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"tailscale.com/net/tsaddr"
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"tailscale.com/smallzstd"
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"tailscale.com/tailcfg"
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"tailscale.com/types/logid"
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"tailscale.com/types/netlogtype"
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"tailscale.com/util/multierr"
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"tailscale.com/wgengine/router"
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)
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// pollPeriod specifies how often to poll for network traffic.
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const pollPeriod = 5 * time.Second
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// Device is an abstraction over a tunnel device or a magic socket.
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// Both *tstun.Wrapper and *magicsock.Conn implement this interface.
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type Device interface {
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SetStatistics(*connstats.Statistics)
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}
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type noopDevice struct{}
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func (noopDevice) SetStatistics(*connstats.Statistics) {}
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// Logger logs statistics about every connection.
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// At present, it only logs connections within a tailscale network.
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// Exit node traffic is not logged for privacy reasons.
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// The zero value is ready for use.
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type Logger struct {
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mu sync.Mutex // protects all fields below
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logger *logtail.Logger
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stats *connstats.Statistics
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tun Device
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sock Device
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addrs map[netip.Addr]bool
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prefixes map[netip.Prefix]bool
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}
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// Running reports whether the logger is running.
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func (nl *Logger) Running() bool {
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nl.mu.Lock()
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defer nl.mu.Unlock()
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return nl.logger != nil
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}
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var testClient *http.Client
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// Startup starts an asynchronous network logger that monitors
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// statistics for the provided tun and/or sock device.
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//
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// The tun Device captures packets within the tailscale network,
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// where at least one address is a tailscale IP address.
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// The source is always from the perspective of the current node.
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// If one of the other endpoint is not a tailscale IP address,
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// then it suggests the use of a subnet router or exit node.
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// For example, when using a subnet router, the source address is
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// the tailscale IP address of the current node, and
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// the destination address is an IP address within the subnet range.
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// In contrast, when acting as a subnet router, the source address is
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// an IP address within the subnet range, and the destination is a
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// tailscale IP address that initiated the subnet proxy connection.
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// In this case, the node acting as a subnet router is acting on behalf
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// of some remote endpoint within the subnet range.
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// The tun is used to populate the VirtualTraffic, SubnetTraffic,
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// and ExitTraffic fields in Message.
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//
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// The sock Device captures packets at the magicsock layer.
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// The source is always a tailscale IP address and the destination
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// is a non-tailscale IP address to contact for that particular tailscale node.
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// The IP protocol and source port are always zero.
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// The sock is used to populated the PhysicalTraffic field in Message.
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// The netMon parameter is optional; if non-nil it's used to do faster interface lookups.
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func (nl *Logger) Startup(nodeID tailcfg.StableNodeID, nodeLogID, domainLogID logid.PrivateID, tun, sock Device, netMon *netmon.Monitor) error {
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nl.mu.Lock()
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defer nl.mu.Unlock()
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if nl.logger != nil {
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return fmt.Errorf("network logger already running for %v", nl.logger.PrivateID().Public())
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}
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// Startup a log stream to Tailscale's logging service.
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httpc := &http.Client{Transport: logpolicy.NewLogtailTransport(logtail.DefaultHost, netMon)}
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if testClient != nil {
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httpc = testClient
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}
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nl.logger = logtail.NewLogger(logtail.Config{
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Collection: "tailtraffic.log.tailscale.io",
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PrivateID: nodeLogID,
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CopyPrivateID: domainLogID,
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Stderr: io.Discard,
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// TODO(joetsai): Set Buffer? Use an in-memory buffer for now.
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NewZstdEncoder: func() logtail.Encoder {
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w, err := smallzstd.NewEncoder(nil)
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if err != nil {
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panic(err)
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}
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return w
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},
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HTTPC: httpc,
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// Include process sequence numbers to identify missing samples.
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IncludeProcID: true,
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IncludeProcSequence: true,
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}, log.Printf)
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nl.logger.SetSockstatsLabel(sockstats.LabelNetlogLogger)
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// Startup a data structure to track per-connection statistics.
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// There is a maximum size for individual log messages that logtail
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// can upload to the Tailscale log service, so stay below this limit.
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const maxLogSize = 256 << 10
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const maxConns = (maxLogSize - netlogtype.MaxMessageJSONSize) / netlogtype.MaxConnectionCountsJSONSize
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nl.stats = connstats.NewStatistics(pollPeriod, maxConns, func(start, end time.Time, virtual, physical map[netlogtype.Connection]netlogtype.Counts) {
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nl.mu.Lock()
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addrs := nl.addrs
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prefixes := nl.prefixes
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nl.mu.Unlock()
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recordStatistics(nl.logger, nodeID, start, end, virtual, physical, addrs, prefixes)
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})
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// Register the connection tracker into the TUN device.
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if tun == nil {
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tun = noopDevice{}
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}
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nl.tun = tun
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nl.tun.SetStatistics(nl.stats)
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// Register the connection tracker into magicsock.
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if sock == nil {
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sock = noopDevice{}
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}
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nl.sock = sock
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nl.sock.SetStatistics(nl.stats)
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return nil
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}
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func recordStatistics(logger *logtail.Logger, nodeID tailcfg.StableNodeID, start, end time.Time, connstats, sockStats map[netlogtype.Connection]netlogtype.Counts, addrs map[netip.Addr]bool, prefixes map[netip.Prefix]bool) {
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m := netlogtype.Message{NodeID: nodeID, Start: start.UTC(), End: end.UTC()}
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classifyAddr := func(a netip.Addr) (isTailscale, withinRoute bool) {
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// NOTE: There could be mis-classifications where an address is treated
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// as a Tailscale IP address because the subnet range overlaps with
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// the subnet range that Tailscale IP addresses are allocated from.
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// This should never happen for IPv6, but could happen for IPv4.
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withinRoute = addrs[a]
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for p := range prefixes {
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if p.Contains(a) && p.Bits() > 0 {
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withinRoute = true
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break
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}
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}
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return withinRoute && tsaddr.IsTailscaleIP(a), withinRoute && !tsaddr.IsTailscaleIP(a)
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}
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exitTraffic := make(map[netlogtype.Connection]netlogtype.Counts)
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for conn, cnts := range connstats {
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srcIsTailscaleIP, srcWithinSubnet := classifyAddr(conn.Src.Addr())
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dstIsTailscaleIP, dstWithinSubnet := classifyAddr(conn.Dst.Addr())
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switch {
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case srcIsTailscaleIP && dstIsTailscaleIP:
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m.VirtualTraffic = append(m.VirtualTraffic, netlogtype.ConnectionCounts{Connection: conn, Counts: cnts})
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case srcWithinSubnet || dstWithinSubnet:
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m.SubnetTraffic = append(m.SubnetTraffic, netlogtype.ConnectionCounts{Connection: conn, Counts: cnts})
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default:
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const anonymize = true
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if anonymize {
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// Only preserve the address if it is a Tailscale IP address.
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srcOrig, dstOrig := conn.Src, conn.Dst
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conn = netlogtype.Connection{} // scrub everything by default
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if srcIsTailscaleIP {
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conn.Src = netip.AddrPortFrom(srcOrig.Addr(), 0)
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}
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if dstIsTailscaleIP {
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conn.Dst = netip.AddrPortFrom(dstOrig.Addr(), 0)
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}
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}
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exitTraffic[conn] = exitTraffic[conn].Add(cnts)
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}
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}
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for conn, cnts := range exitTraffic {
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m.ExitTraffic = append(m.ExitTraffic, netlogtype.ConnectionCounts{Connection: conn, Counts: cnts})
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}
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for conn, cnts := range sockStats {
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m.PhysicalTraffic = append(m.PhysicalTraffic, netlogtype.ConnectionCounts{Connection: conn, Counts: cnts})
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}
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if len(m.VirtualTraffic)+len(m.SubnetTraffic)+len(m.ExitTraffic)+len(m.PhysicalTraffic) > 0 {
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if b, err := json.Marshal(m); err != nil {
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logger.Logf("json.Marshal error: %v", err)
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} else {
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logger.Logf("%s", b)
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}
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}
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}
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func makeRouteMaps(cfg *router.Config) (addrs map[netip.Addr]bool, prefixes map[netip.Prefix]bool) {
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addrs = make(map[netip.Addr]bool)
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for _, p := range cfg.LocalAddrs {
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if p.IsSingleIP() {
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addrs[p.Addr()] = true
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}
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}
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prefixes = make(map[netip.Prefix]bool)
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insertPrefixes := func(rs []netip.Prefix) {
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for _, p := range rs {
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if p.IsSingleIP() {
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addrs[p.Addr()] = true
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} else {
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prefixes[p] = true
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}
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}
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}
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insertPrefixes(cfg.Routes)
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insertPrefixes(cfg.SubnetRoutes)
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return addrs, prefixes
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}
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// ReconfigRoutes configures the network logger with updated routes.
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// The cfg is used to classify the types of connections captured by
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// the tun Device passed to Startup.
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func (nl *Logger) ReconfigRoutes(cfg *router.Config) {
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nl.mu.Lock()
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defer nl.mu.Unlock()
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// TODO(joetsai): There is a race where deleted routes are not known at
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// the time of extraction. We need to keep old routes around for a bit.
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nl.addrs, nl.prefixes = makeRouteMaps(cfg)
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}
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// Shutdown shuts down the network logger.
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// This attempts to flush out all pending log messages.
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// Even if an error is returned, the logger is still shut down.
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func (nl *Logger) Shutdown(ctx context.Context) error {
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nl.mu.Lock()
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defer nl.mu.Unlock()
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if nl.logger == nil {
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return nil
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}
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// Shutdown in reverse order of Startup.
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// Do not hold lock while shutting down since this may flush one last time.
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nl.mu.Unlock()
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nl.sock.SetStatistics(nil)
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nl.tun.SetStatistics(nil)
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err1 := nl.stats.Shutdown(ctx)
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err2 := nl.logger.Shutdown(ctx)
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nl.mu.Lock()
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// Purge state.
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nl.logger = nil
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nl.stats = nil
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nl.tun = nil
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nl.sock = nil
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nl.addrs = nil
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nl.prefixes = nil
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return multierr.New(err1, err2)
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}
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