network

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Published: Dec 3, 2024 License: Apache-2.0 Imports: 42 Imported by: 0

Documentation

Overview

Package network contains logic and types for network tracing

Index

Constants

View Source
const (
	// DEBUGCLIENT is the ClientID for debugging
	DEBUGCLIENT = "-1"

	// DNSResponseCodeNoError is the value that indicates that the DNS reply contains no errors.
	// We could have used layers.DNSResponseCodeNoErr here. But importing the gopacket library only for this
	// constant is not worth the increased memory cost.
	DNSResponseCodeNoError = 0
)
View Source
const (
	// ConnTagGnuTLS is the tag for GnuTLS connections
	ConnTagGnuTLS = http.GnuTLS
	// ConnTagOpenSSL is the tag for OpenSSL connections
	ConnTagOpenSSL = http.OpenSSL
	// ConnTagGo is the tag for GO TLS connections
	ConnTagGo = http.Go
	// ConnTagTLS is the tag for TLS connections in general
	ConnTagTLS = http.TLS
	// ConnTagIstio is the tag for Istio TLS connections
	ConnTagIstio = http.Istio
	// ConnTagNodeJS is the tag for NodeJS TLS connections
	ConnTagNodeJS = http.NodeJS
)
View Source
const (

	// ConnectionByteKeyMaxLen represents the maximum size in bytes of a connection byte key
	ConnectionByteKeyMaxLen = 41
)

Variables

View Source
var (
	// ConnTelemetryTypes lists all the possible (non-monotonic) telemetry which can be bundled
	// into the network connections payload
	ConnTelemetryTypes = []ConnTelemetryType{
		DNSStatsDropped,
		ConnsBpfMapSize,
		ConntrackSamplingPercent,
		NPMDriverFlowsMissedMaxExceeded,
	}

	// MonotonicConnTelemetryTypes lists all the possible monotonic telemetry which can be bundled
	// into the network connections payload
	MonotonicConnTelemetryTypes = []ConnTelemetryType{
		MonotonicKprobesTriggered,
		MonotonicKprobesMissed,
		MonotonicClosedConnDropped,
		MonotonicConnDropped,
		MonotonicConnsClosed,
		MonotonicConntrackRegisters,
		MonotonicDNSPacketsProcessed,
		MonotonicPerfLost,
		MonotonicUDPSendsProcessed,
		MonotonicUDPSendsMissed,
		MonotonicDNSPacketsDropped,
	}

	// USMPayloadTelemetry lists all USM metrics that are sent as payload telemetry
	USMPayloadTelemetry = []ConnTelemetryType{
		USMHTTPHits,
	}
)
View Source
var ClientPool *clientBufferPool

ClientPool holds a ConnectionBuffer object per client

View Source
var Cloud cloudProvider

Cloud is exported for tracer testing purposes

View Source
var SubnetForHwAddrFunc func(net.HardwareAddr) (Subnet, error)

SubnetForHwAddrFunc is exported for tracer testing purposes

Functions

func BeautifyKey

func BeautifyKey(key string) string

BeautifyKey returns a human readable byte key (used for debugging purposes) it should be in sync with ByteKey Note: This is only used in /debug/* endpoints

func ConnectionKeysFromConnectionStats

func ConnectionKeysFromConnectionStats(connectionStats ConnectionStats) []types.ConnectionKey

ConnectionKeysFromConnectionStats constructs connection key using the underlying raw connection stats object, which is produced by the tracer. Each ConnectionStats object contains both the source and destination addresses, as well as an IPTranslation object that stores the original addresses in the event that the connection is NAT'd. This function generates all relevant combinations of connection keys: [(source, dest), (dest, source), (NAT'd source, NAT'd dest), (NAT'd dest, NAT'd source)]. This is necessary to handle all possible scenarios for connections originating from the USM module (i.e., whether they are NAT'd or not, and whether they use TLS).

func ConnectionSummary

func ConnectionSummary(c *ConnectionStats, names map[util.Address][]dns.Hostname) string

ConnectionSummary returns a string summarizing a connection

func DNSKey added in v0.9.0

func DNSKey(c *ConnectionStats) (dns.Key, bool)

DNSKey generates a key suitable for looking up DNS stats based on a ConnectionStats object

func EphemeralRange

func EphemeralRange() (begin, end uint16)

EphemeralRange returns the ephemeral port range for this machine

func GetNATLocalAddress added in v0.9.0

func GetNATLocalAddress(c ConnectionStats) (util.Address, uint16)

GetNATLocalAddress returns the translated (local ip, local port) pair

func GetNATRemoteAddress added in v0.9.0

func GetNATRemoteAddress(c ConnectionStats) (util.Address, uint16)

GetNATRemoteAddress returns the translated (remote ip, remote port) pair

func GetStaticTags

func GetStaticTags(staticTags uint64) (tags []string)

GetStaticTags return the string list of static tags from network.ConnectionStats.Tags

func IsExcludedConnection added in v0.9.0

func IsExcludedConnection(scf []*ConnectionFilter, dcf []*ConnectionFilter, conn *ConnectionStats) bool

IsExcludedConnection returns true if a given connection should be excluded by the tracer based on user defined filters

func IsTLSTag

func IsTLSTag(staticTags uint64) bool

IsTLSTag return if the tag is a TLS tag

func ReadListeningPorts

func ReadListeningPorts(procRoot string, protocol ConnectionType, collectIPv6 bool) (map[PortMapping]uint32, error)

ReadListeningPorts reads the /proc filesystem and determines which ports are being listened on

func Reclaim added in v0.9.0

func Reclaim(c *Connections)

Reclaim memory from the `Connections` underlying buffer

func WithKey

func WithKey(connectionStats ConnectionStats, f func(key types.ConnectionKey) (stop bool))

WithKey calls `f` *up to* 4 times (or until the callback returns a `true`) with all possible connection keys. The generated keys are: 1) (src, dst) 2) (dst, src) 3) (src, dst) NAT 4) (dst, src) NAT In addition to that, we do a best-effort to call `f` in the order that most likely to succeed early (see comment below)

Types

type BufferedData added in v0.9.0

type BufferedData struct {
	Conns []ConnectionStats
	// contains filtered or unexported fields
}

BufferedData encapsulates data whose underlying memory can be recycled

type ClientBuffer

type ClientBuffer struct {
	*ConnectionBuffer
	// contains filtered or unexported fields
}

ClientBuffer amortizes the allocations of objects generated when a client calls `GetConnections`.

type ConnTelemetryType

type ConnTelemetryType string

ConnTelemetryType enumerates the connection telemetry gathered by the system-probe The string name of each telemetry type is the metric name which will be emitted

const (
	MonotonicKprobesTriggered       ConnTelemetryType = "kprobes_triggered"
	MonotonicKprobesMissed          ConnTelemetryType = "kprobes_missed"
	MonotonicClosedConnDropped      ConnTelemetryType = "closed_conn_dropped"
	MonotonicConnDropped            ConnTelemetryType = "conn_dropped"
	MonotonicConnsClosed            ConnTelemetryType = "conns_closed"
	MonotonicConntrackRegisters     ConnTelemetryType = "conntrack_registers"
	MonotonicDNSPacketsProcessed    ConnTelemetryType = "dns_packets_processed"
	MonotonicPerfLost               ConnTelemetryType = "perf_lost"
	MonotonicUDPSendsProcessed      ConnTelemetryType = "udp_sends_processed"
	MonotonicUDPSendsMissed         ConnTelemetryType = "udp_sends_missed"
	MonotonicDNSPacketsDropped      ConnTelemetryType = "dns_packets_dropped"
	DNSStatsDropped                 ConnTelemetryType = "dns_stats_dropped"
	ConnsBpfMapSize                 ConnTelemetryType = "conns_bpf_map_size"
	ConntrackSamplingPercent        ConnTelemetryType = "conntrack_sampling_percent"
	NPMDriverFlowsMissedMaxExceeded ConnTelemetryType = "driver_flows_missed_max_exceeded"

	// USM Payload Telemetry
	USMHTTPHits ConnTelemetryType = "usm.http.total_hits"
)

type ConnTypeFilter

type ConnTypeFilter struct {
	TCP bool
	UDP bool
}

ConnTypeFilter holds user-defined protocols

type ConnectionBuffer added in v0.9.0

type ConnectionBuffer struct {
	// contains filtered or unexported fields
}

ConnectionBuffer encapsulates a resizing buffer for ConnectionStat objects

func NewConnectionBuffer added in v0.9.0

func NewConnectionBuffer(initSize, minSize int) *ConnectionBuffer

NewConnectionBuffer creates a ConnectionBuffer with initial size `size`.

func (*ConnectionBuffer) Append added in v0.9.0

func (b *ConnectionBuffer) Append(slice []ConnectionStats)

Append slice to ConnectionBuffer

func (*ConnectionBuffer) Assign

func (b *ConnectionBuffer) Assign(slice []ConnectionStats)

Assign slice to ConnectionBuffer

func (*ConnectionBuffer) Capacity added in v0.9.0

func (b *ConnectionBuffer) Capacity() int

Capacity returns the current capacity of the buffer

func (*ConnectionBuffer) Connections added in v0.9.0

func (b *ConnectionBuffer) Connections() []ConnectionStats

Connections returns a slice of all the `ConnectionStats` objects returned via `Next` since the last `Reset`.

func (*ConnectionBuffer) Len added in v0.9.0

func (b *ConnectionBuffer) Len() int

Len returns the count of the number of written `ConnectionStats` objects since last `Reset`.

func (*ConnectionBuffer) Next added in v0.9.0

func (b *ConnectionBuffer) Next() *ConnectionStats

Next returns the next `ConnectionStats` object available for writing. It will resize the internal buffer if necessary.

func (*ConnectionBuffer) Reclaim added in v0.9.0

func (b *ConnectionBuffer) Reclaim(n int)

Reclaim captures the last n entries for usage again.

func (*ConnectionBuffer) Reset added in v0.9.0

func (b *ConnectionBuffer) Reset()

Reset returns the written object count back to zero. It may resize the internal buffer based on past usage.

type ConnectionDirection

type ConnectionDirection uint8

ConnectionDirection indicates if the connection is incoming to the host or outbound

const (
	// INCOMING represents connections inbound to the host
	INCOMING ConnectionDirection = 1 // incoming

	// OUTGOING represents outbound connections from the host
	OUTGOING ConnectionDirection = 2 // outgoing

	// LOCAL represents connections that don't leave the host
	LOCAL ConnectionDirection = 3 // local

	// NONE represents connections that have no direction (udp, for example)
	NONE ConnectionDirection = 4 // none
)

func (ConnectionDirection) String

func (i ConnectionDirection) String() string

type ConnectionFamily

type ConnectionFamily uint8

ConnectionFamily will be either v4 or v6

const (
	// AFINET represents v4 connections
	AFINET ConnectionFamily = 0 // v4

	// AFINET6 represents v6 connections
	AFINET6 ConnectionFamily = 1 // v6
)

func (ConnectionFamily) String added in v0.9.0

func (i ConnectionFamily) String() string

type ConnectionFilter

type ConnectionFilter struct {
	IP       netip.Prefix // zero-value matches all IPs
	AllPorts ConnTypeFilter

	Ports map[uint16]ConnTypeFilter
}

ConnectionFilter holds a user-defined excluded IP/CIDR, and ports

func ParseConnectionFilters

func ParseConnectionFilters(filters map[string][]string) (excludelist []*ConnectionFilter)

ParseConnectionFilters takes the user defined excludelist and returns a slice of ConnectionFilters

type ConnectionFilterFunc

type ConnectionFilterFunc func(c ConnectionStats) bool

ConnectionFilterFunc is a function type which returns whether the provided connection matches the filter

func ByDestAddress

func ByDestAddress(a net.Addr) ConnectionFilterFunc

ByDestAddress matches connections with the same destination address and port

func ByFamily

ByFamily matches connections with the same family (IPv4 / IPv6)

func BySourceAddress

func BySourceAddress(a net.Addr) ConnectionFilterFunc

BySourceAddress matches connections with the same source address and port

func ByTuple

func ByTuple(l, r net.Addr) ConnectionFilterFunc

ByTuple matches connections when both source and destination address and port match

func ByType

ByType matches connections with the same connection type (TCP/UDP)

type ConnectionStats

type ConnectionStats struct {
	// move pointer fields first to reduce number of bytes GC has to scan
	IPTranslation *IPTranslation
	Via           *Via
	Tags          []*intern.Value
	ContainerID   struct {
		Source, Dest *intern.Value
	}
	DNSStats map[dns.Hostname]map[dns.QueryType]dns.Stats
	// TCPFailures stores the number of failures for a POSIX error code
	TCPFailures map[uint16]uint32

	ConnectionTuple

	Monotonic StatCounters
	Last      StatCounters
	Cookie    StatCookie
	// LastUpdateEpoch is the last time the stats for this connection were updated
	LastUpdateEpoch uint64
	Duration        time.Duration
	RTT             uint32 // Stored in µs
	RTTVar          uint32
	StaticTags      uint64
	ProtocolStack   protocols.Stack

	// keep these fields last because they are 1 byte each and otherwise inflate the struct size due to alignment
	Direction        ConnectionDirection
	SPortIsEphemeral EphemeralPortType
	IntraHost        bool
	IsAssured        bool
	IsClosed         bool
}

ConnectionStats stores statistics for a single connection. Field order in the struct should be 8-byte aligned

func FilterConnections

func FilterConnections(c *Connections, filters ...ConnectionFilterFunc) []ConnectionStats

FilterConnections returns connections which match all filters

func FirstConnection

func FirstConnection(c *Connections, filters ...ConnectionFilterFunc) *ConnectionStats

FirstConnection returns the first connection with matches all filters

func (ConnectionStats) ByteKey

func (c ConnectionStats) ByteKey(buf []byte) []byte

ByteKey returns a unique key for this connection represented as a byte slice It's as following:

 4B      2B      2B     .5B     .5B      4/16B        4/16B   = 17/41B
32b     16b     16b      4b      4b     32/128b      32/128b

| PID | SPORT | DPORT | Family | Type | SrcAddr | DestAddr

func (ConnectionStats) ByteKeyNAT

func (c ConnectionStats) ByteKeyNAT(buf []byte) []byte

ByteKeyNAT returns a unique key for this connection represented as a byte slice. The format is similar to the one emitted by `ByteKey` with the sole difference that the addresses used are translated. Currently this key is used only for the aggregation of ephemeral connections.

func (ConnectionStats) IsEmpty

func (c ConnectionStats) IsEmpty() bool

IsEmpty returns whether the connection has any statistics

func (ConnectionStats) IsExpired added in v0.9.0

func (c ConnectionStats) IsExpired(now uint64, timeout uint64) bool

IsExpired returns whether the connection is expired according to the provided time and timeout.

func (ConnectionStats) IsValid

func (c ConnectionStats) IsValid() bool

IsValid returns `true` if the connection has a valid source and dest ports and IPs

func (ConnectionStats) String

func (c ConnectionStats) String() string

type ConnectionTuple

type ConnectionTuple struct {
	Source util.Address
	Dest   util.Address
	Pid    uint32
	NetNS  uint32
	SPort  uint16
	DPort  uint16
	Type   ConnectionType
	Family ConnectionFamily
}

ConnectionTuple represents the unique network key for a connection

func (ConnectionTuple) String

func (c ConnectionTuple) String() string

type ConnectionType

type ConnectionType uint8

ConnectionType will be either TCP or UDP

const (
	// TCP connection type
	TCP ConnectionType = 0

	// UDP connection type
	UDP ConnectionType = 1
)

func (ConnectionType) String

func (i ConnectionType) String() string

func (ConnectionType) Tags

func (c ConnectionType) Tags() map[string]string

Tags returns `ip_proto` tags for use in hot-path telemetry

type Connections

type Connections struct {
	BufferedData
	DNS                         map[util.Address][]dns.Hostname
	ConnTelemetry               map[ConnTelemetryType]int64
	CompilationTelemetryByAsset map[string]RuntimeCompilationTelemetry
	KernelHeaderFetchResult     int32
	CORETelemetryByAsset        map[string]int32
	PrebuiltAssets              []string
	HTTP                        map[http.Key]*http.RequestStats
	HTTP2                       map[http.Key]*http.RequestStats
	Kafka                       map[kafka.Key]*kafka.RequestStats
	Postgres                    map[postgres.Key]*postgres.RequestStat
	Redis                       map[redis.Key]*redis.RequestStat
}

Connections wraps a collection of ConnectionStats

func NewConnections

func NewConnections(buffer *ClientBuffer) *Connections

NewConnections create a new Connections object

type Delta added in v0.9.0

type Delta struct {
	Conns    []ConnectionStats
	HTTP     map[http.Key]*http.RequestStats
	HTTP2    map[http.Key]*http.RequestStats
	Kafka    map[kafka.Key]*kafka.RequestStats
	Postgres map[postgres.Key]*postgres.RequestStat
	Redis    map[redis.Key]*redis.RequestStat
}

Delta represents a delta of network data compared to the last call to State.

type EphemeralPortType added in v0.9.0

type EphemeralPortType uint8

EphemeralPortType will be either EphemeralUnknown, EphemeralTrue, EphemeralFalse

const (
	// EphemeralUnknown indicates inability to determine whether the port is in the ephemeral range or not
	EphemeralUnknown EphemeralPortType = 0 // unspecified

	// EphemeralTrue means the port has been detected to be in the configured ephemeral range
	EphemeralTrue EphemeralPortType = 1 // ephemeral

	// EphemeralFalse means the port has been detected to not be in the configured ephemeral range
	EphemeralFalse EphemeralPortType = 2 // not ephemeral
)

func IsPortInEphemeralRange added in v0.9.0

func IsPortInEphemeralRange(_ ConnectionFamily, _ ConnectionType, p uint16) EphemeralPortType

IsPortInEphemeralRange returns whether the port is ephemeral based on the OS-specific configuration.

The ConnectionFamily and ConnectionType arguments are only relevant for Windows

func (EphemeralPortType) String added in v0.9.0

func (i EphemeralPortType) String() string

type GatewayLookup

type GatewayLookup interface {
	Lookup(cs *ConnectionStats) *Via
	LookupWithIPs(source util.Address, dest util.Address, netns uint32) *Via
	Close()
}

GatewayLookup is an interface for performing gateway lookups

func NewGatewayLookup

func NewGatewayLookup(rootNsLookup nsLookupFunc, maxRouteCacheSize uint32, telemetryComp telemetryComponent.Component) GatewayLookup

NewGatewayLookup creates a new instance of a gateway lookup using a given root network namespace and a size for the route cache

type IPTranslation

type IPTranslation struct {
	ReplSrcIP   util.Address
	ReplDstIP   util.Address
	ReplSrcPort uint16
	ReplDstPort uint16
}

IPTranslation can be associated with a connection to show the connection is NAT'd

type LocalResolver

type LocalResolver struct {
	// contains filtered or unexported fields
}

LocalResolver resolves connection remote addresses

func NewLocalResolver

func NewLocalResolver(processEventsEnabled bool) LocalResolver

NewLocalResolver creates a new LocalResolver

func (LocalResolver) Resolve

func (r LocalResolver) Resolve(conns slice.Chain[ConnectionStats])

Resolve binds container IDs to the Raddr of connections

An attempt is made to resolve as many local containers as possible.

First, we go over all connections that have a container ID populated for their laddr, indexing them by (laddr, raddr, proto, netns). An additional entry is also inserted for a non-loopback laddr with netns = 0 as well. Translated laddr and raddr are used throughout. Incoming connection dest ports (the ephemeral side) are also zero-ed before inserting into the index.

Second, we go over the connections again, this time resolving the raddr container id using the lookup table we built previously. Translated addresses are used throughout. This time outgoing connection source ports are zero-ed when doing a lookup (since we zero-ed out the incoming dest ports in the index).

Only connections that are local are resolved, i.e., for which `IntraHost` is set to true.

type PortMapping

type PortMapping struct {
	Ino  uint32
	Port uint16
}

PortMapping represents a port binding

type Route added in v0.9.0

type Route struct {
	Gateway util.Address
	IfIndex int
}

Route stores info for a route table entry

type RouteCache added in v0.9.0

type RouteCache interface {
	Get(source, dest util.Address, netns uint32) (Route, bool)
	Close()
}

RouteCache is the interface to a cache that stores routes for a given (source, destination, net ns) tuple

func NewRouteCache added in v0.9.0

func NewRouteCache(_ telemetryComponent.Component, size int, router Router) RouteCache

NewRouteCache creates a new RouteCache

type Router added in v0.9.0

type Router interface {
	Route(source, dest util.Address, netns uint32) (Route, bool)
	Close()
}

Router is an interface to get a route for a (source, destination, net ns) tuple

func NewNetlinkRouter added in v0.9.0

func NewNetlinkRouter(rootNs netns.NsHandle) (Router, error)

NewNetlinkRouter create a Router that queries routes via netlink

type RuntimeCompilationTelemetry added in v0.9.0

type RuntimeCompilationTelemetry struct {
	RuntimeCompilationEnabled  bool
	RuntimeCompilationResult   int32
	RuntimeCompilationDuration int64
}

RuntimeCompilationTelemetry stores telemetry related to the runtime compilation of various assets

type StatCookie

type StatCookie = uint64

StatCookie A 64-bit hash designed to uniquely identify a connection. In eBPF this is 32 bits but it gets re-hashed to 64 bits in userspace to reduce collisions; see PR #17197 for more info.

type StatCounters

type StatCounters struct {
	SentBytes   uint64
	RecvBytes   uint64
	SentPackets uint64
	RecvPackets uint64
	Retransmits uint32
	// TCPEstablished indicates whether the TCP connection was established
	// after system-probe initialization.
	// * A value of 0 means that this connection was established before system-probe was initialized;
	// * Value 1 represents a connection that was established after system-probe started;
	// * Values greater than 1 should be rare, but can occur when multiple connections
	//   are established with the same tuple between two agent checks;
	TCPEstablished uint16
	TCPClosed      uint16
}

StatCounters represents all the per-connection stats we collect

func (StatCounters) Add

func (s StatCounters) Add(other StatCounters) StatCounters

Add returns s+other

func (StatCounters) IsZero

func (s StatCounters) IsZero() bool

IsZero returns whether all the stat counter values are zeroes

func (StatCounters) Max

func (s StatCounters) Max(other StatCounters) StatCounters

Max returns max(s, other)

func (StatCounters) Sub

func (s StatCounters) Sub(other StatCounters) (sc StatCounters, underflow bool)

Sub returns s-other.

This implementation is different from the implementation on other platforms as packet counts are actually sampled from the kernel as uint32's, but stored in StatCounters as uint64's. To detect overflows in these counts correctly, a simple subtraction will not do, and they need to be treated differently (see below)

type State

type State interface {
	// GetDelta returns a Delta object for the given client when provided the latest set of active connections
	GetDelta(
		clientID string,
		latestTime uint64,
		active []ConnectionStats,
		dns dns.StatsByKeyByNameByType,
		usmStats map[protocols.ProtocolType]interface{},
	) Delta

	// GetTelemetryDelta returns the telemetry delta since last time the given client requested telemetry data.
	GetTelemetryDelta(
		id string,
		telemetry map[ConnTelemetryType]int64,
	) map[ConnTelemetryType]int64

	// RegisterClient starts tracking stateful data for the given client
	// If the client is already registered, it does nothing.
	RegisterClient(clientID string)

	// RemoveClient stops tracking stateful data for a given client
	RemoveClient(clientID string)

	// RemoveExpiredClients removes expired clients from the state
	RemoveExpiredClients(now time.Time)

	// RemoveConnections removes the given keys from the state
	RemoveConnections(conns []*ConnectionStats)

	// StoreClosedConnection stores a batch of closed connections
	StoreClosedConnection(connection *ConnectionStats)

	// GetStats returns a map of statistics about the current network state
	GetStats() map[string]interface{}

	// DumpState returns a map with the current network state for a client ID
	DumpState(clientID string) map[string]interface{}
}

State takes care of handling the logic for: - closed connections - sent and received bytes per connection

func NewState

func NewState(_ telemetryComponent.Component, clientExpiry time.Duration, maxClosedConns uint32, maxClientStats, maxDNSStats, maxHTTPStats, maxKafkaStats, maxPostgresStats, maxRedisStats int, enableConnectionRollup bool, processEventConsumerEnabled bool) State

NewState creates a new network state

type Subnet added in v0.9.0

type Subnet struct {
	Alias string `json:"alias,omitempty"`
}

Subnet stores info about a subnet

type TagsSet

type TagsSet struct {
	// contains filtered or unexported fields
}

TagsSet a set of tags

func NewTagsSet

func NewTagsSet() *TagsSet

NewTagsSet create a new set of Tags

func (*TagsSet) Add

func (ts *TagsSet) Add(tag string) (v uint32)

Add a tag to the set and return his index

func (*TagsSet) GetStrings

func (ts *TagsSet) GetStrings() []string

GetStrings return in order the tags

func (*TagsSet) Size

func (ts *TagsSet) Size() int

Size return the numbers of unique tag

type Via added in v0.9.0

type Via struct {
	Subnet Subnet `json:"subnet,omitempty"`
}

Via has info about the routing decision for a flow

Directories

Path Synopsis
Package config implements network tracing configuration
Package config implements network tracing configuration
sysctl
Package sysctl implements reading of system parameters such as system limits
Package sysctl implements reading of system parameters such as system limits
Package dns traces DNS activity and caches DNS lookups for reverse DNS capability
Package dns traces DNS activity and caches DNS lookups for reverse DNS capability
Package ebpf implements tracing network events with eBPF
Package ebpf implements tracing network events with eBPF
Package encoding contains two subpackages marshal and unmarshal.
Package encoding contains two subpackages marshal and unmarshal.
marshal
Package marshal implements the marshaling side of network encoding
Package marshal implements the marshaling side of network encoding
unmarshal
Package unmarshal implements the unmarshalling side of network encoding
Package unmarshal implements the unmarshalling side of network encoding
Package events handles process events
Package events handles process events
Package filter exposes interfaces and implementations for packet capture
Package filter exposes interfaces and implementations for packet capture
go
asmscan
Package asmscan provides functions for scanning the machine code of functions.
Package asmscan provides functions for scanning the machine code of functions.
bininspect
Package bininspect provides tools to inspect a Go binary.
Package bininspect provides tools to inspect a Go binary.
binversion
Package binversion provides access to information embedded in a Go binary about how it was built.
Package binversion provides access to information embedded in a Go binary about how it was built.
dwarfutils
Package dwarfutils provides utilities for working with DWARF debug information.
Package dwarfutils provides utilities for working with DWARF debug information.
dwarfutils/locexpr
Package locexpr provides a function to statically execute a DWARF location expression.
Package locexpr provides a function to statically execute a DWARF location expression.
goid
Package goid provides a function to get the current goroutine ID.
Package goid provides a function to get the current goroutine ID.
goid/internal
Package main is responsible for extracting Go type information from DWARF data across multiple Go versions.
Package main is responsible for extracting Go type information from DWARF data across multiple Go versions.
goid/internal/testprogram
Package main holds main related files
Package main holds main related files
goversion
Package goversion provides a wrapper around the `GoVersion` type from the delve debugger
Package goversion provides a wrapper around the `GoVersion` type from the delve debugger
lutgen
Package lutgen provides tools to generate lookup tables for Go binaries.
Package lutgen provides tools to generate lookup tables for Go binaries.
rungo
Package rungo provides tools to run the Go toolchain.
Package rungo provides tools to run the Go toolchain.
rungo/matrix
Package matrix provides a utility for running a single Go command
Package matrix provides a utility for running a single Go command
Package netlink implements network connection tracking.
Package netlink implements network connection tracking.
testutil
Package testutil contains helper functions used for testing conntrack
Package testutil contains helper functions used for testing conntrack
Package main - single file executable
Package main - single file executable
Package protocols provides the implementation of the network tracer protocols
Package protocols provides the implementation of the network tracer protocols
amqp
Package amqp provides a simple wrapper around 3rd party amqp client.
Package amqp provides a simple wrapper around 3rd party amqp client.
http
Package http contains the userspace portion of USM's HTTP monitoring code
Package http contains the userspace portion of USM's HTTP monitoring code
http/debugging
Package debugging provides a debugging view of the HTTP protocol.
Package debugging provides a debugging view of the HTTP protocol.
http/gotls/lookup
Package lookup provides a lookup table for the protocol package.
Package lookup provides a lookup table for the protocol package.
http/gotls/lookup/internal/testprogram
Package main provides a test program for generating lookup tables for TLS types
Package main provides a test program for generating lookup tables for TLS types
http/testutil
Package testutil provides utilities for testing the HTTP protocol.
Package testutil provides utilities for testing the HTTP protocol.
http2
Package http2 provides a HTTP/2 implementation for the network package for supporting HTTP/2 and gRPC monitoring with USM.
Package http2 provides a HTTP/2 implementation for the network package for supporting HTTP/2 and gRPC monitoring with USM.
kafka/debugging
Package debugging provides debug-friendly representations of internal data structures
Package debugging provides debug-friendly representations of internal data structures
mongo
Package mongo provides a simple wrapper around 3rd party mongo client.
Package mongo provides a simple wrapper around 3rd party mongo client.
mysql
Package mysql provides a MySQL client to interact with a MySQL server.
Package mysql provides a MySQL client to interact with a MySQL server.
postgres/debugging
Package debugging provides debug-friendly representations of internal data structures
Package debugging provides debug-friendly representations of internal data structures
redis/debugging
Package debugging provides debug-friendly representation of internal data structures
Package debugging provides debug-friendly representation of internal data structures
telemetry
Package telemetry provides a way to collect metrics from eBPF programs.
Package telemetry provides a way to collect metrics from eBPF programs.
testutil
Package testutil provides general utilities for protocols UTs.
Package testutil provides general utilities for protocols UTs.
tls/gotls/testutil
Package testutil provides utilities for testing the TLS package.
Package testutil provides utilities for testing the TLS package.
tls/gotls/testutil/gotls_client
Package main is a simple client for the gotls_server.
Package main is a simple client for the gotls_server.
tls/gotls/testutil/gotls_server
Package main is a simple client for the gotls_server.
Package main is a simple client for the gotls_server.
Package slice implements helpers for slice operations
Package slice implements helpers for slice operations
Package testutil contains helper functions used in network tests
Package testutil contains helper functions used in network tests
Package tracer implements the functionality of the network tracer
Package tracer implements the functionality of the network tracer
connection/ebpfless
Package ebpfless contains supporting code for the ebpfless tracer
Package ebpfless contains supporting code for the ebpfless tracer
testutil/proxy/external_unix_proxy_server
Package main provides a unix transparent proxy server that can be used for testing.
Package main provides a unix transparent proxy server that can be used for testing.
Package types implements the definition for network connection tuples
Package types implements the definition for network connection tuples
usm
config
Package config provides helpers for USM configuration
Package config provides helpers for USM configuration
consts
Package consts contains constants used by the USM package.
Package consts contains constants used by the USM package.
sharedlibraries
Package sharedlibraries contains implementation for monitoring of shared libraries opened by other programs
Package sharedlibraries contains implementation for monitoring of shared libraries opened by other programs
sharedlibraries/testutil/fmapper
Package main is used for testing purposes and it essentially maps into memory
Package main is used for testing purposes and it essentially maps into memory
state
Package state provides the state of the USM monitor.
Package state provides the state of the USM monitor.
testutil
Package testutil provides utilities for testing USM.
Package testutil provides utilities for testing USM.
testutil/grpc
Package grpc provides a gRPC client that fits the gRPC server.
Package grpc provides a gRPC client that fits the gRPC server.
testutil/grpc/grpc_external_server
Package main provides a simple gRPC server that can be used for testing.
Package main provides a simple gRPC server that can be used for testing.
testutil/prefetch_file
Package main is a simple utility to prefetch files into the page cache.
Package main is a simple utility to prefetch files into the page cache.
utils
Package utils contains common code shared across the USM codebase
Package utils contains common code shared across the USM codebase

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