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agent_config.go
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agent_config.go
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// SPDX-FileCopyrightText: 2023 The Pion community <https://pion.ly>
// SPDX-License-Identifier: MIT
package ice
import (
"net"
"time"
"github.com/pion/logging"
"github.com/pion/stun/v2"
"github.com/pion/transport/v3"
"golang.org/x/net/proxy"
)
const (
// defaultCheckInterval is the interval at which the agent performs candidate checks in the connecting phase
defaultCheckInterval = 200 * time.Millisecond
// keepaliveInterval used to keep candidates alive
defaultKeepaliveInterval = 2 * time.Second
// defaultDisconnectedTimeout is the default time till an Agent transitions disconnected
defaultDisconnectedTimeout = 5 * time.Second
// defaultFailedTimeout is the default time till an Agent transitions to failed after disconnected
defaultFailedTimeout = 25 * time.Second
// defaultHostAcceptanceMinWait is the wait time before nominating a host candidate
defaultHostAcceptanceMinWait = 0
// defaultSrflxAcceptanceMinWait is the wait time before nominating a srflx candidate
defaultSrflxAcceptanceMinWait = 500 * time.Millisecond
// defaultPrflxAcceptanceMinWait is the wait time before nominating a prflx candidate
defaultPrflxAcceptanceMinWait = 1000 * time.Millisecond
// defaultRelayAcceptanceMinWait is the wait time before nominating a relay candidate
defaultRelayAcceptanceMinWait = 2000 * time.Millisecond
// defaultMaxBindingRequests is the maximum number of binding requests before considering a pair failed
defaultMaxBindingRequests = 7
// TCPPriorityOffset is a number which is subtracted from the default (UDP) candidate type preference
// for host, srflx and prfx candidate types.
defaultTCPPriorityOffset = 27
// maxBufferSize is the number of bytes that can be buffered before we start to error
maxBufferSize = 1000 * 1000 // 1MB
// maxBindingRequestTimeout is the wait time before binding requests can be deleted
maxBindingRequestTimeout = 4000 * time.Millisecond
)
func defaultCandidateTypes() []CandidateType {
return []CandidateType{CandidateTypeHost, CandidateTypeServerReflexive, CandidateTypeRelay}
}
// AgentConfig collects the arguments to ice.Agent construction into
// a single structure, for future-proofness of the interface
type AgentConfig struct {
Urls []*stun.URI
// PortMin and PortMax are optional. Leave them 0 for the default UDP port allocation strategy.
PortMin uint16
PortMax uint16
// LocalUfrag and LocalPwd values used to perform connectivity
// checks. The values MUST be unguessable, with at least 128 bits of
// random number generator output used to generate the password, and
// at least 24 bits of output to generate the username fragment.
LocalUfrag string
LocalPwd string
// MulticastDNSMode controls mDNS behavior for the ICE agent
MulticastDNSMode MulticastDNSMode
// MulticastDNSHostName controls the hostname for this agent. If none is specified a random one will be generated
MulticastDNSHostName string
// DisconnectedTimeout defaults to 5 seconds when this property is nil.
// If the duration is 0, the ICE Agent will never go to disconnected
DisconnectedTimeout *time.Duration
// FailedTimeout defaults to 25 seconds when this property is nil.
// If the duration is 0, we will never go to failed.
FailedTimeout *time.Duration
// KeepaliveInterval determines how often should we send ICE
// keepalives (should be less then connectiontimeout above)
// when this is nil, it defaults to 10 seconds.
// A keepalive interval of 0 means we never send keepalive packets
KeepaliveInterval *time.Duration
// CheckInterval controls how often our task loop runs when in the
// connecting state.
CheckInterval *time.Duration
// NetworkTypes is an optional configuration for disabling or enabling
// support for specific network types.
NetworkTypes []NetworkType
// CandidateTypes is an optional configuration for disabling or enabling
// support for specific candidate types.
CandidateTypes []CandidateType
LoggerFactory logging.LoggerFactory
// MaxBindingRequests is the max amount of binding requests the agent will send
// over a candidate pair for validation or nomination, if after MaxBindingRequests
// the candidate is yet to answer a binding request or a nomination we set the pair as failed
MaxBindingRequests *uint16
// Lite agents do not perform connectivity check and only provide host candidates.
Lite bool
// NAT1To1IPCandidateType is used along with NAT1To1IPs to specify which candidate type
// the 1:1 NAT IP addresses should be mapped to.
// If unspecified or CandidateTypeHost, NAT1To1IPs are used to replace host candidate IPs.
// If CandidateTypeServerReflexive, it will insert a srflx candidate (as if it was derived
// from a STUN server) with its port number being the one for the actual host candidate.
// Other values will result in an error.
NAT1To1IPCandidateType CandidateType
// NAT1To1IPs contains a list of public IP addresses that are to be used as a host
// candidate or srflx candidate. This is used typically for servers that are behind
// 1:1 D-NAT (e.g. AWS EC2 instances) and to eliminate the need of server reflexive
// candidate gathering.
NAT1To1IPs []string
// HostAcceptanceMinWait specify a minimum wait time before selecting host candidates
HostAcceptanceMinWait *time.Duration
// HostAcceptanceMinWait specify a minimum wait time before selecting srflx candidates
SrflxAcceptanceMinWait *time.Duration
// HostAcceptanceMinWait specify a minimum wait time before selecting prflx candidates
PrflxAcceptanceMinWait *time.Duration
// HostAcceptanceMinWait specify a minimum wait time before selecting relay candidates
RelayAcceptanceMinWait *time.Duration
// Net is the our abstracted network interface for internal development purpose only
// (see https://github.com/pion/transport)
Net transport.Net
// InterfaceFilter is a function that you can use in order to whitelist or blacklist
// the interfaces which are used to gather ICE candidates.
InterfaceFilter func(string) bool
// IPFilter is a function that you can use in order to whitelist or blacklist
// the ips which are used to gather ICE candidates.
IPFilter func(net.IP) bool
// InsecureSkipVerify controls if self-signed certificates are accepted when connecting
// to TURN servers via TLS or DTLS
InsecureSkipVerify bool
// TCPMux will be used for multiplexing incoming TCP connections for ICE TCP.
// Currently only passive candidates are supported. This functionality is
// experimental and the API might change in the future.
TCPMux TCPMux
// UDPMux is used for multiplexing multiple incoming UDP connections on a single port
// when this is set, the agent ignores PortMin and PortMax configurations and will
// defer to UDPMux for incoming connections
UDPMux UDPMux
// UDPMuxSrflx is used for multiplexing multiple incoming UDP connections of server reflexive candidates
// on a single port when this is set, the agent ignores PortMin and PortMax configurations and will
// defer to UDPMuxSrflx for incoming connections
// It embeds UDPMux to do the actual connection multiplexing
UDPMuxSrflx UniversalUDPMux
// Proxy Dialer is a dialer that should be implemented by the user based on golang.org/x/net/proxy
// dial interface in order to support corporate proxies
ProxyDialer proxy.Dialer
// Deprecated: AcceptAggressiveNomination always enabled.
AcceptAggressiveNomination bool
// Include loopback addresses in the candidate list.
IncludeLoopback bool
// TCPPriorityOffset is a number which is subtracted from the default (UDP) candidate type preference
// for host, srflx and prfx candidate types. It helps to configure relative preference of UDP candidates
// against TCP ones. Relay candidates for TCP and UDP are always 0 and not affected by this setting.
// When this is nil, defaultTCPPriorityOffset is used.
TCPPriorityOffset *uint16
// DisableActiveTCP can be used to disable Active TCP candidates. Otherwise when TCP is enabled
// Active TCP candidates will be created when a new passive TCP remote candidate is added.
DisableActiveTCP bool
}
// initWithDefaults populates an agent and falls back to defaults if fields are unset
func (config *AgentConfig) initWithDefaults(a *Agent) {
if config.MaxBindingRequests == nil {
a.maxBindingRequests = defaultMaxBindingRequests
} else {
a.maxBindingRequests = *config.MaxBindingRequests
}
if config.HostAcceptanceMinWait == nil {
a.hostAcceptanceMinWait = defaultHostAcceptanceMinWait
} else {
a.hostAcceptanceMinWait = *config.HostAcceptanceMinWait
}
if config.SrflxAcceptanceMinWait == nil {
a.srflxAcceptanceMinWait = defaultSrflxAcceptanceMinWait
} else {
a.srflxAcceptanceMinWait = *config.SrflxAcceptanceMinWait
}
if config.PrflxAcceptanceMinWait == nil {
a.prflxAcceptanceMinWait = defaultPrflxAcceptanceMinWait
} else {
a.prflxAcceptanceMinWait = *config.PrflxAcceptanceMinWait
}
if config.RelayAcceptanceMinWait == nil {
a.relayAcceptanceMinWait = defaultRelayAcceptanceMinWait
} else {
a.relayAcceptanceMinWait = *config.RelayAcceptanceMinWait
}
if config.TCPPriorityOffset == nil {
a.tcpPriorityOffset = defaultTCPPriorityOffset
} else {
a.tcpPriorityOffset = *config.TCPPriorityOffset
}
if config.DisconnectedTimeout == nil {
a.disconnectedTimeout = defaultDisconnectedTimeout
} else {
a.disconnectedTimeout = *config.DisconnectedTimeout
}
if config.FailedTimeout == nil {
a.failedTimeout = defaultFailedTimeout
} else {
a.failedTimeout = *config.FailedTimeout
}
if config.KeepaliveInterval == nil {
a.keepaliveInterval = defaultKeepaliveInterval
} else {
a.keepaliveInterval = *config.KeepaliveInterval
}
if config.CheckInterval == nil {
a.checkInterval = defaultCheckInterval
} else {
a.checkInterval = *config.CheckInterval
}
if config.CandidateTypes == nil || len(config.CandidateTypes) == 0 {
a.candidateTypes = defaultCandidateTypes()
} else {
a.candidateTypes = config.CandidateTypes
}
}
func (config *AgentConfig) initExtIPMapping(a *Agent) error {
var err error
a.extIPMapper, err = newExternalIPMapper(config.NAT1To1IPCandidateType, config.NAT1To1IPs)
if err != nil {
return err
}
if a.extIPMapper == nil {
return nil // This may happen when config.NAT1To1IPs is an empty array
}
if a.extIPMapper.candidateType == CandidateTypeHost {
if a.mDNSMode == MulticastDNSModeQueryAndGather {
return ErrMulticastDNSWithNAT1To1IPMapping
}
candiHostEnabled := false
for _, candiType := range a.candidateTypes {
if candiType == CandidateTypeHost {
candiHostEnabled = true
break
}
}
if !candiHostEnabled {
return ErrIneffectiveNAT1To1IPMappingHost
}
} else if a.extIPMapper.candidateType == CandidateTypeServerReflexive {
candiSrflxEnabled := false
for _, candiType := range a.candidateTypes {
if candiType == CandidateTypeServerReflexive {
candiSrflxEnabled = true
break
}
}
if !candiSrflxEnabled {
return ErrIneffectiveNAT1To1IPMappingSrflx
}
}
return nil
}