README
¶
A QUIC implementation in pure Go (Scheduler)
quic-go is an implementation of the QUIC protocol, RFC 9000 protocol in Go. In addition to RFC 9000, it currently implements the IETF QUIC draft-29. Support for draft-29 will eventually be dropped, as it is phased out of the ecosystem.
Guides
We currently support Go 1.18.x and Go 1.19.1.
Running tests:
go test ./...
QUIC without HTTP/3
Take a look at this echo example.
Usage
As a server
See the example server. Starting a QUIC server is very similar to the standard lib http in go:
http.Handle("/", http.FileServer(http.Dir(wwwDir)))
http3.ListenAndServeQUIC("localhost:4242", "/path/to/cert/chain.pem", "/path/to/privkey.pem", nil)
As a client
See the example client. Use a http3.RoundTripper as a Transport in a http.Client.
http.Client{
Transport: &http3.RoundTripper{},
}
Projects using quic-go
| Project | Description | Stars |
|---|---|---|
| algernon | Small self-contained pure-Go web server with Lua, Markdown, HTTP/2, QUIC, Redis and PostgreSQL support |  |
| caddy | Fast, multi-platform web server with automatic HTTPS |  |
| go-ipfs | IPFS implementation in go |  |
| nextdns | NextDNS CLI client (DoH Proxy) |  |
| syncthing | Open Source Continuous File Synchronization |  |
| traefik | The Cloud Native Application Proxy |  |
| v2ray-core | A platform for building proxies to bypass network restrictions |  |
| cloudflared | A tunneling daemon that proxies traffic from the Cloudflare network to your origins |  |
| OONI Probe | The Open Observatory of Network Interference (OONI) aims to empower decentralized efforts in documenting Internet censorship around the world. |  |
Contributing
We are always happy to welcome new contributors! We have a number of self-contained issues that are suitable for first-time contributors, they are tagged with help wanted. If you have any questions, please feel free to reach out by opening an issue or leaving a comment.
Documentation
¶
Index ¶
- Constants
- Variables
- func GlobalBuffersIncr(streamIdx int, delta float64)
- func GlobalBuffersInit(numStreams int)
- func GlobalBuffersLog(streamIdx int)
- func GlobalBuffersPktDelay(streamIdx int) int64
- func GlobalBuffersPktDelayFirst(streamIdx int) int64
- func GlobalBuffersRead(streamIdx int) float64
- func GlobalBuffersSojournTime(streamIdx int) (int64, int)
- func GlobalBuffersSojournTimeLog(scheduler string, timestamp int64, id int, sum int64)
- func GlobalBuffersTotalDelay(streamIdx int) int64
- func GlobalBuffersWrite(streamIdx int, newVal float64)
- func Min(array []protocol.ByteCount) int
- type AdvancedOutgoingStreamManagement
- type ApplicationError
- type ApplicationErrorCode
- type ClientToken
- type Config
- type Configuration
- type ConnectionState
- type EarlyListener
- type EarlySession
- func DialAddrEarly(addr string, tlsConf *tls.Config, config *Config) (EarlySession, error)
- func DialAddrEarlyContext(ctx context.Context, addr string, tlsConf *tls.Config, config *Config) (EarlySession, error)
- func DialEarly(pconn net.PacketConn, remoteAddr net.Addr, host string, tlsConf *tls.Config, ...) (EarlySession, error)
- func DialEarlyContext(ctx context.Context, pconn net.PacketConn, remoteAddr net.Addr, host string, ...) (EarlySession, error)
- type HandshakeTimeoutError
- type IdleTimeoutError
- type Listener
- type OOBCapablePacketConn
- type ReceiveStream
- type SendStream
- type Session
- func Dial(pconn net.PacketConn, remoteAddr net.Addr, host string, tlsConf *tls.Config, ...) (Session, error)
- func DialAddr(addr string, tlsConf *tls.Config, config *Config) (Session, error)
- func DialAddrContext(ctx context.Context, addr string, tlsConf *tls.Config, config *Config) (Session, error)
- func DialContext(ctx context.Context, pconn net.PacketConn, remoteAddr net.Addr, host string, ...) (Session, error)
- type StatelessResetError
- type Stream
- type StreamBuffer
- type StreamError
- type StreamErrorCode
- type StreamID
- type Token
- type TokenStore
- type TransportError
- type TransportErrorCode
- type VersionNegotiationError
- type VersionNumber
Constants ¶
const ( NoError = qerr.NoError InternalError = qerr.InternalError ConnectionRefused = qerr.ConnectionRefused FlowControlError = qerr.FlowControlError StreamLimitError = qerr.StreamLimitError StreamStateError = qerr.StreamStateError FinalSizeError = qerr.FinalSizeError FrameEncodingError = qerr.FrameEncodingError TransportParameterError = qerr.TransportParameterError ConnectionIDLimitError = qerr.ConnectionIDLimitError ProtocolViolation = qerr.ProtocolViolation InvalidToken = qerr.InvalidToken ApplicationErrorErrorCode = qerr.ApplicationErrorErrorCode CryptoBufferExceeded = qerr.CryptoBufferExceeded KeyUpdateError = qerr.KeyUpdateError AEADLimitReached = qerr.AEADLimitReached NoViablePathError = qerr.NoViablePathError )
const ( // VersionDraft29 is IETF QUIC draft-29 VersionDraft29 = protocol.VersionDraft29 // Version1 is RFC 9000 Version1 = protocol.Version1 )
Variables ¶
var Err0RTTRejected = errors.New("0-RTT rejected")
Err0RTTRejected is the returned from: * Open{Uni}Stream{Sync} * Accept{Uni}Stream * Stream.Read and Stream.Write when the server rejects a 0-RTT connection attempt.
var SessionTracingKey = sessionTracingCtxKey{}
SessionTracingKey can be used to associate a ConnectionTracer with a Session. It is set on the Session.Context() context, as well as on the context passed to logging.Tracer.NewConnectionTracer.
Functions ¶
func GlobalBuffersIncr ¶
delta can be positive or negative
func GlobalBuffersInit ¶
func GlobalBuffersInit(numStreams int)
func GlobalBuffersLog ¶
func GlobalBuffersLog(streamIdx int)
func GlobalBuffersPktDelay ¶
func GlobalBuffersRead ¶
func GlobalBuffersTotalDelay ¶
func GlobalBuffersWrite ¶
Types ¶
type AdvancedOutgoingStreamManagement ¶
type AdvancedOutgoingStreamManagement interface {
// HasAppData checks if there is more application data to be transmitted
HasAppData() bool
// SentBytes returns the number of sent bytes without counting the retransmissions
SentBytes() protocol.ByteCount
// RemainingBytes returns current length of the application data not transmitted yet
RemainingBytes() protocol.ByteCount
// HasRetransmission checks if any data frame has been enqueued for retransmission
HasRetransmission() bool
// TotalQueue returns current length of the application data not transmitted + retransmitted. If there are bytes in the next frame, it adds it up and returns it
TotalQueue() protocol.ByteCount
// FramesToRetransmit returns the number of frames enqueued for retransmission
FramesToRetransmit() int
// BytesToRetransmit returns the number of data bytes excluding frame headers
BytesToRetransmit() protocol.ByteCount
}
type ApplicationError ¶
type ApplicationError = qerr.ApplicationError
type ApplicationErrorCode ¶
type ApplicationErrorCode = qerr.ApplicationErrorCode
type ClientToken ¶
type ClientToken struct {
// contains filtered or unexported fields
}
A ClientToken is a token received by the client. It can be used to skip address validation on future connection attempts.
type Config ¶
type Config struct {
// The QUIC versions that can be negotiated.
// If not set, it uses all versions available.
// Warning: This API should not be considered stable and will change soon.
Versions []VersionNumber
// The length of the connection ID in bytes.
// It can be 0, or any value between 4 and 18.
// If not set, the interpretation depends on where the Config is used:
// If used for dialing an address, a 0 byte connection ID will be used.
// If used for a server, or dialing on a packet conn, a 4 byte connection ID will be used.
// When dialing on a packet conn, the ConnectionIDLength value must be the same for every Dial call.
ConnectionIDLength int
// HandshakeIdleTimeout is the idle timeout before completion of the handshake.
// Specifically, if we don't receive any packet from the peer within this time, the connection attempt is aborted.
// If this value is zero, the timeout is set to 5 seconds.
HandshakeIdleTimeout time.Duration
// MaxIdleTimeout is the maximum duration that may pass without any incoming network activity.
// The actual value for the idle timeout is the minimum of this value and the peer's.
// This value only applies after the handshake has completed.
// If the timeout is exceeded, the connection is closed.
// If this value is zero, the timeout is set to 30 seconds.
MaxIdleTimeout time.Duration
// AcceptToken determines if a Token is accepted.
// It is called with token = nil if the client didn't send a token.
// If not set, a default verification function is used:
// * it verifies that the address matches, and
// * if the token is a retry token, that it was issued within the last 5 seconds
// * else, that it was issued within the last 24 hours.
// This option is only valid for the server.
AcceptToken func(clientAddr net.Addr, token *Token) bool
// The TokenStore stores tokens received from the server.
// Tokens are used to skip address validation on future connection attempts.
// The key used to store tokens is the ServerName from the tls.Config, if set
// otherwise the token is associated with the server's IP address.
TokenStore TokenStore
// InitialStreamReceiveWindow is the initial size of the stream-level flow control window for receiving data.
// If the application is consuming data quickly enough, the flow control auto-tuning algorithm
// will increase the window up to MaxStreamReceiveWindow.
// If this value is zero, it will default to 512 KB.
InitialStreamReceiveWindow uint64
// MaxStreamReceiveWindow is the maximum stream-level flow control window for receiving data.
// If this value is zero, it will default to 6 MB.
MaxStreamReceiveWindow uint64
// InitialConnectionReceiveWindow is the initial size of the stream-level flow control window for receiving data.
// If the application is consuming data quickly enough, the flow control auto-tuning algorithm
// will increase the window up to MaxConnectionReceiveWindow.
// If this value is zero, it will default to 512 KB.
InitialConnectionReceiveWindow uint64
// MaxConnectionReceiveWindow is the connection-level flow control window for receiving data.
// If this value is zero, it will default to 15 MB.
MaxConnectionReceiveWindow uint64
// AllowConnectionWindowIncrease is called every time the connection flow controller attempts
// to increase the connection flow control window.
// If set, the caller can prevent an increase of the window. Typically, it would do so to
// limit the memory usage.
// To avoid deadlocks, it is not valid to call other functions on the session or on streams
// in this callback.
AllowConnectionWindowIncrease func(sess Session, delta uint64) bool
// MaxIncomingStreams is the maximum number of concurrent bidirectional streams that a peer is allowed to open.
// Values above 2^60 are invalid.
// If not set, it will default to 100.
// If set to a negative value, it doesn't allow any bidirectional streams.
MaxIncomingStreams int64
// MaxIncomingUniStreams is the maximum number of concurrent unidirectional streams that a peer is allowed to open.
// Values above 2^60 are invalid.
// If not set, it will default to 100.
// If set to a negative value, it doesn't allow any unidirectional streams.
MaxIncomingUniStreams int64
// The StatelessResetKey is used to generate stateless reset tokens.
// If no key is configured, sending of stateless resets is disabled.
StatelessResetKey []byte
// KeepAlive defines whether this peer will periodically send a packet to keep the connection alive.
KeepAlive bool
// DisablePathMTUDiscovery disables Path MTU Discovery (RFC 8899).
// Packets will then be at most 1252 (IPv4) / 1232 (IPv6) bytes in size.
// Note that if Path MTU discovery is causing issues on your system, please open a new issue
DisablePathMTUDiscovery bool
// DisableVersionNegotiationPackets disables the sending of Version Negotiation packets.
// This can be useful if version information is exchanged out-of-band.
// It has no effect for a client.
DisableVersionNegotiationPackets bool
// See https://datatracker.ietf.org/doc/draft-ietf-quic-datagram/.
// Datagrams will only be available when both peers enable datagram support.
EnableDatagrams bool
Tracer logging.Tracer
}
Config contains all configuration data needed for a QUIC server or client.
type Configuration ¶
type ConnectionState ¶
type ConnectionState struct {
TLS handshake.ConnectionState
SupportsDatagrams bool
}
ConnectionState records basic details about a QUIC connection
type EarlyListener ¶
type EarlyListener interface {
// Close the server. All active sessions will be closed.
Close() error
// Addr returns the local network addr that the server is listening on.
Addr() net.Addr
// Accept returns new early sessions. It should be called in a loop.
Accept(context.Context) (EarlySession, error)
}
An EarlyListener listens for incoming QUIC connections, and returns them before the handshake completes.
func ListenAddrEarly ¶
ListenAddrEarly works like ListenAddr, but it returns sessions before the handshake completes.
func ListenEarly ¶
func ListenEarly(conn net.PacketConn, tlsConf *tls.Config, config *Config) (EarlyListener, error)
ListenEarly works like Listen, but it returns sessions before the handshake completes.
type EarlySession ¶
type EarlySession interface {
Session
// HandshakeComplete blocks until the handshake completes (or fails).
// Data sent before completion of the handshake is encrypted with 1-RTT keys.
// Note that the client's identity hasn't been verified yet.
HandshakeComplete() context.Context
NextSession() Session
}
An EarlySession is a session that is handshaking. Data sent during the handshake is encrypted using the forward secure keys. When using client certificates, the client's identity is only verified after completion of the handshake.
func DialAddrEarly ¶
DialAddrEarly establishes a new 0-RTT QUIC connection to a server. It uses a new UDP connection and closes this connection when the QUIC session is closed. The hostname for SNI is taken from the given address. The tls.Config.CipherSuites allows setting of TLS 1.3 cipher suites.
func DialAddrEarlyContext ¶
func DialAddrEarlyContext( ctx context.Context, addr string, tlsConf *tls.Config, config *Config, ) (EarlySession, error)
DialAddrEarlyContext establishes a new 0-RTT QUIC connection to a server using provided context. See DialAddrEarly for details
func DialEarly ¶
func DialEarly( pconn net.PacketConn, remoteAddr net.Addr, host string, tlsConf *tls.Config, config *Config, ) (EarlySession, error)
DialEarly establishes a new 0-RTT QUIC connection to a server using a net.PacketConn. The same PacketConn can be used for multiple calls to Dial and Listen, QUIC connection IDs are used for demultiplexing the different connections. The host parameter is used for SNI. The tls.Config must define an application protocol (using NextProtos).
func DialEarlyContext ¶
func DialEarlyContext( ctx context.Context, pconn net.PacketConn, remoteAddr net.Addr, host string, tlsConf *tls.Config, config *Config, ) (EarlySession, error)
DialEarlyContext establishes a new 0-RTT QUIC connection to a server using a net.PacketConn using the provided context. See DialEarly for details.
type HandshakeTimeoutError ¶
type HandshakeTimeoutError = qerr.HandshakeTimeoutError
type IdleTimeoutError ¶
type IdleTimeoutError = qerr.IdleTimeoutError
type Listener ¶
type Listener interface {
// Close the server. All active sessions will be closed.
Close() error
// Addr returns the local network addr that the server is listening on.
Addr() net.Addr
// Accept returns new sessions. It should be called in a loop.
Accept(context.Context) (Session, error)
}
A Listener for incoming QUIC connections
func Listen ¶
Listen listens for QUIC connections on a given net.PacketConn. If the PacketConn satisfies the OOBCapablePacketConn interface (as a net.UDPConn does), ECN and packet info support will be enabled. In this case, ReadMsgUDP and WriteMsgUDP will be used instead of ReadFrom and WriteTo to read/write packets. A single net.PacketConn only be used for a single call to Listen. The PacketConn can be used for simultaneous calls to Dial. QUIC connection IDs are used for demultiplexing the different connections. The tls.Config must not be nil and must contain a certificate configuration. The tls.Config.CipherSuites allows setting of TLS 1.3 cipher suites. Furthermore, it must define an application control (using NextProtos). The quic.Config may be nil, in that case the default values will be used.
func ListenAddr ¶
ListenAddr creates a QUIC server listening on a given address. The tls.Config must not be nil and must contain a certificate configuration. The quic.Config may be nil, in that case the default values will be used.
type OOBCapablePacketConn ¶
type OOBCapablePacketConn interface {
net.PacketConn
SyscallConn() (syscall.RawConn, error)
ReadMsgUDP(b, oob []byte) (n, oobn, flags int, addr *net.UDPAddr, err error)
WriteMsgUDP(b, oob []byte, addr *net.UDPAddr) (n, oobn int, err error)
}
If the PacketConn passed to Dial or Listen satisfies this interface, Quic_GO will read the ECN bits from the IP header. In this case, ReadMsgUDP() will be used instead of ReadFrom() to read packets.
type ReceiveStream ¶
type ReceiveStream interface {
// StreamID returns the stream ID.
StreamID() StreamID
// Read reads data from the stream.
// Read can be made to time out and return a net.Error with Timeout() == true
// after a fixed time limit; see SetDeadline and SetReadDeadline.
// If the stream was canceled by the peer, the error implements the StreamError
// interface, and Canceled() == true.
// If the session was closed due to a timeout, the error satisfies
// the net.Error interface, and Timeout() will be true.
io.Reader
// CancelRead aborts receiving on this stream.
// It will ask the peer to stop transmitting stream data.
// Read will unblock immediately, and future Read calls will fail.
// When called multiple times or after reading the io.EOF it is a no-op.
CancelRead(StreamErrorCode)
SetReadDeadline(t time.Time) error
}
A ReceiveStream is a unidirectional Receive Stream.
type SendStream ¶
type SendStream interface {
// StreamID returns the stream ID.
StreamID() StreamID
// Write writes data to the stream.
// Write can be made to time out and return a net.Error with Timeout() == true
// after a fixed time limit; see SetDeadline and SetWriteDeadline.
// If the stream was canceled by the peer, the error implements the StreamError
// interface, and Canceled() == true.
// If the session was closed due to a timeout, the error satisfies
// the net.Error interface, and Timeout() will be true.
io.Writer
// Close closes the write-direction of the stream.
// Future calls to Write are not permitted after calling Close.
// It must not be called concurrently with Write.
// It must not be called after calling CancelWrite.
io.Closer
// CancelWrite aborts sending on this stream.
// Data already written, but not yet delivered to the peer is not guaranteed to be delivered reliably.
// Write will unblock immediately, and future calls to Write will fail.
// When called multiple times or after closing the stream it is a no-op.
CancelWrite(StreamErrorCode)
// The Context is canceled as soon as the write-side of the stream is closed.
// This happens when Close() or CancelWrite() is called, or when the peer
// cancels the read-side of their stream.
// Warning: This API should not be considered stable and might change soon.
Context() context.Context
// SetWriteDeadline sets the deadline for future Write calls
// and any currently-blocked Write call.
// Even if write times out, it may return n > 0, indicating that
// some data was successfully written.
// A zero value for t means Write will not time out.
SetWriteDeadline(t time.Time) error
// AdvancedOutgoingStreamManagement defines extra methods to better control outgoing streams
AdvancedOutgoingStreamManagement
}
A SendStream is a unidirectional Send Stream.
type Session ¶
type Session interface {
// AcceptStream returns the next stream opened by the peer, blocking until one is available.
// If the session was closed due to a timeout, the error satisfies
// the net.Error interface, and Timeout() will be true.
AcceptStream(context.Context) (Stream, error)
// AcceptUniStream returns the next unidirectional stream opened by the peer, blocking until one is available.
// If the session was closed due to a timeout, the error satisfies
// the net.Error interface, and Timeout() will be true.
AcceptUniStream(context.Context) (ReceiveStream, error)
// OpenStream opens a new bidirectional QUIC stream.
// There is no signaling to the peer about new streams:
// The peer can only accept the stream after data has been sent on the stream.
// If the error is non-nil, it satisfies the net.Error interface.
// When reaching the peer's stream limit, err.Temporary() will be true.
// If the session was closed due to a timeout, Timeout() will be true.
OpenStream() (Stream, error)
// OpenStreamSync opens a new bidirectional QUIC stream.
// It blocks until a new stream can be opened.
// If the error is non-nil, it satisfies the net.Error interface.
// If the session was closed due to a timeout, Timeout() will be true.
OpenStreamSync(context.Context) (Stream, error)
// OpenUniStream opens a new outgoing unidirectional QUIC stream.
// If the error is non-nil, it satisfies the net.Error interface.
// When reaching the peer's stream limit, Temporary() will be true.
// If the session was closed due to a timeout, Timeout() will be true.
OpenUniStream() (SendStream, error)
// OpenUniStreamSync opens a new outgoing unidirectional QUIC stream.
// It blocks until a new stream can be opened.
// If the error is non-nil, it satisfies the net.Error interface.
// If the session was closed due to a timeout, Timeout() will be true.
OpenUniStreamSync(context.Context) (SendStream, error)
// LocalAddr returns the local address.
LocalAddr() net.Addr
// RemoteAddr returns the address of the peer.
RemoteAddr() net.Addr
// CloseWithError closes the connection with an error.
// The error string will be sent to the peer.
CloseWithError(ApplicationErrorCode, string) error
// The context is cancelled when the session is closed.
// Warning: This API should not be considered stable and might change soon.
Context() context.Context
// ConnectionState returns basic details about the QUIC connection.
// It blocks until the handshake completes.
// Warning: This API should not be considered stable and might change soon.
ConnectionState() ConnectionState
// SendMessage sends a message as a datagram.
// See https://datatracker.ietf.org/doc/draft-pauly-quic-datagram/.
SendMessage([]byte) error
// ReceiveMessage gets a message received in a datagram.
// See https://datatracker.ietf.org/doc/draft-pauly-quic-datagram/.
ReceiveMessage() ([]byte, error)
}
A Session is a QUIC connection between two peers. Calls to the session (and to streams) can return the following types of errors: * ApplicationError: for errors triggered by the application running on top of QUIC * TransportError: for errors triggered by the QUIC transport (in many cases a misbehaving peer) * IdleTimeoutError: when the peer goes away unexpectedly (this is a net.Error timeout error) * HandshakeTimeoutError: when the cryptographic handshake takes too long (this is a net.Error timeout error) * StatelessResetError: when we receive a stateless reset (this is a net.Error temporary error) * VersionNegotiationError: returned by the client, when there's no version overlap between the peers
func Dial ¶
func Dial( pconn net.PacketConn, remoteAddr net.Addr, host string, tlsConf *tls.Config, config *Config, ) (Session, error)
Dial establishes a new QUIC connection to a server using a net.PacketConn. If the PacketConn satisfies the OOBCapablePacketConn interface (as a net.UDPConn does), ECN and packet info support will be enabled. In this case, ReadMsgUDP and WriteMsgUDP will be used instead of ReadFrom and WriteTo to read/write packets. The same PacketConn can be used for multiple calls to Dial and Listen, QUIC connection IDs are used for demultiplexing the different connections. The host parameter is used for SNI. The tls.Config must define an application protocol (using NextProtos).
func DialAddr ¶
DialAddr establishes a new QUIC connection to a server. It uses a new UDP connection and closes this connection when the QUIC session is closed. The hostname for SNI is taken from the given address. The tls.Config.CipherSuites allows setting of TLS 1.3 cipher suites.
func DialAddrContext ¶
func DialAddrContext( ctx context.Context, addr string, tlsConf *tls.Config, config *Config, ) (Session, error)
DialAddrContext establishes a new QUIC connection to a server using the provided context. See DialAddr for details.
func DialContext ¶
func DialContext( ctx context.Context, pconn net.PacketConn, remoteAddr net.Addr, host string, tlsConf *tls.Config, config *Config, ) (Session, error)
DialContext establishes a new QUIC connection to a server using a net.PacketConn using the provided context. See Dial for details.
type StatelessResetError ¶
type StatelessResetError = qerr.StatelessResetError
type Stream ¶
type Stream interface {
ReceiveStream
SendStream
// SetDeadline sets the read and write deadlines associated
// with the connection. It is equivalent to calling both
// SetReadDeadline and SetWriteDeadline.
SetDeadline(t time.Time) error
}
Stream is the interface implemented by QUIC streams In addition to the errors listed on the Session, calls to stream functions can return a StreamError if the stream is canceled.
type StreamBuffer ¶
type StreamBuffer struct {
// contains filtered or unexported fields
}
type StreamError ¶
type StreamError struct {
StreamID StreamID
ErrorCode StreamErrorCode
}
A StreamError is used for Stream.CancelRead and Stream.CancelWrite. It is also returned from Stream.Read and Stream.Write if the peer canceled reading or writing.
func (*StreamError) Error ¶
func (e *StreamError) Error() string
func (*StreamError) Is ¶
func (e *StreamError) Is(target error) bool
type StreamErrorCode ¶
type StreamErrorCode = qerr.StreamErrorCode
type Token ¶
type Token struct {
// IsRetryToken encodes how the client received the token. There are two ways:
// * In a Retry packet sent when trying to establish a new connection.
// * In a NEW_TOKEN frame on a previous connection.
IsRetryToken bool
RemoteAddr string
SentTime time.Time
}
A Token can be used to verify the ownership of the client address.
type TokenStore ¶
type TokenStore interface {
// Pop searches for a ClientToken associated with the given key.
// Since tokens are not supposed to be reused, it must remove the token from the cache.
// It returns nil when no token is found.
Pop(key string) (token *ClientToken)
// Put adds a token to the cache with the given key. It might get called
// multiple times in a connection.
Put(key string, token *ClientToken)
}
func NewLRUTokenStore ¶
func NewLRUTokenStore(maxOrigins, tokensPerOrigin int) TokenStore
NewLRUTokenStore creates a new LRU cache for tokens received by the client. maxOrigins specifies how many origins this cache is saving tokens for. tokensPerOrigin specifies the maximum number of tokens per origin.
type TransportError ¶
type TransportError = qerr.TransportError
type TransportErrorCode ¶
type TransportErrorCode = qerr.TransportErrorCode
type VersionNegotiationError ¶
type VersionNegotiationError = qerr.VersionNegotiationError
type VersionNumber ¶
type VersionNumber = protocol.VersionNumber
A VersionNumber is a QUIC version number.
Source Files
¶
- buffer_pool.go
- client.go
- closed_session.go
- config.go
- conn.go
- conn_helper_linux.go
- conn_id_generator.go
- conn_id_manager.go
- conn_oob.go
- conn_oob_opts_linux.go
- crypto_stream.go
- crypto_stream_manager.go
- datagram_queue.go
- err_size_linux.go
- errors.go
- frame_sorter.go
- framer.go
- interface.go
- mockgen.go
- mtu_discoverer.go
- multiplexer.go
- packet_handler_map.go
- packet_packer.go
- packet_unpacker.go
- receive_stream.go
- retransmission_queue.go
- send_conn.go
- send_queue.go
- send_stream.go
- server.go
- session.go
- stream.go
- streams_map.go
- streams_map_generic_helper.go
- streams_map_incoming_bidi.go
- streams_map_incoming_generic.go
- streams_map_incoming_uni.go
- streams_map_outgoing_bidi.go
- streams_map_outgoing_generic.go
- streams_map_outgoing_uni.go
- token_store.go
- uc-buffer.go
- window_update_queue.go
Directories
¶
| Path | Synopsis |
|---|---|
|
fuzzing
|
|
|
integrationtests
|
|
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internal
|
|
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mocks
Package mocks is a generated GoMock package.
|
Package mocks is a generated GoMock package. |
|
mocks/ackhandler
Package mockackhandler is a generated GoMock package.
|
Package mockackhandler is a generated GoMock package. |
|
mocks/logging
Package mocklogging is a generated GoMock package.
|
Package mocklogging is a generated GoMock package. |
|
mocks/quic
Package mockquic is a generated GoMock package.
|
Package mockquic is a generated GoMock package. |
|
mocks/tls
Package mocktls is a generated GoMock package.
|
Package mocktls is a generated GoMock package. |
|
interop
|
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Package logging defines a logging interface for Quic_GO.
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Package logging defines a logging interface for Quic_GO. |