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interface.go
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package quic
import (
"context"
"crypto/tls"
"errors"
"io"
"net"
"time"
"github.com/quic-go/quic-go/internal/handshake"
"github.com/quic-go/quic-go/internal/protocol"
"github.com/quic-go/quic-go/logging"
)
// The StreamID is the ID of a QUIC stream.
type StreamID = protocol.StreamID
// A Version is a QUIC version number.
type Version = protocol.Version
const (
// Version1 is RFC 9000
Version1 = protocol.Version1
// Version2 is RFC 9369
Version2 = protocol.Version2
)
// A ClientToken is a token received by the client.
// It can be used to skip address validation on future connection attempts.
type ClientToken struct {
data []byte
}
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)
}
// 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 Err0RTTRejected = errors.New("0-RTT rejected")
// ConnectionTracingKey can be used to associate a ConnectionTracer with a Connection.
// It is set on the Connection.Context() context,
// as well as on the context passed to logging.Tracer.NewConnectionTracer.
// Deprecated: Applications can set their own tracing key using Transport.ConnContext.
var ConnectionTracingKey = connTracingCtxKey{}
// ConnectionTracingID is the type of the context value saved under the ConnectionTracingKey.
// Deprecated: Applications can set their own tracing key using Transport.ConnContext.
type ConnectionTracingID uint64
type connTracingCtxKey struct{}
// QUICVersionContextKey can be used to find out the QUIC version of a TLS handshake from the
// context returned by tls.Config.ClientHelloInfo.Context.
var QUICVersionContextKey = handshake.QUICVersionContextKey
// Stream is the interface implemented by QUIC streams
// In addition to the errors listed on the Connection,
// calls to stream functions can return a StreamError if the stream is canceled.
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
}
// A ReceiveStream is a unidirectional Receive Stream.
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 is a StreamError and
// Remote == true.
// If the connection 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 sets the deadline for future Read calls and
// any currently-blocked Read call.
// A zero value for t means Read will not time out.
SetReadDeadline(t time.Time) error
}
// A SendStream is a unidirectional Send Stream.
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 is a StreamError and
// Remote == true.
// If the connection 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 it is a no-op.
// When called after Close, it aborts delivery. Note that there is no guarantee if
// the peer will receive the FIN or the reset first.
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.
// The cancellation cause is set to the error that caused the stream to
// close, or `context.Canceled` in case the stream is closed without error.
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
}
// A Connection is a QUIC connection between two peers.
// Calls to the connection (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
// * VersionNegotiationError: returned by the client, when there's no version overlap between the peers
type Connection interface {
// AcceptStream returns the next stream opened by the peer, blocking until one is available.
// If the connection 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 connection 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,
// or the stream has been reset or closed.
// When reaching the peer's stream limit, it is not possible to open a new stream until the
// peer raises the stream limit. In that case, a StreamLimitReachedError is returned.
OpenStream() (Stream, error)
// OpenStreamSync opens a new bidirectional QUIC stream.
// It blocks until a new stream can be opened.
// 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,
// or the stream has been reset or closed.
OpenStreamSync(context.Context) (Stream, error)
// OpenUniStream opens a new outgoing unidirectional 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,
// or the stream has been reset or closed.
// When reaching the peer's stream limit, it is not possible to open a new stream until the
// peer raises the stream limit. In that case, a StreamLimitReachedError is returned.
OpenUniStream() (SendStream, error)
// OpenUniStreamSync opens a new outgoing unidirectional QUIC stream.
// It blocks until a new stream can be opened.
// 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,
// or the stream has been reset or closed.
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
// Context returns a context that is cancelled when the connection is closed.
// The cancellation cause is set to the error that caused the connection to
// close, or `context.Canceled` in case the listener is closed first.
Context() context.Context
// ConnectionState returns basic details about the QUIC connection.
// Warning: This API should not be considered stable and might change soon.
ConnectionState() ConnectionState
// SendDatagram sends a message using a QUIC datagram, as specified in RFC 9221.
// There is no delivery guarantee for DATAGRAM frames, they are not retransmitted if lost.
// The payload of the datagram needs to fit into a single QUIC packet.
// In addition, a datagram may be dropped before being sent out if the available packet size suddenly decreases.
// If the payload is too large to be sent at the current time, a DatagramTooLargeError is returned.
SendDatagram(payload []byte) error
// ReceiveDatagram gets a message received in a datagram, as specified in RFC 9221.
ReceiveDatagram(context.Context) ([]byte, error)
}
// An EarlyConnection is a connection 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.
type EarlyConnection interface {
Connection
// HandshakeComplete blocks until the handshake completes (or fails).
// For the client, data sent before completion of the handshake is encrypted with 0-RTT keys.
// For the server, data sent before completion of the handshake is encrypted with 1-RTT keys,
// however the client's identity is only verified once the handshake completes.
HandshakeComplete() <-chan struct{}
NextConnection(context.Context) (Connection, error)
}
// StatelessResetKey is a key used to derive stateless reset tokens.
type StatelessResetKey [32]byte
// TokenGeneratorKey is a key used to encrypt session resumption tokens.
type TokenGeneratorKey = handshake.TokenProtectorKey
// A ConnectionID is a QUIC Connection ID, as defined in RFC 9000.
// It is not able to handle QUIC Connection IDs longer than 20 bytes,
// as they are allowed by RFC 8999.
type ConnectionID = protocol.ConnectionID
// ConnectionIDFromBytes interprets b as a Connection ID. It panics if b is
// longer than 20 bytes.
func ConnectionIDFromBytes(b []byte) ConnectionID {
return protocol.ParseConnectionID(b)
}
// A ConnectionIDGenerator is an interface that allows clients to implement their own format
// for the Connection IDs that servers/clients use as SrcConnectionID in QUIC packets.
//
// Connection IDs generated by an implementation should always produce IDs of constant size.
type ConnectionIDGenerator interface {
// GenerateConnectionID generates a new ConnectionID.
// Generated ConnectionIDs should be unique and observers should not be able to correlate two ConnectionIDs.
GenerateConnectionID() (ConnectionID, error)
// ConnectionIDLen tells what is the length of the ConnectionIDs generated by the implementation of
// this interface.
// Effectively, this means that implementations of ConnectionIDGenerator must always return constant-size
// connection IDs. Valid lengths are between 0 and 20 and calls to GenerateConnectionID.
// 0-length ConnectionsIDs can be used when an endpoint (server or client) does not require multiplexing connections
// in the presence of a connection migration environment.
ConnectionIDLen() int
}
// Config contains all configuration data needed for a QUIC server or client.
type Config struct {
// GetConfigForClient is called for incoming connections.
// If the error is not nil, the connection attempt is refused.
GetConfigForClient func(info *ClientHelloInfo) (*Config, error)
// The QUIC versions that can be negotiated.
// If not set, it uses all versions available.
Versions []Version
// HandshakeIdleTimeout is the idle timeout before completion of the handshake.
// If we don't receive any packet from the peer within this time, the connection attempt is aborted.
// Additionally, if the handshake doesn't complete in twice this time, the connection attempt is also 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
// 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.
// Values larger than the maximum varint (quicvarint.Max) will be clipped to that value.
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.
// Values larger than the maximum varint (quicvarint.Max) will be clipped to that value.
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.
// Values larger than the maximum varint (quicvarint.Max) will be clipped to that value.
InitialConnectionReceiveWindow uint64
// MaxConnectionReceiveWindow is the connection-level flow control window for receiving data.
// If this value is zero, it will default to 15 MB.
// Values larger than the maximum varint (quicvarint.Max) will be clipped to that value.
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 connection or on streams
// in this callback.
AllowConnectionWindowIncrease func(conn Connection, delta uint64) bool
// MaxIncomingStreams is the maximum number of concurrent bidirectional streams that a peer is allowed to open.
// If not set, it will default to 100.
// If set to a negative value, it doesn't allow any bidirectional streams.
// Values larger than 2^60 will be clipped to that value.
MaxIncomingStreams int64
// MaxIncomingUniStreams is the maximum number of concurrent unidirectional streams that a peer is allowed to open.
// If not set, it will default to 100.
// If set to a negative value, it doesn't allow any unidirectional streams.
// Values larger than 2^60 will be clipped to that value.
MaxIncomingUniStreams int64
// KeepAlivePeriod defines whether this peer will periodically send a packet to keep the connection alive.
// If set to 0, then no keep alive is sent. Otherwise, the keep alive is sent on that period (or at most
// every half of MaxIdleTimeout, whichever is smaller).
KeepAlivePeriod time.Duration
// InitialPacketSize is the initial size of packets sent.
// It is usually not necessary to manually set this value,
// since Path MTU discovery very quickly finds the path's MTU.
// If set too high, the path might not support packets that large, leading to a timeout of the QUIC handshake.
// Values below 1200 are invalid.
InitialPacketSize uint16
// DisablePathMTUDiscovery disables Path MTU Discovery (RFC 8899).
// This allows the sending of QUIC packets that fully utilize the available MTU of the path.
// Path MTU discovery is only available on systems that allow setting of the Don't Fragment (DF) bit.
DisablePathMTUDiscovery bool
// Allow0RTT allows the application to decide if a 0-RTT connection attempt should be accepted.
// Only valid for the server.
Allow0RTT bool
// Enable QUIC datagram support (RFC 9221).
EnableDatagrams bool
Tracer func(context.Context, logging.Perspective, ConnectionID) *logging.ConnectionTracer
}
// ClientHelloInfo contains information about an incoming connection attempt.
type ClientHelloInfo struct {
// RemoteAddr is the remote address on the Initial packet.
// Unless AddrVerified is set, the address is not yet verified, and could be a spoofed IP address.
RemoteAddr net.Addr
// AddrVerified says if the remote address was verified using QUIC's Retry mechanism.
// Note that the Retry mechanism costs one network roundtrip,
// and is not performed unless Transport.MaxUnvalidatedHandshakes is surpassed.
AddrVerified bool
}
// ConnectionState records basic details about a QUIC connection
type ConnectionState struct {
// TLS contains information about the TLS connection state, incl. the tls.ConnectionState.
TLS tls.ConnectionState
// SupportsDatagrams says if support for QUIC datagrams (RFC 9221) was negotiated.
// This requires both nodes to support and enable the datagram extensions (via Config.EnableDatagrams).
// If datagram support was negotiated, datagrams can be sent and received using the
// SendDatagram and ReceiveDatagram methods on the Connection.
SupportsDatagrams bool
// Used0RTT says if 0-RTT resumption was used.
Used0RTT bool
// Version is the QUIC version of the QUIC connection.
Version Version
// GSO says if generic segmentation offload is used
GSO bool
}