Documentation
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Index ¶
Examples ¶
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func NoPrecondition ¶
Types ¶
type Config ¶
type Config struct {
// Size, in bytes, of the buffer this peer reads messages into
ReadBufferSize int
// Size, in bytes, of the buffer this peer writes messages into
WriteBufferSize int
Clock mockable.Clock
Metrics *Metrics
MessageCreator message.Creator
Log logging.Logger
InboundMsgThrottler throttling.InboundMsgThrottler
Network Network
Router router.InboundHandler
VersionCompatibility version.Compatibility
VersionParser version.ApplicationParser
MyAllychains ids.Set
Beacons validators.Set
NetworkID uint32
PingFrequency time.Duration
PongTimeout time.Duration
MaxClockDifference time.Duration
// Unix time of the last message sent and received respectively
// Must only be accessed atomically
LastSent, LastReceived int64
// Tracks CPU/disk usage caused by each peer.
ResourceTracker tracker.ResourceTracker
PingMessage message.OutboundMessage
}
type Info ¶
type Info struct {
IP string `json:"ip"`
PublicIP string `json:"publicIP,omitempty"`
ID ids.NodeID `json:"nodeID"`
Version string `json:"version"`
LastSent time.Time `json:"lastSent"`
LastReceived time.Time `json:"lastReceived"`
ObservedUptime json.Uint8 `json:"observedUptime"`
TrackedAllychains []ids.ID `json:"trackedAllychains"`
}
type MessageMetrics ¶
type MessageMetrics struct {
ReceivedBytes, SentBytes, NumSent, NumFailed, NumReceived prometheus.Counter
SavedReceivedBytes, SavedSentBytes metric.Averager
}
func NewMessageMetrics ¶
func NewMessageMetrics( op message.Op, namespace string, metrics prometheus.Registerer, errs *wrappers.Errs, ) *MessageMetrics
type MessageQueue ¶
type MessageQueue interface {
// Push attempts to add the message to the queue. If the context is
// canceled, then pushing the message will return `false` and the message
// will not be added to the queue.
Push(ctx context.Context, msg message.OutboundMessage) bool
// Pop blocks until a message is available and then returns the message. If
// the queue is closed, then `false` is returned.
Pop() (message.OutboundMessage, bool)
// PopNow attempts to return a message without blocking. If a message is not
// available or the queue is closed, then `false` is returned.
PopNow() (message.OutboundMessage, bool)
// Close empties the queue and prevents further messages from being pushed
// onto it. After calling close once, future calls to close will do nothing.
Close()
}
func NewBlockingMessageQueue ¶
func NewBlockingMessageQueue( onFailed SendFailedCallback, log logging.Logger, bufferSize int, ) MessageQueue
func NewThrottledMessageQueue ¶
func NewThrottledMessageQueue( onFailed SendFailedCallback, id ids.NodeID, log logging.Logger, outboundMsgThrottler throttling.OutboundMsgThrottler, ) MessageQueue
type Metrics ¶
type Metrics struct {
Log logging.Logger
FailedToParse prometheus.Counter
NumUselessPeerListBytes prometheus.Counter
MessageMetrics map[message.Op]*MessageMetrics
}
func NewMetrics ¶
func NewMetrics( log logging.Logger, namespace string, registerer prometheus.Registerer, ) (*Metrics, error)
func (*Metrics) MultipleSendsFailed ¶
func (*Metrics) SendFailed ¶
func (m *Metrics) SendFailed(msg message.OutboundMessage)
SendFailed updates the metrics for having failed to send [msg] and removes a reference from the [msg].
func (*Metrics) Sent ¶
func (m *Metrics) Sent(msg message.OutboundMessage)
Sent updates the metrics for having sent [msg] and removes a reference from the [msg].
type Network ¶
type Network interface {
// Connected is called by the peer once the handshake is finished.
Connected(ids.NodeID)
// AllowConnection enables the network is signal to the peer that its
// connection is no longer desired and should be terminated.
AllowConnection(ids.NodeID) bool
// Track allows the peer to notify the network of a potential new peer to
// connect to.
//
// Returns false if this call was not "useful". That is, we were already
// connected to this node, we already had this tracking information, the
// signature is invalid or we don't want to connect.
Track(ips.ClaimedIPPort) bool
// Disconnected is called when the peer finishes shutting down. It is not
// guaranteed that [Connected] was called for the provided peer. However, it
// is guaranteed that [Connected] will not be called after [Disconnected]
// for a given [Peer] object.
Disconnected(ids.NodeID)
// Version provides the peer with the Version message to send to the peer
// during the handshake.
Version() (message.OutboundMessage, error)
// Peers provides the peer with the PeerList message to send to the peer
// during the handshake.
Peers() (message.OutboundMessage, error)
// Pong provides the peer with a Pong message to send to the peer in
// response to a Ping message.
Pong(ids.NodeID) (message.OutboundMessage, error)
}
Network defines the interface that is used by a peer to help establish a well connected p2p network.
type Peer ¶
type Peer interface {
// ID returns the nodeID of the remote peer.
ID() ids.NodeID
// Cert returns the certificate that the remote peer is using to
// authenticate their messages.
Cert() *x509.Certificate
// LastSent returns the last time a message was sent to the peer.
LastSent() time.Time
// LastReceived returns the last time a message was received from the peer.
LastReceived() time.Time
// Ready returns true if the peer has finished the p2p handshake and is
// ready to send and receive messages.
Ready() bool
// AwaitReady will block until the peer has finished the p2p handshake. If
// the context is cancelled or the peer starts closing, then an error will
// be returned.
AwaitReady(ctx context.Context) error
// Info returns a description of the state of this peer. It should only be
// called after [Ready] returns true.
Info() Info
// IP returns the claimed IP and signature provided by this peer during the
// handshake. It should only be called after [Ready] returns true.
IP() *SignedIP
// Version returns the claimed node version this peer is running. It should
// only be called after [Ready] returns true.
Version() version.Application
// TrackedAllychains returns the allychains this peer is running. It should only
// be called after [Ready] returns true.
TrackedAllychains() ids.Set
// ObservedUptime returns the local node's uptime according to the peer. The
// value ranges from [0, 100]. It should only be called after [Ready]
// returns true.
ObservedUptime() uint8
// Send attempts to send [msg] to the peer. The peer takes ownership of
// [msg] for reference counting. This returns false if the message is
// guaranteed not to be delivered to the peer.
Send(ctx context.Context, msg message.OutboundMessage) bool
// StartClose will begin shutting down the peer. It will not block.
StartClose()
// Closed returns true once the peer has been fully shutdown. It is
// guaranteed that no more messages will be received by this peer once this
// returns true.
Closed() bool
// AwaitClosed will block until the peer has been fully shutdown. If the
// context is cancelled, then an error will be returned.
AwaitClosed(ctx context.Context) error
}
Peer encapsulates all of the functionality required to send and receive messages with a remote peer.
func Start ¶
func Start( config *Config, conn net.Conn, cert *x509.Certificate, id ids.NodeID, messageQueue MessageQueue, ) Peer
func StartTestPeer ¶
func StartTestPeer( ctx context.Context, ip ips.IPPort, networkID uint32, router router.InboundHandler, ) (Peer, error)
StartTestPeer provides a simple interface to create a peer that has finished the p2p handshake.
This function will generate a new TLS key to use when connecting to the peer.
The returned peer will not throttle inbound or outbound messages.
- [ctx] provides a way of canceling the connection request.
- [ip] is the remote that will be dialed to create the connection.
- [networkID] will be sent to the peer during the handshake. If the peer is expecting a different [networkID], the handshake will fail and an error will be returned.
- router will be called with all non-handshake messages received by the peer.
Example ¶
ctx := context.Background()
ctx, cancel := context.WithTimeout(ctx, 15*time.Second)
defer cancel()
peerIP := ips.IPPort{
IP: net.IPv6loopback,
Port: 9651,
}
peer, err := StartTestPeer(
ctx,
peerIP,
constants.LocalID,
router.InboundHandlerFunc(func(msg message.InboundMessage) {
fmt.Printf("handling %s\n", msg.Op())
}),
)
if err != nil {
panic(err)
}
// Send messages here with [peer.Send].
peer.StartClose()
err = peer.AwaitClosed(ctx)
if err != nil {
panic(err)
}
Output:
type SendFailedCallback ¶
type SendFailedCallback interface {
SendFailed(message.OutboundMessage)
}
type SendFailedFunc ¶
type SendFailedFunc func(message.OutboundMessage)
func (SendFailedFunc) SendFailed ¶
func (f SendFailedFunc) SendFailed(msg message.OutboundMessage)
type Set ¶
type Set interface {
// Add this peer to the set.
//
// If a peer with the same [peer.ID] is already in the set, then the new
// peer instance will replace the old peer instance.
//
// Add does not change the [peer.ID] returned from calls to [GetByIndex].
Add(peer Peer)
// GetByID attempts to fetch a [peer] whose [peer.ID] is equal to [nodeID].
// If no such peer exists in the set, then [false] will be returned.
GetByID(nodeID ids.NodeID) (Peer, bool)
// GetByIndex attempts to fetch a peer who has been allocated [index]. If
// [index] < 0 or [index] >= [Len], then false will be returned.
GetByIndex(index int) (Peer, bool)
// Remove any [peer] whose [peer.ID] is equal to [nodeID] from the set.
Remove(nodeID ids.NodeID)
// Len returns the number of peers currently in this set.
Len() int
// Sample attempts to return a random slice of peers with length [n]. The
// slice will not inclide any duplicates. Only peers that cause the
// [precondition] to return true will be returned in the slice.
Sample(n int, precondition func(Peer) bool) []Peer
// Returns information about all the peers.
AllInfo() []Info
// Info returns information about the requested peers if they are in the
// set.
Info(nodeIDs []ids.NodeID) []Info
}
Set contains a group of peers.
type SignedIP ¶
type SignedIP struct {
IP UnsignedIP
Signature []byte
}
SignedIP is a wrapper of an UnsignedIP with the signature from a signer.
type UnsignedIP ¶
UnsignedIP is used for a validator to claim an IP. The [Timestamp] is used to ensure that the most updated IP claim is tracked by peers for a given validator.
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