network

package
v3.2.10 Latest Latest
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 Go to latest Published: Aug 25, 2021 License: LGPL-3.0 Imports: 32 Imported by: 117

Documentation

Index

Constants

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const (
	// PlainTCP is an unencrypted TCP connection.
	PlainTCP ConnType = "tcp"
	// TLS is a TLS encrypted connection over TCP.
	TLS = "tls"
	// Local is a channel based connection type.
	Local = "local"
	// InvalidConnType is an invalid connection type.
	InvalidConnType = "wrong"
)
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const LocalMaxBuffer = 200

LocalMaxBuffer is the number of packets that can be sent simultaneously to the same address.

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const MaxIdentityExchange = 5 * time.Second

MaxIdentityExchange is the timeout for an identityExchange.

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const MaxRetryConnect = 5

MaxRetryConnect defines how many times we should try to connect.

View Source 
const NamespaceBodyType = NamespaceURL + "/protocolType/"

NamespaceBodyType is the namespace used for PacketTypeID

View Source 
const NamespaceURL = "https://dedis.epfl.ch/"

NamespaceURL is the basic namespace used for uuid XXX should move that to external of the library as not every cothority/packages should be expected to use that.

View Source 
const WaitRetry = 20 * time.Millisecond

WaitRetry is the timeout on connection-setups.

Variables

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var ErrCanceled = xerrors.New("Operation Canceled")

ErrCanceled means something went wrong in the sending or receiving part.

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var ErrClosed = xerrors.New("Connection Closed")

ErrClosed is when a connection has been closed.

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var ErrEOF = xerrors.New("EOF")

ErrEOF is when the connection sends an EOF signal (mostly because it has been shut down).

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var ErrTimeout = xerrors.New("Timeout Error")

ErrTimeout is raised if the timeout has been reached.

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var ErrUnknown = xerrors.New("Unknown Error")

ErrUnknown is an unknown error.

View Source 
var ErrorType = MessageTypeID(uuid.Nil)

ErrorType is reserved by the network library. When you receive a message of ErrorType, it is generally because an error happened, then you can call Error() on it.

View Source 
var MaxPacketSize = Size(10 * 1024 * 1024)

MaxPacketSize limits the amount of memory that is allocated before a packet is checked and thrown away if it's not legit. If you need more than 10MB packets, increase this value.

View Source 
var ServerIdentityType = RegisterMessage(ServerIdentity{})

ServerIdentityType can be used to recognise an ServerIdentity-message

Functions

func DefaultConstructors 

func DefaultConstructors(suite Suite) protobuf.Constructors

DefaultConstructors gives a default constructor for protobuf out of the global suite

func DumpTypes 

func DumpTypes()

DumpTypes is used for debugging - it prints out all known types

func GlobalBind 

func GlobalBind(address string) (string, error)

GlobalBind returns the global-binding address. Given any IP:PORT combination, it will return ":PORT".

func LocalReset 

func LocalReset()

LocalReset resets the map of connections + listeners for the defaultLocalManager.

func Marshal 

func Marshal(msg Message) ([]byte, error)

Marshal outputs the type and the byte representation of a structure. It first marshals the type as a uuid, i.e. a 16 byte length slice, then the struct encoded by protobuf. That slice of bytes can be then decoded with Unmarshal. msg must be a pointer to the message.

func SetTCPDialTimeout 

func SetTCPDialTimeout(dur time.Duration)

SetTCPDialTimeout sets the dialing timeout for the TCP connection. The default is one minute. This function is not thread-safe.

func Unmarshal 

func Unmarshal(buf []byte, suite Suite) (MessageTypeID, Message, error)

Unmarshal returns the type and the message out of a buffer. One can cast the resulting Message to a *pointer* of the underlying type, i.e. it returns a pointer. The type must be registered to the network library in order to be decodable and the buffer must have been generated by Marshal otherwise it returns an error.

Types

type Address 

type Address string

Address contains the ConnType and the actual network address. It is used to connect to a remote host with a Conn and to listen by a Listener. A network address holds an IP address and the port number joined by a colon. It doesn't support IPv6 yet.

func NewAddress 

func NewAddress(t ConnType, network string) Address

NewAddress takes a connection type and the raw address. It returns a correctly formatted address, which will be of type t. It doesn't do any checking of ConnType or network.

func NewLocalAddress 

func NewLocalAddress(addr string) Address

NewLocalAddress returns an Address of type Local with the given raw addr.

func NewTCPAddress 

func NewTCPAddress(addr string) Address

NewTCPAddress returns a new Address that has type PlainTCP with the given address addr.

func NewTLSAddress 

func NewTLSAddress(addr string) Address

NewTLSAddress returns a new Address that has type TLS with the given address addr.

func (Address) ConnType 

func (a Address) ConnType() ConnType

ConnType returns the connection type from the address. It returns InvalidConnType if the address is not valid or if the connection type is not known.

func (Address) Host 

func (a Address) Host() string

Host returns the host part of the address. ex: "tcp://127.0.0.1:2000" => "127.0.0.1" In case of an error, it returns an empty string.

func (Address) IsHostname 

func (a Address) IsHostname() bool

IsHostname returns true if the address is defined by a VALID DNS name

func (Address) NetworkAddress 

func (a Address) NetworkAddress() string

NetworkAddress returns the network address part of the address, which is the host and the port joined by a colon. It returns an empty string the address is not valid

func (Address) NetworkAddressResolved 

func (a Address) NetworkAddressResolved() string

NetworkAddressResolved returns the network address of the address, but resolved. That is: the hostname resolved and the port joined by a colon. It returns an empty string if the address is not valid.

func (Address) Port 

func (a Address) Port() string

Port will return the port part of the Address. In the case of an invalid address or an invalid port, it will return "".

func (Address) Public 

func (a Address) Public() bool

Public returns true if the address is a public and valid one or false otherwise. Specifically it checks if it is a private address by checking 192.168.**,10.***,127.***,172.16-31.**,169.254.**,^::1,^fd.{0,2}:

func (Address) Resolve 

func (a Address) Resolve() string

Resolve returns the IP address associated to the hostname that represents the address a. If a is defined by an IP address (*.*.*.*) or if the hostname is not valid, the empty string is returned

func (Address) String 

func (a Address) String() string

String returns the address as a string.

func (Address) Valid 

func (a Address) Valid() bool

Valid returns true if the address is well formed or false otherwise. An address is well formed if it is of the form: ConnType://NetworkAddress. ConnType must be one of the constants defined in this file, NetworkAddress must contain the IP address + Port number. The IP address is validated by net.ParseIP & the port must be included in the range [0;65536]. For example, "tls://192.168.1.10:5678".

type BlockingDispatcher 

type BlockingDispatcher struct {
	sync.Mutex
	// contains filtered or unexported fields
}

BlockingDispatcher is a Dispatcher that simply calls `p.Process()` on a processor p each time it receives a message with `Dispatch`. It does *not* launch a go routine, or put the message in a queue, etc. It can be re-used for more complex dispatchers.

func NewBlockingDispatcher 

func NewBlockingDispatcher() *BlockingDispatcher

NewBlockingDispatcher will return a new BlockingDispatcher.

func (*BlockingDispatcher) Dispatch 

func (d *BlockingDispatcher) Dispatch(packet *Envelope) error

Dispatch calls the corresponding processor's method Process. It's a blocking call if the Processor is blocking.

func (*BlockingDispatcher) RegisterProcessor 

func (d *BlockingDispatcher) RegisterProcessor(p Processor, msgType ...MessageTypeID)

RegisterProcessor saves the given processor in the dispatcher.

func (*BlockingDispatcher) RegisterProcessorFunc 

func (d *BlockingDispatcher) RegisterProcessorFunc(msgType MessageTypeID, fn func(*Envelope) error)

RegisterProcessorFunc takes a func, creates a Processor struct around it and registers it to the dispatcher.

type Conn 

type Conn interface {
	// Send a message through the connection.
	// obj should be a POINTER to the actual struct to send, or an interface.
	// It should not be a Golang type.
	// Returns the number of bytes sent and an error if any.
	Send(Message) (uint64, error)
	// Receive any message through the connection. It is a blocking call that
	// returns either when a message arrived or when Close() has been called, or
	// when a network error occurred.
	Receive() (*Envelope, error)
	// Close will close the connection. Implementations must take care that
	// Close() makes Receive() returns with an error, and any subsequent Send()
	// will return with an error. Calling Close() on a closed Conn will return
	// ErrClosed.
	Close() error

	// Type returns the type of this connection.
	Type() ConnType
	// Gives the address of the remote endpoint.
	Remote() Address
	// Returns the local address and port.
	Local() Address
	// Tx returns how many bytes this connection has written
	Tx() uint64
	// Rx returns how many bytes this connection has read
	Rx() uint64
}

Conn represents any communication between two hosts.

type ConnType 

type ConnType string

ConnType represents the type of a Connection. The supported types are defined as constants of type ConnType.

type Dispatcher 

type Dispatcher interface {
	// RegisterProcessor is called by a Processor so it can receive all messages
	// of type msgType. If given multiple msgType, the same processor will be
	// called for each of the msgType given.
	// **NOTE** In the current version, if a subsequent call to RegisterProcessor
	// happens for the same msgType, the latest Processor will be used; there
	// is no *copy* or *duplication* of messages.
	RegisterProcessor(p Processor, msgType ...MessageTypeID)
	// RegisterProcessorFunc enables to register directly a function that will
	// be called for each message of type msgType. It's a shorter way of
	// registering a Processor.
	RegisterProcessorFunc(MessageTypeID, func(*Envelope) error)
	// Dispatch will find the right processor to dispatch the packet to. The id
	// is the identity of the author / sender of the packet.
	// It can be called for example by the network layer.
	// If no processor is found for this message type, then an error is returned
	Dispatch(*Envelope) error
}

Dispatcher is an interface whose sole role is to distribute messages to the right Processor. No processing is done,i.e. no looking at packet content. Each Processor that wants to receive all messages of a specific type must register itself to the dispatcher using `RegisterProcessor()`. The network layer calls `Dispatch()` each time it receives a message, so the dispatcher is able to dispatch correctly to the corresponding Processor. Two Dispatchers are available:

  • BlockingDispatcher - waits for the return of the Processor before taking another message
  • RoutineDispatcher - starts every Processor in a go-routine

type Envelope 

type Envelope struct {
	// The ServerIdentity of the remote peer we are talking to.
	// Basically, this means that when you open a new connection to someone, and
	// or listen to incoming connections, the network library will already
	// make some exchange between the two communicants so each knows the
	// ServerIdentity of the others.
	ServerIdentity *ServerIdentity
	// What kind of msg do we have
	MsgType MessageTypeID
	// A *pointer* to the underlying message
	Msg Message
	// The length of the message in bytes
	Size Size
	// which constructors are used
	Constructors protobuf.Constructors
}

Envelope is a container for any Message received through the network that contains the Message itself as well as some metadata such as the type and the sender. This is created by the network stack upon reception and is never transmitted.

type Host 

type Host interface {
	Listener

	Connect(si *ServerIdentity) (Conn, error)
}

Host listens for a specific type of Conn and can Connect to specific types of Conn. It is used by the Router so the router can manage connections while being oblivious to which type of connections it's handling.

type Listener 

type Listener interface {
	// Listen for incoming connections.
	// Each time there is an incoming Conn, it calls the given
	// function in a go routine with the incoming Conn as parameter.
	// The call is blocking. If this listener is already Listening, Listen
	// should return an error.
	Listen(func(Conn)) error
	// Stop the listening. Implementations must take care of making
	// Stop() a blocking call. Stop() should return when the Listener really
	// has stopped listening, i.e. the call to Listen has returned. Calling twice
	// Stop() should return an error ErrClosed on the second call.
	Stop() error

	// A complete address including the type this listener is listening
	// to.
	Address() Address

	// Returns whether this listener is actually listening or not. This
	// function is mainly useful for tests where we need to make sure the
	// listening routine is started.
	Listening() bool
}

Listener is responsible for listening for incoming Conns on a particular address. It can only accept one type of incoming Conn.

type LocalConn 

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

LocalConn is a connection that sends and receives messages to other connections locally.

func NewLocalConnWithManager 

func NewLocalConnWithManager(lm *LocalManager, local, remote Address, s Suite) (*LocalConn, error)

NewLocalConnWithManager is similar to NewLocalConn but takes a specific LocalManager.

func (*LocalConn) Close 

func (lc *LocalConn) Close() error

Close shuts down the connection on the local and the remote side. If the connection is not open, it returns an error.

func (*LocalConn) Local 

func (lc *LocalConn) Local() Address

Local returns the local address.

func (*LocalConn) Receive 

func (lc *LocalConn) Receive() (*Envelope, error)

Receive takes a context (that is not used) and waits for a packet to be ready. It returns the received packet. In case of an error the packet is nil and the error is returned.

func (*LocalConn) Remote 

func (lc *LocalConn) Remote() Address

Remote returns the remote address.

func (*LocalConn) Rx 

func (c *LocalConn) Rx() (out uint64)

Rx returns the rx counter

func (*LocalConn) Send 

func (lc *LocalConn) Send(msg Message) (uint64, error)

Send takes a context (that is not used in any way) and a message that will be sent to the remote endpoint. If there is an error in the connection, it will be returned.

func (*LocalConn) Tx 

func (c *LocalConn) Tx() (out uint64)

Tx returns the tx counter

func (*LocalConn) Type 

func (lc *LocalConn) Type() ConnType

Type implements the Conn interface

type LocalHost 

type LocalHost struct {
	*LocalListener
	// contains filtered or unexported fields
}

LocalHost implements the Host interface. It uses LocalConn and LocalListener as the underlying means of communication.

func NewLocalHost 

func NewLocalHost(addr Address, s Suite) (*LocalHost, error)

NewLocalHost returns a new Host using Local communication. It listens on the given addr. If an error happened during setup, it returns a nil LocalHost and the error.

func NewLocalHostWithManager 

func NewLocalHostWithManager(lm *LocalManager, addr Address, s Suite) (*LocalHost, error)

NewLocalHostWithManager is similar to NewLocalHost but takes a LocalManager used for communication. If an error happened during setup, it returns a nil LocalHost and the error.

func (*LocalHost) Connect 

func (lh *LocalHost) Connect(si *ServerIdentity) (Conn, error)

Connect sets up a connection to addr. It retries up to MaxRetryConnect while waiting between each try. In case of an error, it will return a nil Conn.

type LocalListener 

type LocalListener struct {
	sync.Mutex
	// contains filtered or unexported fields
}

LocalListener implements Listener and uses LocalConn to communicate. It behaves as much as possible as a real golang net.Listener but using LocalConn as the underlying communication layer.

func NewLocalListener 

func NewLocalListener(addr Address, s Suite) (*LocalListener, error)

NewLocalListener returns a fresh LocalListener using the defaultLocalManager. In case of an error the LocalListener is nil and the error is returned.

func NewLocalListenerWithManager 

func NewLocalListenerWithManager(lm *LocalManager, addr Address, s Suite) (*LocalListener, error)

NewLocalListenerWithManager returns a new LocalListener using the given LocalManager. In case of an error, the LocalListener is nil and the error is returned. An error occurs in case the address is invalid or the manager is already listening on that address.

func (*LocalListener) Address 

func (ll *LocalListener) Address() Address

Address returns the address used to listen.

func (*LocalListener) Listen 

func (ll *LocalListener) Listen(fn func(Conn)) error

Listen calls fn every time a connection-request is received. This call blocks until Stop() is called on the listener. It returns an error if the LocalListener is already listening.

func (*LocalListener) Listening 

func (ll *LocalListener) Listening() bool

Listening returns true if this Listener is listening for incoming connections.

func (*LocalListener) Stop 

func (ll *LocalListener) Stop() error

Stop shuts down listening. It always returns nil whether ll is listening or not.

type LocalManager 

type LocalManager struct {
	sync.Mutex
	// contains filtered or unexported fields
}

LocalManager keeps a reference to all opened local connections. It also keeps track of who is "listening", so it's possible to mimic Conn & Listener.

func NewLocalManager 

func NewLocalManager() *LocalManager

NewLocalManager returns a fresh new manager that can be used by LocalConn, LocalListener & LocalHost.

func (*LocalManager) Stop 

func (lm *LocalManager) Stop()

Stop tells any connections that are sleeping on retry to stop sleeping and return an error.

type Message 

type Message interface{}

Message is a type for any message that the user wants to send

type MessageTypeID 

type MessageTypeID uuid.UUID

MessageTypeID is the ID used to uniquely identify different registered messages

func MessageType 

func MessageType(msg Message) MessageTypeID

MessageType returns a Message's MessageTypeID if registered or ErrorType if the message has not been registered with RegisterMessage().

func RegisterMessage 

func RegisterMessage(msg Message) MessageTypeID

RegisterMessage registers any struct or ptr and returns the corresponding MessageTypeID. Once a struct is registered, it can be sent and received by the network library.

func RegisterMessages 

func RegisterMessages(msg ...Message) []MessageTypeID

RegisterMessages is a convenience function to register multiple messages together. It returns the MessageTypeIDs of the registered messages. If you give the same message more than once, it will register it only once, but return it's id as many times as it appears in the arguments.

func (MessageTypeID) Equal 

func (mId MessageTypeID) Equal(mID2 MessageTypeID) bool

Equal returns true if and only if mID2 equals this MessageTypeID

func (MessageTypeID) IsNil 

func (mId MessageTypeID) IsNil() bool

IsNil returns true iff the MessageTypeID is Nil

func (MessageTypeID) String 

func (mId MessageTypeID) String() string

String returns the name of the structure if it is known, else it returns the hexadecimal value of the Id.

type PeerSetID 

type PeerSetID [32]byte

PeerSetID is the identifier for a subset of valid peers. This should typically be linked in a unique way to a service, e.g. hash(serviceID | skipChainID) for ByzCoin

func NewPeerSetID 

func NewPeerSetID(data []byte) PeerSetID

NewPeerSetID creates a new PeerSetID from bytes

type Processor 

type Processor interface {
	// Process takes a received Envelope.
	Process(*Envelope)
}

Processor is an abstraction to represent any object that want to process messages. It is used in conjunction with Dispatcher: A processor must register itself to a Dispatcher so the Dispatcher will dispatch every messages asked for to the Processor.

type Router 

type Router struct {
	// id is our own ServerIdentity
	ServerIdentity *ServerIdentity

	// Dispatcher is used to dispatch incoming message to the right recipient
	Dispatcher

	sync.Mutex

	// This field should only be set during testing. It disables an important
	// log message meant to discourage TCP connections.
	UnauthOk bool
	// Quiets the startup of the server if set to true.
	Quiet bool
	// contains filtered or unexported fields
}

Router handles all networking operations such as:

  • listening to incoming connections using a host.Listener method
  • opening up new connections using host.Connect method
  • dispatching incoming message using a Dispatcher
  • dispatching outgoing message maintaining a translation between ServerIdentity <-> address
  • managing the re-connections of non-working Conn

Most caller should use the creation function like NewTCPRouter(...), NewLocalRouter(...) then use the Host such as: 

router.Start() // will listen for incoming Conn and block
router.Stop() // will stop the listening and the managing of all Conn

func NewLocalRouter 

func NewLocalRouter(sid *ServerIdentity, s Suite) (*Router, error)

NewLocalRouter returns a fresh router which uses only local queues. It uses the default local manager. If you need multiple independent local-queues, use NewLocalRouterWithManager. In case of an error it is returned together with a nil-Router.

func NewLocalRouterWithManager 

func NewLocalRouterWithManager(lm *LocalManager, sid *ServerIdentity, s Suite) (*Router, error)

NewLocalRouterWithManager is the same as NewLocalRouter but takes a specific LocalManager. This is useful to run parallel different local overlays. In case of an error it is returned together with a nil-Router.

func NewRouter 

func NewRouter(own *ServerIdentity, h Host) *Router

NewRouter returns a new Router attached to a ServerIdentity and the host we want to use.

func NewTCPRouter 

func NewTCPRouter(sid *ServerIdentity, suite Suite) (*Router, error)

NewTCPRouter returns a new Router using TCPHost as the underlying Host.

func NewTCPRouterWithListenAddr 

func NewTCPRouterWithListenAddr(sid *ServerIdentity, suite Suite,
	listenAddr string) (*Router, error)

NewTCPRouterWithListenAddr returns a new Router using TCPHost with the given listen address as the underlying Host.

func (*Router) AddErrorHandler 

func (r *Router) AddErrorHandler(errorHandler func(*ServerIdentity))

AddErrorHandler adds a network error handler function for this router. The functions will be called on network error (e.g. Timeout, Connection Closed, or EOF) with the identity of the faulty remote host as 1st parameter.

func (*Router) Closed 

func (r *Router) Closed() bool

Closed returns true if the router is closed (or is closing). For a router to be closed means that a call to Stop() must have been made.

func (*Router) GetValidPeers 

func (r *Router) GetValidPeers(peerSetID PeerSetID) []ServerIdentityID

GetValidPeers returns the set of valid peers for a given PeerSetID The return value is `nil` in case the set of valid peers has not yet been initialized, meaning that all peers are valid.

func (*Router) Listening 

func (r *Router) Listening() bool

Listening returns true if this router is started.

func (*Router) MsgRx 

func (r *Router) MsgRx() uint64

MsgRx implements monitor/CounterIO. It returns the number of messages received by the interface.

func (*Router) MsgTx 

func (r *Router) MsgTx() uint64

MsgTx implements monitor/CounterIO. It returns the number of messages transmitted by the interface.

func (*Router) Pause 

func (r *Router) Pause()

Pause casues the router to stop after reading the next incoming message. It sleeps until it is woken up by Unpause. For testing use only.

func (*Router) Rx 

func (r *Router) Rx() uint64

Rx implements monitor/CounterIO It returns the Rx for all connections managed by this router

func (*Router) Send 

func (r *Router) Send(e *ServerIdentity, msgs ...Message) (uint64, error)

Send sends to an ServerIdentity without wrapping the msg into a ProtocolMsg. It can take more than one message at once to be sure that all the messages are sent through the same connection and thus are correctly ordered.

func (*Router) SetValidPeers 

func (r *Router) SetValidPeers(peerSetID PeerSetID, peers []*ServerIdentity)

SetValidPeers sets the set of valid peers for a given PeerSetID

func (*Router) Start 

func (r *Router) Start()

Start the listening routine of the underlying Host. This is a blocking call until r.Stop() is called.

func (*Router) Stop 

func (r *Router) Stop() error

Stop the listening routine, and stop any routine of handling connections. Calling r.Start(), then r.Stop() then r.Start() again leads to an undefined behaviour. Callers should most of the time re-create a fresh Router.

func (*Router) Tx 

func (r *Router) Tx() uint64

Tx implements monitor/CounterIO It returns the Tx for all connections managed by this router

func (*Router) Unpause 

func (r *Router) Unpause()

Unpause reverses a previous call to Pause. All paused connections are closed and the Router is again ready to process messages normally. For testing use only.

type RoutineDispatcher 

type RoutineDispatcher struct {
	*BlockingDispatcher
	// contains filtered or unexported fields
}

RoutineDispatcher dispatches messages to the Processors in a go routine. RoutineDispatcher creates one go routine per messages it receives.

func NewRoutineDispatcher 

func NewRoutineDispatcher() *RoutineDispatcher

NewRoutineDispatcher returns a fresh RoutineDispatcher

func (*RoutineDispatcher) Dispatch 

func (d *RoutineDispatcher) Dispatch(packet *Envelope) error

Dispatch implements the Dispatcher interface. It will give the packet to the right Processor in a go routine.

func (*RoutineDispatcher) GetRoutines 

func (d *RoutineDispatcher) GetRoutines() int

GetRoutines returns how many routines are waiting.

type ServerIdentity 

type ServerIdentity struct {
	// This is the public key of that ServerIdentity
	Public kyber.Point
	// This is the configuration for the services
	ServiceIdentities []ServiceIdentity
	// The ServerIdentityID corresponding to that public key
	// Deprecated: use GetID
	ID ServerIdentityID
	// The address where that Id might be found
	Address Address
	// Description of the server
	Description string

	// The URL where the WebSocket interface can be found. (If not set, then default is http, on port+1.)
	// optional
	URL string `protobuf:"opt"`
	// contains filtered or unexported fields
}

ServerIdentity is used to represent a Server in the whole internet. It's based on a public key, and there can be one or more addresses to contact it.

func NewServerIdentity 

func NewServerIdentity(public kyber.Point, address Address) *ServerIdentity

NewServerIdentity creates a new ServerIdentity based on a public key and with a slice of IP-addresses where to find that entity. The Id is based on a version5-UUID which can include a URL that is based on it's public key.

func (*ServerIdentity) Equal 

func (si *ServerIdentity) Equal(e2 *ServerIdentity) bool

Equal tests on same public key

func (ServerIdentity) GetID 

func (si ServerIdentity) GetID() ServerIdentityID

GetID returns the ServerIdentityID corresponding to that public key

func (*ServerIdentity) GetPrivate 

func (si *ServerIdentity) GetPrivate() kyber.Scalar

GetPrivate returns the private key set with SetPrivate.

func (*ServerIdentity) HasServiceKeyPair 

func (si *ServerIdentity) HasServiceKeyPair(name string) bool

HasServiceKeyPair returns true if the public and private keys are generated for the given service. The default key pair is ignored.

func (*ServerIdentity) HasServicePublic 

func (si *ServerIdentity) HasServicePublic(name string) bool

HasServicePublic returns true if the public key is generated for the given service. The default public key is ignored.

func (*ServerIdentity) ServicePrivate 

func (si *ServerIdentity) ServicePrivate(name string) kyber.Scalar

ServicePrivate returns the private key of the service or the default one if the service has not been registered with a suite

func (*ServerIdentity) ServicePublic 

func (si *ServerIdentity) ServicePublic(name string) kyber.Point

ServicePublic returns the public key of the service or the default one if the service has not been registered with a suite

func (*ServerIdentity) SetPrivate 

func (si *ServerIdentity) SetPrivate(p kyber.Scalar)

SetPrivate sets a private key associated with this ServerIdentity. It will not be marshalled or output as Toml.

Before calling NewTCPRouter for a TLS server, you must set the private key with SetPrivate.

func (*ServerIdentity) String 

func (si *ServerIdentity) String() string

func (*ServerIdentity) Toml 

func (si *ServerIdentity) Toml(suite Suite) *ServerIdentityToml

Toml converts an ServerIdentity to a Toml-structure

type ServerIdentityID 

type ServerIdentityID uuid.UUID

ServerIdentityID uniquely identifies an ServerIdentity struct

func (ServerIdentityID) Equal 

func (eId ServerIdentityID) Equal(other ServerIdentityID) bool

Equal returns true if both ServerIdentityID are equal or false otherwise.

func (ServerIdentityID) IsNil 

func (eId ServerIdentityID) IsNil() bool

IsNil returns true iff the ServerIdentityID is Nil

func (ServerIdentityID) String 

func (eId ServerIdentityID) String() string

String returns a canonical representation of the ServerIdentityID.

type ServerIdentityToml 

type ServerIdentityToml struct {
	Public  string
	Address Address
}

ServerIdentityToml is the struct that can be marshalled into a toml file

func (*ServerIdentityToml) ServerIdentity 

func (si *ServerIdentityToml) ServerIdentity(suite Suite) *ServerIdentity

ServerIdentity converts an ServerIdentityToml structure back to an ServerIdentity

type ServiceIdentities 

type ServiceIdentities []ServiceIdentity

ServiceIdentities provides definitions to sort the array by service name

func (ServiceIdentities) Len 

func (srvids ServiceIdentities) Len() int

func (ServiceIdentities) Less 

func (srvids ServiceIdentities) Less(i, j int) bool

func (ServiceIdentities) Swap 

func (srvids ServiceIdentities) Swap(i, j int)

type ServiceIdentity 

type ServiceIdentity struct {
	Name   string
	Suite  string
	Public kyber.Point
	// contains filtered or unexported fields
}

ServiceIdentity contains the identity of a service which is its public and private keys

func NewServiceIdentity 

func NewServiceIdentity(name string, suite suites.Suite, public kyber.Point, private kyber.Scalar) ServiceIdentity

NewServiceIdentity creates a new identity

func NewServiceIdentityFromPair 

func NewServiceIdentityFromPair(name string, suite suites.Suite, kp *key.Pair) ServiceIdentity

NewServiceIdentityFromPair creates a new identity using the provided key pair

func (*ServiceIdentity) GetPrivate 

func (sid *ServiceIdentity) GetPrivate() kyber.Scalar

GetPrivate returns the private key of the service identity if available

type Size 

type Size uint32

Size is a type to reprensent the size that is sent before every packet to correctly decode it.

type Suite 

type Suite interface {
	kyber.Group
	kyber.Random
}

Suite functionalities used globally by the network library.

type TCPConn 

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

TCPConn implements the Conn interface using plain, unencrypted TCP.

func NewTCPConn 

func NewTCPConn(addr Address, suite Suite) (conn *TCPConn, err error)

NewTCPConn will open a TCPConn to the given address. In case of an error it returns a nil TCPConn and the error.

func NewTLSConn 

func NewTLSConn(us *ServerIdentity, them *ServerIdentity, suite Suite) (conn *TCPConn, err error)

NewTLSConn will open a TCPConn to the given server over TLS. It will check that the remote server has proven it holds the given Public key by self-signing a certificate linked to that key.

func (*TCPConn) Close 

func (c *TCPConn) Close() error

Close the connection. Returns error if it couldn't close the connection.

func (*TCPConn) Local 

func (c *TCPConn) Local() Address

Local returns the local address and port.

func (*TCPConn) Receive 

func (c *TCPConn) Receive() (env *Envelope, e error)

Receive get the bytes from the connection then decodes the buffer. It returns the Envelope containing the message, or EmptyEnvelope and an error if something wrong happened.

func (*TCPConn) Remote 

func (c *TCPConn) Remote() Address

Remote returns the name of the peer at the end point of the connection.

func (*TCPConn) Rx 

func (c *TCPConn) Rx() (out uint64)

Rx returns the rx counter

func (*TCPConn) Send 

func (c *TCPConn) Send(msg Message) (uint64, error)

Send converts the NetworkMessage into an ApplicationMessage and sends it using send(). It returns the number of bytes sent and an error if anything was wrong.

func (*TCPConn) Tx 

func (c *TCPConn) Tx() (out uint64)

Tx returns the tx counter

func (*TCPConn) Type 

func (c *TCPConn) Type() ConnType

Type returns PlainTCP.

type TCPHost 

type TCPHost struct {
	*TCPListener
	// contains filtered or unexported fields
}

TCPHost implements the Host interface using TCP connections.

func NewTCPHost 

func NewTCPHost(sid *ServerIdentity, s Suite) (*TCPHost, error)

NewTCPHost returns a new Host using TCP connection based type.

func NewTCPHostWithListenAddr 

func NewTCPHostWithListenAddr(sid *ServerIdentity, s Suite,
	listenAddr string) (*TCPHost, error)

NewTCPHostWithListenAddr returns a new Host using TCP connection based type listening on the given address.

func (*TCPHost) Connect 

func (t *TCPHost) Connect(si *ServerIdentity) (Conn, error)

Connect can only connect to PlainTCP connections. It will return an error if it is not a PlainTCP-connection-type.

type TCPListener 

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

TCPListener implements the Host-interface using Tcp as a communication channel.

func NewTCPListener 

func NewTCPListener(addr Address, s Suite) (*TCPListener, error)

NewTCPListener returns a TCPListener. This function binds globally using the port of 'addr'. It returns the listener and an error if one occurred during the binding. A subsequent call to Address() gives the actual listening address which is different if you gave it a ":0"-address.

func NewTCPListenerWithListenAddr 

func NewTCPListenerWithListenAddr(addr Address,
	s Suite, listenAddr string) (*TCPListener, error)

NewTCPListenerWithListenAddr returns a TCPListener. This function binds to the given 'listenAddr'. If it is empty, the function binds globally using the port of 'addr'. It returns the listener and an error if one occurred during the binding. A subsequent call to Address() gives the actual listening address which is different if you gave it a ":0"-address.

func NewTLSListener 

func NewTLSListener(si *ServerIdentity, suite Suite) (*TCPListener, error)

NewTLSListener makes a new TCPListener that is configured for TLS.

func NewTLSListenerWithListenAddr 

func NewTLSListenerWithListenAddr(si *ServerIdentity, suite Suite,
	listenAddr string) (*TCPListener, error)

NewTLSListenerWithListenAddr makes a new TCPListener that is configured for TLS and listening on the given address. TODO: Why can't we just use NewTCPListener like usual, but detect the ConnType from the ServerIdentity?

func (*TCPListener) Address 

func (t *TCPListener) Address() Address

Address returns the listening address.

func (*TCPListener) Listen 

func (t *TCPListener) Listen(fn func(Conn)) error

Listen starts to listen for incoming connections and calls fn for every connection-request it receives. If the connection is closed, an error will be returned.

func (*TCPListener) Listening 

func (t *TCPListener) Listening() bool

Listening returns whether it's already listening.

func (*TCPListener) Stop 

func (t *TCPListener) Stop() error

Stop the listener. It waits till all connections are closed and returned from. If there is no listener it will return an error.

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