Index
Modules:
libp2p
,
libp2p/builders
,
libp2p/connmanager
,
libp2p/crypto/chacha20poly1305
,
libp2p/crypto/crypto
,
libp2p/crypto/curve25519
,
libp2p/crypto/ecnist
,
libp2p/crypto/ed25519/constants
,
libp2p/crypto/ed25519/ed25519
,
libp2p/crypto/hkdf
,
libp2p/crypto/minasn1
,
libp2p/crypto/rsa
,
libp2p/crypto/secp
,
libp2p/dial
,
libp2p/dialer
,
libp2p/errors
,
libp2p/multiaddress
,
libp2p/multibase
,
libp2p/multicodec
,
libp2p/multihash
,
libp2p/multistream
,
libp2p/muxers/mplex/coder
,
libp2p/muxers/mplex/mplex
,
libp2p/muxers/muxer
,
libp2p/muxers/yamux/yamux
,
libp2p/nameresolving/nameresolver
,
libp2p/observedaddrmanager
,
libp2p/peerid
,
libp2p/peerinfo
,
libp2p/protobuf/minprotobuf
,
libp2p/protocols/connectivity/autonat/core
,
libp2p/protocols/connectivity/autonat/server
,
libp2p/protocols/connectivity/relay/client
,
libp2p/protocols/connectivity/relay/messages
,
libp2p/protocols/connectivity/relay/rconn
,
libp2p/protocols/connectivity/relay/relay
,
libp2p/protocols/connectivity/relay/rtransport
,
libp2p/protocols/connectivity/relay/utils
,
libp2p/protocols/identify
,
libp2p/protocols/ping
,
libp2p/protocols/protocol
,
libp2p/protocols/pubsub/errors
,
libp2p/protocols/pubsub/floodsub
,
libp2p/protocols/pubsub/gossipsub
,
libp2p/protocols/pubsub/gossipsub/behavior
,
libp2p/protocols/pubsub/gossipsub/scoring
,
libp2p/protocols/pubsub/gossipsub/types
,
libp2p/protocols/pubsub/mcache
,
libp2p/protocols/pubsub/peertable
,
libp2p/protocols/pubsub/pubsub
,
libp2p/protocols/pubsub/pubsubpeer
,
libp2p/protocols/pubsub/rpc/message
,
libp2p/protocols/pubsub/rpc/messages
,
libp2p/protocols/pubsub/rpc/protobuf
,
libp2p/protocols/pubsub/timedcache
,
libp2p/protocols/rendezvous
,
libp2p/protocols/secure/noise
,
libp2p/protocols/secure/secure
,
libp2p/routing_record
,
libp2p/signed_envelope
,
libp2p/stream/bufferstream
,
libp2p/stream/chronosstream
,
libp2p/stream/connection
,
libp2p/stream/lpstream
,
libp2p/stream/streamseq
,
libp2p/switch
,
libp2p/transcoder
,
libp2p/transports/tcptransport
,
libp2p/transports/transport
,
libp2p/transports/wstransport
,
libp2p/upgrademngrs/muxedupgrade
,
libp2p/upgrademngrs/upgrade
,
libp2p/utility
,
libp2p/utils/future
,
libp2p/utils/heartbeat
,
libp2p/utils/offsettedseq
,
libp2p/utils/semaphore
,
libp2p/varint
,
libp2p/vbuffer
,
libp2p/wire
.
API symbols
`$`:
crypto: `$`(key: PrivateKey | PublicKey): string
crypto: `$`(sig: Signature): string
ecnist: `$`(seckey: EcPrivateKey): string
ecnist: `$`(pubkey: EcPublicKey): string
ecnist: `$`(sig: EcSignature): string
ed25519: `$`(key: EdPrivateKey): string
ed25519: `$`(key: EdPublicKey): string
ed25519: `$`(sig: EdSignature): string
minasn1: `$`(buffer: Asn1Buffer): string
minasn1: `$`(field: Asn1Field): string
rsa: `$`(key: RsaPrivateKey): string
rsa: `$`(key: RsaPublicKey): string
rsa: `$`(sig: RsaSignature): string
secp: `$`(key: SkKeyPair): string
secp: `$`(key: SkPrivateKey): string
secp: `$`(key: SkPublicKey): string
secp: `$`(key: SkSignature): string
multiaddress: `$`(pat: MaPattern): string
multiaddress: `$`(value: MultiAddress): string
multicodec: `$`(mc: MultiCodec): string
multihash: `$`(mh: MultiHash): string
observedaddrmanager: `$`(self: ObservedAddrManager): string
peerid: `$`(pid: PeerId): string
vbuffer: `$`(vb: VBuffer): string
`&=`:
multiaddress: `&=`(m1: var MultiAddress; m2: MultiAddress)
`&`:
multiaddress: `&`(m1, m2: MultiAddress): MultiAddress
`>=`:
peerid: `>=`(a, b: PeerId): bool
`>`:
peerid: `>`(a, b: PeerId): bool
`<=`:
peerid: `<=`(a, b: PeerId): bool
`<`:
peerid: `<`(a, b: PeerId): bool
`==`:
crypto: `==`(key1, key2: PrivateKey): bool
crypto: `==`(key1, key2: PublicKey): bool
ecnist: `==`(seckey1, seckey2: EcPrivateKey): bool
ecnist: `==`(pubkey1, pubkey2: EcPublicKey): bool
ecnist: `==`(a, b: EcSignature): bool
ed25519: `==`(eda, edb: EdPrivateKey): bool
ed25519: `==`(eda, edb: EdPublicKey): bool
ed25519: `==`(eda, edb: EdSignature): bool
minasn1: `==`(field: Asn1Field; data: openArray[byte]): bool
rsa: `==`(a, b: RsaPrivateKey): bool
rsa: `==`(a, b: RsaPublicKey): bool
rsa: `==`(a, b: RsaSignature): bool
secp: `==`(a, b: SkKeyPair): bool
secp: `==`(a, b: SkPrivateKey): bool
secp: `==`(a, b: SkPublicKey): bool
secp: `==`(a, b: SkSignature): bool
multiaddress: `==`(m1: var MultiAddress; m2: MultiAddress): bool
multicodec: `==`(mc: MultiCodec; code: int): bool
multicodec: `==`(a, b: MultiCodec): bool
multicodec: `==`(mc: MultiCodec; name: string): bool
multihash: `==`[T](mdigest: MDigest[T]; mh: MultiHash): bool
multihash: `==`[T](mh: MultiHash; mdigest: MDigest[T]): bool
multihash: `==`(a: MultiHash; b: MultiHash): bool
peerid: `==`(a, b: PeerId): bool
pubsubpeer: `==`(a, b: PubSubPeer): bool
timedcache: `==`[E](a, b: TimedEntry[E]): bool
`[]`:
multiaddress: `[]`(ma: MultiAddress; i: int | BackwardsIndex): MaResult[MultiAddress]
multiaddress: `[]`(ma: MultiAddress; slice: HSlice): MaResult[MultiAddress]
multiaddress: `[]`(ma: MultiAddress; codec: MultiCodec): MaResult[MultiAddress]
offsettedseq: `[]`[T](o: var OffsettedSeq[T]; index: int): var T
accept:
rtransport: accept(self: RelayTransport): Future[Connection]
tcptransport: accept(self: TcpTransport): Future[Connection]
transport: accept(self: Transport): Future[Connection]
wstransport: accept(self: WsTransport): Future[Connection]
acquire:
semaphore: acquire(s: AsyncSemaphore): Future[void]
add:
streamseq: add(v: var StreamSeq; data: openArray[byte])
offsettedseq: add[T](o: var OffsettedSeq[T]; v: T)
addCapped:
scoring: addCapped[T](stat: var T; diff, cap: T)
addConnEventHandler:
connmanager: addConnEventHandler(c: ConnManager; handler: ConnEventHandler; kind: ConnEventKind)
switch: addConnEventHandler(s: Switch; handler: ConnEventHandler; kind: ConnEventKind)
addDirectPeer:
gossipsub: addDirectPeer(g: GossipSub; id: PeerId; addrs: seq[MultiAddress]): Future[void]
addedAt:
timedcache: addedAt[K](t: var TimedCache[K]; k: K): Moment
addHandler:
multistream: addHandler(m: MultistreamSelect; codecs: seq[string]; protocol: LPProtocol; matcher: Matcher = nil)
multistream: addHandler[E](m: MultistreamSelect; codec: string; handler: LPProtoHandler | proc (conn: Connection; proto: string): InternalRaisesFuture[void, E]; matcher: Matcher = nil)
multistream: addHandler(m: MultistreamSelect; codec: string; protocol: LPProtocol; matcher: Matcher = nil)
addObservation:
observedaddrmanager: addObservation(self: ObservedAddrManager; observedAddr: MultiAddress): bool
addObserver:
pubsub: addObserver(p: PubSub; observer: PubSubObserver)
addPeer:
peertable: addPeer(table: var PeerTable; topic: string; peer: PubSubPeer): bool
addPeerEventHandler:
connmanager: addPeerEventHandler(c: ConnManager; handler: PeerEventHandler; kind: PeerEventKind)
switch: addPeerEventHandler(s: Switch; handler: PeerEventHandler; kind: PeerEventKind)
AddressInfo:
routing_record: AddressInfo
AddressLimit:
core: AddressLimit
AddressMapper:
peerinfo: AddressMapper
addrs:
peerinfo: addrs(p: PeerInfo): seq[MultiAddress]
addSeen:
floodsub: addSeen(f: FloodSub; saltedId: SaltedId): bool
addTransport:
dial: addTransport(self: Dial; transport: Transport)
dialer: addTransport(self: Dialer; t: Transport)
switch: addTransport(s: Switch; t: Transport)
addValidator:
pubsub: addValidator(p: PubSub; topic: varargs[string]; hook: ValidatorHandler)
advertise:
rendezvous: advertise(rdv: RendezVous; ns: string; ttl: Duration = MinimumDuration): Future[ void]
AgentVersion:
identify: AgentVersion
all:
offsettedseq: all[T](o: OffsettedSeq[T]; pred: proc (x: T): bool): bool
AllFuturesFailedError:
future: AllFuturesFailedError
AlreadyExpectingConnectionError:
connmanager: AlreadyExpectingConnectionError
And:
MaPatternOp.And
any:
offsettedseq: any[T](o: OffsettedSeq[T]; pred: proc (x: T): bool): bool
anyCompleted:
future: anyCompleted[T](futs: seq[Future[T]]): Future[Future[T]]
append:
multiaddress: append(m1: var MultiAddress; m2: MultiAddress): MaResult[void]
apply:
offsettedseq: apply[T](o: OffsettedSeq[T]; op: proc (x: T))
offsettedseq: apply[T](o: OffsettedSeq[T]; op: proc (x: T): T)
offsettedseq: apply[T](o: OffsettedSeq[T]; op: proc (x: var T))
Asn1Buffer:
minasn1: Asn1Buffer
Asn1Class:
minasn1: Asn1Class
Asn1Composite:
minasn1: Asn1Composite
asn1EncodeBitString:
minasn1: asn1EncodeBitString(dest: var openArray[byte]; value: openArray[byte]; bits = 0): int
asn1EncodeBoolean:
minasn1: asn1EncodeBoolean(dest: var openArray[byte]; value: bool): int
asn1EncodeComposite:
minasn1: asn1EncodeComposite(dest: var openArray[byte]; value: Asn1Composite): int
asn1EncodeContextTag:
minasn1: asn1EncodeContextTag(dest: var openArray[byte]; value: openArray[byte]; tag: int): int
asn1EncodeInteger:
minasn1: asn1EncodeInteger(dest: var openArray[byte]; value: openArray[byte]): int
minasn1: asn1EncodeInteger[T: SomeUnsignedInt](dest: var openArray[byte]; value: T): int
asn1EncodeLength:
minasn1: asn1EncodeLength(dest: var openArray[byte]; length: uint64): int
asn1EncodeNull:
minasn1: asn1EncodeNull(dest: var openArray[byte]): int
asn1EncodeOctetString:
minasn1: asn1EncodeOctetString(dest: var openArray[byte]; value: openArray[byte]): int
asn1EncodeOid:
minasn1: asn1EncodeOid(dest: var openArray[byte]; value: openArray[byte]): int
asn1EncodeSequence:
minasn1: asn1EncodeSequence(dest: var openArray[byte]; value: openArray[byte]): int
Asn1Error:
minasn1: Asn1Error
Asn1False:
minasn1: Asn1False
Asn1Field:
minasn1: Asn1Field
Asn1Null:
minasn1: Asn1Null
Asn1OidEcPublicKey:
minasn1: Asn1OidEcPublicKey
Asn1OidRsaEncryption:
minasn1: Asn1OidRsaEncryption
Asn1OidSecp256k1:
minasn1: Asn1OidSecp256k1
Asn1OidSecp256r1:
minasn1: Asn1OidSecp256r1
Asn1OidSecp384r1:
minasn1: Asn1OidSecp384r1
Asn1OidSecp521r1:
minasn1: Asn1OidSecp521r1
Asn1Result:
minasn1: Asn1Result
Asn1Tag:
minasn1: Asn1Tag
Asn1True:
minasn1: Asn1True
assign:
streamseq: assign(v: var StreamSeq; buf: openArray[byte])
AsyncSemaphore:
semaphore: AsyncSemaphore
atEof:
bufferstream: atEof(s: BufferStream): bool
chronosstream: atEof(s: ChronosStream): bool
lpstream: atEof(s: LPStream): bool
Autonat:
server: Autonat
AutonatCodec:
core: AutonatCodec
AutonatDial:
core: AutonatDial
AutonatDialResponse:
core: AutonatDialResponse
AutonatError:
core: AutonatError
AutonatMsg:
core: AutonatMsg
AutonatPeerInfo:
core: AutonatPeerInfo
AutonatUnreachableError:
core: AutonatUnreachableError
BackoffSlackTime:
types: BackoffSlackTime
BackoffTable:
types: BackoffTable
BadRequest:
ResponseStatus.BadRequest
base58:
multihash: base58(value: MultiHash): string
BasePrecomp:
constants: BasePrecomp
bindAsyncSocket:
wire: bindAsyncSocket(sock: AsyncFD; ma: MultiAddress): bool
BiPrecomp:
constants: BiPrecomp
bridge:
utils: bridge(connSrc: Connection; connDst: Connection): InternalRaisesFuture[void, (CancelledError,)]
broadcast:
pubsub: broadcast(p: PubSub; sendPeers: auto; msg: RPCMsg; isHighPriority: bool)
BufferStream:
bufferstream: BufferStream
BufferStreamTrackerName:
bufferstream: BufferStreamTrackerName
byScore:
scoring: byScore(x, y: PubSubPeer): int
bytes:
multiaddress: bytes(value: MultiAddress): seq[byte]
byteSize:
messages: byteSize(msg: Message): int
messages: byteSize(rpc: RPCMsg): int
messages: byteSize(ihaves: seq[ControlIHave]): int
messages: byteSize(iwants: seq[ControlIWant]): int
messages: byteSize(msgs: seq[Message]): int
CacheEntry:
mcache: CacheEntry
canAskIWant:
pubsubpeer: canAskIWant(p: PubSubPeer; msgId: MessageId): bool
capLen:
utility: capLen[T](s: var seq[T]; length: Natural)
ChaChaPoly:
chacha20poly1305: ChaChaPoly
ChaChaPolyKey:
chacha20poly1305: ChaChaPolyKey
ChaChaPolyNonce:
chacha20poly1305: ChaChaPolyNonce
ChaChaPolyTag:
chacha20poly1305: ChaChaPolyTag
checkFieldNumber:
minprotobuf: checkFieldNumber(i: int)
checkFutures:
errors: checkFutures[F](futs: seq[F]; exclude: untyped = []): untyped
checkScalar:
ed25519: checkScalar(scalar: openArray[byte]): uint32
checkValid:
messages: checkValid(spr: SignedVoucher): Result[void, EnvelopeError]
routing_record: checkValid(spr: SignedPeerRecord): Result[void, EnvelopeError]
ChronosStream:
chronosstream: ChronosStream
ChronosStreamTrackerName:
chronosstream: ChronosStreamTrackerName
CircuitRelay:
multiaddress: CircuitRelay
clear:
ecnist: clear[T: EcPKI | EcKeyPair](pki: var T)
ed25519: clear(pair: var EdKeyPair)
ed25519: clear(key: var EdPrivateKey)
ed25519: clear(key: var EdPublicKey)
ed25519: clear(sig: var EdSignature)
rsa: clear[T: RsaPKI | RsaKeyPair](pki: var T)
secp: clear(key: var SkPrivateKey)
streamseq: clear(v: var StreamSeq)
close:
connmanager: close(c: ConnManager): Future[void]
mplex: close(m: Mplex): InternalRaisesFuture[void, void]
muxer: close(m: Muxer): InternalRaisesFuture[void, void]
yamux: close(m: Yamux): InternalRaisesFuture[void, void]
lpstream: close(s: LPStream): InternalRaisesFuture[void, void]
closed:
chronosstream: closed(s: ChronosStream): bool
lpstream: closed(s: LPStream): bool
closeImpl:
yamux: closeImpl(channel: YamuxChannel): InternalRaisesFuture[void, void]
rconn: closeImpl(self: RelayConnection): InternalRaisesFuture[void, void]
noise: closeImpl(s: NoiseConnection): InternalRaisesFuture[void, void]
secure: closeImpl(s: SecureConn): InternalRaisesFuture[void, void]
bufferstream: closeImpl(s: BufferStream): InternalRaisesFuture[void, void]
chronosstream: closeImpl(s: ChronosStream): InternalRaisesFuture[void, void]
connection: closeImpl(s: Connection): InternalRaisesFuture[void, void]
lpstream: closeImpl(s: LPStream): InternalRaisesFuture[void, void]
wstransport: closeImpl(s: WsStream): InternalRaisesFuture[void, void]
closeWithEOF:
lpstream: closeWithEOF(s: LPStream): InternalRaisesFuture[void, void]
cmp:
peerid: cmp(a, b: PeerId): int
code:
minasn1: code(tag: Asn1Tag): byte
codec:
multicodec: codec(mt: typedesc[MultiCodec]; code: int): MultiCodec
multicodec: codec(mt: typedesc[MultiCodec]; name: string): MultiCodec
protocol: codec(p: LPProtocol): string
codec=:
protocol: codec=(p: LPProtocol; codec: string)
commit:
streamseq: commit(v: var StreamSeq; n: int)
compilesOr:
utility: compilesOr(a, b: untyped): untyped
concat:
multiaddress: concat(m1, m2: MultiAddress): MaResult[MultiAddress]
ConcurrentUpgrades:
switch: ConcurrentUpgrades
connCount:
connmanager: connCount(c: ConnManager; peerId: PeerId): int
connect:
dial: connect(self: Dial; address: MultiAddress; allowUnknownPeerId = false): Future[ PeerId]
dial: connect(self: Dial; peerId: PeerId; addrs: seq[MultiAddress]; forceDial = false; reuseConnection = true; dir = Direction.Out): Future[void]
dialer: connect(self: Dialer; address: MultiAddress; allowUnknownPeerId = false): Future[ PeerId]
dialer: connect(self: Dialer; peerId: PeerId; addrs: seq[MultiAddress]; forceDial = false; reuseConnection = true; dir = Direction.Out): Future[ void]
pubsubpeer: connect(p: PubSubPeer)
switch: connect(s: Switch; address: MultiAddress; allowUnknownPeerId = false): Future[ PeerId]
switch: connect(s: Switch; peerId: PeerId; addrs: seq[MultiAddress]; forceDial = false; reuseConnection = true; dir = Direction.Out): Future[void]
wire: connect(ma: MultiAddress; bufferSize = DefaultStreamBufferSize; child: StreamTransport = nil; flags = default(set[SocketFlags]); localAddress: Opt[MultiAddress] = Opt.none(MultiAddress)): Future[ StreamTransport]
connected:
pubsubpeer: connected(p: PubSubPeer): bool
connectedPeers:
switch: connectedPeers(s: Switch; dir: Direction): seq[PeerId]
Connection:
connection: Connection
ConnectionFailed:
StatusV2.ConnectionFailed
ConnectionSlot:
connmanager: ConnectionSlot
ConnectionTrackerName:
connection: ConnectionTrackerName
ConnEvent:
connmanager: ConnEvent
ConnEventHandler:
connmanager: ConnEventHandler
ConnEventKind:
connmanager: ConnEventKind
connHandler:
tcptransport: connHandler(self: TcpTransport; client: StreamTransport; observedAddr: Opt[MultiAddress]; dir: Direction): Connection
ConnManager:
connmanager: ConnManager
consume:
streamseq: consume(v: var StreamSeq; n: int)
consumeTo:
streamseq: consumeTo(v: var StreamSeq; buf: var openArray[byte]): int
contains:
connmanager: contains(c: ConnManager; muxer: Muxer): bool
connmanager: contains(c: ConnManager; peerId: PeerId): bool
multiaddress: contains(ma: MultiAddress; codec: MultiCodec): MaResult[bool]
mcache: contains(c: MCache; msgId: MessageId): bool
timedcache: contains[K](t: TimedCache[K]; k: K): bool
ControlGraft:
messages: ControlGraft
ControlIHave:
messages: ControlIHave
ControlIWant:
messages: ControlIWant
ControlMessage:
messages: ControlMessage
ControlPrune:
messages: ControlPrune
copy:
ecnist: copy[T: EcPKI](src: T): T
ecnist: copy[T: EcPKI](dst: var T; src: T): bool
rsa: copy[T: RsaPKI](key: T): T
count:
offsettedseq: count[T](o: OffsettedSeq[T]; x: T): int
semaphore: count(s: AsyncSemaphore): int
createAsyncSocket:
wire: createAsyncSocket(ma: MultiAddress): AsyncFD
createStreamServer:
wire: createStreamServer[T](ma: MultiAddress; flags: set[ServerFlags] = {}; udata: ref T; sock: AsyncFD = asyncInvalidSocket; backlog: int = 100; bufferSize: int = DefaultStreamBufferSize; child: StreamServer = nil; init: TransportInitCallback = nil): StreamServer
wire: createStreamServer[T](ma: MultiAddress; cbproc: StreamCallback; flags: set[ServerFlags] = {}; udata: ref T; sock: AsyncFD = asyncInvalidSocket; backlog: int = 100; bufferSize: int = DefaultStreamBufferSize; child: StreamServer = nil; init: TransportInitCallback = nil): StreamServer
CryptoError:
crypto: CryptoError
CryptoResult:
crypto: CryptoResult
Curve25519:
curve25519: Curve25519
Curve25519Error:
curve25519: Curve25519Error
Curve25519Key:
curve25519: Curve25519Key
Curve25519KeySize:
curve25519: Curve25519KeySize
CurveOrder:
constants: CurveOrder
Curver25519GenError:
Curve25519Error.Curver25519GenError
D2Const:
constants: D2Const
data:
multiaddress: data(ma: MultiAddress): VBuffer
streamseq: data(v: StreamSeq): openArray[byte]
DConst:
constants: DConst
decode:
multibase: decode(mbtype: typedesc[MultiBase]; inbytes: openArray[char]): Result[seq[byte], string]
multibase: decode(mbtype: typedesc[MultiBase]; inbytes: openArray[char]; outbytes: var openArray[byte]; outlen: var int): MultiBaseStatus
multihash: decode(mhtype: typedesc[MultiHash]; data: openArray[byte]; mhash: var MultiHash): MhResult[ int]
core: decode(_: typedesc[AutonatMsg]; buf: seq[byte]): Opt[AutonatMsg]
messages: decode(_: typedesc[HopMessage]; buf: seq[byte]): Opt[HopMessage]
messages: decode(_: typedesc[RelayMessage]; buf: seq[byte]): Opt[RelayMessage]
messages: decode(_: typedesc[StopMessage]; buf: seq[byte]): Opt[StopMessage]
messages: decode(_: typedesc[Voucher]; buf: seq[byte]): Result[Voucher, ProtoError]
routing_record: decode(T: typedesc[PeerRecord]; buffer: seq[byte]): Result[PeerRecord, ProtoError]
signed_envelope: decode(T: typedesc[Envelope]; buf: seq[byte]; domain: string): Result[Envelope, EnvelopeError]
signed_envelope: decode[T](_: typedesc[SignedPayload[T]]; buffer: seq[byte]): Result[ SignedPayload[T], EnvelopeError]
decodeControl:
protobuf: decodeControl(pb: ProtoBuffer): ProtoResult[Option[ControlMessage]]
decodedLength:
multibase: decodedLength(mbtype: typedesc[MultiBase]; encoding: char; length: int): int
decodeGraft:
protobuf: decodeGraft(pb: ProtoBuffer): ProtoResult[ControlGraft]
decodeIHave:
protobuf: decodeIHave(pb: ProtoBuffer): ProtoResult[ControlIHave]
decodeIWant:
protobuf: decodeIWant(pb: ProtoBuffer): ProtoResult[ControlIWant]
decodeMessage:
protobuf: decodeMessage(pb: ProtoBuffer): ProtoResult[Message]
decodeMessages:
protobuf: decodeMessages(pb: ProtoBuffer): ProtoResult[seq[Message]]
decodeMsg:
identify: decodeMsg(buf: seq[byte]): Opt[IdentifyInfo]
decodePeerInfoMsg:
protobuf: decodePeerInfoMsg(pb: ProtoBuffer): ProtoResult[PeerInfoMsg]
decodePrune:
protobuf: decodePrune(pb: ProtoBuffer): ProtoResult[ControlPrune]
decodeRpcMsg:
protobuf: decodeRpcMsg(msg: seq[byte]): ProtoResult[RPCMsg]
decodeSubscription:
protobuf: decodeSubscription(pb: ProtoBuffer): ProtoResult[SubOpts]
decodeSubscriptions:
protobuf: decodeSubscriptions(pb: ProtoBuffer): ProtoResult[seq[SubOpts]]
decrypt:
chacha20poly1305: decrypt(_: type[ChaChaPoly]; key: ChaChaPolyKey; nonce: ChaChaPolyNonce; tag: var ChaChaPolyTag; data: var openArray[byte]; aad: openArray[byte])
DefaultChanTimeout:
muxer: DefaultChanTimeout
DefaultConnectionTimeout:
connection: DefaultConnectionTimeout
DefaultHeartbeatSleepTime:
relay: DefaultHeartbeatSleepTime
DefaultKeySize:
rsa: DefaultKeySize
DefaultLimitData:
relay: DefaultLimitData
DefaultLimitDuration:
relay: DefaultLimitDuration
DefaultMaxIncomingStreams:
protocol: DefaultMaxIncomingStreams
DefaultMaxNumElementsInNonPriorityQueue:
pubsubpeer: DefaultMaxNumElementsInNonPriorityQueue
defaultMsgIdProvider:
message: defaultMsgIdProvider(m: Message): Result[MessageId, ValidationResult]
DefaultPublicExponent:
rsa: DefaultPublicExponent
DefaultReservationTTL:
relay: DefaultReservationTTL
del:
timedcache: del[K](t: var TimedCache[K]; key: K): Opt[TimedEntry[K]]
Dial:
dial: Dial
dial:
dial: dial(self: Dial; peerId: PeerId; addrs: seq[MultiAddress]; protos: seq[string]; forceDial = false): Future[Connection]
dial: dial(self: Dial; peerId: PeerId; protos: seq[string]): Future[Connection]
dialer: dial(self: Dialer; peerId: PeerId; addrs: seq[MultiAddress]; protos: seq[string]; forceDial = false): Future[Connection]
dialer: dial(self: Dialer; peerId: PeerId; protos: seq[string]): Future[Connection]
Dial:
MsgType.Dial
dial:
rtransport: dial(self: RelayTransport; ma: MultiAddress): Future[Connection]
rtransport: dial(self: RelayTransport; hostname: string; ma: MultiAddress; peerId: Opt[PeerId] = Opt.none(PeerId)): Future[Connection]
switch: dial(s: Switch; peerId: PeerId; addrs: seq[MultiAddress]; proto: string): Future[ Connection]
switch: dial(s: Switch; peerId: PeerId; proto: string): Future[Connection]
switch: dial(s: Switch; peerId: PeerId; addrs: seq[MultiAddress]; protos: seq[string]; forceDial = false): Future[Connection]
switch: dial(s: Switch; peerId: PeerId; protos: seq[string]): Future[Connection]
tcptransport: dial(self: TcpTransport; hostname: string; address: MultiAddress; peerId: Opt[PeerId] = Opt.none(PeerId)): Future[Connection]
transport: dial(self: Transport; address: MultiAddress; peerId: Opt[PeerId] = Opt.none(PeerId)): Future[Connection]
transport: dial(self: Transport; hostname: string; address: MultiAddress; peerId: Opt[PeerId] = Opt.none(PeerId)): Future[Connection]
wstransport: dial(self: WsTransport; hostname: string; address: MultiAddress; peerId: Opt[PeerId] = Opt.none(PeerId)): Future[Connection]
Dialer:
dialer: Dialer
DialError:
ResponseStatus.DialError
DialFailedError:
dialer: DialFailedError
dialPeerV1:
client: dialPeerV1(cl: RelayClient; conn: Connection; dstPeerId: PeerId; dstAddrs: seq[MultiAddress]): Future[Connection]
dialPeerV2:
client: dialPeerV2(cl: RelayClient; conn: RelayConnection; dstPeerId: PeerId; dstAddrs: seq[MultiAddress]): Future[Connection]
DialRefused:
ResponseStatus.DialRefused
DialResponse:
MsgType.DialResponse
digest:
multihash: digest(mhtype: typedesc[MultiHash]; hashcode: int; data: openArray[byte]): MhResult[ MultiHash]
multihash: digest(mhtype: typedesc[MultiHash]; hashname: string; data: openArray[byte]): MhResult[ MultiHash]
DigestSheme:
crypto: DigestSheme
Direction:
lpstream: Direction
disconnect:
switch: disconnect(s: Switch; peerId: PeerId): Future[void]
disconnectIfBadScorePeer:
scoring: disconnectIfBadScorePeer(g: GossipSub; peer: PubSubPeer; score: float64)
disconnectPeer:
scoring: disconnectPeer(g: GossipSub; peer: PubSubPeer): Future[void]
DNS:
multiaddress: DNS
DNS4:
multiaddress: DNS4
DNS6:
multiaddress: DNS6
DNSADDR:
multiaddress: DNSADDR
DNSANY:
multiaddress: DNSANY
DNS_OR_IP:
multiaddress: DNS_OR_IP
DropConn:
pubsubpeer: DropConn
dropFanoutPeers:
behavior: dropFanoutPeers(g: GossipSub)
dropPeer:
connmanager: dropPeer(c: ConnManager; peerId: PeerId): Future[void]
dummyPrivateProc:
libp2p: dummyPrivateProc()
EcCurveKind:
ecnist: EcCurveKind
ECDHEScheme:
ecnist: ECDHEScheme
ECDSA:
PKScheme.ECDSA
EcError:
ecnist: EcError
EcKeyGenError:
EcError.EcKeyGenError
EcKeyIncorrectError:
EcError.EcKeyIncorrectError
EcKeyPair:
ecnist: EcKeyPair
EcPKI:
ecnist: EcPKI
EcPrivateKey:
ecnist: EcPrivateKey
EcPublicKey:
ecnist: EcPublicKey
EcPublicKeyError:
EcError.EcPublicKeyError
EcResult:
ecnist: EcResult
EcRngError:
EcError.EcRngError
EcSignature:
ecnist: EcSignature
EcSignatureError:
EcError.EcSignatureError
EcSupportedCurvesCint:
ecnist: EcSupportedCurvesCint
Ed25519:
PKScheme.Ed25519
EdError:
ed25519: EdError
EdIncorrectError:
EdError.EdIncorrectError
EdKeyPair:
ed25519: EdKeyPair
EdPrivateKey:
ed25519: EdPrivateKey
EdPrivateKeySize:
ed25519: EdPrivateKeySize
EdPublicKey:
ed25519: EdPublicKey
EdPublicKeySize:
ed25519: EdPublicKeySize
EdSignature:
ed25519: EdSignature
EdSignatureSize:
ed25519: EdSignatureSize
encode:
multiaddress: encode(mbtype: typedesc[MultiBase]; encoding: string; ma: MultiAddress): string
multibase: encode(mbtype: typedesc[MultiBase]; encoding: string; inbytes: openArray[byte]): Result[ string, string]
multibase: encode(mbtype: typedesc[MultiBase]; encoding: string; inbytes: openArray[byte]; outbytes: var openArray[char]; outlen: var int): MultiBaseStatus
multihash: encode(mbtype: typedesc[MultiBase]; encoding: string; mh: MultiHash): string
core: encode(d: AutonatDial): ProtoBuffer
core: encode(r: AutonatDialResponse): ProtoBuffer
core: encode(msg: AutonatMsg): ProtoBuffer
messages: encode(msg: HopMessage): ProtoBuffer
messages: encode(msg: RelayMessage): ProtoBuffer
messages: encode(msg: StopMessage): ProtoBuffer
messages: encode(v: Voucher): seq[byte]
routing_record: encode(record: PeerRecord): seq[byte]
signed_envelope: encode(env: Envelope): Result[seq[byte], CryptoError]
signed_envelope: encode[T](msg: SignedPayload[T]): Result[seq[byte], CryptoError]
encodedLength:
multibase: encodedLength(mbtype: typedesc[MultiBase]; encoding: string; length: int): int
encodeMessage:
protobuf: encodeMessage(msg: Message; anonymize: bool): seq[byte]
encodeRpcMsg:
protobuf: encodeRpcMsg(msg: RPCMsg; anonymize: bool): seq[byte]
encodeVarint:
varint: encodeVarint(vtype: typedesc[LP]; value: LPSomeVarint): VarintResult[seq[byte]]
varint: encodeVarint(vtype: typedesc[PB]; value: PBSomeVarint): VarintResult[seq[byte]]
encrypt:
chacha20poly1305: encrypt(_: type[ChaChaPoly]; key: ChaChaPolyKey; nonce: ChaChaPolyNonce; tag: var ChaChaPolyTag; data: var openArray[byte]; aad: openArray[byte])
EndGroup:
ProtoFieldKind.EndGroup
Envelope:
signed_envelope: Envelope
EnvelopeError:
signed_envelope: EnvelopeError
EnvelopeFieldMissing:
EnvelopeError.EnvelopeFieldMissing
EnvelopeInvalidProtobuf:
EnvelopeError.EnvelopeInvalidProtobuf
EnvelopeInvalidSignature:
EnvelopeError.EnvelopeInvalidSignature
EnvelopeWrongType:
EnvelopeError.EnvelopeWrongType
Eof:
lpstream: Eof
ephemeral:
ecnist: ephemeral(scheme: ECDHEScheme; rng: var HmacDrbgContext): EcResult[EcKeyPair]
ecnist: ephemeral(scheme: string; rng: var HmacDrbgContext): EcResult[EcKeyPair]
Eq:
MaPatternOp.Eq
exceptionToAssert:
utility: exceptionToAssert(body: untyped): untyped
exclIfIt:
utility: exclIfIt[T](set: var HashSet[T]; condition: untyped)
expandItIMPL:
identify: expandItIMPL(record: auto; it_name: static string; it: IdentifyInfo)
expectConnection:
connmanager: expectConnection(c: ConnManager; p: PeerId; dir: Direction): Future[Muxer]
expire:
timedcache: expire(t: var TimedCache; now: Moment = Moment.now())
extend:
minasn1: extend[T: Asn1Buffer | Asn1Composite](abc: var T; length: int)
extractPublicKey:
peerid: extractPublicKey(pid: PeerId; pubkey: var PublicKey): bool
Fe:
constants: Fe
finish:
minasn1: finish[T: Asn1Buffer | Asn1Composite](abc: var T)
minprotobuf: finish(pb: var ProtoBuffer)
vbuffer: finish(vb: var VBuffer)
firstSeen:
floodsub: firstSeen(f: FloodSub; saltedId: SaltedId): Moment
Fixed:
MAKind.Fixed
Fixed32:
ProtoFieldKind.Fixed32
Fixed64:
ProtoFieldKind.Fixed64
FloodSub:
floodsub: FloodSub
FloodSubCodec:
floodsub: FloodSubCodec
flushIf:
offsettedseq: flushIf[T](o: OffsettedSeq[T]; pred: proc (x: T): bool)
flushIfIt:
offsettedseq: flushIfIt(o, pred: untyped)
forceAcquire:
semaphore: forceAcquire(s: AsyncSemaphore)
formatItIMPL:
mplex: formatItIMPL(it: Mplex): auto
muxer: formatItIMPL(it: Muxer): auto
peerid: formatItIMPL(it: PeerId): auto
peerinfo: formatItIMPL(it: PeerInfo): auto
pubsubpeer: formatItIMPL(it: PubSubPeer): auto
noise: formatItIMPL(it: NoiseConnection): auto
secure: formatItIMPL(it: SecureConn): auto
bufferstream: formatItIMPL(it: BufferStream): auto
chronosstream: formatItIMPL(it: ChronosStream): auto
connection: formatItIMPL(it: Connection): auto
lpstream: formatItIMPL(it: LPStream): auto
fullAddrs:
peerinfo: fullAddrs(p: PeerInfo): MaResult[seq[MultiAddress]]
GeCached:
constants: GeCached
GeP1P1:
constants: GeP1P1
GeP2:
constants: GeP2
GeP3:
constants: GeP3
GePrecomp:
constants: GePrecomp
get:
mcache: get(c: MCache; msgId: MessageId): Opt[Message]
getAgent:
pubsubpeer: getAgent(peer: PubSubPeer): string
getArray:
rsa: getArray(bs, os, ls: untyped): untyped
getBuffer:
minasn1: getBuffer(field: Asn1Field): Asn1Buffer
getBytes:
crypto: getBytes(key: PrivateKey): CryptoResult[seq[byte]]
crypto: getBytes(key: PublicKey): CryptoResult[seq[byte]]
crypto: getBytes(sig: Signature): seq[byte]
curve25519: getBytes(key: Curve25519Key): seq[byte]
ecnist: getBytes(seckey: EcPrivateKey): EcResult[seq[byte]]
ecnist: getBytes(pubkey: EcPublicKey): EcResult[seq[byte]]
ecnist: getBytes(sig: EcSignature): EcResult[seq[byte]]
ed25519: getBytes(key: EdPrivateKey): seq[byte]
ed25519: getBytes(key: EdPublicKey): seq[byte]
ed25519: getBytes(sig: EdSignature): seq[byte]
rsa: getBytes(key: RsaPrivateKey): RsaResult[seq[byte]]
rsa: getBytes(key: RsaPublicKey): RsaResult[seq[byte]]
rsa: getBytes(sig: RsaSignature): RsaResult[seq[byte]]
secp: getBytes(key: SkPrivateKey): seq[byte]
secp: getBytes(key: SkPublicKey): seq[byte]
secp: getBytes(sig: SkSignature): seq[byte]
peerid: getBytes(pid: PeerId): seq[byte]
GetConn:
pubsubpeer: GetConn
getConnections:
connmanager: getConnections(c: ConnManager): Table[PeerId, seq[Muxer]]
getField:
crypto: getField(pb: ProtoBuffer; field: int; value: var Signature): ProtoResult[bool]
crypto: getField[T: PublicKey | PrivateKey](pb: ProtoBuffer; field: int; value: var T): ProtoResult[ bool]
multiaddress: getField(pb: ProtoBuffer; field: int; value: var MultiAddress): ProtoResult[bool]
peerid: getField(pb: ProtoBuffer; field: int; pid: var PeerId): ProtoResult[bool]
minprotobuf: getField[T: byte | char](data: ProtoBuffer; field: int; output: var openArray[T]; outlen: var int): ProtoResult[ bool]
minprotobuf: getField(pb: ProtoBuffer; field: int; output: var ProtoBuffer): ProtoResult[bool]
minprotobuf: getField[T: ProtoScalar](data: ProtoBuffer; field: int; output: var T): ProtoResult[ bool]
minprotobuf: getField[T: seq[byte] | string](data: ProtoBuffer; field: int; output: var T): ProtoResult[ bool]
signed_envelope: getField(pb: ProtoBuffer; field: int; value: var Envelope; domain: string): ProtoResult[ bool]
signed_envelope: getField[T](pb: ProtoBuffer; field: int; value: var SignedPayload[T]): ProtoResult[ bool]
getGossipPeers:
behavior: getGossipPeers(g: GossipSub): Table[PubSubPeer, ControlMessage]
getHostname:
nameresolver: getHostname(ma: MultiAddress): string
getIncomingSlot:
connmanager: getIncomingSlot(c: ConnManager): Future[ConnectionSlot]
getLen:
minprotobuf: getLen(pb: ProtoBuffer): int
getLocalAddress:
wire: getLocalAddress(sock: AsyncFD): TransportAddress
getMostObservedProtosAndPorts:
observedaddrmanager: getMostObservedProtosAndPorts(self: ObservedAddrManager): seq[MultiAddress]
getOrCreatePeer:
gossipsub: getOrCreatePeer(g: GossipSub; peerId: PeerId; protos: seq[string]): PubSubPeer
pubsub: getOrCreatePeer(p: PubSub; peerId: PeerId; protos: seq[string]): PubSubPeer
getOrder:
crypto: getOrder(remotePubkey, localNonce: openArray[byte]; localPubkey, remoteNonce: openArray[byte]): CryptoResult[int]
getOutgoingSlot:
connmanager: getOutgoingSlot(c: ConnManager; forceDial = false): ConnectionSlot
getPackedRepeatedField:
minprotobuf: getPackedRepeatedField[T: ProtoScalar](data: ProtoBuffer; field: int; output: var seq[T]): ProtoResult[bool]
getPrivateKeyLength:
ecnist: getPrivateKeyLength(curve: EcCurveKind): int
getProtoHeader:
minprotobuf: getProtoHeader(index: int; wire: ProtoFieldKind): uint64
minprotobuf: getProtoHeader(field: ProtoField): uint64
getPtr:
minasn1: getPtr(field: untyped): pointer
minprotobuf: getPtr(pb: ProtoBuffer): pointer
getPublicKey:
crypto: getPublicKey(key: PrivateKey): CryptoResult[PublicKey]
ecnist: getPublicKey(seckey: EcPrivateKey): EcResult[EcPublicKey]
ed25519: getPublicKey(key: EdPrivateKey): EdPublicKey
rsa: getPublicKey(key: RsaPrivateKey): RsaPublicKey
secp: getPublicKey(key: SkPrivateKey): SkPublicKey
getPublicKeyLength:
ecnist: getPublicKeyLength(curve: EcCurveKind): int
getRawBytes:
crypto: getRawBytes(key: PrivateKey | PublicKey): CryptoResult[seq[byte]]
ecnist: getRawBytes(seckey: EcPrivateKey): EcResult[seq[byte]]
ecnist: getRawBytes(pubkey: EcPublicKey): EcResult[seq[byte]]
ecnist: getRawBytes(sig: EcSignature): EcResult[seq[byte]]
getRepeatedField:
multiaddress: getRepeatedField(pb: ProtoBuffer; field: int; value: var seq[MultiAddress]): ProtoResult[ bool]
minprotobuf: getRepeatedField[T: seq[byte] | string](data: ProtoBuffer; field: int; output: var seq[T]): ProtoResult[bool]
minprotobuf: getRepeatedField[T: ProtoScalar](data: ProtoBuffer; field: int; output: var seq[T]): ProtoResult[bool]
getRequiredField:
minprotobuf: getRequiredField[T](pb: ProtoBuffer; field: int; output: var T): ProtoResult[ void]
getRequiredRepeatedField:
minprotobuf: getRequiredRepeatedField[T](pb: ProtoBuffer; field: int; output: var seq[T]): ProtoResult[ void]
getSecret:
ecnist: getSecret(pubkey: EcPublicKey; seckey: EcPrivateKey): seq[byte]
getStream:
connmanager: getStream(c: ConnManager; muxer: Muxer): Future[Connection]
connmanager: getStream(c: ConnManager; peerId: PeerId): Future[Connection]
connmanager: getStream(c: ConnManager; peerId: PeerId; dir: Direction): Future[Connection]
getStreams:
mplex: getStreams(m: Mplex): seq[Connection]
muxer: getStreams(m: Muxer): seq[Connection]
yamux: getStreams(m: Yamux): seq[Connection]
getSVarint:
varint: getSVarint(pbytes: openArray[byte]; outsize: var int; outval: var (PBZigVarint | PBSomeSVarint)): VarintResult[void]
getUVarint:
varint: getUVarint[T: PB | LP](vtype: typedesc[T]; pbytes: openArray[byte]; outlen: var int; outval: var SomeUVarint): VarintResult[ void]
getVarint:
varint: getVarint[T: PB | LP](vtype: typedesc[T]; pbytes: openArray[byte]; nbytes: var int; value: var SomeVarint): VarintResult[void]
getWrapped:
yamux: getWrapped(channel: YamuxChannel): Connection
rconn: getWrapped(self: RelayConnection): Connection
secure: getWrapped(s: SecureConn): Connection
chronosstream: getWrapped(s: ChronosStream): Connection
connection: getWrapped(s: Connection): Connection
wstransport: getWrapped(s: WsStream): Connection
goffset:
crypto: goffset(secret, id, o: untyped): untyped
GossipBackoffPeriod:
types: GossipBackoffPeriod
GossipSub:
types: GossipSub
GossipSubCodec_10:
types: GossipSubCodec_10
GossipSubCodec_11:
types: GossipSubCodec_11
GossipSubCodec_12:
types: GossipSubCodec_12
GossipSubD:
types: GossipSubD
GossipSubDhi:
types: GossipSubDhi
GossipSubDlo:
types: GossipSubDlo
GossipSubFanoutTTL:
types: GossipSubFanoutTTL
GossipSubHeartbeatInterval:
types: GossipSubHeartbeatInterval
GossipSubHistoryGossip:
types: GossipSubHistoryGossip
GossipSubHistoryLength:
types: GossipSubHistoryLength
GossipSubParams:
types: GossipSubParams
grafted:
behavior: grafted(g: GossipSub; p: PubSubPeer; topic: string)
guessDialableAddr:
observedaddrmanager: guessDialableAddr(self: ObservedAddrManager; ma: MultiAddress): MultiAddress
handle:
multistream: handle(m: MultistreamSelect; conn: Connection; active: bool = false): InternalRaisesFuture[ void, (CancelledError,)]
multistream: handle(_: type MultistreamSelect; conn: Connection; protos: seq[string]; matchers = newSeq[Matcher](); active: bool = false): InternalRaisesFuture[ string, (CancelledError, LPStreamError, MultiStreamError)]
muxer: handle(m: Muxer): InternalRaisesFuture[void, void]
yamux: handle(m: Yamux): InternalRaisesFuture[void, void]
pubsubpeer: handle(p: PubSubPeer; conn: Connection): Future[void]
handleBackingOff:
behavior: handleBackingOff(t: var BackoffTable; topic: string)
handleConn:
pubsub: handleConn(p: PubSub; conn: Connection; proto: string): Future[void]
handleData:
pubsub: handleData(p: PubSub; topic: string; data: seq[byte]): Future[void]
handleGraft:
behavior: handleGraft(g: GossipSub; peer: PubSubPeer; grafts: seq[ControlGraft]): seq[ ControlPrune]
handleHop:
relay: handleHop(r: Relay; connSrc: Connection; msg: RelayMessage): Future[void]
handleHopStreamV2:
relay: handleHopStreamV2(r: Relay; conn: Connection): Future[void]
handleIDontWant:
behavior: handleIDontWant(g: GossipSub; peer: PubSubPeer; iDontWants: seq[ControlIWant])
handleIHave:
behavior: handleIHave(g: GossipSub; peer: PubSubPeer; ihaves: seq[ControlIHave]): ControlIWant
handleIWant:
behavior: handleIWant(g: GossipSub; peer: PubSubPeer; iwants: seq[ControlIWant]): seq[ Message]
handlePrune:
behavior: handlePrune(g: GossipSub; peer: PubSubPeer; prunes: seq[ControlPrune])
handler:
protocol: handler(p: LPProtocol): LPProtoHandler
protocol: handler(p: LPProtocol; conn: Connection; proto: string): Future[void]
handler=:
protocol: handler=(p: LPProtocol; handler: LPProtoHandler)
protocol: handler=[E](p: LPProtocol; handler: proc (conn: Connection; proto: string): InternalRaisesFuture[ void, E])
HandlerHolder:
multistream: HandlerHolder
handles:
rtransport: handles(self: RelayTransport; ma: MultiAddress): bool
tcptransport: handles(t: TcpTransport; address: MultiAddress): bool
transport: handles(self: Transport; address: MultiAddress): bool
wstransport: handles(t: WsTransport; address: MultiAddress): bool
handshake:
noise: handshake(p: Noise; conn: Connection; initiator: bool; peerId: Opt[PeerId]): InternalRaisesFuture[ SecureConn, (CancelledError, LPStreamError)]
secure: handshake(s: Secure; conn: Connection; initiator: bool; peerId: Opt[PeerId]): InternalRaisesFuture[ SecureConn, (CancelledError, LPStreamError)]
hash:
multiaddress: hash(a: MultiAddress): Hash
multicodec: hash(m: MultiCodec): Hash
peerid: hash(pid: PeerId): Hash
pubsubpeer: hash(p: PubSubPeer): Hash
timedcache: hash(a: TimedEntry): Hash
connection: hash(p: Connection): Hash
HashError:
CryptoError.HashError
hasObservers:
pubsubpeer: hasObservers(p: PubSubPeer): bool
hasPeer:
peertable: hasPeer(table: PeerTable; topic: string; peer: PubSubPeer): bool
hasPeerId:
peertable: hasPeerId(t: PeerTable; topic: string; peerId: PeerId): bool
hasPublicKey:
peerid: hasPublicKey(pid: PeerId): bool
hasSeen:
floodsub: hasSeen(f: FloodSub; saltedId: SaltedId): bool
hasSendConn:
pubsubpeer: hasSendConn(p: PubSubPeer): bool
heartbeat:
behavior: heartbeat(g: GossipSub): Future[void]
heartbeat: heartbeat(name: string; interval: Duration; body: untyped): untyped
hex:
multiaddress: hex(value: MultiAddress): string
multihash: hex(value: MultiHash): string
peerid: hex(pid: PeerId): string
high:
offsettedseq: high[T](o: OffsettedSeq[T]): int
vbuffer: high(vb: VBuffer): int
hint:
varint: hint
hint32:
varint: hint32
hint64:
varint: hint64
hkdf:
hkdf: hkdf[T: sha256; len: static int](_: type[T]; salt, ikm, info: openArray[byte]; outputs: var openArray[HkdfResult[len]])
HkdfResult:
hkdf: HkdfResult
HopMessage:
messages: HopMessage
HopMessageType:
messages: HopMessageType
HTTP:
multiaddress: HTTP
HTTPS:
multiaddress: HTTPS
Identify:
identify: Identify
identify:
identify: identify(self: Identify; conn: Connection; remotePeerId: PeerId): Future[ IdentifyInfo]
IdentifyCodec:
identify: IdentifyCodec
IdentifyError:
identify: IdentifyError
IdentifyInfo:
identify: IdentifyInfo
IdentifyNoPubKeyError:
identify: IdentifyNoPubKeyError
IdentifyPush:
identify: IdentifyPush
IdentifyPushCodec:
identify: IdentifyPushCodec
IdentifyPushHandler:
identify: IdentifyPushHandler
IdentityInvalidMsgError:
identify: IdentityInvalidMsgError
IdentityNoMatchError:
identify: IdentityNoMatchError
IHaveMaxLength:
types: IHaveMaxLength
IHavePeerBudget:
types: IHavePeerBudget
init:
crypto: init(key: var PrivateKey; data: openArray[byte]): bool
crypto: init(key: var PublicKey; data: openArray[byte]): bool
crypto: init(sig: var Signature; data: openArray[byte]): bool
crypto: init(sig: var Signature; data: string): bool
crypto: init[T: PrivateKey | PublicKey](key: var T; data: string): bool
crypto: init(t: typedesc[PrivateKey]; key: rsa.RsaPrivateKey): PrivateKey
crypto: init(t: typedesc[PrivateKey]; key: ecnist.EcPrivateKey): PrivateKey
crypto: init(t: typedesc[PrivateKey]; key: EdPrivateKey): PrivateKey
crypto: init(t: typedesc[PrivateKey]; data: openArray[byte]): CryptoResult[PrivateKey]
crypto: init(t: typedesc[PrivateKey]; key: SkPrivateKey): PrivateKey
crypto: init(t: typedesc[PrivateKey]; data: string): CryptoResult[PrivateKey]
crypto: init(t: typedesc[PublicKey]; key: rsa.RsaPublicKey): PublicKey
crypto: init(t: typedesc[PublicKey]; key: ecnist.EcPublicKey): PublicKey
crypto: init(t: typedesc[PublicKey]; key: EdPublicKey): PublicKey
crypto: init(t: typedesc[PublicKey]; data: openArray[byte]): CryptoResult[PublicKey]
crypto: init(t: typedesc[PublicKey]; key: SkPublicKey): PublicKey
crypto: init(t: typedesc[PublicKey]; data: string): CryptoResult[PublicKey]
crypto: init(t: typedesc[Signature]; data: openArray[byte]): CryptoResult[Signature]
crypto: init(t: typedesc[Signature]; data: string): CryptoResult[Signature]
ecnist: init(key: var EcPrivateKey; data: openArray[byte]): Result[void, Asn1Error]
ecnist: init(pubkey: var EcPublicKey; data: openArray[byte]): Result[void, Asn1Error]
ecnist: init(sig: var EcSignature; data: openArray[byte]): Result[void, Asn1Error]
ecnist: init[T: EcPKI](sospk: var T; data: string): Result[void, Asn1Error]
ecnist: init(t: typedesc[EcPrivateKey]; data: openArray[byte]): EcResult[EcPrivateKey]
ecnist: init(t: typedesc[EcPublicKey]; data: openArray[byte]): EcResult[EcPublicKey]
ecnist: init(t: typedesc[EcSignature]; data: openArray[byte]): EcResult[EcSignature]
ecnist: init[T: EcPKI](t: typedesc[T]; data: string): EcResult[T]
ed25519: init(key: var EdPrivateKey; data: openArray[byte]): bool
ed25519: init(key: var EdPrivateKey; data: string): bool
ed25519: init(key: var EdPublicKey; data: openArray[byte]): bool
ed25519: init(key: var EdPublicKey; data: string): bool
ed25519: init(sig: var EdSignature; data: openArray[byte]): bool
ed25519: init(sig: var EdSignature; data: string): bool
ed25519: init(t: typedesc[EdPrivateKey]; data: openArray[byte]): Result[EdPrivateKey, EdError]
ed25519: init(t: typedesc[EdPrivateKey]; data: string): Result[EdPrivateKey, EdError]
ed25519: init(t: typedesc[EdPublicKey]; data: openArray[byte]): Result[EdPublicKey, EdError]
ed25519: init(t: typedesc[EdPublicKey]; data: string): Result[EdPublicKey, EdError]
ed25519: init(t: typedesc[EdSignature]; data: openArray[byte]): Result[EdSignature, EdError]
ed25519: init(t: typedesc[EdSignature]; data: string): Result[EdSignature, EdError]
minasn1: init(t: typedesc[Asn1Buffer]): Asn1Buffer
minasn1: init(t: typedesc[Asn1Buffer]; data: openArray[byte]): Asn1Buffer
minasn1: init(t: typedesc[Asn1Buffer]; data: string): Asn1Buffer
minasn1: init(t: typedesc[Asn1Composite]; tag: Asn1Tag): Asn1Composite
minasn1: init(t: typedesc[Asn1Composite]; idx: int): Asn1Composite
rsa: init(key: var RsaPrivateKey; data: openArray[byte]): Result[void, Asn1Error]
rsa: init(key: var RsaPublicKey; data: openArray[byte]): Result[void, Asn1Error]
rsa: init(sig: var RsaSignature; data: openArray[byte]): Result[void, Asn1Error]
rsa: init[T: RsaPKI](sospk: var T; data: string): Result[void, Asn1Error]
rsa: init(t: typedesc[RsaPrivateKey]; data: openArray[byte]): RsaResult[RsaPrivateKey]
rsa: init(t: typedesc[RsaPublicKey]; data: openArray[byte]): RsaResult[RsaPublicKey]
rsa: init(t: typedesc[RsaSignature]; data: openArray[byte]): RsaResult[RsaSignature]
rsa: init[T: RsaPKI](t: typedesc[T]; data: string): T
secp: init(key: var SkPrivateKey; data: openArray[byte]): SkResult[void]
secp: init(key: var SkPrivateKey; data: string): SkResult[void]
secp: init(key: var SkPublicKey; data: openArray[byte]): SkResult[void]
secp: init(key: var SkPublicKey; data: string): SkResult[void]
secp: init(sig: var SkSignature; data: openArray[byte]): SkResult[void]
secp: init(sig: var SkSignature; data: string): SkResult[void]
secp: init(t: typedesc[SkPrivateKey]; data: openArray[byte]): SkResult[SkPrivateKey]
secp: init(t: typedesc[SkPrivateKey]; data: string): SkResult[SkPrivateKey]
secp: init(t: typedesc[SkPublicKey]; data: openArray[byte]): SkResult[SkPublicKey]
secp: init(t: typedesc[SkPublicKey]; data: string): SkResult[SkPublicKey]
secp: init(t: typedesc[SkSignature]; data: openArray[byte]): SkResult[SkSignature]
secp: init(t: typedesc[SkSignature]; data: string): SkResult[SkSignature]
multiaddress: init(mtype: typedesc[MultiAddress]): MultiAddress
multiaddress: init(mtype: typedesc[MultiAddress]; address: IpAddress; protocol: IpTransportProtocol; port: Port): MultiAddress
multiaddress: init(mtype: typedesc[MultiAddress]; protocol: MultiCodec; value: int): MaResult[ MultiAddress]
multiaddress: init(mtype: typedesc[MultiAddress]; protocol: MultiCodec; value: openArray[byte] = []): MaResult[MultiAddress]
multiaddress: init(mtype: typedesc[MultiAddress]; protocol: MultiCodec; value: PeerId): MaResult[ MultiAddress]
multiaddress: init(mtype: typedesc[MultiAddress]; data: openArray[byte]): MaResult[ MultiAddress]
multiaddress: init(mtype: typedesc[MultiAddress]; value: string): MaResult[MultiAddress]
multiaddress: init(mtype: typedesc[MultiAddress]; address: TransportAddress; protocol = IPPROTO_TCP): MaResult[MultiAddress]
multihash: init[T](mhtype: typedesc[MultiHash]; hashcode: MultiCodec; mdigest: MDigest[T]): MhResult[ MultiHash]
multihash: init(mhtype: typedesc[MultiHash]; hashcode: MultiCodec; bdigest: openArray[byte]): MhResult[ MultiHash]
multihash: init(mhtype: typedesc[MultiHash]; data: openArray[byte]): MhResult[MultiHash]
multihash: init(mhtype: typedesc[MultiHash]; data: string): MhResult[MultiHash]
multihash: init[T](mhtype: typedesc[MultiHash]; hashname: string; mdigest: MDigest[T]): MhResult[ MultiHash]
multihash: init(mhtype: typedesc[MultiHash]; hashname: string; bdigest: openArray[byte]): MhResult[ MultiHash]
peerid: init(pid: var PeerId; data: openArray[byte]): bool
peerid: init(pid: var PeerId; data: string): bool
peerid: init(t: typedesc[PeerId]; data: openArray[byte]): Result[PeerId, cstring]
peerid: init(t: typedesc[PeerId]; seckey: PrivateKey): Result[PeerId, cstring]
peerid: init(t: typedesc[PeerId]; pubkey: PublicKey): Result[PeerId, cstring]
peerid: init(t: typedesc[PeerId]; data: string): Result[PeerId, cstring]
messages: init(T: typedesc[Voucher]; relayPeerId: PeerId; reservingPeerId: PeerId; expiration: uint64): T:type
identify: init(p: IdentifyPush)
identify: init(p: Identify)
ping: init(p: Ping)
protocol: init(p: LPProtocol)
floodsub: init(f: FloodSub)
gossipsub: init(_: type[GossipSubParams]; pruneBackoff = 1.minutes; unsubscribeBackoff = 5.seconds; floodPublish = true; gossipFactor: float64 = 0.25; d = GossipSubD; dLow = GossipSubDlo; dHigh = GossipSubDhi; dScore = GossipSubDlo; dOut = GossipSubDlo - 1; dLazy = GossipSubD; heartbeatInterval = GossipSubHeartbeatInterval; historyLength = GossipSubHistoryLength; historyGossip = GossipSubHistoryGossip; fanoutTTL = GossipSubFanoutTTL; seenTTL = 2.minutes; gossipThreshold = -100.0; publishThreshold = -1000.0; graylistThreshold = -10000.0; opportunisticGraftThreshold = 0.0; decayInterval = 1.seconds; decayToZero = 0.01; retainScore = 2.minutes; appSpecificWeight = 0.0; ipColocationFactorWeight = 0.0; ipColocationFactorThreshold = 1.0; behaviourPenaltyWeight = -1.0; behaviourPenaltyDecay = 0.999; directPeers = initTable(); disconnectBadPeers = false; enablePX = false; bandwidthEstimatebps = 100000000; overheadRateLimit = Opt.none(tuple[bytes: int, interval: Duration]); disconnectPeerAboveRateLimit = false; maxNumElementsInNonPriorityQueue = DefaultMaxNumElementsInNonPriorityQueue): GossipSubParams
gossipsub: init(g: GossipSub)
scoring: init(_: type[TopicParams]): TopicParams
mcache: init(T: type MCache; window, history: Natural): T:type
pubsub: init[PubParams: object | bool](P: typedesc[PubSub]; switch: Switch; triggerSelf: bool = false; anonymize: bool = false; verifySignature: bool = true; sign: bool = true; msgIdProvider: MsgIdProvider = defaultMsgIdProvider; subscriptionValidator: SubscriptionValidator = nil; maxMessageSize: int = 1024 * 1024; rng: ref HmacDrbgContext = newRng(); parameters: PubParams = false): P:type
message: init(T: type Message; peer: Option[PeerInfo]; data: seq[byte]; topic: string; seqno: Option[uint64]; sign: bool = true): Message
message: init(T: type Message; peerId: PeerId; data: seq[byte]; topic: string; seqno: Option[uint64]): Message
timedcache: init[K](T: type TimedCache[K]; timeout: Duration = Timeout): T:type
noise: init(p: Noise)
secure: init(s: Secure)
routing_record: init(T: typedesc[PeerRecord]; peerId: PeerId; addresses: seq[MultiAddress]; seqNo = toUnix(getTime()).uint64): T:type
signed_envelope: init(T: typedesc[Envelope]; privateKey: PrivateKey; payloadType: seq[byte]; payload: seq[byte]; domain: string): Result[Envelope, CryptoError]
signed_envelope: init[T](_: typedesc[SignedPayload[T]]; privateKey: PrivateKey; data: T): Result[ SignedPayload[T], CryptoError]
chronosstream: init(C: type ChronosStream; client: StreamTransport; dir: Direction; timeout = DefaultChronosStreamTimeout; observedAddr: Opt[MultiAddress]): ChronosStream
init58:
multihash: init58(mhtype: typedesc[MultiHash]; data: string): MultiHash
InitializationError:
pubsub: InitializationError
initOffsettedSeq:
offsettedseq: initOffsettedSeq[T](offset: int = 0): OffsettedSeq[T]
initProtoBuffer:
minprotobuf: initProtoBuffer(data: openArray[byte]; offset = 0; options: set[ProtoFlags] = {}; maxSize = MaxMessageSize): ProtoBuffer
minprotobuf: initProtoBuffer(data: seq[byte]; offset = 0; options: set[ProtoFlags] = {}; maxSize = MaxMessageSize): ProtoBuffer
minprotobuf: initProtoBuffer(options: set[ProtoFlags] = {}; maxSize = MaxMessageSize): ProtoBuffer
initPubSub:
floodsub: initPubSub(f: FloodSub)
gossipsub: initPubSub(g: GossipSub)
pubsub: initPubSub(p: PubSub)
initRaw:
ecnist: initRaw(key: var EcPrivateKey; data: openArray[byte]): bool
ecnist: initRaw(pubkey: var EcPublicKey; data: openArray[byte]): bool
ecnist: initRaw(sig: var EcSignature; data: openArray[byte]): bool
ecnist: initRaw[T: EcPKI](sospk: var T; data: string): bool
ecnist: initRaw(t: typedesc[EcPrivateKey]; data: openArray[byte]): EcResult[EcPrivateKey]
ecnist: initRaw(t: typedesc[EcPublicKey]; data: openArray[byte]): EcResult[EcPublicKey]
ecnist: initRaw(t: typedesc[EcSignature]; data: openArray[byte]): EcResult[EcSignature]
ecnist: initRaw[T: EcPKI](t: typedesc[T]; data: string): T
initStream:
secure: initStream(s: SecureConn)
bufferstream: initStream(s: BufferStream)
chronosstream: initStream(s: ChronosStream)
connection: initStream(s: Connection)
lpstream: initStream(s: LPStream)
wstransport: initStream(s: WsStream)
initTAddress:
wire: initTAddress(ma: MultiAddress): MaResult[TransportAddress]
initVBuffer:
vbuffer: initVBuffer(): VBuffer
vbuffer: initVBuffer(data: openArray[byte]; offset = 0): VBuffer
vbuffer: initVBuffer(data: seq[byte]; offset = 0): VBuffer
InternalError:
ResponseStatus.InternalError
intoChaChaPolyKey:
chacha20poly1305: intoChaChaPolyKey(s: openArray[byte]): ChaChaPolyKey
intoChaChaPolyNonce:
chacha20poly1305: intoChaChaPolyNonce(s: openArray[byte]): ChaChaPolyNonce
intoChaChaPolyTag:
chacha20poly1305: intoChaChaPolyTag(s: openArray[byte]): ChaChaPolyTag
intoCurve25519Key:
curve25519: intoCurve25519Key(s: openArray[byte]): Curve25519Key
InvalidChannelIdError:
mplex: InvalidChannelIdError
InvalidMplexMsgType:
coder: InvalidMplexMsgType
InvalidMultiCodec:
multicodec: InvalidMultiCodec
InvalidVarintError:
lpstream: InvalidVarintError
IP:
multiaddress: IP
IP4:
multiaddress: IP4
IP6:
multiaddress: IP6
IPFS:
multiaddress: IPFS
IpTransportProtocol:
multiaddress: IpTransportProtocol
isConnected:
switch: isConnected(s: Switch; peerId: PeerId): bool
isEmpty:
minasn1: isEmpty(ab: Asn1Buffer): bool
multiaddress: isEmpty(ma: MultiAddress): bool
minprotobuf: isEmpty(pb: ProtoBuffer): bool
vbuffer: isEmpty(vb: VBuffer): bool
isEnough:
minasn1: isEnough(ab: Asn1Buffer; length: int64): bool
minprotobuf: isEnough(pb: ProtoBuffer; length: int): bool
vbuffer: isEnough(vb: VBuffer; length: int): bool
isPublicMA:
wire: isPublicMA(ma: MultiAddress): bool
isRelayed:
relay: isRelayed(conn: Connection): bool
items:
multiaddress: items(ma: MultiAddress): MaResult[MultiAddress]
offsettedseq: items[T](o: OffsettedSeq[T]): T
iv:
crypto: iv(secret: Secret; id: int): seq[byte]
ivOpenArray:
crypto: ivOpenArray(secret: Secret; id: int): untyped
join:
lpstream: join(s: LPStream): InternalRaisesFuture[void, (CancelledError,)]
key:
crypto: key(secret: Secret; id: int): seq[byte]
KeyError:
CryptoError.KeyError
keyOpenArray:
crypto: keyOpenArray(secret: Secret; id: int): untyped
KeyPair:
crypto: KeyPair
KnownLibP2PTopics:
pubsub: KnownLibP2PTopics
KnownLibP2PTopicsSeq:
pubsub: KnownLibP2PTopicsSeq
len:
minasn1: len(field: Asn1Field): int
minasn1: len[T: Asn1Buffer | Asn1Composite](abc: T): int
multiaddress: len(ma: MultiAddress): MaResult[int]
peerid: len(pid: PeerId): int
bufferstream: len(s: BufferStream): int
streamseq: len(v: StreamSeq): int
vbuffer: len(vb: VBuffer): int
Length:
MAKind.Length
ProtoFieldKind.Length
libp2p_failed_upgrades_incoming:
upgrade: libp2p_failed_upgrades_incoming
libp2p_failed_upgrades_outgoing:
upgrade: libp2p_failed_upgrades_outgoing
libp2p_gossipsub_peers_rate_limit_hits:
scoring: libp2p_gossipsub_peers_rate_limit_hits
libp2p_pki_schemes:
crypto: libp2p_pki_schemes
libp2p_pubsub_broadcast_graft:
pubsub: libp2p_pubsub_broadcast_graft
libp2p_pubsub_broadcast_ihave:
pubsub: libp2p_pubsub_broadcast_ihave
libp2p_pubsub_broadcast_iwant:
pubsub: libp2p_pubsub_broadcast_iwant
libp2p_pubsub_broadcast_messages:
pubsub: libp2p_pubsub_broadcast_messages
libp2p_pubsub_broadcast_prune:
pubsub: libp2p_pubsub_broadcast_prune
libp2p_pubsub_broadcast_subscriptions:
pubsub: libp2p_pubsub_broadcast_subscriptions
libp2p_pubsub_broadcast_unsubscriptions:
pubsub: libp2p_pubsub_broadcast_unsubscriptions
libp2p_pubsub_messages_published:
pubsub: libp2p_pubsub_messages_published
libp2p_pubsub_messages_rebroadcasted:
pubsub: libp2p_pubsub_messages_rebroadcasted
libp2p_pubsub_received_graft:
pubsub: libp2p_pubsub_received_graft
libp2p_pubsub_received_ihave:
pubsub: libp2p_pubsub_received_ihave
libp2p_pubsub_received_iwant:
pubsub: libp2p_pubsub_received_iwant
libp2p_pubsub_received_messages:
pubsub: libp2p_pubsub_received_messages
libp2p_pubsub_received_prune:
pubsub: libp2p_pubsub_received_prune
libp2p_pubsub_received_subscriptions:
pubsub: libp2p_pubsub_received_subscriptions
libp2p_pubsub_received_unsubscriptions:
pubsub: libp2p_pubsub_received_unsubscriptions
Limit:
messages: Limit
list:
multistream: list(m: MultistreamSelect; conn: Connection): InternalRaisesFuture[seq[string], (CancelledError, LPStreamError, MultiStreamError)]
low:
offsettedseq: low[T](o: OffsettedSeq[T]): int
LP:
varint: LP
LPError:
errors: LPError
LPProtocol:
protocol: LPProtocol
LPProtoHandler:
protocol: LPProtoHandler
LPSomeUVarint:
varint: LPSomeUVarint
LPSomeVarint:
varint: LPSomeVarint
LPStream:
lpstream: LPStream
LPStreamClosedError:
lpstream: LPStreamClosedError
LPStreamConnDownError:
lpstream: LPStreamConnDownError
LPStreamEOFError:
lpstream: LPStreamEOFError
LPStreamError:
lpstream: LPStreamError
LPStreamIncompleteError:
lpstream: LPStreamIncompleteError
LPStreamLimitError:
lpstream: LPStreamLimitError
LPStreamRemoteClosedError:
lpstream: LPStreamRemoteClosedError
LPStreamResetError:
lpstream: LPStreamResetError
LPStreamTrackerName:
lpstream: LPStreamTrackerName
mac:
crypto: mac(secret: Secret; id: int): seq[byte]
macOpenArray:
crypto: macOpenArray(secret: Secret; id: int): untyped
MaError:
multiaddress: MaError
MaInvalidAddress:
multiaddress: MaInvalidAddress
MAKind:
multiaddress: MAKind
MalformedMessage:
StatusV2.MalformedMessage
mapAnd:
multiaddress: mapAnd(args: varargs[MaPattern]): MaPattern
MaPatResult:
multiaddress: MaPatResult
MaPattern:
multiaddress: MaPattern
MaPatternOp:
multiaddress: MaPatternOp
mapEq:
multiaddress: mapEq(codec: string): MaPattern
mapOr:
multiaddress: mapOr(args: varargs[MaPattern]): MaPattern
MAProtocol:
multiaddress: MAProtocol
MaResult:
multiaddress: MaResult
Marker:
MAKind.Marker
match:
multiaddress: match(pat: MaPattern; address: MultiAddress): bool
peerid: match(pid: PeerId; seckey: PrivateKey): bool
peerid: match(pid: PeerId; pubkey: PublicKey): bool
Matcher:
multistream: Matcher
matchPartial:
multiaddress: matchPartial(pat: MaPattern; address: MultiAddress): bool
MaxCircuit:
relay: MaxCircuit
MaxCircuitPerPeer:
relay: MaxCircuitPerPeer
MaxConnections:
connmanager: MaxConnections
MaxConnectionsPerPeer:
connmanager: MaxConnectionsPerPeer
MaxHashSize:
multihash: MaxHashSize
maxIncomingStreams:
protocol: maxIncomingStreams(p: LPProtocol): int
maxIncomingStreams=:
protocol: maxIncomingStreams=(p: LPProtocol; val: int)
maxInlineKeyLength:
peerid: maxInlineKeyLength
MaxMsgSize:
coder: MaxMsgSize
MaxSizeError:
lpstream: MaxSizeError
MCache:
mcache: MCache
MeshMetrics:
types: MeshMetrics
Message:
messages: Message
MessageId:
messages: MessageId
MessageType:
coder: MessageType
MHash:
multihash: MHash
MHashCoderProc:
multihash: MHashCoderProc
MhResult:
multihash: MhResult
MinimumDuration:
rendezvous: MinimumDuration
MinKeySize:
rsa: MinKeySize
mount:
switch: mount[T: LPProtocol](s: Switch; proto: T; matcher: Matcher = nil)
Mplex:
mplex: Mplex
MplexCodec:
mplex: MplexCodec
Msg:
coder: Msg
MsgIdProvider:
pubsub: MsgIdProvider
MsgType:
core: MsgType
mul:
curve25519: mul(_: type[Curve25519]; point: var Curve25519Key; multiplier: Curve25519Key)
MultiAddress:
multiaddress: MultiAddress
MultiBase:
multibase: MultiBase
MultiBaseStatus:
multibase: MultiBaseStatus
MultiCodec:
multicodec: MultiCodec
multiCodec:
multicodec: multiCodec(code: int): MultiCodec
multicodec: multiCodec(name: string): MultiCodec
MultiCodecError:
multicodec: MultiCodecError
MultiCodecNotSupported:
MultiCodecError.MultiCodecNotSupported
MultiHash:
multihash: MultiHash
MultiStreamError:
multistream: MultiStreamError
MultistreamSelect:
multistream: MultistreamSelect
MuxedUpgrade:
muxedupgrade: MuxedUpgrade
Muxer:
muxer: Muxer
MuxerConstructor:
muxer: MuxerConstructor
MuxerError:
muxer: MuxerError
MuxerHandler:
muxer: MuxerHandler
MuxerProvider:
muxer: MuxerProvider
NameResolver:
nameresolver: NameResolver
NetworkReachability:
core: NetworkReachability
new:
builders: new(T: type[SwitchBuilder]): T:type
connmanager: new(C: type ConnManager; maxConnsPerPeer = MaxConnectionsPerPeer; maxConnections = MaxConnections; maxIn = -1; maxOut = -1): ConnManager
dialer: new(T: type Dialer; localPeerId: PeerId; connManager: ConnManager; peerStore: PeerStore; transports: seq[Transport]; nameResolver: NameResolver = nil): Dialer
multistream: new(T: typedesc[MultistreamSelect]): T:type
mplex: new(M: type Mplex; conn: Connection; inTimeout: Duration = DefaultChanTimeout; outTimeout: Duration = DefaultChanTimeout; maxChannCount: int = MaxChannelCount): Mplex
muxer: new(T: typedesc[MuxerProvider]; creator: MuxerConstructor; codec: string): T:type
yamux: new(T: type[Yamux]; conn: Connection; maxChannCount: int = MaxChannelCount; windowSize: int = YamuxDefaultWindowSize; maxSendQueueSize: int = MaxSendQueueSize; inTimeout: Duration = 5.minutes; outTimeout: Duration = 5.minutes): T:type
observedaddrmanager: new(T: typedesc[ObservedAddrManager]; maxSize = 10; minCount = 3): T:type
peerinfo: new(p: typedesc[PeerInfo]; key: PrivateKey; listenAddrs: openArray[MultiAddress] = []; protocols: openArray[string] = []; protoVersion: string = ""; agentVersion: string = ""; addressMappers = newSeq[AddressMapper]()): PeerInfo
server: new(T: typedesc[Autonat]; switch: Switch; semSize: int = 1; dialTimeout = 15.seconds): T:type
client: new(T: typedesc[RelayClient]; canHop: bool = false; reservationTTL: times.Duration = DefaultReservationTTL; limitDuration: uint32 = DefaultLimitDuration; limitData: uint64 = DefaultLimitData; heartbeatSleepTime: uint32 = DefaultHeartbeatSleepTime; maxCircuit: int = MaxCircuit; maxCircuitPerPeer: int = MaxCircuitPerPeer; msgSize: int = RelayClientMsgSize; circuitRelayV1: bool = false): T:type
rconn: new(T: typedesc[RelayConnection]; conn: Connection; limitDuration: uint32; limitData: uint64): T:type
relay: new(T: typedesc[Relay]; reservationTTL: times.Duration = DefaultReservationTTL; limitDuration: uint32 = DefaultLimitDuration; limitData: uint64 = DefaultLimitData; heartbeatSleepTime: uint32 = DefaultHeartbeatSleepTime; maxCircuit: int = MaxCircuit; maxCircuitPerPeer: int = MaxCircuitPerPeer; msgSize: int = RelayMsgSize; circuitRelayV1: bool = false): T:type
rtransport: new(T: typedesc[RelayTransport]; cl: RelayClient; upgrader: Upgrade): T:type
identify: new(T: typedesc[Identify]; peerInfo: PeerInfo; sendSignedPeerRecord = false; observedAddrManager = ObservedAddrManager.new()): T:type
identify: new(T: typedesc[IdentifyPush]; handler: IdentifyPushHandler = nil): T:type
ping: new(T: typedesc[Ping]; handler: PingHandler = nil; rng: ref HmacDrbgContext = newRng()): T:type
protocol: new(T: type LPProtocol; codecs: seq[string]; handler: LPProtoHandler; maxIncomingStreams: Opt[int] | int = Opt.none(int)): T:type
protocol: new[E](T: type LPProtocol; codecs: seq[string]; handler: proc (conn: Connection; proto: string): InternalRaisesFuture[void, E]; maxIncomingStreams: Opt[int] | int = Opt.none(int)): T:type
pubsubpeer: new(T: typedesc[PubSubPeer]; peerId: PeerId; getConn: GetConn; onEvent: OnEvent; codec: string; maxMessageSize: int; maxNumElementsInNonPriorityQueue: int = DefaultMaxNumElementsInNonPriorityQueue; overheadRateLimitOpt: Opt[TokenBucket] = Opt.none(TokenBucket)): T:type
rendezvous: new(T: typedesc[RendezVous]; rng: ref HmacDrbgContext = newRng()): T:type
rendezvous: new(T: typedesc[RendezVous]; switch: Switch; rng: ref HmacDrbgContext = newRng()): T:type
noise: new(T: typedesc[Noise]; rng: ref HmacDrbgContext; privateKey: PrivateKey; outgoing: bool = true; commonPrologue: seq[byte] = @[]): T:type
secure: new(T: type SecureConn; conn: Connection; peerId: PeerId; observedAddr: Opt[MultiAddress]; timeout: Duration = DefaultConnectionTimeout): T:type
bufferstream: new(T: typedesc[BufferStream]; timeout: Duration = DefaultConnectionTimeout): T:type
connection: new(C: type Connection; peerId: PeerId; dir: Direction; observedAddr: Opt[MultiAddress]; timeout: Duration = DefaultConnectionTimeout; timeoutHandler: TimeoutHandler = nil): Connection
tcptransport: new(T: typedesc[TcpTransport]; flags: set[ServerFlags] = {}; upgrade: Upgrade; connectionsTimeout = 10.minutes): T:type
wstransport: new(T: typedesc[WsTransport]; upgrade: Upgrade; flags: set[ServerFlags] = {}; factories: openArray[ExtFactory] = []; rng: ref HmacDrbgContext = nil; handshakeTimeout = DefaultHeadersTimeout): T:type
wstransport: new(T: typedesc[WsTransport]; upgrade: Upgrade; tlsPrivateKey: TLSPrivateKey; tlsCertificate: TLSCertificate; tlsFlags: set[TLSFlags] = {}; flags: set[ServerFlags] = {}; factories: openArray[ExtFactory] = []; rng: ref HmacDrbgContext = nil; handshakeTimeout = DefaultHeadersTimeout): T:type
wstransport: new(T: type WsStream; session: WSSession; dir: Direction; observedAddr: Opt[MultiAddress]; timeout = 10.minutes): T:type
muxedupgrade: new(T: type MuxedUpgrade; muxers: seq[MuxerProvider]; secureManagers: openArray[Secure] = []; ms: MultistreamSelect): T:type
newAsyncSemaphore:
semaphore: newAsyncSemaphore(size: int): AsyncSemaphore
newInvalidMplexMsgType:
coder: newInvalidMplexMsgType(): ref InvalidMplexMsgType
newLPStreamClosedError:
lpstream: newLPStreamClosedError(): ref LPStreamClosedError
newLPStreamConnDownError:
lpstream: newLPStreamConnDownError(parentException: ref Exception = nil): ref LPStreamConnDownError
newLPStreamEOFError:
lpstream: newLPStreamEOFError(): ref LPStreamEOFError
newLPStreamIncompleteError:
lpstream: newLPStreamIncompleteError(): ref LPStreamIncompleteError
newLPStreamLimitError:
lpstream: newLPStreamLimitError(): ref LPStreamLimitError
newLPStreamRemoteClosedError:
lpstream: newLPStreamRemoteClosedError(): ref LPStreamRemoteClosedError
newLPStreamResetError:
lpstream: newLPStreamResetError(): ref LPStreamResetError
newRng:
crypto: newRng(): ref HmacDrbgContext
newStandardSwitch:
builders: newStandardSwitch(privKey = none(PrivateKey); addrs: MultiAddress | seq[MultiAddress] = init(MultiAddress, "/ip4/127.0.0.1/tcp/0").expect( "valid address"); secureManagers: openArray[SecureProtocol] = [ SecureProtocol.Noise]; transportFlags: set[ServerFlags] = {}; rng = newRng(); inTimeout: Duration = 5.minutes; outTimeout: Duration = 5.minutes; maxConnections = MaxConnections; maxIn = -1; maxOut = -1; maxConnsPerPeer = MaxConnectionsPerPeer; nameResolver: NameResolver = nil; sendSignedPeerRecord = false; peerStoreCapacity = 1000): Switch
newStream:
mplex: newStream(m: Mplex; name: string = ""; lazy: bool = false): InternalRaisesFuture[ Connection, (CancelledError, LPStreamError, MuxerError)]
muxer: newStream(m: Muxer; name: string = ""; lazy: bool = false): InternalRaisesFuture[ Connection, (CancelledError, LPStreamError, MuxerError)]
yamux: newStream(m: Yamux; name: string = ""; lazy: bool = false): InternalRaisesFuture[ Connection, (CancelledError, LPStreamError, MuxerError)]
newSwitch:
switch: newSwitch(peerInfo: PeerInfo; transports: seq[Transport]; secureManagers: openArray[Secure] = []; connManager: ConnManager; ms: MultistreamSelect; peerStore: PeerStore; nameResolver: NameResolver = nil; services = newSeq()): Switch
newTransportClosedError:
transport: newTransportClosedError(parent: ref Exception = nil): ref TransportError
Noise:
noise: Noise
NoiseCodec:
noise: NoiseCodec
NoiseConnection:
noise: NoiseConnection
NoiseDecryptTagError:
noise: NoiseDecryptTagError
NoiseError:
noise: NoiseError
NoiseHandshakeError:
noise: NoiseHandshakeError
NoiseNonceMaxError:
noise: NoiseNonceMaxError
NoiseOversizedPayloadError:
noise: NoiseOversizedPayloadError
None:
MAKind.None
NoReservation:
StatusV2.NoReservation
ObservedAddrManager:
observedaddrmanager: ObservedAddrManager
OffsettedSeq:
offsettedseq: OffsettedSeq
Ok:
ResponseStatus.Ok
StatusV2.Ok
OnEvent:
pubsubpeer: OnEvent
Onion3:
multiaddress: Onion3
onNewPeer:
gossipsub: onNewPeer(g: GossipSub; peer: PubSubPeer)
onPubSubPeerEvent:
gossipsub: onPubSubPeerEvent(p: GossipSub; peer: PubSubPeer; event: PubSubPeerEvent)
pubsub: onPubSubPeerEvent(p: PubSub; peer: PubSubPeer; event: PubSubPeerEvent)
onTopicSubscription:
gossipsub: onTopicSubscription(g: GossipSub; topic: string; subscribed: bool)
pubsub: onTopicSubscription(p: PubSub; topic: string; subscribed: bool)
Or:
MaPatternOp.Or
orError:
crypto: orError(exp: untyped; err: untyped): untyped
outbound:
pubsubpeer: outbound(p: PubSubPeer): bool
outboundPeers:
peertable: outboundPeers(table: PeerTable; topic: string): int
P2PPattern:
multiaddress: P2PPattern
parseFullAddress:
peerinfo: parseFullAddress(ma: string | seq[byte]): MaResult[(PeerId, MultiAddress)]
peerinfo: parseFullAddress(ma: MultiAddress): MaResult[(PeerId, MultiAddress)]
Path:
MAKind.Path
payload:
signed_envelope: payload(env: Envelope): seq[byte]
payloadDomain:
messages: payloadDomain(_: typedesc[Voucher]): string
routing_record: payloadDomain(T: typedesc[PeerRecord]): string
payloadType:
messages: payloadType(_: typedesc[Voucher]): seq[byte]
routing_record: payloadType(T: typedesc[PeerRecord]): seq[byte]
PB:
varint: PB
PBSomeSVarint:
varint: PBSomeSVarint
PBSomeUVarint:
varint: PBSomeUVarint
PBSomeVarint:
varint: PBSomeVarint
PBZigVarint:
varint: PBZigVarint
peekArray:
vbuffer: peekArray[T: char | byte](vb: var VBuffer; value: var openArray[T]): int
peekSeq:
vbuffer: peekSeq[T: string | seq[byte]](vb: var VBuffer; value: var T): int
peekVarint:
vbuffer: peekVarint(vb: var VBuffer; value: var LPSomeUVarint): int
Peer:
messages: Peer
PeerEvent:
connmanager: PeerEvent
PeerEventHandler:
connmanager: PeerEventHandler
PeerEventKind:
connmanager: PeerEventKind
peerExchangeList:
behavior: peerExchangeList(g: GossipSub; topic: string): seq[PeerInfoMsg]
PeerId:
peerid: PeerId
PeerInfo:
peerinfo: PeerInfo
PeerInfoError:
peerinfo: PeerInfoError
PeerInfoMsg:
messages: PeerInfoMsg
PeerRateLimitError:
pubsubpeer: PeerRateLimitError
PeerRecord:
routing_record: PeerRecord
peers:
peertable: peers(table: PeerTable; topic: string): int
PeerStats:
types: PeerStats
PeerTable:
peertable: PeerTable
PermissionDenied:
StatusV2.PermissionDenied
Ping:
ping: Ping
ping:
ping: ping(p: Ping; conn: Connection): Future[Duration]
PingCodec:
ping: PingCodec
PingError:
ping: PingError
PingHandler:
ping: PingHandler
PingsPeerBudget:
types: PingsPeerBudget
PKScheme:
crypto: PKScheme
prepare:
streamseq: prepare(v: var StreamSeq; n: int): var openArray[byte]
PrivateKey:
crypto: PrivateKey
protoAddress:
multiaddress: protoAddress(ma: MultiAddress): MaResult[seq[byte]]
protoArgument:
multiaddress: protoArgument(ma: MultiAddress): MaResult[seq[byte]]
multiaddress: protoArgument(ma: MultiAddress; value: var openArray[byte]): MaResult[int]
ProtoBuffer:
minprotobuf: ProtoBuffer
protoCode:
multiaddress: protoCode(ma: MultiAddress): MaResult[MultiCodec]
protocols:
multiaddress: protocols(value: MultiAddress): MaResult[seq[MultiCodec]]
ProtoError:
minprotobuf: ProtoError
ProtoField:
minprotobuf: ProtoField
ProtoFieldKind:
minprotobuf: ProtoFieldKind
ProtoFlags:
minprotobuf: ProtoFlags
ProtoHeader:
minprotobuf: ProtoHeader
protoName:
multiaddress: protoName(ma: MultiAddress): MaResult[string]
ProtoResult:
minprotobuf: ProtoResult
ProtoScalar:
minprotobuf: ProtoScalar
ProtoVersion:
identify: ProtoVersion
pruned:
behavior: pruned(g: GossipSub; p: PubSubPeer; topic: string; setBackoff: bool = true; backoff = none(Duration))
pubkey:
rsa: pubkey(pair: RsaKeyPair): RsaPublicKey
secp: pubkey(v: SkKeyPair): SkPublicKey
PubKey256Length:
ecnist: PubKey256Length
PubKey384Length:
ecnist: PubKey384Length
PubKey521Length:
ecnist: PubKey521Length
public:
curve25519: public(private: Curve25519Key): Curve25519Key
utility: public()
PublicKey:
crypto: PublicKey
publish:
floodsub: publish(f: FloodSub; topic: string; data: seq[byte]): Future[int]
gossipsub: publish(g: GossipSub; topic: string; data: seq[byte]): Future[int]
pubsub: publish(p: PubSub; topic: string; data: seq[byte]): Future[int]
PubSub:
pubsub: PubSub
PubSubObserver:
pubsubpeer: PubSubObserver
PubSubPeer:
pubsubpeer: PubSubPeer
PubSubPeerEvent:
pubsubpeer: PubSubPeerEvent
PubSubPeerEventKind:
pubsubpeer: PubSubPeerEventKind
punishInvalidMessage:
scoring: punishInvalidMessage(g: GossipSub; peer: PubSubPeer; msg: Message): Future[void]
push:
identify: push(p: IdentifyPush; peerInfo: PeerInfo; conn: Connection): Future[void]
pushData:
bufferstream: pushData(s: BufferStream; data: seq[byte]): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
pushEof:
bufferstream: pushEof(s: BufferStream): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
put:
mcache: put(c: var MCache; msgId: MessageId; msg: Message)
timedcache: put[K](t: var TimedCache[K]; k: K; now = Moment.now()): bool
putSVarint:
varint: putSVarint(pbytes: var openArray[byte]; outsize: var int; outval: (PBZigVarint | PBSomeSVarint)): VarintResult[void]
putUVarint:
varint: putUVarint[T: PB | LP](vtype: typedesc[T]; pbytes: var openArray[byte]; outlen: var int; outval: SomeUVarint): VarintResult[void]
putVarint:
varint: putVarint[T: PB | LP](vtype: typedesc[T]; pbytes: var openArray[byte]; nbytes: var int; value: SomeVarint): VarintResult[void]
QUIC:
multiaddress: QUIC
random:
crypto: random(T: typedesc[KeyPair]; rng: var HmacDrbgContext; bits = RsaDefaultKeySize): CryptoResult[ KeyPair]
crypto: random(T: typedesc[KeyPair]; scheme: PKScheme; rng: var HmacDrbgContext; bits = RsaDefaultKeySize): CryptoResult[KeyPair]
crypto: random(T: typedesc[PrivateKey]; rng: var HmacDrbgContext; bits = RsaDefaultKeySize): CryptoResult[PrivateKey]
crypto: random(T: typedesc[PrivateKey]; scheme: PKScheme; rng: var HmacDrbgContext; bits = RsaDefaultKeySize): CryptoResult[PrivateKey]
curve25519: random(_: type[Curve25519Key]; rng: var HmacDrbgContext): Curve25519Key
ecnist: random(T: typedesc[EcKeyPair]; kind: EcCurveKind; rng: var HmacDrbgContext): EcResult[ T]
ecnist: random(T: typedesc[EcPrivateKey]; kind: EcCurveKind; rng: var HmacDrbgContext): EcResult[ EcPrivateKey]
ed25519: random(t: typedesc[EdKeyPair]; rng: var HmacDrbgContext): EdKeyPair
ed25519: random(t: typedesc[EdPrivateKey]; rng: var HmacDrbgContext): EdPrivateKey
rsa: random[T: RsaKP](t: typedesc[T]; rng: var HmacDrbgContext; bits = DefaultKeySize; pubexp = DefaultPublicExponent): RsaResult[ T]
secp: random(t: typedesc[SkKeyPair]; rng: var HmacDrbgContext): SkKeyPair
secp: random(t: typedesc[SkPrivateKey]; rng: var HmacDrbgContext): SkPrivateKey
peerid: random(t: typedesc[PeerId]; rng = newRng()): Result[PeerId, cstring]
rateLimit:
gossipsub: rateLimit(g: GossipSub; peer: PubSubPeer; overhead: int): Future[void]
read:
minasn1: read(ab: var Asn1Buffer): Asn1Result[Asn1Field]
readArray:
vbuffer: readArray[T: char | byte](vb: var VBuffer; value: var openArray[T]): int
readExactly:
lpstream: readExactly(s: LPStream; pbytes: pointer; nbytes: int): InternalRaisesFuture[ void, (CancelledError, LPStreamError)]
readLine:
lpstream: readLine(s: LPStream; limit = 0; sep = "\r "): InternalRaisesFuture[string, (CancelledError, LPStreamError)]
readLp:
lpstream: readLp(s: LPStream; maxSize: int): InternalRaisesFuture[seq[byte], (CancelledError, LPStreamError)]
readMessage:
noise: readMessage(sconn: NoiseConnection): InternalRaisesFuture[seq[byte], (CancelledError, LPStreamError)]
secure: readMessage(c: SecureConn): InternalRaisesFuture[seq[byte], (CancelledError, LPStreamError)]
readMsg:
coder: readMsg(conn: Connection): InternalRaisesFuture[Msg, (CancelledError, LPStreamError, MuxerError)]
readOnce:
yamux: readOnce(channel: YamuxChannel; pbytes: pointer; nbytes: int): InternalRaisesFuture[ int, (CancelledError, LPStreamError)]
rconn: readOnce(self: RelayConnection; pbytes: pointer; nbytes: int): InternalRaisesFuture[ int, (CancelledError, LPStreamError)]
secure: readOnce(s: SecureConn; pbytes: pointer; nbytes: int): InternalRaisesFuture[int, (CancelledError, LPStreamError)]
bufferstream: readOnce(s: BufferStream; pbytes: pointer; nbytes: int): InternalRaisesFuture[ int, (CancelledError, LPStreamError)]
chronosstream: readOnce(s: ChronosStream; pbytes: pointer; nbytes: int): InternalRaisesFuture[ int, (CancelledError, LPStreamError)]
lpstream: readOnce(s: LPStream; pbytes: pointer; nbytes: int): InternalRaisesFuture[int, (CancelledError, LPStreamError)]
wstransport: readOnce(s: WsStream; pbytes: pointer; nbytes: int): InternalRaisesFuture[int, (CancelledError, LPStreamError)]
readSeq:
vbuffer: readSeq[T: string | seq[byte]](vb: var VBuffer; value: var T): int
readVarint:
lpstream: readVarint(conn: LPStream): InternalRaisesFuture[uint64, (CancelledError, LPStreamError)]
vbuffer: readVarint(vb: var VBuffer; value: var LPSomeUVarint): int
rebalanceMesh:
behavior: rebalanceMesh(g: GossipSub; topic: string; metrics: ptr MeshMetrics = nil)
recvObservers:
pubsubpeer: recvObservers(p: PubSubPeer; msg: var RPCMsg)
Relay:
relay: Relay
RelayClient:
client: RelayClient
RelayClientAddConn:
client: RelayClientAddConn
RelayClientError:
client: RelayClientError
RelayConnection:
rconn: RelayConnection
RelayMessage:
messages: RelayMessage
RelayMsgSize:
relay: RelayMsgSize
RelayPeer:
messages: RelayPeer
RelayTransport:
rtransport: RelayTransport
RelayType:
messages: RelayType
RelayV1Codec:
utils: RelayV1Codec
RelayV1DialError:
client: RelayV1DialError
RelayV2DialError:
client: RelayV2DialError
RelayV2Error:
relay: RelayV2Error
RelayV2HopCodec:
utils: RelayV2HopCodec
RelayV2StopCodec:
utils: RelayV2StopCodec
release:
connmanager: release(cs: ConnectionSlot)
semaphore: release(s: AsyncSemaphore)
Reliable:
multiaddress: Reliable
removeConnEventHandler:
connmanager: removeConnEventHandler(c: ConnManager; handler: ConnEventHandler; kind: ConnEventKind)
switch: removeConnEventHandler(s: Switch; handler: ConnEventHandler; kind: ConnEventKind)
removeObserver:
pubsub: removeObserver(p: PubSub; observer: PubSubObserver)
removePeer:
peertable: removePeer(table: var PeerTable; topic: string; peer: PubSubPeer)
removePeerEventHandler:
connmanager: removePeerEventHandler(c: ConnManager; handler: PeerEventHandler; kind: PeerEventKind)
switch: removePeerEventHandler(s: Switch; handler: PeerEventHandler; kind: PeerEventKind)
removeValidator:
pubsub: removeValidator(p: PubSub; topic: varargs[string]; hook: ValidatorHandler)
RendezVous:
rendezvous: RendezVous
RendezVousCodec:
rendezvous: RendezVousCodec
RendezVousError:
rendezvous: RendezVousError
replenishFanout:
behavior: replenishFanout(g: GossipSub; topic: string)
request:
rendezvous: request(rdv: RendezVous; ns: string; l: int = 1000'u64.int): Future[ seq[PeerRecord]]
requestLocally:
rendezvous: requestLocally(rdv: RendezVous; ns: string): seq[PeerRecord]
Reservation:
messages: Reservation
ReservationError:
client: ReservationError
ReservationRefused:
StatusV2.ReservationRefused
reserve:
client: reserve(cl: RelayClient; peerId: PeerId; addrs: seq[MultiAddress] = @[]): Future[ Rsvp]
resolveDnsAddr:
nameresolver: resolveDnsAddr(self: NameResolver; ma: MultiAddress; depth: int = 0): Future[ seq[MultiAddress]]
resolveIp:
nameresolver: resolveIp(self: NameResolver; address: string; port: Port; domain: Domain = Domain.AF_UNSPEC): Future[seq[TransportAddress]]
resolveMAddress:
nameresolver: resolveMAddress(self: NameResolver; address: MultiAddress): Future[ seq[MultiAddress]]
resolveTxt:
nameresolver: resolveTxt(self: NameResolver; address: string): Future[seq[string]]
ResourceLimitExceeded:
StatusV2.ResourceLimitExceeded
ResponseStatus:
core: ResponseStatus
rewardDelivered:
scoring: rewardDelivered(g: GossipSub; peer: PubSubPeer; topic: string; first: bool; delay = ZeroDuration)
RoutingRecordsHandler:
types: RoutingRecordsHandler
RoutingRecordsPair:
types: RoutingRecordsPair
rpcHandler:
floodsub: rpcHandler(f: FloodSub; peer: PubSubPeer; data: seq[byte]): Future[void]
gossipsub: rpcHandler(g: GossipSub; peer: PubSubPeer; data: seq[byte]): Future[void]
pubsub: rpcHandler(p: PubSub; peer: PubSubPeer; data: seq[byte]): Future[void]
RPCHandler:
pubsubpeer: RPCHandler
RpcMessageQueue:
pubsubpeer: RpcMessageQueue
RPCMsg:
messages: RPCMsg
RSA:
PKScheme.RSA
RsaDefaultKeySize:
crypto: RsaDefaultKeySize
RsaError:
rsa: RsaError
RsaGenError:
RsaError.RsaGenError
RsaKeyIncorrectError:
RsaError.RsaKeyIncorrectError
RsaKeyPair:
rsa: RsaKeyPair
RsaKP:
rsa: RsaKP
RsaLowSecurityError:
RsaError.RsaLowSecurityError
RsaOidSha1:
rsa: RsaOidSha1
RsaOidSha224:
rsa: RsaOidSha224
RsaOidSha256:
rsa: RsaOidSha256
RsaOidSha384:
rsa: RsaOidSha384
RsaOidSha512:
rsa: RsaOidSha512
RsaPKI:
rsa: RsaPKI
RsaPrivateKey:
rsa: RsaPrivateKey
RsaPublicKey:
rsa: RsaPublicKey
RsaResult:
rsa: RsaResult
RsaSignature:
rsa: RsaSignature
RsaSignatureError:
RsaError.RsaSignatureError
Rsvp:
client: Rsvp
RTRANSPMA:
wire: RTRANSPMA
run:
switch: run(self: Service; switch: Switch): Future[void]
safeConvert:
utility: safeConvert[T: SomeInteger; S: Ordinal](value: S): T
salt:
floodsub: salt(f: FloodSub; msgId: MessageId): SaltedId
SaltedId:
messages: SaltedId
scalarMul:
ecnist: scalarMul(pub: EcPublicKey; sec: EcPrivateKey): EcPublicKey
SchemeError:
CryptoError.SchemeError
scoringHeartbeat:
scoring: scoringHeartbeat(g: GossipSub): Future[void]
seckey:
rsa: seckey(pair: RsaKeyPair): RsaPrivateKey
secp: seckey(v: SkKeyPair): SkPrivateKey
SecKey256Length:
ecnist: SecKey256Length
SecKey384Length:
ecnist: SecKey384Length
SecKey521Length:
ecnist: SecKey521Length
Secp256k1:
PKScheme.Secp256k1
Secp256r1:
EcCurveKind.Secp256r1
Secp384r1:
EcCurveKind.Secp384r1
Secp521r1:
EcCurveKind.Secp521r1
Secret:
crypto: Secret
Secret256Length:
ecnist: Secret256Length
Secret384Length:
ecnist: Secret384Length
Secret521Length:
ecnist: Secret521Length
Secure:
secure: Secure
secure:
secure: secure(s: Secure; conn: Connection; peerId: Opt[PeerId]): InternalRaisesFuture[ Connection, (CancelledError, LPStreamError)]
wstransport: secure(self: WsTransport): bool
upgrade: secure(self: Upgrade; conn: Connection; peerId: Opt[PeerId]): InternalRaisesFuture[ Connection, (CancelledError, LPError)]
SecureConn:
secure: SecureConn
SecureConnTrackerName:
secure: SecureConnTrackerName
SecureProtocol:
builders: SecureProtocol
select:
multistream: select(_: MultistreamSelect | type MultistreamSelect; conn: Connection; proto: seq[string]): InternalRaisesFuture[string, (CancelledError, LPStreamError, MultiStreamError)]
multistream: select(_: MultistreamSelect | type MultistreamSelect; conn: Connection; proto: string): InternalRaisesFuture[bool, (CancelledError, LPStreamError, MultiStreamError)]
multistream: select(m: MultistreamSelect; conn: Connection): InternalRaisesFuture[bool, (CancelledError, LPStreamError, MultiStreamError)]
selectBest:
crypto: selectBest(order: int; p1, p2: string): string
selectMuxer:
connmanager: selectMuxer(c: ConnManager; peerId: PeerId): Muxer
send:
pubsub: send(p: PubSub; peer: PubSubPeer; msg: RPCMsg; isHighPriority: bool)
pubsubpeer: send(p: PubSubPeer; msg: RPCMsg; anonymize: bool; isHighPriority: bool)
sendEncoded:
pubsubpeer: sendEncoded(p: PubSubPeer; msg: seq[byte]; isHighPriority: bool): Future[void]
sendHopStatus:
utils: sendHopStatus(conn: Connection; code: StatusV2): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
sendStatus:
utils: sendStatus(conn: Connection; code: StatusV1): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
sendStopStatus:
utils: sendStopStatus(conn: Connection; code: StatusV2): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
sendSubs:
pubsub: sendSubs(p: PubSub; peer: PubSubPeer; topics: openArray[string]; subscribe: bool)
Service:
switch: Service
setMaxRecvWindow:
yamux: setMaxRecvWindow(channel: YamuxChannel; maxRecvWindow: int)
setup:
relay: setup(r: Relay; switch: Switch)
rendezvous: setup(rdv: RendezVous; switch: Switch)
switch: setup(self: Service; switch: Switch): Future[bool]
Sha256:
DigestSheme.Sha256
Sha512:
DigestSheme.Sha512
shift:
mcache: shift(c: var MCache)
shortLog:
crypto: shortLog(key: PrivateKey | PublicKey): string
mplex: shortLog(m: Mplex): auto
muxer: shortLog(m: Muxer): auto
peerid: shortLog(pid: PeerId): string
peerinfo: shortLog(p: PeerInfo): auto
pubsubpeer: shortLog(p: PubSubPeer): string
messages: shortLog(s: ControlGraft): auto
messages: shortLog(s: ControlIHave): auto
messages: shortLog(s: ControlIWant): auto
messages: shortLog(c: ControlMessage): auto
messages: shortLog(s: ControlPrune): auto
messages: shortLog(msg: Message): auto
messages: shortLog(m: RPCMsg): auto
noise: shortLog(conn: NoiseConnection): auto
secure: shortLog(conn: SecureConn): auto
bufferstream: shortLog(s: BufferStream): auto
chronosstream: shortLog(conn: ChronosStream): auto
connection: shortLog(conn: Connection): string
lpstream: shortLog(s: LPStream): auto
utility: shortLog(item: openArray[byte]): string
utility: shortLog(item: string): string
shuffle:
crypto: shuffle[T](rng: ref HmacDrbgContext; x: var openArray[T])
Sig256Length:
ecnist: Sig256Length
Sig384Length:
ecnist: Sig384Length
Sig521Length:
ecnist: Sig521Length
SigError:
CryptoError.SigError
sign:
crypto: sign(key: PrivateKey; data: openArray[byte]): CryptoResult[Signature]
ecnist: sign[T: byte | char](seckey: EcPrivateKey; message: openArray[T]): EcResult[ EcSignature]
ed25519: sign[T: byte | char](key: EdPrivateKey; message: openArray[T]): EdSignature
rsa: sign[T: byte | char](key: RsaPrivateKey; message: openArray[T]): RsaResult[ RsaSignature]
secp: sign[T: byte | char](key: SkPrivateKey; msg: openArray[T]): SkSignature
message: sign(msg: Message; privateKey: PrivateKey): CryptoResult[seq[byte]]
Signature:
crypto: Signature
SignedPayload:
signed_envelope: SignedPayload
SignedPeerRecord:
routing_record: SignedPeerRecord
SignedVoucher:
messages: SignedVoucher
SkKeyPair:
secp: SkKeyPair
SkPrivateKey:
secp: SkPrivateKey
SkPublicKey:
secp: SkPublicKey
SkRawPrivateKeySize:
secp: SkRawPrivateKeySize
SkRawPublicKeySize:
secp: SkRawPublicKeySize
SkRawSignatureSize:
secp: SkRawSignatureSize
SkSignature:
secp: SkSignature
SomeUVarint:
varint: SomeUVarint
SomeVarint:
varint: SomeVarint
SqrTm1:
constants: SqrTm1
start:
multistream: start(m: MultistreamSelect): InternalRaisesFuture[void, (CancelledError,)]
relay: start(r: Relay): InternalRaisesFuture[void, (CancelledError,)]
rtransport: start(self: RelayTransport; ma: seq[MultiAddress]): Future[void]
protocol: start(p: LPProtocol): InternalRaisesFuture[void, (CancelledError,)]
gossipsub: start(g: GossipSub): InternalRaisesFuture[void, (CancelledError,)]
rendezvous: start(rdv: RendezVous): InternalRaisesFuture[void, (CancelledError,)]
switch: start(s: Switch): Future[void]
tcptransport: start(self: TcpTransport; addrs: seq[MultiAddress]): Future[void]
transport: start(self: Transport; addrs: seq[MultiAddress]): Future[void]
wstransport: start(self: WsTransport; addrs: seq[MultiAddress]): Future[void]
StartGroup:
ProtoFieldKind.StartGroup
StatusV1:
messages: StatusV1
StatusV2:
messages: StatusV2
stop:
multistream: stop(m: MultistreamSelect): InternalRaisesFuture[void, void]
relay: stop(r: Relay): InternalRaisesFuture[void, void]
rtransport: stop(self: RelayTransport): Future[void]
protocol: stop(p: LPProtocol): InternalRaisesFuture[void, void]
gossipsub: stop(g: GossipSub): InternalRaisesFuture[void, void]
rendezvous: stop(rdv: RendezVous): InternalRaisesFuture[void, void]
switch: stop(s: Switch): Future[void]
switch: stop(self: Service; switch: Switch): Future[bool]
tcptransport: stop(self: TcpTransport): Future[void]
transport: stop(self: Transport): Future[void]
wstransport: stop(self: WsTransport): Future[void]
StopMessage:
messages: StopMessage
StopMessageType:
messages: StopMessageType
stopSendNonPriorityTask:
pubsubpeer: stopSendNonPriorityTask(p: PubSubPeer)
StreamHandler:
muxer: StreamHandler
StreamSeq:
streamseq: StreamSeq
StreamTracker:
lpstream: StreamTracker
stretchKeys:
crypto: stretchKeys(cipherType: string; hashType: string; sharedSecret: seq[byte]): Secret
SubOpts:
messages: SubOpts
subscribe:
pubsub: subscribe(p: PubSub; topic: string; handler: TopicHandler)
subscribePeer:
pubsub: subscribePeer(p: PubSub; peer: PeerId)
SubscriptionValidator:
pubsub: SubscriptionValidator
supported:
crypto: supported(scheme: PKScheme): bool
SupportedSchemes:
crypto: SupportedSchemes
SupportedSchemesInt:
crypto: SupportedSchemesInt
SupportedWireTypes:
minprotobuf: SupportedWireTypes
Switch:
switch: Switch
SwitchBuilder:
builders: SwitchBuilder
TCP:
multiaddress: TCP
TCP_DNS:
multiaddress: TCP_DNS
TCP_IP:
multiaddress: TCP_IP
TcpOnion3:
multiaddress: TcpOnion3
tcpProtocol:
IpTransportProtocol.tcpProtocol
TcpTransport:
tcptransport: TcpTransport
TcpTransportError:
tcptransport: TcpTransportError
TcpTransportTrackerName:
tcptransport: TcpTransportTrackerName
TimedCache:
timedcache: TimedCache
TimedEntry:
timedcache: TimedEntry
Timeout:
timedcache: Timeout
TimeoutHandler:
connection: TimeoutHandler
TLS_WS:
multiaddress: TLS_WS
toBytes:
crypto: toBytes(key: PrivateKey; data: var openArray[byte]): CryptoResult[int]
crypto: toBytes(key: PublicKey; data: var openArray[byte]): CryptoResult[int]
crypto: toBytes(sig: Signature; data: var openArray[byte]): int
ecnist: toBytes(seckey: EcPrivateKey; data: var openArray[byte]): EcResult[int]
ecnist: toBytes(pubkey: EcPublicKey; data: var openArray[byte]): EcResult[int]
ecnist: toBytes(sig: EcSignature; data: var openArray[byte]): EcResult[int]
ed25519: toBytes(key: EdPrivateKey; data: var openArray[byte]): int
ed25519: toBytes(key: EdPublicKey; data: var openArray[byte]): int
ed25519: toBytes(sig: EdSignature; data: var openArray[byte]): int
rsa: toBytes(key: RsaPrivateKey; data: var openArray[byte]): RsaResult[int]
rsa: toBytes(key: RsaPublicKey; data: var openArray[byte]): RsaResult[int]
rsa: toBytes(sig: RsaSignature; data: var openArray[byte]): RsaResult[int]
secp: toBytes(key: SkPrivateKey; data: var openArray[byte]): SkResult[int]
secp: toBytes(key: SkPublicKey; data: var openArray[byte]): SkResult[int]
secp: toBytes(sig: SkSignature; data: var openArray[byte]): int
peerid: toBytes(pid: PeerId; data: var openArray[byte]): int
varint: toBytes(vtype: typedesc[PB]; value: PBSomeVarint): auto
toException:
errors: toException(e: cstring): ref LPError
errors: toException(e: string): ref LPError
TooManyChannels:
muxer: TooManyChannels
TooManyConnectionsError:
connmanager: TooManyConnectionsError
toOpenArray:
minasn1: toOpenArray(ab: Asn1Buffer): untyped
minasn1: toOpenArray(ac: Asn1Composite): untyped
minasn1: toOpenArray(af: Asn1Field): untyped
minprotobuf: toOpenArray(pb: ProtoBuffer): untyped
streamseq: toOpenArray(v: StreamSeq; b, e: int): openArray[byte]
toOpt:
utility: toOpt[T, E](self: Result[T, E]): Opt[T]
TopicHandler:
pubsub: TopicHandler
TopicInfo:
types: TopicInfo
TopicPair:
pubsub: TopicPair
TopicParams:
types: TopicParams
toRawBytes:
crypto: toRawBytes(key: PrivateKey | PublicKey; data: var openArray[byte]): CryptoResult[ int]
ecnist: toRawBytes(seckey: EcPrivateKey; data: var openArray[byte]): EcResult[int]
ecnist: toRawBytes(pubkey: EcPublicKey; data: var openArray[byte]): EcResult[int]
ecnist: toRawBytes(sig: EcSignature; data: var openArray[byte]): int
toSecret:
ecnist: toSecret(pubkey: EcPublicKey; seckey: EcPrivateKey; data: var openArray[byte]): int
toString:
multiaddress: toString(value: MultiAddress): MaResult[string]
trackConnection:
connmanager: trackConnection(cs: ConnectionSlot; conn: Connection)
trackMuxer:
connmanager: trackMuxer(cs: ConnectionSlot; mux: Muxer)
Transcoder:
transcoder: Transcoder
TranscoderDNS:
multiaddress: TranscoderDNS
TranscoderIP4:
multiaddress: TranscoderIP4
TranscoderIP6:
multiaddress: TranscoderIP6
TranscoderIP6Zone:
multiaddress: TranscoderIP6Zone
TranscoderOnion:
multiaddress: TranscoderOnion
TranscoderOnion3:
multiaddress: TranscoderOnion3
TranscoderP2P:
multiaddress: TranscoderP2P
TranscoderPort:
multiaddress: TranscoderPort
TranscoderUnix:
multiaddress: TranscoderUnix
TRANSPMA:
wire: TRANSPMA
Transport:
transport: Transport
TransportClosedError:
transport: TransportClosedError
TransportError:
transport: TransportError
TransportInvalidAddrError:
transport: TransportInvalidAddrError
TransportProvider:
builders: TransportProvider
triggerPeerEvents:
connmanager: triggerPeerEvents(c: ConnManager; peerId: PeerId; event: PeerEvent): Future[void]
tryAcquire:
semaphore: tryAcquire(s: AsyncSemaphore): bool
tryDial:
dial: tryDial(self: Dial; peerId: PeerId; addrs: seq[MultiAddress]): Future[ Opt[MultiAddress]]
dialer: tryDial(self: Dialer; peerId: PeerId; addrs: seq[MultiAddress]): Future[ Opt[MultiAddress]]
UDP:
multiaddress: UDP
UDP_DNS:
multiaddress: UDP_DNS
UDP_IP:
multiaddress: UDP_IP
udpProtocol:
IpTransportProtocol.udpProtocol
UnexpectedMessage:
StatusV2.UnexpectedMessage
UNIX:
multiaddress: UNIX
Unreliable:
multiaddress: Unreliable
unsubscribe:
pubsub: unsubscribe(p: PubSub; topics: openArray[TopicPair])
pubsub: unsubscribe(p: PubSub; topic: string; handler: TopicHandler)
rendezvous: unsubscribe(rdv: RendezVous; ns: string): Future[void]
unsubscribeAll:
pubsub: unsubscribeAll(p: PubSub; topic: string)
unsubscribeLocally:
rendezvous: unsubscribeLocally(rdv: RendezVous; ns: string)
unsubscribePeer:
floodsub: unsubscribePeer(f: FloodSub; peer: PeerId)
gossipsub: unsubscribePeer(g: GossipSub; peer: PeerId)
pubsub: unsubscribePeer(p: PubSub; peerId: PeerId)
update:
peerinfo: update(p: PeerInfo): Future[void]
updateMetrics:
pubsub: updateMetrics(p: PubSub; rpcMsg: RPCMsg)
updateScores:
scoring: updateScores(g: GossipSub)
upgrade:
transport: upgrade(self: Transport; conn: Connection; peerId: Opt[PeerId]): InternalRaisesFuture[ Muxer, (CancelledError, LPError)]
muxedupgrade: upgrade(self: MuxedUpgrade; conn: Connection; peerId: Opt[PeerId]): InternalRaisesFuture[ Muxer, (CancelledError, LPError)]
Upgrade:
upgrade: Upgrade
upgrade:
upgrade: upgrade(self: Upgrade; conn: Connection; peerId: Opt[PeerId]): InternalRaisesFuture[ Muxer, (CancelledError, LPError)]
UpgradeFailedError:
upgrade: UpgradeFailedError
UTP:
multiaddress: UTP
validate:
multiaddress: validate(ma: MultiAddress): bool
multihash: validate(mhtype: typedesc[MultiHash]; data: openArray[byte]): bool
peerid: validate(pid: PeerId): bool
pubsub: validate(p: PubSub; message: Message): Future[ValidationResult]
validateParameters:
gossipsub: validateParameters(parameters: GossipSubParams): Result[void, cstring]
gossipsub: validateParameters(parameters: TopicParams): Result[void, cstring]
ValidationResult:
errors: ValidationResult
ValidationSeenTable:
types: ValidationSeenTable
ValidatorHandler:
pubsub: ValidatorHandler
valueOr:
utility: valueOr[T](self: Option[T]; body: untyped): untyped
Varint:
ProtoFieldKind.Varint
VarintError:
varint: VarintError
VarintResult:
varint: VarintResult
VBuffer:
vbuffer: VBuffer
verify:
crypto: verify(sig: Signature; message: openArray[byte]; key: PublicKey): bool
ecnist: verify[T: byte | char](sig: EcSignature; message: openArray[T]; pubkey: EcPublicKey): bool
ed25519: verify[T: byte | char](sig: EdSignature; message: openArray[T]; key: EdPublicKey): bool
rsa: verify[T: byte | char](sig: RsaSignature; message: openArray[T]; pubkey: RsaPublicKey): bool
secp: verify[T: byte | char](sig: SkSignature; msg: openArray[T]; key: SkPublicKey): bool
message: verify(m: Message): bool
Voucher:
messages: Voucher
vsizeof:
minprotobuf: vsizeof(field: ProtoField): int
varint: vsizeof(x: SomeVarint): int
WebRTCDirect:
multiaddress: WebRTCDirect
WebSockets:
multiaddress: WebSockets
WebSockets_DNS:
multiaddress: WebSockets_DNS
WebSockets_IP:
multiaddress: WebSockets_IP
window:
mcache: window(c: MCache; topic: string): HashSet[MessageId]
withAddress:
builders: withAddress(b: SwitchBuilder; address: MultiAddress): SwitchBuilder
withAddresses:
builders: withAddresses(b: SwitchBuilder; addresses: seq[MultiAddress]): SwitchBuilder
withAgentVersion:
builders: withAgentVersion(b: SwitchBuilder; agentVersion: string): SwitchBuilder
withAutonat:
builders: withAutonat(b: SwitchBuilder): SwitchBuilder
withCircuitRelay:
builders: withCircuitRelay(b: SwitchBuilder; r: Relay = Relay.new()): SwitchBuilder
withMaxConnections:
builders: withMaxConnections(b: SwitchBuilder; maxConnections: int): SwitchBuilder
withMaxConnsPerPeer:
builders: withMaxConnsPerPeer(b: SwitchBuilder; maxConnsPerPeer: int): SwitchBuilder
withMaxIn:
builders: withMaxIn(b: SwitchBuilder; maxIn: int): SwitchBuilder
withMaxOut:
builders: withMaxOut(b: SwitchBuilder; maxOut: int): SwitchBuilder
withNameResolver:
builders: withNameResolver(b: SwitchBuilder; nameResolver: NameResolver): SwitchBuilder
withNoise:
builders: withNoise(b: SwitchBuilder): SwitchBuilder
withObservedAddrManager:
builders: withObservedAddrManager(b: SwitchBuilder; observedAddrManager: ObservedAddrManager): SwitchBuilder
withPeerStats:
scoring: withPeerStats(g: GossipSub; peerId: PeerId; action: proc (stats: var PeerStats) {.gcsafe, raises: [].})
withPeerStore:
builders: withPeerStore(b: SwitchBuilder; capacity: int): SwitchBuilder
withPrivateKey:
builders: withPrivateKey(b: SwitchBuilder; privateKey: PrivateKey): SwitchBuilder
withProtoVersion:
builders: withProtoVersion(b: SwitchBuilder; protoVersion: string): SwitchBuilder
withRendezVous:
builders: withRendezVous(b: SwitchBuilder; rdv: RendezVous = RendezVous.new()): SwitchBuilder
withRng:
builders: withRng(b: SwitchBuilder; rng: ref HmacDrbgContext): SwitchBuilder
withServices:
builders: withServices(b: SwitchBuilder; services: seq[Service]): SwitchBuilder
withSignedPeerRecord:
builders: withSignedPeerRecord(b: SwitchBuilder; sendIt = true): SwitchBuilder
withSubs:
messages: withSubs(T: type RPCMsg; topics: openArray[string]; subscribe: bool): T:type
withTcpTransport:
builders: withTcpTransport(b: SwitchBuilder; flags: set[ServerFlags] = {}): SwitchBuilder
withTransport:
builders: withTransport(b: SwitchBuilder; prov: TransportProvider): SwitchBuilder
WithUint32BeLength:
ProtoFlags.WithUint32BeLength
WithUint32LeLength:
ProtoFlags.WithUint32LeLength
withValue:
utility: withValue[T](self: Opt[T] | Option[T]; value, body, elseStmt: untyped): untyped
utility: withValue[T](self: Opt[T] | Option[T]; value, body: untyped): untyped
WithVarintLength:
ProtoFlags.WithVarintLength
write:
crypto: write(pb: var ProtoBuffer; field: int; sig: Signature)
crypto: write[T: PublicKey | PrivateKey](pb: var ProtoBuffer; field: int; key: T)
crypto: write(vb: var VBuffer; seckey: PrivateKey)
crypto: write(vb: var VBuffer; sig: PrivateKey)
crypto: write(vb: var VBuffer; pubkey: PublicKey)
minasn1: write[T: Asn1Buffer | Asn1Composite](abc: var T; value: Asn1Composite)
minasn1: write[T: Asn1Buffer | Asn1Composite](abc: var T; tag: Asn1Tag)
minasn1: write[T: Asn1Buffer | Asn1Composite](abc: var T; tag: Asn1Tag; value: openArray[byte]; bits = 0)
minasn1: write[T: Asn1Buffer | Asn1Composite](abc: var T; value: bool)
minasn1: write[T: Asn1Buffer | Asn1Composite](abc: var T; value: uint64)
multiaddress: write(pb: var ProtoBuffer; field: int; value: MultiAddress)
multiaddress: write(vb: var VBuffer; ma: MultiAddress)
multicodec: write(vb: var VBuffer; mc: MultiCodec)
multihash: write(vb: var VBuffer; mh: MultiHash)
yamux: write(channel: YamuxChannel; msg: seq[byte]): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
peerid: write(pb: var ProtoBuffer; field: int; pid: PeerId)
peerid: write(vb: var VBuffer; pid: PeerId)
minprotobuf: write[T: byte | char](pb: var ProtoBuffer; field: int; value: openArray[T])
minprotobuf: write(pb: var ProtoBuffer; field: int; value: ProtoBuffer)
minprotobuf: write[T: ProtoScalar](pb: var ProtoBuffer; field: int; value: T)
rconn: write(self: RelayConnection; msg: seq[byte]): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
protobuf: write(pb: var ProtoBuffer; field: int; graft: ControlGraft)
protobuf: write(pb: var ProtoBuffer; field: int; ihave: ControlIHave)
protobuf: write(pb: var ProtoBuffer; field: int; iwant: ControlIWant)
protobuf: write(pb: var ProtoBuffer; field: int; control: ControlMessage)
protobuf: write(pb: var ProtoBuffer; field: int; prune: ControlPrune)
protobuf: write(pb: var ProtoBuffer; field: int; msg: Message; anonymize: bool)
protobuf: write(pb: var ProtoBuffer; field: int; infoMsg: PeerInfoMsg)
protobuf: write(pb: var ProtoBuffer; field: int; subs: SubOpts)
noise: write(sconn: NoiseConnection; message: seq[byte]): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
signed_envelope: write(pb: var ProtoBuffer; field: int; env: Envelope): Result[void, CryptoError]
chronosstream: write(s: ChronosStream; msg: seq[byte]): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
lpstream: write(s: LPStream; msg: string): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
lpstream: write(s: LPStream; msg: seq[byte]): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
wstransport: write(s: WsStream; msg: seq[byte]): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
writeArray:
vbuffer: writeArray[T: byte | char](vb: var VBuffer; value: openArray[T])
writeLp:
lpstream: writeLp(s: LPStream; msg: openArray[byte]): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
lpstream: writeLp(s: LPStream; msg: string): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
writeLPVarint:
vbuffer: writeLPVarint(vb: var VBuffer; value: LPSomeUVarint)
writeMsg:
coder: writeMsg(conn: Connection; id: uint64; msgType: MessageType; data: seq[byte] = @[]): InternalRaisesFuture[void, (CancelledError, LPStreamError)]
coder: writeMsg(conn: Connection; id: uint64; msgType: MessageType; data: string): InternalRaisesFuture[ void, (CancelledError, LPStreamError)]
writePacked:
minprotobuf: writePacked[T: ProtoScalar](pb: var ProtoBuffer; field: int; value: openArray[T])
writePBVarint:
vbuffer: writePBVarint(vb: var VBuffer; value: PBSomeUVarint)
writeSeq:
vbuffer: writeSeq[T: byte | char](vb: var VBuffer; value: openArray[T])
writeVarint:
vbuffer: writeVarint(vb: var VBuffer; value: LPSomeUVarint)
WrongPingAckError:
ping: WrongPingAckError
WS:
multiaddress: WS
WS_DNS:
multiaddress: WS_DNS
WS_IP:
multiaddress: WS_IP
WSS:
multiaddress: WSS
WSS_DNS:
multiaddress: WSS_DNS
WSS_IP:
multiaddress: WSS_IP
WsTransport:
wstransport: WsTransport
Yamux:
yamux: Yamux
YamuxChannel:
yamux: YamuxChannel
YamuxCodec:
yamux: YamuxCodec
YamuxDefaultWindowSize:
yamux: YamuxDefaultWindowSize
YamuxError:
yamux: YamuxError
ZeroFe:
constants: ZeroFe
zint:
varint: zint
zint32:
varint: zint32
zint64:
varint: zint64