nim-libp2p-experimental/libp2p/daemon/daemonapi.nim

1348 lines
47 KiB
Nim

## Nim-LibP2P
## Copyright (c) 2018 Status Research & Development GmbH
## Licensed under either of
## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
## * MIT license ([LICENSE-MIT](LICENSE-MIT))
## at your option.
## This file may not be copied, modified, or distributed except according to
## those terms.
{.push raises: [Defect].}
## This module implementes API for `go-libp2p-daemon`.
import std/[os, osproc, strutils, tables, strtabs]
import pkg/[chronos, chronicles]
import ../varint, ../multiaddress, ../multicodec, ../cid, ../peerid
import ../wire, ../multihash, ../protobuf/minprotobuf, ../errors
import ../crypto/crypto
export
peerid, multiaddress, multicodec, multihash, cid, crypto, wire, errors
when not defined(windows):
import posix
const
DefaultSocketPath* = "/unix/tmp/p2pd.sock"
DefaultUnixSocketPattern* = "/unix/tmp/nim-p2pd-$1-$2.sock"
DefaultIpSocketPattern* = "/ip4/127.0.0.1/tcp/$2"
DefaultUnixChildPattern* = "/unix/tmp/nim-p2pd-handle-$1-$2.sock"
DefaultIpChildPattern* = "/ip4/127.0.0.1/tcp/$2"
DefaultDaemonFile* = "p2pd"
type
IpfsLogLevel* {.pure.} = enum
Critical, Error, Warning, Notice, Info, Debug, Trace
RequestType* {.pure.} = enum
IDENTITY = 0,
CONNECT = 1,
STREAM_OPEN = 2,
STREAM_HANDLER = 3,
DHT = 4,
LIST_PEERS = 5,
CONNMANAGER = 6,
DISCONNECT = 7
PUBSUB = 8
DHTRequestType* {.pure.} = enum
FIND_PEER = 0,
FIND_PEERS_CONNECTED_TO_PEER = 1,
FIND_PROVIDERS = 2,
GET_CLOSEST_PEERS = 3,
GET_PUBLIC_KEY = 4,
GET_VALUE = 5,
SEARCH_VALUE = 6,
PUT_VALUE = 7,
PROVIDE = 8
ConnManagerRequestType* {.pure.} = enum
TAG_PEER = 0,
UNTAG_PEER = 1,
TRIM = 2
PSRequestType* {.pure.} = enum
GET_TOPICS = 0,
LIST_PEERS = 1,
PUBLISH = 2,
SUBSCRIBE = 3
ResponseKind* = enum
Malformed,
Error,
Success
ResponseType* {.pure.} = enum
ERROR = 2,
STREAMINFO = 3,
IDENTITY = 4,
DHT = 5,
PEERINFO = 6
PUBSUB = 7
DHTResponseType* {.pure.} = enum
BEGIN = 0,
VALUE = 1,
END = 2
MultiProtocol* = string
DHTValue* = seq[byte]
P2PStreamFlags* {.pure.} = enum
None, Closed, Inbound, Outbound
P2PDaemonFlags* = enum
DHTClient, ## Start daemon in DHT client mode
DHTFull, ## Start daemon with full DHT support
Bootstrap, ## Start daemon with bootstrap
WaitBootstrap, ## Start daemon with bootstrap and wait until daemon
## establish connection to at least 2 peers
PSFloodSub, ## Enable `FloodSub` protocol in daemon
PSGossipSub, ## Enable `GossipSub` protocol in daemon
PSNoSign, ## Disable pubsub message signing (default true)
PSStrictSign, ## Force strict checking pubsub message signature
NATPortMap, ## Force daemon to use NAT-PMP.
AutoNAT, ## Force daemon to use AutoNAT.
AutoRelay, ## Enables autorelay mode.
RelayActive, ## Enables active mode for relay.
RelayDiscovery,## Enables passive discovery for relay.
RelayHop, ## Enables hop for relay.
NoInlinePeerID,## Disable inlining of peer ID (not yet in #master).
NoProcessCtrl ## Process was not spawned.
P2PStream* = ref object
flags*: set[P2PStreamFlags]
peer*: PeerID
raddress*: MultiAddress
protocol*: string
transp*: StreamTransport
P2PServer = object
server*: StreamServer
address*: MultiAddress
DaemonAPI* = ref object
# pool*: TransportPool
flags*: set[P2PDaemonFlags]
address*: MultiAddress
pattern*: string
ucounter*: int
process*: Process
handlers*: Table[string, P2PStreamCallback]
servers*: seq[P2PServer]
userData*: RootRef
PeerInfo* = object
peer*: PeerID
addresses*: seq[MultiAddress]
PubsubTicket* = ref object
topic*: string
handler*: P2PPubSubCallback
transp*: StreamTransport
PubSubMessage* = object
peer*: PeerID
data*: seq[byte]
seqno*: seq[byte]
topics*: seq[string]
signature*: Signature
key*: PublicKey
P2PStreamCallback* = proc(api: DaemonAPI,
stream: P2PStream): Future[void] {.gcsafe.}
P2PPubSubCallback* = proc(api: DaemonAPI,
ticket: PubsubTicket,
message: PubSubMessage): Future[bool] {.gcsafe.}
DaemonError* = object of LPError
DaemonRemoteError* = object of DaemonError
DaemonLocalError* = object of DaemonError
var daemonsCount {.threadvar.}: int
chronicles.formatIt(PeerInfo): shortLog(it)
proc requestIdentity(): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/conn.go
## Processing function `doIdentify(req *pb.Request)`.
result = initProtoBuffer({WithVarintLength})
result.write(initProtoField(1, cast[uint](RequestType.IDENTITY)))
result.finish()
proc requestConnect(peerid: PeerID,
addresses: openarray[MultiAddress],
timeout = 0): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/conn.go
## Processing function `doConnect(req *pb.Request)`.
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, peerid))
for item in addresses:
msg.write(initProtoField(2, item.data.buffer))
if timeout > 0:
msg.write(initProtoField(3, hint64(timeout)))
result.write(initProtoField(1, cast[uint](RequestType.CONNECT)))
result.write(initProtoField(2, msg))
result.finish()
proc requestDisconnect(peerid: PeerID): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/conn.go
## Processing function `doDisconnect(req *pb.Request)`.
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, peerid))
result.write(initProtoField(1, cast[uint](RequestType.DISCONNECT)))
result.write(initProtoField(7, msg))
result.finish()
proc requestStreamOpen(peerid: PeerID,
protocols: openarray[string],
timeout = 0): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/conn.go
## Processing function `doStreamOpen(req *pb.Request)`.
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, peerid))
for item in protocols:
msg.write(initProtoField(2, item))
if timeout > 0:
msg.write(initProtoField(3, hint64(timeout)))
result.write(initProtoField(1, cast[uint](RequestType.STREAM_OPEN)))
result.write(initProtoField(3, msg))
result.finish()
proc requestStreamHandler(address: MultiAddress,
protocols: openarray[MultiProtocol]): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/conn.go
## Processing function `doStreamHandler(req *pb.Request)`.
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, address.data.buffer))
for item in protocols:
msg.write(initProtoField(2, item))
result.write(initProtoField(1, cast[uint](RequestType.STREAM_HANDLER)))
result.write(initProtoField(4, msg))
result.finish()
proc requestListPeers(): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/conn.go
## Processing function `doListPeers(req *pb.Request)`
result = initProtoBuffer({WithVarintLength})
result.write(initProtoField(1, cast[uint](RequestType.LIST_PEERS)))
result.finish()
proc requestDHTFindPeer(peer: PeerID, timeout = 0): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/dht.go
## Processing function `doDHTFindPeer(req *pb.DHTRequest)`.
let msgid = cast[uint](DHTRequestType.FIND_PEER)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(2, peer))
if timeout > 0:
msg.write(initProtoField(7, hint64(timeout)))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.DHT)))
result.write(initProtoField(5, msg))
result.finish()
proc requestDHTFindPeersConnectedToPeer(peer: PeerID,
timeout = 0): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/dht.go
## Processing function `doDHTFindPeersConnectedToPeer(req *pb.DHTRequest)`.
let msgid = cast[uint](DHTRequestType.FIND_PEERS_CONNECTED_TO_PEER)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(2, peer))
if timeout > 0:
msg.write(initProtoField(7, hint64(timeout)))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.DHT)))
result.write(initProtoField(5, msg))
result.finish()
proc requestDHTFindProviders(cid: Cid,
count: uint32, timeout = 0): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/dht.go
## Processing function `doDHTFindProviders(req *pb.DHTRequest)`.
let msgid = cast[uint](DHTRequestType.FIND_PROVIDERS)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(3, cid.data.buffer))
msg.write(initProtoField(6, count))
if timeout > 0:
msg.write(initProtoField(7, hint64(timeout)))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.DHT)))
result.write(initProtoField(5, msg))
result.finish()
proc requestDHTGetClosestPeers(key: string, timeout = 0): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/dht.go
## Processing function `doDHTGetClosestPeers(req *pb.DHTRequest)`.
let msgid = cast[uint](DHTRequestType.GET_CLOSEST_PEERS)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(4, key))
if timeout > 0:
msg.write(initProtoField(7, hint64(timeout)))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.DHT)))
result.write(initProtoField(5, msg))
result.finish()
proc requestDHTGetPublicKey(peer: PeerID, timeout = 0): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/dht.go
## Processing function `doDHTGetPublicKey(req *pb.DHTRequest)`.
let msgid = cast[uint](DHTRequestType.GET_PUBLIC_KEY)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(2, peer))
if timeout > 0:
msg.write(initProtoField(7, hint64(timeout)))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.DHT)))
result.write(initProtoField(5, msg))
result.finish()
proc requestDHTGetValue(key: string, timeout = 0): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/dht.go
## Processing function `doDHTGetValue(req *pb.DHTRequest)`.
let msgid = cast[uint](DHTRequestType.GET_VALUE)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(4, key))
if timeout > 0:
msg.write(initProtoField(7, hint64(timeout)))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.DHT)))
result.write(initProtoField(5, msg))
result.finish()
proc requestDHTSearchValue(key: string, timeout = 0): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/dht.go
## Processing function `doDHTSearchValue(req *pb.DHTRequest)`.
let msgid = cast[uint](DHTRequestType.SEARCH_VALUE)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(4, key))
if timeout > 0:
msg.write(initProtoField(7, hint64(timeout)))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.DHT)))
result.write(initProtoField(5, msg))
result.finish()
proc requestDHTPutValue(key: string, value: openarray[byte],
timeout = 0): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/dht.go
## Processing function `doDHTPutValue(req *pb.DHTRequest)`.
let msgid = cast[uint](DHTRequestType.PUT_VALUE)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(4, key))
msg.write(initProtoField(5, value))
if timeout > 0:
msg.write(initProtoField(7, hint64(timeout)))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.DHT)))
result.write(initProtoField(5, msg))
result.finish()
proc requestDHTProvide(cid: Cid, timeout = 0): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/dht.go
## Processing function `doDHTProvide(req *pb.DHTRequest)`.
let msgid = cast[uint](DHTRequestType.PROVIDE)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(3, cid.data.buffer))
if timeout > 0:
msg.write(initProtoField(7, hint64(timeout)))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.DHT)))
result.write(initProtoField(5, msg))
result.finish()
proc requestCMTagPeer(peer: PeerID, tag: string, weight: int): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/connmgr.go#L18
let msgid = cast[uint](ConnManagerRequestType.TAG_PEER)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(2, peer))
msg.write(initProtoField(3, tag))
msg.write(initProtoField(4, hint64(weight)))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.CONNMANAGER)))
result.write(initProtoField(6, msg))
result.finish()
proc requestCMUntagPeer(peer: PeerID, tag: string): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/connmgr.go#L33
let msgid = cast[uint](ConnManagerRequestType.UNTAG_PEER)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(2, peer))
msg.write(initProtoField(3, tag))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.CONNMANAGER)))
result.write(initProtoField(6, msg))
result.finish()
proc requestCMTrim(): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/connmgr.go#L47
let msgid = cast[uint](ConnManagerRequestType.TRIM)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.CONNMANAGER)))
result.write(initProtoField(6, msg))
result.finish()
proc requestPSGetTopics(): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/pubsub.go
## Processing function `doPubsubGetTopics(req *pb.PSRequest)`.
let msgid = cast[uint](PSRequestType.GET_TOPICS)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.PUBSUB)))
result.write(initProtoField(8, msg))
result.finish()
proc requestPSListPeers(topic: string): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/pubsub.go
## Processing function `doPubsubListPeers(req *pb.PSRequest)`.
let msgid = cast[uint](PSRequestType.LIST_PEERS)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(2, topic))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.PUBSUB)))
result.write(initProtoField(8, msg))
result.finish()
proc requestPSPublish(topic: string, data: openarray[byte]): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/pubsub.go
## Processing function `doPubsubPublish(req *pb.PSRequest)`.
let msgid = cast[uint](PSRequestType.PUBLISH)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(2, topic))
msg.write(initProtoField(3, data))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.PUBSUB)))
result.write(initProtoField(8, msg))
result.finish()
proc requestPSSubscribe(topic: string): ProtoBuffer =
## https://github.com/libp2p/go-libp2p-daemon/blob/master/pubsub.go
## Processing function `doPubsubSubscribe(req *pb.PSRequest)`.
let msgid = cast[uint](PSRequestType.SUBSCRIBE)
result = initProtoBuffer({WithVarintLength})
var msg = initProtoBuffer()
msg.write(initProtoField(1, msgid))
msg.write(initProtoField(2, topic))
msg.finish()
result.write(initProtoField(1, cast[uint](RequestType.PUBSUB)))
result.write(initProtoField(8, msg))
result.finish()
proc checkResponse(pb: var ProtoBuffer): ResponseKind {.inline.} =
result = ResponseKind.Malformed
var value: uint64
if getVarintValue(pb, 1, value) > 0:
if value == 0:
result = ResponseKind.Success
else:
result = ResponseKind.Error
proc getErrorMessage(pb: var ProtoBuffer): string {.inline, raises: [Defect, DaemonLocalError].} =
if pb.enterSubmessage() == cast[int](ResponseType.ERROR):
if pb.getString(1, result) == -1:
raise newException(DaemonLocalError, "Error message is missing!")
proc recvMessage(conn: StreamTransport): Future[seq[byte]] {.async.} =
var
size: uint
length: int
res: VarintResult[void]
var buffer = newSeq[byte](10)
try:
for i in 0..<len(buffer):
await conn.readExactly(addr buffer[i], 1)
res = PB.getUVarint(buffer.toOpenArray(0, i), length, size)
if res.isOk():
break
if res.isErr() or size > MaxMessageSize:
buffer.setLen(0)
result = buffer
return
buffer.setLen(size)
await conn.readExactly(addr buffer[0], int(size))
except TransportIncompleteError:
buffer.setLen(0)
result = buffer
proc newConnection*(api: DaemonAPI): Future[StreamTransport]
{.raises: [Defect, LPError].} =
result = connect(api.address)
proc closeConnection*(api: DaemonAPI, transp: StreamTransport): Future[void] =
result = transp.closeWait()
proc socketExists(address: MultiAddress): Future[bool] {.async.} =
try:
var transp = await connect(address)
await transp.closeWait()
result = true
except:
result = false
when defined(windows):
proc getCurrentProcessId(): uint32 {.stdcall, dynlib: "kernel32",
importc: "GetCurrentProcessId".}
proc getProcessId(): int =
result = cast[int](getCurrentProcessId())
else:
proc getProcessId(): int =
result = cast[int](posix.getpid())
proc getSocket(pattern: string,
count: ptr int): Future[MultiAddress] {.async.} =
var sockname = ""
var pid = $getProcessId()
sockname = pattern % [pid, $(count[])]
let tmpma = MultiAddress.init(sockname).tryGet()
if UNIX.match(tmpma):
while true:
count[] = count[] + 1
sockname = pattern % [pid, $(count[])]
var ma = MultiAddress.init(sockname).tryGet()
let res = await socketExists(ma)
if not res:
result = ma
break
elif TCP.match(tmpma):
sockname = pattern % [pid, "0"]
var ma = MultiAddress.init(sockname).tryGet()
var sock = createAsyncSocket(ma)
if sock.bindAsyncSocket(ma):
# Socket was successfully bound, then its free to use
count[] = count[] + 1
var ta = sock.getLocalAddress()
sockname = pattern % [pid, $ta.port]
result = MultiAddress.init(sockname).tryGet()
closeSocket(sock)
# This is forward declaration needed for newDaemonApi()
proc listPeers*(api: DaemonAPI): Future[seq[PeerInfo]] {.async, gcsafe.}
proc copyEnv(): StringTableRef =
## This procedure copy all environment variables into StringTable.
result = newStringTable(modeStyleInsensitive)
for key, val in envPairs():
result[key] = val
proc newDaemonApi*(flags: set[P2PDaemonFlags] = {},
bootstrapNodes: seq[string] = @[],
id: string = "",
hostAddresses: seq[MultiAddress] = @[],
announcedAddresses: seq[MultiAddress] = @[],
daemon = DefaultDaemonFile,
sockpath = "",
patternSock = "",
patternHandler = "",
poolSize = 10,
gossipsubHeartbeatInterval = 0,
gossipsubHeartbeatDelay = 0,
peersRequired = 2,
logFile = "",
logLevel = IpfsLogLevel.Debug): Future[DaemonAPI] {.async.} =
## Initialize connection to `go-libp2p-daemon` control socket.
##
## ``flags`` - set of P2PDaemonFlags.
##
## ``bootstrapNodes`` - list of bootnode's addresses in MultiAddress format.
## (default: @[], which means usage of default nodes inside of
## `go-libp2p-daemon`).
##
## ``id`` - path to file with identification information (default: "" which
## means - generate new random identity).
##
## ``hostAddresses`` - list of multiaddrs the host should listen on.
## (default: @[], the daemon will pick a listening port at random).
##
## ``announcedAddresses`` - list of multiaddrs the host should announce to
## the network (default: @[], the daemon will announce its own listening
## address).
##
## ``daemon`` - name of ``go-libp2p-daemon`` executable (default: "p2pd").
##
## ``sockpath`` - default control socket MultiAddress
## (default: "/unix/tmp/p2pd.sock").
##
## ``patternSock`` - MultiAddress pattern string, used to start multiple
## daemons (default on Unix: "/unix/tmp/nim-p2pd-$1-$2.sock", on Windows:
## "/ip4/127.0.0.1/tcp/$2").
##
## ``patternHandler`` - MultiAddress pattern string, used to establish
## incoming channels (default on Unix: "/unix/tmp/nim-p2pd-handle-$1-$2.sock",
## on Windows: "/ip4/127.0.0.1/tcp/$2").
##
## ``poolSize`` - size of connections pool (default: 10).
##
## ``gossipsubHeartbeatInterval`` - GossipSub protocol heartbeat interval in
## milliseconds (default: 0, use default `go-libp2p-daemon` values).
##
## ``gossipsubHeartbeatDelay`` - GossipSub protocol heartbeat delay in
## millseconds (default: 0, use default `go-libp2p-daemon` values).
##
## ``peersRequired`` - Wait until `go-libp2p-daemon` will connect to at least
## ``peersRequired`` peers before return from `newDaemonApi()` procedure
## (default: 2).
##
## ``logFile`` - Enable ``go-libp2p-daemon`` logging and store it to file
## ``logFile`` (default: "", no logging)
##
## ``logLevel`` - Set ``go-libp2p-daemon`` logging verbosity level to
## ``logLevel`` (default: Debug)
var api = new DaemonAPI
var args = newSeq[string]()
var env: StringTableRef
when defined(windows):
var patternForSocket = if len(patternSock) > 0:
patternSock
else:
DefaultIpSocketPattern
var patternForChild = if len(patternHandler) > 0:
patternHandler
else:
DefaultIpChildPattern
else:
var patternForSocket = if len(patternSock) > 0:
patternSock
else:
DefaultUnixSocketPattern
var patternForChild = if len(patternHandler) > 0:
patternHandler
else:
DefaultUnixChildPattern
api.flags = flags
api.servers = newSeq[P2PServer]()
api.pattern = patternForChild
api.ucounter = 1
if len(sockpath) == 0:
api.flags.excl(NoProcessCtrl)
api.address = await getSocket(patternForSocket, addr daemonsCount)
else:
api.address = MultiAddress.init(sockpath).tryGet()
api.flags.incl(NoProcessCtrl)
let res = await socketExists(api.address)
if not res:
raise newException(DaemonLocalError, "Could not connect to remote daemon")
result = api
return
# DHTFull and DHTClient could not be present at the same time
if DHTFull in flags and DHTClient in flags:
api.flags.excl(DHTClient)
# PSGossipSub and PSFloodSub could not be present at the same time
if PSGossipSub in flags and PSFloodSub in flags:
api.flags.excl(PSFloodSub)
if DHTFull in api.flags:
args.add("-dht")
if DHTClient in api.flags:
args.add("-dhtClient")
if {Bootstrap, WaitBootstrap} * api.flags != {}:
args.add("-b")
if len(logFile) != 0:
env = copyEnv()
env["IPFS_LOGGING_FMT"] = "nocolor"
env["GOLOG_FILE"] = logFile
case logLevel
of IpfsLogLevel.Critical:
env["IPFS_LOGGING"] = "CRITICAL"
of IpfsLogLevel.Error:
env["IPFS_LOGGING"] = "ERROR"
of IpfsLogLevel.Warning:
env["IPFS_LOGGING"] = "WARNING"
of IpfsLogLevel.Notice:
env["IPFS_LOGGING"] = "NOTICE"
of IpfsLogLevel.Info:
env["IPFS_LOGGING"] = "INFO"
of IpfsLogLevel.Debug:
env["IPFS_LOGGING"] = "DEBUG"
of IpfsLogLevel.Trace:
env["IPFS_LOGGING"] = "DEBUG"
env["GOLOG_TRACING_FILE"] = logFile
if PSGossipSub in api.flags:
args.add("-pubsub")
args.add("-pubsubRouter=gossipsub")
if gossipsubHeartbeatInterval != 0:
let param = $gossipsubHeartbeatInterval & "ms"
args.add("-gossipsubHeartbeatInterval=" & param)
if gossipsubHeartbeatDelay != 0:
let param = $gossipsubHeartbeatDelay & "ms"
args.add("-gossipsubHeartbeatInitialDelay=" & param)
if PSFloodSub in api.flags:
args.add("-pubsub")
args.add("-pubsubRouter=floodsub")
if api.flags * {PSFloodSub, PSGossipSub} != {}:
if PSNoSign in api.flags:
args.add("-pubsubSign=false")
if PSStrictSign in api.flags:
args.add("-pubsubSignStrict=true")
if NATPortMap in api.flags:
args.add("-natPortMap=true")
if AutoNAT in api.flags:
args.add("-autonat=true")
if AutoRelay in api.flags:
args.add("-autoRelay=true")
if RelayActive in api.flags:
args.add("-relayActive=true")
if RelayDiscovery in api.flags:
args.add("-relayDiscovery=true")
if RelayHop in api.flags:
args.add("-relayHop=true")
if NoInlinePeerID in api.flags:
args.add("-noInlinePeerID=true")
if len(bootstrapNodes) > 0:
args.add("-bootstrapPeers=" & bootstrapNodes.join(","))
if len(id) != 0:
args.add("-id=" & id)
if len(hostAddresses) > 0:
var opt = "-hostAddrs="
for i, address in hostAddresses:
if i > 0: opt.add ","
opt.add $address
args.add(opt)
if len(announcedAddresses) > 0:
var opt = "-announceAddrs="
for i, address in announcedAddresses:
if i > 0: opt.add ","
opt.add $address
args.add(opt)
args.add("-noise=true")
args.add("-quic=false")
args.add("-listen=" & $api.address)
# We are trying to get absolute daemon path.
let cmd = findExe(daemon)
trace "p2pd cmd", cmd, args
if len(cmd) == 0:
raise newException(DaemonLocalError, "Could not find daemon executable!")
# Starting daemon process
# echo "Starting ", cmd, " ", args.join(" ")
api.process = startProcess(cmd, "", args, env, {poParentStreams})
# Waiting until daemon will not be bound to control socket.
while true:
if not api.process.running():
raise newException(DaemonLocalError,
"Daemon executable could not be started!")
let res = await socketExists(api.address)
if res:
break
await sleepAsync(500.milliseconds)
if WaitBootstrap in api.flags:
while true:
var peers = await listPeers(api)
if len(peers) >= peersRequired:
break
await sleepAsync(1.seconds)
result = api
proc close*(stream: P2PStream) {.async.} =
## Close ``stream``.
if P2PStreamFlags.Closed notin stream.flags:
await stream.transp.closeWait()
stream.transp = nil
stream.flags.incl(P2PStreamFlags.Closed)
else:
raise newException(DaemonLocalError, "Stream is already closed!")
proc close*(api: DaemonAPI) {.async.} =
## Shutdown connections to `go-libp2p-daemon` control socket.
# await api.pool.close()
# Closing all pending servers.
if len(api.servers) > 0:
var pending = newSeq[Future[void]]()
for server in api.servers:
server.server.stop()
server.server.close()
pending.add(server.server.join())
await allFutures(pending)
for server in api.servers:
let address = initTAddress(server.address).tryGet()
discard tryRemoveFile($address)
api.servers.setLen(0)
# Closing daemon's process.
if NoProcessCtrl notin api.flags:
when defined(windows):
api.process.kill()
else:
api.process.terminate()
discard api.process.waitForExit()
# Attempt to delete unix socket endpoint.
let address = initTAddress(api.address).tryGet()
if address.family == AddressFamily.Unix:
discard tryRemoveFile($address)
template withMessage(m, body: untyped): untyped =
let kind = m.checkResponse()
if kind == ResponseKind.Error:
raise newException(DaemonRemoteError, m.getErrorMessage())
elif kind == ResponseKind.Malformed:
raise newException(DaemonLocalError, "Malformed message received!")
else:
body
proc transactMessage(transp: StreamTransport,
pb: ProtoBuffer): Future[ProtoBuffer] {.async.} =
let length = pb.getLen()
let res = await transp.write(pb.getPtr(), length)
if res != length:
raise newException(DaemonLocalError, "Could not send message to daemon!")
var message = await transp.recvMessage()
if len(message) == 0:
raise newException(DaemonLocalError, "Incorrect or empty message received!")
result = initProtoBuffer(message)
proc getPeerInfo(pb: var ProtoBuffer): PeerInfo
{.raises: [Defect, DaemonLocalError].} =
## Get PeerInfo object from ``pb``.
result.addresses = newSeq[MultiAddress]()
if pb.getValue(1, result.peer) == -1:
raise newException(DaemonLocalError, "Missing required field `peer`!")
var address = newSeq[byte]()
while pb.getBytes(2, address) != -1:
if len(address) != 0:
var copyaddr = address
let addrRes = MultiAddress.init(copyaddr)
# TODO: for some reason `toException` doesn't
# work for this module
if addrRes.isErr:
raise newException(DaemonLocalError, addrRes.error)
result.addresses.add(addrRes.get())
address.setLen(0)
proc identity*(api: DaemonAPI): Future[PeerInfo] {.async.} =
## Get Node identity information
var transp = await api.newConnection()
try:
var pb = await transactMessage(transp, requestIdentity())
pb.withMessage() do:
let res = pb.enterSubmessage()
if res == cast[int](ResponseType.IDENTITY):
result = pb.getPeerInfo()
finally:
await api.closeConnection(transp)
proc connect*(api: DaemonAPI, peer: PeerID,
addresses: seq[MultiAddress],
timeout = 0) {.async.} =
## Connect to remote peer with id ``peer`` and addresses ``addresses``.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestConnect(peer, addresses,
timeout))
pb.withMessage() do:
discard
except:
await api.closeConnection(transp)
proc disconnect*(api: DaemonAPI, peer: PeerID) {.async.} =
## Disconnect from remote peer with id ``peer``.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestDisconnect(peer))
pb.withMessage() do:
discard
finally:
await api.closeConnection(transp)
proc openStream*(api: DaemonAPI, peer: PeerID,
protocols: seq[string],
timeout = 0): Future[P2PStream] {.async.} =
## Open new stream to peer ``peer`` using one of the protocols in
## ``protocols``. Returns ``StreamTransport`` for the stream.
var transp = await api.newConnection()
var stream = new P2PStream
try:
var pb = await transp.transactMessage(requestStreamOpen(peer, protocols,
timeout))
pb.withMessage() do:
var res = pb.enterSubmessage()
if res == cast[int](ResponseType.STREAMINFO):
# stream.peer = newSeq[byte]()
var raddress = newSeq[byte]()
stream.protocol = ""
if pb.getValue(1, stream.peer) == -1:
raise newException(DaemonLocalError, "Missing `peer` field!")
if pb.getLengthValue(2, raddress) == -1:
raise newException(DaemonLocalError, "Missing `address` field!")
stream.raddress = MultiAddress.init(raddress).tryGet()
if pb.getLengthValue(3, stream.protocol) == -1:
raise newException(DaemonLocalError, "Missing `proto` field!")
stream.flags.incl(Outbound)
stream.transp = transp
result = stream
except Exception as exc:
await api.closeConnection(transp)
raise exc
proc streamHandler(server: StreamServer, transp: StreamTransport) {.async.} =
var api = getUserData[DaemonAPI](server)
var message = await transp.recvMessage()
var pb = initProtoBuffer(message)
var stream = new P2PStream
var raddress = newSeq[byte]()
stream.protocol = ""
if pb.getValue(1, stream.peer) == -1:
raise newException(DaemonLocalError, "Missing `peer` field!")
if pb.getLengthValue(2, raddress) == -1:
raise newException(DaemonLocalError, "Missing `address` field!")
stream.raddress = MultiAddress.init(raddress).tryGet()
if pb.getLengthValue(3, stream.protocol) == -1:
raise newException(DaemonLocalError, "Missing `proto` field!")
stream.flags.incl(Inbound)
stream.transp = transp
if len(stream.protocol) > 0:
var handler = api.handlers.getOrDefault(stream.protocol)
if not isNil(handler):
asyncSpawn handler(api, stream)
proc addHandler*(api: DaemonAPI, protocols: seq[string],
handler: P2PStreamCallback) {.async, raises: [Defect, LPError].} =
## Add stream handler ``handler`` for set of protocols ``protocols``.
var transp = await api.newConnection()
let maddress = await getSocket(api.pattern, addr api.ucounter)
var server = createStreamServer(maddress, streamHandler, udata = api)
try:
for item in protocols:
api.handlers[item] = handler
server.start()
var pb = await transp.transactMessage(requestStreamHandler(maddress,
protocols))
pb.withMessage() do:
api.servers.add(P2PServer(server: server, address: maddress))
except Exception as exc:
for item in protocols:
api.handlers.del(item)
server.stop()
server.close()
await server.join()
raise exc
finally:
await api.closeConnection(transp)
proc listPeers*(api: DaemonAPI): Future[seq[PeerInfo]] {.async.} =
## Get list of remote peers to which we are currently connected.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestListPeers())
pb.withMessage() do:
result = newSeq[PeerInfo]()
var res = pb.enterSubmessage()
while res != 0:
if res == cast[int](ResponseType.PEERINFO):
var peer = pb.getPeerInfo()
result.add(peer)
else:
pb.skipSubmessage()
res = pb.enterSubmessage()
finally:
await api.closeConnection(transp)
proc cmTagPeer*(api: DaemonAPI, peer: PeerID, tag: string,
weight: int) {.async.} =
## Tag peer with id ``peer`` using ``tag`` and ``weight``.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestCMTagPeer(peer, tag, weight))
withMessage(pb) do:
discard
finally:
await api.closeConnection(transp)
proc cmUntagPeer*(api: DaemonAPI, peer: PeerID, tag: string) {.async.} =
## Remove tag ``tag`` from peer with id ``peer``.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestCMUntagPeer(peer, tag))
withMessage(pb) do:
discard
finally:
await api.closeConnection(transp)
proc cmTrimPeers*(api: DaemonAPI) {.async.} =
## Trim all connections.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestCMTrim())
withMessage(pb) do:
discard
finally:
await api.closeConnection(transp)
proc dhtGetSinglePeerInfo(pb: var ProtoBuffer): PeerInfo
{.raises: [Defect, DaemonLocalError].} =
if pb.enterSubmessage() == 2:
result = pb.getPeerInfo()
else:
raise newException(DaemonLocalError, "Missing required field `peer`!")
proc dhtGetSingleValue(pb: var ProtoBuffer): seq[byte]
{.raises: [Defect, DaemonLocalError].} =
result = newSeq[byte]()
if pb.getLengthValue(3, result) == -1:
raise newException(DaemonLocalError, "Missing field `value`!")
proc dhtGetSinglePublicKey(pb: var ProtoBuffer): PublicKey
{.raises: [Defect, DaemonLocalError].} =
if pb.getValue(3, result) == -1:
raise newException(DaemonLocalError, "Missing field `value`!")
proc dhtGetSinglePeerID(pb: var ProtoBuffer): PeerID
{.raises: [Defect, DaemonLocalError].} =
if pb.getValue(3, result) == -1:
raise newException(DaemonLocalError, "Missing field `value`!")
proc enterDhtMessage(pb: var ProtoBuffer, rt: DHTResponseType)
{.inline, raises: [Defect, DaemonLocalError].} =
var dtype: uint
var res = pb.enterSubmessage()
if res == cast[int](ResponseType.DHT):
if pb.getVarintValue(1, dtype) == 0:
raise newException(DaemonLocalError, "Missing required DHT field `type`!")
if dtype != cast[uint](rt):
raise newException(DaemonLocalError, "Wrong DHT answer type! ")
else:
raise newException(DaemonLocalError, "Wrong message type!")
proc enterPsMessage(pb: var ProtoBuffer)
{.inline, raises: [Defect, DaemonLocalError].} =
var res = pb.enterSubmessage()
if res != cast[int](ResponseType.PUBSUB):
raise newException(DaemonLocalError, "Wrong message type!")
proc getDhtMessageType(pb: var ProtoBuffer): DHTResponseType
{.inline, raises: [Defect, DaemonLocalError].} =
var dtype: uint
if pb.getVarintValue(1, dtype) == 0:
raise newException(DaemonLocalError, "Missing required DHT field `type`!")
if dtype == cast[uint](DHTResponseType.VALUE):
result = DHTResponseType.VALUE
elif dtype == cast[uint](DHTResponseType.END):
result = DHTResponseType.END
else:
raise newException(DaemonLocalError, "Wrong DHT answer type!")
proc dhtFindPeer*(api: DaemonAPI, peer: PeerID,
timeout = 0): Future[PeerInfo] {.async.} =
## Find peer with id ``peer`` and return peer information ``PeerInfo``.
##
## You can specify timeout for DHT request with ``timeout`` value. ``0`` value
## means no timeout.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestDHTFindPeer(peer, timeout))
withMessage(pb) do:
pb.enterDhtMessage(DHTResponseType.VALUE)
result = pb.dhtGetSinglePeerInfo()
finally:
await api.closeConnection(transp)
proc dhtGetPublicKey*(api: DaemonAPI, peer: PeerID,
timeout = 0): Future[PublicKey] {.async.} =
## Get peer's public key from peer with id ``peer``.
##
## You can specify timeout for DHT request with ``timeout`` value. ``0`` value
## means no timeout.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestDHTGetPublicKey(peer, timeout))
withMessage(pb) do:
pb.enterDhtMessage(DHTResponseType.VALUE)
result = pb.dhtGetSinglePublicKey()
finally:
await api.closeConnection(transp)
proc dhtGetValue*(api: DaemonAPI, key: string,
timeout = 0): Future[seq[byte]] {.async.} =
## Get value associated with ``key``.
##
## You can specify timeout for DHT request with ``timeout`` value. ``0`` value
## means no timeout.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestDHTGetValue(key, timeout))
withMessage(pb) do:
pb.enterDhtMessage(DHTResponseType.VALUE)
result = pb.dhtGetSingleValue()
finally:
await api.closeConnection(transp)
proc dhtPutValue*(api: DaemonAPI, key: string, value: seq[byte],
timeout = 0) {.async.} =
## Associate ``value`` with ``key``.
##
## You can specify timeout for DHT request with ``timeout`` value. ``0`` value
## means no timeout.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestDHTPutValue(key, value,
timeout))
withMessage(pb) do:
discard
finally:
await api.closeConnection(transp)
proc dhtProvide*(api: DaemonAPI, cid: Cid, timeout = 0) {.async.} =
## Provide content with id ``cid``.
##
## You can specify timeout for DHT request with ``timeout`` value. ``0`` value
## means no timeout.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestDHTProvide(cid, timeout))
withMessage(pb) do:
discard
finally:
await api.closeConnection(transp)
proc dhtFindPeersConnectedToPeer*(api: DaemonAPI, peer: PeerID,
timeout = 0): Future[seq[PeerInfo]] {.async.} =
## Find peers which are connected to peer with id ``peer``.
##
## You can specify timeout for DHT request with ``timeout`` value. ``0`` value
## means no timeout.
var transp = await api.newConnection()
var list = newSeq[PeerInfo]()
try:
let spb = requestDHTFindPeersConnectedToPeer(peer, timeout)
var pb = await transp.transactMessage(spb)
withMessage(pb) do:
pb.enterDhtMessage(DHTResponseType.BEGIN)
while true:
var message = await transp.recvMessage()
if len(message) == 0:
break
var cpb = initProtoBuffer(message)
if cpb.getDhtMessageType() == DHTResponseType.END:
break
list.add(cpb.dhtGetSinglePeerInfo())
result = list
finally:
await api.closeConnection(transp)
proc dhtGetClosestPeers*(api: DaemonAPI, key: string,
timeout = 0): Future[seq[PeerID]] {.async.} =
## Get closest peers for ``key``.
##
## You can specify timeout for DHT request with ``timeout`` value. ``0`` value
## means no timeout.
var transp = await api.newConnection()
var list = newSeq[PeerID]()
try:
let spb = requestDHTGetClosestPeers(key, timeout)
var pb = await transp.transactMessage(spb)
withMessage(pb) do:
pb.enterDhtMessage(DHTResponseType.BEGIN)
while true:
var message = await transp.recvMessage()
if len(message) == 0:
break
var cpb = initProtoBuffer(message)
if cpb.getDhtMessageType() == DHTResponseType.END:
break
list.add(cpb.dhtGetSinglePeerID())
result = list
finally:
await api.closeConnection(transp)
proc dhtFindProviders*(api: DaemonAPI, cid: Cid, count: uint32,
timeout = 0): Future[seq[PeerInfo]] {.async.} =
## Get ``count`` providers for content with id ``cid``.
##
## You can specify timeout for DHT request with ``timeout`` value. ``0`` value
## means no timeout.
var transp = await api.newConnection()
var list = newSeq[PeerInfo]()
try:
let spb = requestDHTFindProviders(cid, count, timeout)
var pb = await transp.transactMessage(spb)
withMessage(pb) do:
pb.enterDhtMessage(DHTResponseType.BEGIN)
while true:
var message = await transp.recvMessage()
if len(message) == 0:
break
var cpb = initProtoBuffer(message)
if cpb.getDhtMessageType() == DHTResponseType.END:
break
list.add(cpb.dhtGetSinglePeerInfo())
result = list
finally:
await api.closeConnection(transp)
proc dhtSearchValue*(api: DaemonAPI, key: string,
timeout = 0): Future[seq[seq[byte]]] {.async.} =
## Search for value with ``key``, return list of values found.
##
## You can specify timeout for DHT request with ``timeout`` value. ``0`` value
## means no timeout.
var transp = await api.newConnection()
var list = newSeq[seq[byte]]()
try:
var pb = await transp.transactMessage(requestDHTSearchValue(key, timeout))
withMessage(pb) do:
pb.enterDhtMessage(DHTResponseType.BEGIN)
while true:
var message = await transp.recvMessage()
if len(message) == 0:
break
var cpb = initProtoBuffer(message)
if cpb.getDhtMessageType() == DHTResponseType.END:
break
list.add(cpb.dhtGetSingleValue())
result = list
finally:
await api.closeConnection(transp)
proc pubsubGetTopics*(api: DaemonAPI): Future[seq[string]] {.async.} =
## Get list of topics this node is subscribed to.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestPSGetTopics())
withMessage(pb) do:
pb.enterPsMessage()
var topics = newSeq[string]()
var topic = ""
while pb.getString(1, topic) != -1:
topics.add(topic)
topic.setLen(0)
result = topics
finally:
await api.closeConnection(transp)
proc pubsubListPeers*(api: DaemonAPI,
topic: string): Future[seq[PeerID]] {.async.} =
## Get list of peers we are connected to and which also subscribed to topic
## ``topic``.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestPSListPeers(topic))
withMessage(pb) do:
var peer: PeerID
pb.enterPsMessage()
var peers = newSeq[PeerID]()
while pb.getValue(2, peer) != -1:
peers.add(peer)
result = peers
finally:
await api.closeConnection(transp)
proc pubsubPublish*(api: DaemonAPI, topic: string,
value: seq[byte]) {.async.} =
## Get list of peer identifiers which are subscribed to topic ``topic``.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestPSPublish(topic, value))
withMessage(pb) do:
discard
finally:
await api.closeConnection(transp)
proc getPubsubMessage*(pb: var ProtoBuffer): PubSubMessage =
result.data = newSeq[byte]()
result.seqno = newSeq[byte]()
discard pb.getValue(1, result.peer)
discard pb.getBytes(2, result.data)
discard pb.getBytes(3, result.seqno)
var item = newSeq[byte]()
while true:
if pb.getBytes(4, item) == -1:
break
var copyitem = item
var stritem = cast[string](copyitem)
if len(result.topics) == 0:
result.topics = newSeq[string]()
result.topics.add(stritem)
item.setLen(0)
discard pb.getValue(5, result.signature)
discard pb.getValue(6, result.key)
proc pubsubLoop(api: DaemonAPI, ticket: PubsubTicket) {.async.} =
while true:
var pbmessage = await ticket.transp.recvMessage()
if len(pbmessage) == 0:
break
var pb = initProtoBuffer(pbmessage)
var message = pb.getPubsubMessage()
## We can do here `await` too
let res = await ticket.handler(api, ticket, message)
if not res:
ticket.transp.close()
await ticket.transp.join()
break
proc pubsubSubscribe*(api: DaemonAPI, topic: string,
handler: P2PPubSubCallback): Future[PubsubTicket] {.async.} =
## Subscribe to topic ``topic``.
var transp = await api.newConnection()
try:
var pb = await transp.transactMessage(requestPSSubscribe(topic))
pb.withMessage() do:
var ticket = new PubsubTicket
ticket.topic = topic
ticket.handler = handler
ticket.transp = transp
asyncSpawn pubsubLoop(api, ticket)
result = ticket
except Exception as exc:
await api.closeConnection(transp)
raise exc
proc shortLog*(pinfo: PeerInfo): string =
## Get string representation of ``PeerInfo`` object.
result = newStringOfCap(128)
result.add("{PeerID: '")
result.add($pinfo.peer.shortLog())
result.add("' Addresses: [")
let length = len(pinfo.addresses)
for i in 0..<length:
result.add("'")
result.add($pinfo.addresses[i])
result.add("'")
if i < length - 1:
result.add(", ")
result.add("]}")
if len(pinfo.addresses) > 0:
result = result