nim-libp2p/libp2p/protocols/pubsub/rpc/protobuf.nim

333 lines
11 KiB
Nim

# Nim-LibP2P
# Copyright (c) 2022 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.
when (NimMajor, NimMinor) < (1, 4):
{.push raises: [Defect].}
else:
{.push raises: [].}
import options
import stew/assign2
import chronicles
import messages,
../../../peerid,
../../../utility,
../../../protobuf/minprotobuf
logScope:
topics = "pubsubprotobuf"
when defined(libp2p_protobuf_metrics):
import metrics
declareCounter(libp2p_pubsub_rpc_bytes_read, "pubsub rpc bytes read", labels = ["kind"])
declareCounter(libp2p_pubsub_rpc_bytes_write, "pubsub rpc bytes write", labels = ["kind"])
proc write*(pb: var ProtoBuffer, field: int, graft: ControlGraft) =
var ipb = initProtoBuffer()
ipb.write(1, graft.topicId)
ipb.finish()
pb.write(field, ipb)
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_write.inc(ipb.getLen().int64, labelValues = ["graft"])
proc write*(pb: var ProtoBuffer, field: int, infoMsg: PeerInfoMsg) =
var ipb = initProtoBuffer()
ipb.write(1, infoMsg.peerId)
ipb.write(2, infoMsg.signedPeerRecord)
ipb.finish()
pb.write(field, ipb)
proc write*(pb: var ProtoBuffer, field: int, prune: ControlPrune) =
var ipb = initProtoBuffer()
ipb.write(1, prune.topicId)
for peer in prune.peers:
ipb.write(2, peer)
ipb.write(3, prune.backoff)
ipb.finish()
pb.write(field, ipb)
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_write.inc(ipb.getLen().int64, labelValues = ["prune"])
proc write*(pb: var ProtoBuffer, field: int, ihave: ControlIHave) =
var ipb = initProtoBuffer()
ipb.write(1, ihave.topicId)
for mid in ihave.messageIds:
ipb.write(2, mid)
ipb.finish()
pb.write(field, ipb)
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_write.inc(ipb.getLen().int64, labelValues = ["ihave"])
proc write*(pb: var ProtoBuffer, field: int, iwant: ControlIWant) =
var ipb = initProtoBuffer()
for mid in iwant.messageIds:
ipb.write(1, mid)
if len(ipb.buffer) > 0:
ipb.finish()
pb.write(field, ipb)
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_write.inc(ipb.getLen().int64, labelValues = ["iwant"])
proc write*(pb: var ProtoBuffer, field: int, control: ControlMessage) =
var ipb = initProtoBuffer()
for ihave in control.ihave:
ipb.write(1, ihave)
for iwant in control.iwant:
ipb.write(2, iwant)
for graft in control.graft:
ipb.write(3, graft)
for prune in control.prune:
ipb.write(4, prune)
if len(ipb.buffer) > 0:
ipb.finish()
pb.write(field, ipb)
proc write*(pb: var ProtoBuffer, field: int, subs: SubOpts) =
var ipb = initProtoBuffer()
ipb.write(1, uint64(subs.subscribe))
ipb.write(2, subs.topic)
ipb.finish()
pb.write(field, ipb)
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_write.inc(ipb.getLen().int64, labelValues = ["subs"])
proc encodeMessage*(msg: Message, anonymize: bool): seq[byte] =
var pb = initProtoBuffer()
if len(msg.fromPeer) > 0 and not anonymize:
pb.write(1, msg.fromPeer)
pb.write(2, msg.data)
if len(msg.seqno) > 0 and not anonymize:
pb.write(3, msg.seqno)
for topic in msg.topicIds:
pb.write(4, topic)
if len(msg.signature) > 0 and not anonymize:
pb.write(5, msg.signature)
if len(msg.key) > 0 and not anonymize:
pb.write(6, msg.key)
pb.finish()
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_write.inc(pb.getLen().int64, labelValues = ["message"])
pb.buffer
proc write*(pb: var ProtoBuffer, field: int, msg: Message, anonymize: bool) =
pb.write(field, encodeMessage(msg, anonymize))
proc decodeGraft*(pb: ProtoBuffer): ProtoResult[ControlGraft] {.
inline.} =
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_read.inc(pb.getLen().int64, labelValues = ["graft"])
trace "decodeGraft: decoding message"
var control = ControlGraft()
if ? pb.getField(1, control.topicId):
trace "decodeGraft: read topicId", topic_id = control.topicId
else:
trace "decodeGraft: topicId is missing"
ok(control)
proc decodePeerInfoMsg*(pb: ProtoBuffer): ProtoResult[PeerInfoMsg] {.
inline.} =
trace "decodePeerInfoMsg: decoding message"
var pi = PeerInfoMsg()
if ? pb.getField(1, pi.peerId):
trace "decodePeerInfoMsg: read peerId", peerId = pi.peerId
else:
trace "decodePeerInfoMsg: peerId is missing"
if ? pb.getField(2, pi.signedPeerRecord):
trace "decodePeerInfoMsg: read signedPeerRecord", signedPeerRecord = pi.signedPeerRecord
else:
trace "decodePeerInfoMsg: signedPeerRecord is missing"
ok(pi)
proc decodePrune*(pb: ProtoBuffer): ProtoResult[ControlPrune] {.
inline.} =
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_read.inc(pb.getLen().int64, labelValues = ["prune"])
trace "decodePrune: decoding message"
var control = ControlPrune()
if ? pb.getField(1, control.topicId):
trace "decodePrune: read topicId", topic_id = control.topicId
else:
trace "decodePrune: topicId is missing"
var bpeers: seq[seq[byte]]
if ? pb.getRepeatedField(2, bpeers):
for bpeer in bpeers:
control.peers &= ? decodePeerInfoMsg(initProtoBuffer(bpeer))
if ? pb.getField(3, control.backoff):
trace "decodePrune: read backoff", backoff = control.backoff
ok(control)
proc decodeIHave*(pb: ProtoBuffer): ProtoResult[ControlIHave] {.
inline.} =
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_read.inc(pb.getLen().int64, labelValues = ["ihave"])
trace "decodeIHave: decoding message"
var control = ControlIHave()
if ? pb.getField(1, control.topicId):
trace "decodeIHave: read topicId", topic_id = control.topicId
else:
trace "decodeIHave: topicId is missing"
if ? pb.getRepeatedField(2, control.messageIds):
trace "decodeIHave: read messageIDs", message_ids = control.messageIds
else:
trace "decodeIHave: no messageIDs"
ok(control)
proc decodeIWant*(pb: ProtoBuffer): ProtoResult[ControlIWant] {.inline.} =
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_read.inc(pb.getLen().int64, labelValues = ["iwant"])
trace "decodeIWant: decoding message"
var control = ControlIWant()
if ? pb.getRepeatedField(1, control.messageIds):
trace "decodeIWant: read messageIDs", message_ids = control.messageIds
else:
trace "decodeIWant: no messageIDs"
ok(control)
proc decodeControl*(pb: ProtoBuffer): ProtoResult[Option[ControlMessage]] {.
inline.} =
trace "decodeControl: decoding message"
var buffer: seq[byte]
if ? pb.getField(3, buffer):
var control: ControlMessage
var cpb = initProtoBuffer(buffer)
var ihavepbs: seq[seq[byte]]
var iwantpbs: seq[seq[byte]]
var graftpbs: seq[seq[byte]]
var prunepbs: seq[seq[byte]]
if ? cpb.getRepeatedField(1, ihavepbs):
for item in ihavepbs:
control.ihave.add(? decodeIHave(initProtoBuffer(item)))
if ? cpb.getRepeatedField(2, iwantpbs):
for item in iwantpbs:
control.iwant.add(? decodeIWant(initProtoBuffer(item)))
if ? cpb.getRepeatedField(3, graftpbs):
for item in graftpbs:
control.graft.add(? decodeGraft(initProtoBuffer(item)))
if ? cpb.getRepeatedField(4, prunepbs):
for item in prunepbs:
control.prune.add(? decodePrune(initProtoBuffer(item)))
trace "decodeControl: message statistics", graft_count = len(control.graft),
prune_count = len(control.prune),
ihave_count = len(control.ihave),
iwant_count = len(control.iwant)
ok(some(control))
else:
ok(none[ControlMessage]())
proc decodeSubscription*(pb: ProtoBuffer): ProtoResult[SubOpts] {.inline.} =
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_read.inc(pb.getLen().int64, labelValues = ["subs"])
trace "decodeSubscription: decoding message"
var subflag: uint64
var sub = SubOpts()
if ? pb.getField(1, subflag):
sub.subscribe = bool(subflag)
trace "decodeSubscription: read subscribe", subscribe = subflag
else:
trace "decodeSubscription: subscribe is missing"
if ? pb.getField(2, sub.topic):
trace "decodeSubscription: read topic", topic = sub.topic
else:
trace "decodeSubscription: topic is missing"
ok(sub)
proc decodeSubscriptions*(pb: ProtoBuffer): ProtoResult[seq[SubOpts]] {.
inline.} =
trace "decodeSubscriptions: decoding message"
var subpbs: seq[seq[byte]]
var subs: seq[SubOpts]
let res = ? pb.getRepeatedField(1, subpbs)
if res:
trace "decodeSubscriptions: read subscriptions", count = len(subpbs)
for item in subpbs:
subs.add(? decodeSubscription(initProtoBuffer(item)))
if len(subs) == 0:
trace "decodeSubscription: no subscriptions found"
ok(subs)
proc decodeMessage*(pb: ProtoBuffer): ProtoResult[Message] {.inline.} =
when defined(libp2p_protobuf_metrics):
libp2p_pubsub_rpc_bytes_read.inc(pb.getLen().int64, labelValues = ["message"])
trace "decodeMessage: decoding message"
var msg: Message
if ? pb.getField(1, msg.fromPeer):
trace "decodeMessage: read fromPeer", fromPeer = msg.fromPeer
else:
trace "decodeMessage: fromPeer is missing"
if ? pb.getField(2, msg.data):
trace "decodeMessage: read data", data = msg.data.shortLog()
else:
trace "decodeMessage: data is missing"
if ? pb.getField(3, msg.seqno):
trace "decodeMessage: read seqno", seqno = msg.seqno
else:
trace "decodeMessage: seqno is missing"
if ? pb.getRepeatedField(4, msg.topicIds):
trace "decodeMessage: read topics", topic_ids = msg.topicIds
else:
trace "decodeMessage: topics are missing"
if ? pb.getField(5, msg.signature):
trace "decodeMessage: read signature", signature = msg.signature.shortLog()
else:
trace "decodeMessage: signature is missing"
if ? pb.getField(6, msg.key):
trace "decodeMessage: read public key", key = msg.key.shortLog()
else:
trace "decodeMessage: public key is missing"
ok(msg)
proc decodeMessages*(pb: ProtoBuffer): ProtoResult[seq[Message]] {.inline.} =
trace "decodeMessages: decoding message"
var msgpbs: seq[seq[byte]]
var msgs: seq[Message]
if ? pb.getRepeatedField(2, msgpbs):
trace "decodeMessages: read messages", count = len(msgpbs)
for item in msgpbs:
msgs.add(? decodeMessage(initProtoBuffer(item)))
else:
trace "decodeMessages: no messages found"
ok(msgs)
proc encodeRpcMsg*(msg: RPCMsg, anonymize: bool): seq[byte] =
trace "encodeRpcMsg: encoding message", msg = msg.shortLog()
var pb = initProtoBuffer()
for item in msg.subscriptions:
pb.write(1, item)
for item in msg.messages:
pb.write(2, item, anonymize)
if msg.control.isSome():
pb.write(3, msg.control.get())
if len(pb.buffer) > 0:
pb.finish()
pb.buffer
proc decodeRpcMsg*(msg: seq[byte]): ProtoResult[RPCMsg] {.inline.} =
trace "decodeRpcMsg: decoding message", msg = msg.shortLog()
var pb = initProtoBuffer(msg)
var rpcMsg = ok(RPCMsg())
assign(rpcMsg.get().messages, ? pb.decodeMessages())
assign(rpcMsg.get().subscriptions, ? pb.decodeSubscriptions())
assign(rpcMsg.get().control, ? pb.decodeControl())
rpcMsg