280 lines
8.1 KiB
Nim
280 lines
8.1 KiB
Nim
## Nim-LibP2P
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## Copyright (c) 2018 Status Research & Development GmbH
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## Licensed under either of
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## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
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## * MIT license ([LICENSE-MIT](LICENSE-MIT))
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## at your option.
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## This file may not be copied, modified, or distributed except according to
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## those terms.
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## To enable dump of all incoming and outgoing unencrypted messages you need
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## to compile project with ``-d:libp2p_dump`` compile-time option. When this
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## option enabled ``nim-libp2p`` will create dumps of unencrypted messages for
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## every peer libp2p communicates.
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##
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## Every file is created with name "<PeerID>.pbcap". One file represents
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## all the communication with peer which identified by ``PeerID``.
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##
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## File can have multiple protobuf encoded messages of this format:
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##
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## Protobuf's message fields:
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## 1. SeqID: optional uint64
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## 2. Timestamp: required uint64
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## 3. Type: optional uint64
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## 4. Direction: required uint64
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## 5. LocalAddress: optional bytes
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## 6. RemoteAddress: optional bytes
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## 7. Message: required bytes
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import os, options
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import nimcrypto/utils, stew/endians2
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import protobuf/minprotobuf, stream/connection, protocols/secure/secure,
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multiaddress, peerid, varint, muxers/mplex/coder
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from times import getTime, toUnix, fromUnix, nanosecond, format, Time,
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NanosecondRange, initTime
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from strutils import toHex, repeat
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export peerid, options, multiaddress
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type
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FlowDirection* = enum
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Outgoing, Incoming
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ProtoMessage* = object
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timestamp*: uint64
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direction*: FlowDirection
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message*: seq[byte]
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seqID*: Option[uint64]
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mtype*: Option[uint64]
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local*: Option[MultiAddress]
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remote*: Option[MultiAddress]
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const
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libp2p_dump_dir* {.strdefine.} = "nim-libp2p"
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## default directory where all the dumps will be stored, if the path
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## relative it will be created in home directory. You can overload this path
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## using ``-d:libp2p_dump_dir=<otherpath>``.
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proc getTimestamp(): uint64 =
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## This procedure is present because `stdlib.times` missing it.
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let time = getTime()
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uint64(time.toUnix() * 1_000_000_000 + time.nanosecond())
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proc getTimedate(value: uint64): string =
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## This procedure is workaround for `stdlib.times` to just convert
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## nanoseconds' timestamp to DateTime object.
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let time = initTime(int64(value div 1_000_000_000), value mod 1_000_000_000)
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time.format("yyyy-MM-dd HH:mm:ss'.'fffzzz")
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proc dumpMessage*(conn: SecureConn, direction: FlowDirection,
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data: openArray[byte]) =
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## Store unencrypted message ``data`` to dump file, all the metadata will be
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## extracted from ``conn`` instance.
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var pb = initProtoBuffer(options = {WithVarintLength})
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pb.write(2, getTimestamp())
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pb.write(4, uint64(direction))
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pb.write(6, conn.observedAddr)
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pb.write(7, data)
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pb.finish()
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let dirName =
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if isAbsolute(libp2p_dump_dir):
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libp2p_dump_dir
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else:
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getHomeDir() / libp2p_dump_dir
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let fileName = $(conn.peerId) & ".pbcap"
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# This is debugging procedure so it should not generate any exceptions,
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# and we going to return at every possible OS error.
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if not(dirExists(dirName)):
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try:
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createDir(dirName)
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except CatchableError:
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return
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let pathName = dirName / fileName
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var handle: File
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try:
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if open(handle, pathName, fmAppend):
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discard writeBuffer(handle, addr pb.buffer[pb.offset], pb.getLen())
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finally:
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close(handle)
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proc decodeDumpMessage*(data: openArray[byte]): Option[ProtoMessage] =
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## Decode protobuf's message ProtoMessage from array of bytes ``data``.
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var
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pb = initProtoBuffer(data)
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value: uint64
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ma1, ma2: MultiAddress
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pmsg: ProtoMessage
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let res2 = pb.getField(2, pmsg.timestamp)
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if res2.isErr() or not(res2.get()):
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return none[ProtoMessage]()
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let res4 = pb.getField(4, value)
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if res4.isErr() or not(res4.get()):
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return none[ProtoMessage]()
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# `case` statement could not work here with an error "selector must be of an
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# ordinal type, float or string"
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pmsg.direction =
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if value == uint64(Outgoing):
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Outgoing
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elif value == uint64(Incoming):
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Incoming
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else:
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return none[ProtoMessage]()
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let res7 = pb.getField(7, pmsg.message)
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if res7.isErr() or not(res7.get()):
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return none[ProtoMessage]()
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value = 0'u64
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let res1 = pb.getField(1, value)
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if res1.isOk() and res1.get():
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pmsg.seqID = some(value)
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value = 0'u64
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let res3 = pb.getField(3, value)
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if res3.isOk() and res3.get():
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pmsg.mtype = some(value)
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let res5 = pb.getField(5, ma1)
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if res5.isOk() and res5.get():
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pmsg.local = some(ma1)
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let res6 = pb.getField(6, ma2)
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if res6.isOk() and res6.get():
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pmsg.remote = some(ma2)
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some(pmsg)
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iterator messages*(data: seq[byte]): Option[ProtoMessage] =
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## Iterate over sequence of bytes and decode all the ``ProtoMessage``
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## messages we found.
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var value: uint64
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var size: int
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var offset = 0
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while offset < len(data):
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value = 0
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size = 0
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let res = PB.getUVarint(data.toOpenArray(offset, len(data) - 1),
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size, value)
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if res.isOk():
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if (value > 0'u64) and (value < uint64(len(data) - offset)):
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offset += size
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yield decodeDumpMessage(data.toOpenArray(offset,
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offset + int(value) - 1))
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# value is previously checked to be less then len(data) which is `int`.
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offset += int(value)
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else:
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break
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else:
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break
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proc dumpHex*(pbytes: openarray[byte], groupBy = 1, ascii = true): string =
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## Get hexadecimal dump of memory for array ``pbytes``.
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var res = ""
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var offset = 0
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var ascii = ""
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while offset < len(pbytes):
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if (offset mod 16) == 0:
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res = res & toHex(uint64(offset)) & ": "
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for k in 0 ..< groupBy:
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let ch = pbytes[offset + k]
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ascii.add(if ord(ch) > 31 and ord(ch) < 127: char(ch) else: '.')
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let item =
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case groupBy:
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of 1:
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toHex(pbytes[offset])
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of 2:
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toHex(uint16.fromBytes(pbytes.toOpenArray(offset, len(pbytes) - 1)))
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of 4:
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toHex(uint32.fromBytes(pbytes.toOpenArray(offset, len(pbytes) - 1)))
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of 8:
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toHex(uint64.fromBytes(pbytes.toOpenArray(offset, len(pbytes) - 1)))
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else:
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""
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res.add(item)
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res.add(" ")
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offset = offset + groupBy
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if (offset mod 16) == 0:
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res.add(" ")
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res.add(ascii)
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ascii.setLen(0)
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res.add("\p")
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if (offset mod 16) != 0:
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let spacesCount = ((16 - (offset mod 16)) div groupBy) *
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(groupBy * 2 + 1) + 1
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res = res & repeat(' ', spacesCount)
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res = res & ascii
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res.add("\p")
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res
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proc mplexMessage*(data: seq[byte]): string =
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var value = 0'u64
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var size = 0
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let res = PB.getUVarint(data, size, value)
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if res.isOk():
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if size < len(data) and data[size] == 0x00'u8:
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let header = cast[MessageType](value and 0x07'u64)
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let ident = (value shr 3)
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"mplex: [" & $header & ", ident = " & $ident & "] "
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else:
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""
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else:
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""
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proc toString*(msg: ProtoMessage, dump = true): string =
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## Convert message ``msg`` to its string representation.
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## If ``dump`` is ``true`` (default) full hexadecimal dump with ascii will be
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## used, otherwise just a simple hexadecimal string will be printed.
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var res = getTimedate(msg.timestamp)
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let direction =
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case msg.direction
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of Incoming:
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" << "
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of Outgoing:
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" >> "
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let address =
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block:
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let local =
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if msg.local.isSome():
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"[" & $(msg.local.get()) & "]"
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else:
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"[LOCAL]"
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let remote =
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if msg.remote.isSome():
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"[" & $(msg.remote.get()) & "]"
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else:
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"[REMOTE]"
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local & direction & remote
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let seqid =
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if msg.seqID.isSome():
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"seqID = " & $(msg.seqID.get()) & " "
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else:
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""
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let mtype =
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if msg.mtype.isSome():
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"type = " & $(msg.mtype.get()) & " "
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else:
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""
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res.add(" ")
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res.add(address)
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res.add(" ")
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res.add(mtype)
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res.add(seqid)
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res.add(mplexMessage(msg.message))
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res.add(" ")
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res.add("\p")
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if dump:
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res.add(dumpHex(msg.message))
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else:
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res.add(utils.toHex(msg.message))
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res.add("\p")
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res
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