nim-libp2p/libp2p/stream/lpstream.nim

232 lines
6.7 KiB
Nim

## Nim-LibP2P
## Copyright (c) 2019 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.
import std/oids
import stew/byteutils
import chronicles, chronos, metrics
import ../varint,
../vbuffer,
../peerinfo,
../multiaddress
declareGauge(libp2p_open_streams, "open stream instances", labels = ["type"])
export oids
logScope:
topics = "lpstream"
type
LPStream* = ref object of RootObj
closeEvent*: AsyncEvent
isClosed*: bool
isEof*: bool
objName*: string
oid*: Oid
LPStreamError* = object of CatchableError
LPStreamIncompleteError* = object of LPStreamError
LPStreamIncorrectDefect* = object of Defect
LPStreamLimitError* = object of LPStreamError
LPStreamReadError* = object of LPStreamError
par*: ref CatchableError
LPStreamWriteError* = object of LPStreamError
par*: ref CatchableError
LPStreamEOFError* = object of LPStreamError
LPStreamClosedError* = object of LPStreamError
InvalidVarintError* = object of LPStreamError
MaxSizeError* = object of LPStreamError
proc newLPStreamReadError*(p: ref CatchableError): ref CatchableError =
var w = newException(LPStreamReadError, "Read stream failed")
w.msg = w.msg & ", originated from [" & $p.name & "] " & p.msg
w.par = p
result = w
proc newLPStreamReadError*(msg: string): ref CatchableError =
newException(LPStreamReadError, msg)
proc newLPStreamWriteError*(p: ref CatchableError): ref CatchableError =
var w = newException(LPStreamWriteError, "Write stream failed")
w.msg = w.msg & ", originated from [" & $p.name & "] " & p.msg
w.par = p
result = w
proc newLPStreamIncompleteError*(): ref CatchableError =
result = newException(LPStreamIncompleteError, "Incomplete data received")
proc newLPStreamLimitError*(): ref CatchableError =
result = newException(LPStreamLimitError, "Buffer limit reached")
proc newLPStreamIncorrectDefect*(m: string): ref Defect =
result = newException(LPStreamIncorrectDefect, m)
proc newLPStreamEOFError*(): ref CatchableError =
result = newException(LPStreamEOFError, "Stream EOF!")
proc newLPStreamClosedError*(): ref Exception =
result = newException(LPStreamClosedError, "Stream Closed!")
func shortLog*(s: LPStream): auto =
if s.isNil: "LPStream(nil)"
else: $s.oid
chronicles.formatIt(LPStream): shortLog(it)
method initStream*(s: LPStream) {.base.} =
if s.objName.len == 0:
s.objName = "LPStream"
s.closeEvent = newAsyncEvent()
s.oid = genOid()
libp2p_open_streams.inc(labelValues = [s.objName])
trace "Stream created", s, objName = s.objName
proc join*(s: LPStream): Future[void] =
s.closeEvent.wait()
method closed*(s: LPStream): bool {.base, inline.} =
s.isClosed
method atEof*(s: LPStream): bool {.base, inline.} =
s.isEof
method readOnce*(s: LPStream,
pbytes: pointer,
nbytes: int):
Future[int]
{.base, async.} =
doAssert(false, "not implemented!")
proc readExactly*(s: LPStream,
pbytes: pointer,
nbytes: int):
Future[void] {.async.} =
if s.atEof:
raise newLPStreamEOFError()
if nbytes == 0:
return
logScope:
s
nbytes = nbytes
objName = s.objName
var pbuffer = cast[ptr UncheckedArray[byte]](pbytes)
var read = 0
while read < nbytes and not(s.atEof()):
read += await s.readOnce(addr pbuffer[read], nbytes - read)
if read == 0:
doAssert s.atEof()
trace "couldn't read all bytes, stream EOF", s, nbytes, read
raise newLPStreamEOFError()
if read < nbytes:
trace "couldn't read all bytes, incomplete data", s, nbytes, read
raise newLPStreamIncompleteError()
proc readLine*(s: LPStream,
limit = 0,
sep = "\r\n"): Future[string]
{.async, deprecated: "todo".} =
# TODO replace with something that exploits buffering better
var lim = if limit <= 0: -1 else: limit
var state = 0
while true:
var ch: char
await readExactly(s, addr ch, 1)
if sep[state] == ch:
inc(state)
if state == len(sep):
break
else:
state = 0
if limit > 0:
let missing = min(state, lim - len(result) - 1)
result.add(sep[0 ..< missing])
else:
result.add(sep[0 ..< state])
result.add(ch)
if len(result) == lim:
break
proc readVarint*(conn: LPStream): Future[uint64] {.async, gcsafe.} =
var
varint: uint64
length: int
buffer: array[10, byte]
for i in 0..<len(buffer):
await conn.readExactly(addr buffer[i], 1)
let res = PB.getUVarint(buffer.toOpenArray(0, i), length, varint)
if res.isOk():
return varint
if res.error() != VarintError.Incomplete:
break
if true: # can't end with a raise apparently
raise (ref InvalidVarintError)(msg: "Cannot parse varint")
proc readLp*(s: LPStream, maxSize: int): Future[seq[byte]] {.async, gcsafe.} =
## read length prefixed msg, with the length encoded as a varint
let
length = await s.readVarint()
maxLen = uint64(if maxSize < 0: int.high else: maxSize)
if length > maxLen:
raise (ref MaxSizeError)(msg: "Message exceeds maximum length")
if length == 0:
return
var res = newSeq[byte](length)
await s.readExactly(addr res[0], res.len)
return res
method write*(s: LPStream, msg: seq[byte]): Future[void] {.base.} =
doAssert(false, "not implemented!")
proc writeLp*(s: LPStream, msg: string | seq[byte]): Future[void] {.gcsafe.} =
## write length prefixed
var buf = initVBuffer()
buf.writeSeq(msg)
buf.finish()
s.write(buf.buffer)
proc write*(s: LPStream, pbytes: pointer, nbytes: int): Future[void] {.deprecated: "seq".} =
s.write(@(toOpenArray(cast[ptr UncheckedArray[byte]](pbytes), 0, nbytes - 1)))
proc write*(s: LPStream, msg: string): Future[void] =
s.write(msg.toBytes())
method closeImpl*(s: LPStream): Future[void] {.async, base.} =
## Implementation of close - called only once
trace "Closing stream", s, objName = s.objName
s.closeEvent.fire()
libp2p_open_streams.dec(labelValues = [s.objName])
trace "Closed stream", s, objName = s.objName
method close*(s: LPStream): Future[void] {.base, async.} = # {.raises [Defect].}
## close the stream - this may block, but will not raise exceptions
##
if s.isClosed:
trace "Already closed", s
return
s.isClosed = true # Set flag before performing virtual close
# An separate implementation method is used so that even when derived types
# override `closeImpl`, it is called only once - anyone overriding `close`
# itself must implement this - once-only check as well, with their own field
await closeImpl(s)