198 lines
6.0 KiB
Nim
198 lines
6.0 KiB
Nim
## Nim-LibP2P
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## Copyright (c) 2019 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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## This module implements an asynchronous buffer stream
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## which emulates physical async IO.
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##
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## The stream is based on the standard library's `Deque`,
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## which is itself based on a ring buffer.
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##
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## It works by exposing a regular LPStream interface and
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## a method ``pushTo`` to push data to the internal read
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## buffer; as well as a handler that can be registered
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## that gets triggered on every write to the stream. This
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## allows using the buffered stream as a sort of proxy,
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## which can be consumed as a regular LPStream but allows
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## injecting data for reads and intercepting writes.
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##
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## Another notable feature is that the stream is fully
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## ordered and asynchronous. Reads are queued up in order
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## and are suspended when not enough data available. This
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## allows preserving backpressure while maintaining full
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## asynchrony. Both writing to the internal buffer with
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## ``pushTo`` as well as reading with ``read*` methods,
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## will suspend until either the amount of elements in the
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## buffer goes below ``maxSize`` or more data becomes available.
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import std/strformat
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import stew/byteutils
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import chronos, chronicles, metrics
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import ../stream/connection
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import ./streamseq
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when chronicles.enabledLogLevel == LogLevel.TRACE:
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import oids
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export connection
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logScope:
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topics = "bufferstream"
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const
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BufferStreamTrackerName* = "libp2p.bufferstream"
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type
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BufferStreamTracker* = ref object of TrackerBase
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opened*: uint64
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closed*: uint64
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proc setupBufferStreamTracker(): BufferStreamTracker {.gcsafe.}
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proc getBufferStreamTracker(): BufferStreamTracker {.gcsafe.} =
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result = cast[BufferStreamTracker](getTracker(BufferStreamTrackerName))
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if isNil(result):
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result = setupBufferStreamTracker()
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proc dumpTracking(): string {.gcsafe.} =
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var tracker = getBufferStreamTracker()
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result = "Opened buffers: " & $tracker.opened & "\n" &
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"Closed buffers: " & $tracker.closed
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proc leakTransport(): bool {.gcsafe.} =
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var tracker = getBufferStreamTracker()
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result = (tracker.opened != tracker.closed)
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proc setupBufferStreamTracker(): BufferStreamTracker =
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result = new BufferStreamTracker
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result.opened = 0
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result.closed = 0
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result.dump = dumpTracking
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result.isLeaked = leakTransport
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addTracker(BufferStreamTrackerName, result)
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type
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BufferStream* = ref object of Connection
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readQueue*: AsyncQueue[seq[byte]] # read queue for managing backpressure
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readBuf*: StreamSeq # overflow buffer for readOnce
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pushing*: int # number of ongoing push operations
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pushedEof*: bool
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func shortLog*(s: BufferStream): auto =
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if s.isNil: "BufferStream(nil)"
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elif s.peerInfo.isNil: $s.oid
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else: &"{shortLog(s.peerInfo.peerId)}:{s.oid}"
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chronicles.formatIt(BufferStream): shortLog(it)
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proc len*(s: BufferStream): int =
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s.readBuf.len + (if s.readQueue.len > 0: s.readQueue[0].len() else: 0)
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method initStream*(s: BufferStream) =
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if s.objName.len == 0:
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s.objName = "BufferStream"
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procCall Connection(s).initStream()
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s.readQueue = newAsyncQueue[seq[byte]](1)
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trace "BufferStream created", s
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inc getBufferStreamTracker().opened
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proc newBufferStream*(timeout: Duration = DefaultConnectionTimeout): BufferStream =
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new result
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result.timeout = timeout
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result.initStream()
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method pushData*(s: BufferStream, data: seq[byte]) {.base, async.} =
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## Write bytes to internal read buffer, use this to fill up the
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## buffer with data.
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##
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## `pushTo` will block if the queue is full, thus maintaining backpressure.
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##
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if s.isClosed or s.pushedEof:
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raise newLPStreamEOFError()
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if data.len == 0:
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return # Don't push 0-length buffers, these signal EOF
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# We will block here if there is already data queued, until it has been
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# processed
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inc s.pushing
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try:
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trace "Pushing data", s, data = data.len
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await s.readQueue.addLast(data)
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finally:
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dec s.pushing
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method pushEof*(s: BufferStream) {.base, async.} =
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if s.pushedEof:
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return
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s.pushedEof = true
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# We will block here if there is already data queued, until it has been
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# processed
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inc s.pushing
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try:
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trace "Pushing EOF", s
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await s.readQueue.addLast(@[])
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finally:
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dec s.pushing
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method readOnce*(s: BufferStream,
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pbytes: pointer,
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nbytes: int):
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Future[int] {.async.} =
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doAssert(nbytes > 0, "nbytes must be positive integer")
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if s.isEof and s.readBuf.len() == 0:
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raise newLPStreamEOFError()
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var
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p = cast[ptr UncheckedArray[byte]](pbytes)
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# First consume leftovers from previous read
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var rbytes = s.readBuf.consumeTo(toOpenArray(p, 0, nbytes - 1))
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if rbytes < nbytes:
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# There's space in the buffer - consume some data from the read queue
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trace "popping readQueue", s, rbytes, nbytes
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let buf = await s.readQueue.popFirst()
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if buf.len == 0 or s.isEof: # Another task might have set EOF!
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# No more data will arrive on read queue
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s.isEof = true
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else:
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let remaining = min(buf.len, nbytes - rbytes)
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toOpenArray(p, rbytes, nbytes - 1)[0..<remaining] =
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buf.toOpenArray(0, remaining - 1)
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rbytes += remaining
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if remaining < buf.len:
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trace "add leftovers", s, len = buf.len - remaining
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s.readBuf.add(buf.toOpenArray(remaining, buf.high))
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if s.isEof and s.readBuf.len() == 0:
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# We can clear the readBuf memory since it won't be used any more
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s.readBuf = StreamSeq()
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s.activity = true
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return rbytes
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method closeImpl*(s: BufferStream): Future[void] =
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## close the stream and clear the buffer
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trace "Closing BufferStream", s, len = s.len
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if not s.pushedEof: # Potentially wake up reader
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asyncSpawn s.pushEof()
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inc getBufferStreamTracker().closed
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trace "Closed BufferStream", s
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procCall Connection(s).closeImpl() # noraises, nocancels
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