nim-libp2p/libp2p/daemon/transpool.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.

## This module implements Pool of StreamTransport.
import chronos

const
  DefaultPoolSize* = 8
    ## Default pool size

type
  ConnectionFlags = enum
    None, Busy

  PoolItem = object
    transp*: StreamTransport
    flags*: set[ConnectionFlags]

  PoolState = enum
    Connecting, Connected, Closing, Closed

  TransportPool* = ref object
    ## Transports pool object
    transports: seq[PoolItem]
    busyCount: int
    state: PoolState
    bufferSize: int
    event: AsyncEvent

  TransportPoolError* = object of AsyncError

proc waitAll[T](futs: seq[Future[T]]): Future[void] =
  ## Performs waiting for all Future[T].
  var counter = len(futs)
  var retFuture = newFuture[void]("connpool.waitAllConnections")
  proc cb(udata: pointer) =
    dec(counter)
    if counter == 0:
      retFuture.complete()
  for fut in futs:
    fut.addCallback(cb)
  return retFuture

proc newPool*(address: TransportAddress, poolsize: int = DefaultPoolSize,
              bufferSize = DefaultStreamBufferSize,
             ): Future[TransportPool] {.async.} =
  ## Establish pool of connections to address ``address`` with size
  ## ``poolsize``.
  var pool = new TransportPool
  pool.bufferSize = bufferSize
  pool.transports = newSeq[PoolItem](poolsize)
  var conns = newSeq[Future[StreamTransport]](poolsize)
  pool.state = Connecting
  for i in 0..<poolsize:
    conns[i] = connect(address, bufferSize)
  # Waiting for all connections to be established.
  await waitAll(conns)
  # Checking connections and preparing pool.
  for i in 0..<poolsize:
    if conns[i].failed:
      raise conns[i].error
    else:
      let transp = conns[i].read()
      let item = PoolItem(transp: transp)
      pool.transports[i] = item
  # Setup available connections event
  pool.event = newAsyncEvent()
  pool.state = Connected
  result = pool

proc acquire*(pool: TransportPool): Future[StreamTransport] {.async.} =
  ## Acquire non-busy connection from pool ``pool``.
  var transp: StreamTransport
  if pool.state in {Connected}:
    while true:
      if pool.busyCount < len(pool.transports):
        for conn in pool.transports.mitems():
          if Busy notin conn.flags:
            conn.flags.incl(Busy)
            inc(pool.busyCount)
            transp = conn.transp
            break
      else:
        await pool.event.wait()
        pool.event.clear()

      if not isNil(transp):
        break
  else:
    raise newException(TransportPoolError, "Pool is not ready!")
  result = transp

proc release*(pool: TransportPool, transp: StreamTransport) =
  ## Release connection ``transp`` back to pool ``pool``.
  if pool.state in {Connected, Closing}:
    var found = false
    for conn in pool.transports.mitems():
      if conn.transp == transp:
        conn.flags.excl(Busy)
        dec(pool.busyCount)
        pool.event.fire()
        found = true
        break
    if not found:
      raise newException(TransportPoolError, "Transport not bound to pool!")
  else:
    raise newException(TransportPoolError, "Pool is not ready!")

proc join*(pool: TransportPool) {.async.} =
  ## Waiting for all connection to become available.
  if pool.state in {Connected, Closing}:
    while true:
      if pool.busyCount == 0:
        break
      else:
        await pool.event.wait()
        pool.event.clear()
  elif pool.state == Connecting:
    raise newException(TransportPoolError, "Pool is not ready!")

proc close*(pool: TransportPool) {.async.} =
  ## Closes transports pool ``pool`` and release all resources.
  if pool.state == Connected:
    pool.state = Closing
    # Waiting for all transports to become available.
    await pool.join()
    # Closing all transports
    var pending = newSeq[Future[void]](len(pool.transports))
    for i in 0..<len(pool.transports):
      let transp = pool.transports[i].transp
      transp.close()
      pending[i] = transp.join()
    # Waiting for all transports to be closed
    await waitAll(pending)
    # Mark pool as `Closed`.
    pool.state = Closed
Add daemon api sources. 2018-11-19 02:52:11 +00:00			`## 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.`

			`## This module implements Pool of StreamTransport.`
Rename asyncdispatch2 -> chronos. 2019-02-14 01:15:48 +00:00			`import chronos`
Add daemon api sources. 2018-11-19 02:52:11 +00:00
			`const`
			`DefaultPoolSize* = 8`
			`## Default pool size`

			`type`
			`ConnectionFlags = enum`
			`None, Busy`

			`PoolItem = object`
			`transp*: StreamTransport`
			`flags*: set[ConnectionFlags]`

			`PoolState = enum`
			`Connecting, Connected, Closing, Closed`

			`TransportPool* = ref object`
			`## Transports pool object`
			`transports: seq[PoolItem]`
			`busyCount: int`
			`state: PoolState`
			`bufferSize: int`
			`event: AsyncEvent`

			`TransportPoolError* = object of AsyncError`

			`proc waitAll[T](futs: seq[Future[T]]): Future[void] =`
			`## Performs waiting for all Future[T].`
			`var counter = len(futs)`
			`var retFuture = newFuture[void]("connpool.waitAllConnections")`
			`proc cb(udata: pointer) =`
			`dec(counter)`
			`if counter == 0:`
			`retFuture.complete()`
			`for fut in futs:`
			`fut.addCallback(cb)`
			`return retFuture`

			`proc newPool*(address: TransportAddress, poolsize: int = DefaultPoolSize,`
			`bufferSize = DefaultStreamBufferSize,`
			`): Future[TransportPool] {.async.} =`
			## Establish pool of connections to address ``address`` with size
			## ``poolsize``.
Fixes for pubsub methods and full tests for both methods. 2018-12-09 16:44:20 +00:00			`var pool = new TransportPool`
			`pool.bufferSize = bufferSize`
			`pool.transports = newSeq[PoolItem](poolsize)`
Add daemon api sources. 2018-11-19 02:52:11 +00:00			`var conns = newSeq[Future[StreamTransport]](poolsize)`
Fixes for pubsub methods and full tests for both methods. 2018-12-09 16:44:20 +00:00			`pool.state = Connecting`
Add daemon api sources. 2018-11-19 02:52:11 +00:00			`for i in 0..<poolsize:`
			`conns[i] = connect(address, bufferSize)`
			`# Waiting for all connections to be established.`
			`await waitAll(conns)`
			`# Checking connections and preparing pool.`
			`for i in 0..<poolsize:`
			`if conns[i].failed:`
			`raise conns[i].error`
			`else:`
			`let transp = conns[i].read()`
			`let item = PoolItem(transp: transp)`
Fixes for pubsub methods and full tests for both methods. 2018-12-09 16:44:20 +00:00			`pool.transports[i] = item`
Add daemon api sources. 2018-11-19 02:52:11 +00:00			`# Setup available connections event`
Fixes for pubsub methods and full tests for both methods. 2018-12-09 16:44:20 +00:00			`pool.event = newAsyncEvent()`
			`pool.state = Connected`
			`result = pool`
Add daemon api sources. 2018-11-19 02:52:11 +00:00
			`proc acquire*(pool: TransportPool): Future[StreamTransport] {.async.} =`
			## Acquire non-busy connection from pool ``pool``.
			`var transp: StreamTransport`
			`if pool.state in {Connected}:`
			`while true:`
			`if pool.busyCount < len(pool.transports):`
			`for conn in pool.transports.mitems():`
			`if Busy notin conn.flags:`
			`conn.flags.incl(Busy)`
			`inc(pool.busyCount)`
			`transp = conn.transp`
			`break`
			`else:`
			`await pool.event.wait()`
			`pool.event.clear()`

			`if not isNil(transp):`
			`break`
			`else:`
			`raise newException(TransportPoolError, "Pool is not ready!")`
			`result = transp`

			`proc release*(pool: TransportPool, transp: StreamTransport) =`
			## Release connection ``transp`` back to pool ``pool``.
			`if pool.state in {Connected, Closing}:`
			`var found = false`
			`for conn in pool.transports.mitems():`
			`if conn.transp == transp:`
			`conn.flags.excl(Busy)`
			`dec(pool.busyCount)`
			`pool.event.fire()`
			`found = true`
			`break`
			`if not found:`
			`raise newException(TransportPoolError, "Transport not bound to pool!")`
			`else:`
			`raise newException(TransportPoolError, "Pool is not ready!")`

			`proc join*(pool: TransportPool) {.async.} =`
			`## Waiting for all connection to become available.`
			`if pool.state in {Connected, Closing}:`
			`while true:`
			`if pool.busyCount == 0:`
			`break`
			`else:`
			`await pool.event.wait()`
			`pool.event.clear()`
			`elif pool.state == Connecting:`
			`raise newException(TransportPoolError, "Pool is not ready!")`

			`proc close*(pool: TransportPool) {.async.} =`
			## Closes transports pool ``pool`` and release all resources.
			`if pool.state == Connected:`
			`pool.state = Closing`
			`# Waiting for all transports to become available.`
			`await pool.join()`
			`# Closing all transports`
			`var pending = newSeq[Future[void]](len(pool.transports))`
			`for i in 0..<len(pool.transports):`
			`let transp = pool.transports[i].transp`
			`transp.close()`
			`pending[i] = transp.join()`
			`# Waiting for all transports to be closed`
			`await waitAll(pending)`
			# Mark pool as `Closed`.
			`pool.state = Closed`