# # Chronos Asynchronous Streams # (c) Copyright 2019-Present # Status Research & Development GmbH # # Licensed under either of # Apache License, version 2.0, (LICENSE-APACHEv2) # MIT license (LICENSE-MIT) import ../asyncloop, ../asyncsync import ../transports/common, ../transports/stream export asyncsync, stream, common const AsyncStreamDefaultBufferSize* = 4096 ## Default reading stream internal buffer size. AsyncStreamDefaultQueueSize* = 0 ## Default writing stream internal queue size. AsyncStreamReaderTrackerName* = "async.stream.reader" ## AsyncStreamReader leaks tracker name AsyncStreamWriterTrackerName* = "async.stream.writer" ## AsyncStreamWriter leaks tracker name type AsyncStreamError* = object of CatchableError AsyncStreamIncorrectDefect* = object of Defect AsyncStreamIncompleteError* = object of AsyncStreamError AsyncStreamLimitError* = object of AsyncStreamError AsyncStreamUseClosedError* = object of AsyncStreamError AsyncStreamReadError* = object of AsyncStreamError par*: ref CatchableError AsyncStreamWriteError* = object of AsyncStreamError par*: ref CatchableError AsyncBuffer* = object offset*: int buffer*: seq[byte] events*: array[2, AsyncEvent] WriteType* = enum Pointer, Sequence, String WriteItem* = object case kind*: WriteType of Pointer: dataPtr*: pointer of Sequence: dataSeq*: seq[byte] of String: dataStr*: string size*: int offset*: int future*: Future[void] AsyncStreamState* = enum Running, ## Stream is online and working Error, ## Stream has stored error Stopped, ## Stream was closed while working Finished, ## Stream was properly finished Closed ## Stream was closed StreamReaderLoop* = proc (stream: AsyncStreamReader): Future[void] {.gcsafe.} ## Main read loop for read streams. StreamWriterLoop* = proc (stream: AsyncStreamWriter): Future[void] {.gcsafe.} ## Main write loop for write streams. AsyncStreamReader* = ref object of RootRef rsource*: AsyncStreamReader tsource*: StreamTransport readerLoop*: StreamReaderLoop state*: AsyncStreamState buffer*: AsyncBuffer udata: pointer error*: ref AsyncStreamError bytesCount*: uint64 future: Future[void] AsyncStreamWriter* = ref object of RootRef wsource*: AsyncStreamWriter tsource*: StreamTransport writerLoop*: StreamWriterLoop state*: AsyncStreamState queue*: AsyncQueue[WriteItem] error*: ref AsyncStreamError udata: pointer bytesCount*: uint64 future: Future[void] AsyncStream* = object of RootObj reader*: AsyncStreamReader writer*: AsyncStreamWriter AsyncStreamTracker* = ref object of TrackerBase opened*: int64 closed*: int64 AsyncStreamRW* = AsyncStreamReader | AsyncStreamWriter proc init*(t: typedesc[AsyncBuffer], size: int): AsyncBuffer = AsyncBuffer( buffer: newSeq[byte](size), events: [newAsyncEvent(), newAsyncEvent()], offset: 0 ) proc getBuffer*(sb: AsyncBuffer): pointer {.inline.} = unsafeAddr sb.buffer[sb.offset] proc bufferLen*(sb: AsyncBuffer): int {.inline.} = len(sb.buffer) - sb.offset proc getData*(sb: AsyncBuffer): pointer {.inline.} = unsafeAddr sb.buffer[0] template dataLen*(sb: AsyncBuffer): int = sb.offset proc `[]`*(sb: AsyncBuffer, index: int): byte {.inline.} = doAssert(index < sb.offset) sb.buffer[index] proc update*(sb: var AsyncBuffer, size: int) {.inline.} = sb.offset += size proc wait*(sb: var AsyncBuffer): Future[void] = sb.events[0].clear() sb.events[1].fire() sb.events[0].wait() proc transfer*(sb: var AsyncBuffer): Future[void] = sb.events[1].clear() sb.events[0].fire() sb.events[1].wait() proc forget*(sb: var AsyncBuffer) {.inline.} = sb.events[1].clear() sb.events[0].fire() proc shift*(sb: var AsyncBuffer, size: int) {.inline.} = if sb.offset > size: moveMem(addr sb.buffer[0], addr sb.buffer[size], sb.offset - size) sb.offset = sb.offset - size else: sb.offset = 0 proc copyData*(sb: AsyncBuffer, dest: pointer, offset, length: int) {.inline.} = copyMem(cast[pointer](cast[uint](dest) + cast[uint](offset)), unsafeAddr sb.buffer[0], length) proc upload*(sb: ptr AsyncBuffer, pbytes: ptr byte, nbytes: int): Future[void] {.async.} = var length = nbytes while length > 0: let size = min(length, sb[].bufferLen()) if size == 0: # Internal buffer is full, we need to transfer data to consumer. await sb[].transfer() continue else: copyMem(addr sb[].buffer[sb.offset], pbytes, size) sb[].offset = sb[].offset + size length = length - size # We notify consumers that new data is available. sb[].forget() template toDataOpenArray*(sb: AsyncBuffer): auto = toOpenArray(sb.buffer, 0, sb.offset - 1) template toBufferOpenArray*(sb: AsyncBuffer): auto = toOpenArray(sb.buffer, sb.offset, len(sb.buffer) - 1) template copyOut*(dest: pointer, item: WriteItem, length: int) = if item.kind == Pointer: let p = cast[pointer](cast[uint](item.dataPtr) + uint(item.offset)) copyMem(dest, p, length) elif item.kind == Sequence: copyMem(dest, unsafeAddr item.dataSeq[item.offset], length) elif item.kind == String: copyMem(dest, unsafeAddr item.dataStr[item.offset], length) proc newAsyncStreamReadError(p: ref CatchableError): ref AsyncStreamReadError {. noinline.} = var w = newException(AsyncStreamReadError, "Read stream failed") w.msg = w.msg & ", originated from [" & $p.name & "] " & p.msg w.par = p w proc newAsyncStreamWriteError(p: ref CatchableError): ref AsyncStreamWriteError {. noinline.} = var w = newException(AsyncStreamWriteError, "Write stream failed") w.msg = w.msg & ", originated from [" & $p.name & "] " & p.msg w.par = p w proc newAsyncStreamIncompleteError*(): ref AsyncStreamIncompleteError {. noinline.} = newException(AsyncStreamIncompleteError, "Incomplete data sent or received") proc newAsyncStreamLimitError*(): ref AsyncStreamLimitError {.noinline.} = newException(AsyncStreamLimitError, "Buffer limit reached") proc newAsyncStreamUseClosedError*(): ref AsyncStreamUseClosedError {. noinline.} = newException(AsyncStreamUseClosedError, "Stream is already closed") proc raiseAsyncStreamUseClosedError*() {.noinline, noreturn.} = raise newAsyncStreamUseClosedError() proc raiseAsyncStreamLimitError*() {.noinline, noreturn.} = raise newAsyncStreamLimitError() proc raiseAsyncStreamIncompleteError*() {.noinline, noreturn.} = raise newAsyncStreamIncompleteError() proc raiseAsyncStreamIncorrectDefect*(m: string) {.noinline, noreturn.} = raise newException(AsyncStreamIncorrectDefect, m) proc raiseEmptyMessageDefect*() {.noinline, noreturn.} = raise newException(AsyncStreamIncorrectDefect, "Could not write empty message") template checkStreamClosed*(t: untyped) = if t.state == AsyncStreamState.Closed: raiseAsyncStreamUseClosedError() proc atEof*(rstream: AsyncStreamReader): bool = ## Returns ``true`` is reading stream is closed or finished and internal ## buffer do not have any bytes left. rstream.state in {AsyncStreamState.Stopped, Finished, Closed, Error} and (rstream.buffer.dataLen() == 0) proc atEof*(wstream: AsyncStreamWriter): bool = ## Returns ``true`` is writing stream ``wstream`` closed or finished. wstream.state in {AsyncStreamState.Stopped, Finished, Closed} proc closed*(rw: AsyncStreamRW): bool {.inline.} = ## Returns ``true`` is reading/writing stream is closed. (rw.state == AsyncStreamState.Closed) proc finished*(rw: AsyncStreamRW): bool {.inline.} = ## Returns ``true`` is reading/writing stream is finished (completed). (rw.state == AsyncStreamState.Finished) proc stopped*(rw: AsyncStreamRW): bool {.inline.} = ## Returns ``true`` is reading/writing stream is stopped (interrupted). (rw.state == AsyncStreamState.Stopped) proc running*(rw: AsyncStreamRW): bool {.inline.} = ## Returns ``true`` is reading/writing stream is still pending. (rw.state == AsyncStreamState.Running) proc setupAsyncStreamReaderTracker(): AsyncStreamTracker {.gcsafe.} proc setupAsyncStreamWriterTracker(): AsyncStreamTracker {.gcsafe.} proc getAsyncStreamReaderTracker(): AsyncStreamTracker {.inline.} = var res = cast[AsyncStreamTracker](getTracker(AsyncStreamReaderTrackerName)) if isNil(res): res = setupAsyncStreamReaderTracker() res proc getAsyncStreamWriterTracker(): AsyncStreamTracker {.inline.} = var res = cast[AsyncStreamTracker](getTracker(AsyncStreamWriterTrackerName)) if isNil(res): res = setupAsyncStreamWriterTracker() res proc dumpAsyncStreamReaderTracking(): string {.gcsafe.} = var tracker = getAsyncStreamReaderTracker() let res = "Opened async stream readers: " & $tracker.opened & "\n" & "Closed async stream readers: " & $tracker.closed res proc dumpAsyncStreamWriterTracking(): string {.gcsafe.} = var tracker = getAsyncStreamWriterTracker() let res = "Opened async stream writers: " & $tracker.opened & "\n" & "Closed async stream writers: " & $tracker.closed res proc leakAsyncStreamReader(): bool {.gcsafe.} = var tracker = getAsyncStreamReaderTracker() tracker.opened != tracker.closed proc leakAsyncStreamWriter(): bool {.gcsafe.} = var tracker = getAsyncStreamWriterTracker() tracker.opened != tracker.closed proc trackAsyncStreamReader(t: AsyncStreamReader) {.inline.} = var tracker = getAsyncStreamReaderTracker() inc(tracker.opened) proc untrackAsyncStreamReader*(t: AsyncStreamReader) {.inline.} = var tracker = getAsyncStreamReaderTracker() inc(tracker.closed) proc trackAsyncStreamWriter(t: AsyncStreamWriter) {.inline.} = var tracker = getAsyncStreamWriterTracker() inc(tracker.opened) proc untrackAsyncStreamWriter*(t: AsyncStreamWriter) {.inline.} = var tracker = getAsyncStreamWriterTracker() inc(tracker.closed) proc setupAsyncStreamReaderTracker(): AsyncStreamTracker {.gcsafe.} = var res = AsyncStreamTracker( opened: 0, closed: 0, dump: dumpAsyncStreamReaderTracking, isLeaked: leakAsyncStreamReader ) addTracker(AsyncStreamReaderTrackerName, res) res proc setupAsyncStreamWriterTracker(): AsyncStreamTracker {.gcsafe.} = var res = AsyncStreamTracker( opened: 0, closed: 0, dump: dumpAsyncStreamWriterTracking, isLeaked: leakAsyncStreamWriter ) addTracker(AsyncStreamWriterTrackerName, res) res template readLoop(body: untyped): untyped = while true: if rstream.buffer.dataLen() == 0: if rstream.state == AsyncStreamState.Error: raise rstream.error let (consumed, done) = body rstream.buffer.shift(consumed) rstream.bytesCount = rstream.bytesCount + uint64(consumed) if done: break else: if not(rstream.atEof()): await rstream.buffer.wait() proc readExactly*(rstream: AsyncStreamReader, pbytes: pointer, nbytes: int) {.async.} = ## Read exactly ``nbytes`` bytes from read-only stream ``rstream`` and store ## it to ``pbytes``. ## ## If EOF is received and ``nbytes`` is not yet readed, the procedure ## will raise ``AsyncStreamIncompleteError``. doAssert(not(isNil(pbytes)), "pbytes must not be nil") doAssert(nbytes >= 0, "nbytes must be non-negative integer") checkStreamClosed(rstream) if nbytes == 0: return if isNil(rstream.rsource): try: await readExactly(rstream.tsource, pbytes, nbytes) except CancelledError as exc: raise exc except TransportIncompleteError: raise newAsyncStreamIncompleteError() except CatchableError as exc: raise newAsyncStreamReadError(exc) else: if isNil(rstream.readerLoop): await readExactly(rstream.rsource, pbytes, nbytes) else: var index = 0 var pbuffer = cast[ptr UncheckedArray[byte]](pbytes) readLoop(): if rstream.buffer.dataLen() == 0: if rstream.atEof(): raise newAsyncStreamIncompleteError() let count = min(nbytes - index, rstream.buffer.dataLen()) if count > 0: rstream.buffer.copyData(addr pbuffer[index], 0, count) index += count (consumed: count, done: index == nbytes) proc readOnce*(rstream: AsyncStreamReader, pbytes: pointer, nbytes: int): Future[int] {.async.} = ## Perform one read operation on read-only stream ``rstream``. ## ## If internal buffer is not empty, ``nbytes`` bytes will be transferred from ## internal buffer, otherwise it will wait until some bytes will be available. doAssert(not(isNil(pbytes)), "pbytes must not be nil") doAssert(nbytes > 0, "nbytes must be positive value") checkStreamClosed(rstream) if isNil(rstream.rsource): try: return await readOnce(rstream.tsource, pbytes, nbytes) except CancelledError as exc: raise exc except CatchableError as exc: raise newAsyncStreamReadError(exc) else: if isNil(rstream.readerLoop): return await readOnce(rstream.rsource, pbytes, nbytes) else: var count = 0 readLoop(): if rstream.buffer.dataLen() == 0: (0, rstream.atEof()) else: count = min(rstream.buffer.dataLen(), nbytes) rstream.buffer.copyData(pbytes, 0, count) (count, true) return count proc readUntil*(rstream: AsyncStreamReader, pbytes: pointer, nbytes: int, sep: seq[byte]): Future[int] {.async.} = ## Read data from the read-only stream ``rstream`` until separator ``sep`` is ## found. ## ## On success, the data and separator will be removed from the internal ## buffer (consumed). Returned data will include the separator at the end. ## ## If EOF is received, and `sep` was not found, procedure will raise ## ``AsyncStreamIncompleteError``. ## ## If ``nbytes`` bytes has been received and `sep` was not found, procedure ## will raise ``AsyncStreamLimitError``. ## ## Procedure returns actual number of bytes read. doAssert(not(isNil(pbytes)), "pbytes must not be nil") doAssert(len(sep) > 0, "separator must not be empty") doAssert(nbytes >= 0, "nbytes must be non-negative value") checkStreamClosed(rstream) if nbytes == 0: raise newAsyncStreamLimitError() if isNil(rstream.rsource): try: return await readUntil(rstream.tsource, pbytes, nbytes, sep) except CancelledError as exc: raise exc except TransportIncompleteError: raise newAsyncStreamIncompleteError() except TransportLimitError: raise newAsyncStreamLimitError() except CatchableError as exc: raise newAsyncStreamReadError(exc) else: if isNil(rstream.readerLoop): return await readUntil(rstream.rsource, pbytes, nbytes, sep) else: var pbuffer = cast[ptr UncheckedArray[byte]](pbytes) var state = 0 var k = 0 readLoop(): if rstream.atEof(): raise newAsyncStreamIncompleteError() var index = 0 while index < rstream.buffer.dataLen(): if k >= nbytes: raise newAsyncStreamLimitError() let ch = rstream.buffer[index] inc(index) pbuffer[k] = ch inc(k) if sep[state] == ch: inc(state) if state == len(sep): break else: state = 0 (index, state == len(sep)) return k proc readLine*(rstream: AsyncStreamReader, limit = 0, sep = "\r\n"): Future[string] {.async.} = ## Read one line from read-only stream ``rstream``, where ``"line"`` is a ## sequence of bytes ending with ``sep`` (default is ``"\r\n"``). ## ## If EOF is received, and ``sep`` was not found, the method will return the ## partial read bytes. ## ## If the EOF was received and the internal buffer is empty, return an ## empty string. ## ## If ``limit`` more then 0, then result string will be limited to ``limit`` ## bytes. checkStreamClosed(rstream) if isNil(rstream.rsource): try: return await readLine(rstream.tsource, limit, sep) except CancelledError as exc: raise exc except CatchableError as exc: raise newAsyncStreamReadError(exc) else: if isNil(rstream.readerLoop): return await readLine(rstream.rsource, limit, sep) else: let lim = if limit <= 0: -1 else: limit var state = 0 var res = "" readLoop(): if rstream.atEof(): (0, true) else: var index = 0 while index < rstream.buffer.dataLen(): let ch = char(rstream.buffer[index]) inc(index) if sep[state] == ch: inc(state) if state == len(sep): break else: if state != 0: if limit > 0: let missing = min(state, lim - len(res) - 1) res.add(sep[0 ..< missing]) else: res.add(sep[0 ..< state]) res.add(ch) if len(res) == lim: break (index, (state == len(sep)) or (lim == len(res))) return res proc read*(rstream: AsyncStreamReader): Future[seq[byte]] {.async.} = ## Read all bytes from read-only stream ``rstream``. ## ## This procedure allocates buffer seq[byte] and return it as result. checkStreamClosed(rstream) if isNil(rstream.rsource): try: return await read(rstream.tsource) except CancelledError as exc: raise exc except TransportLimitError: raise newAsyncStreamLimitError() except CatchableError as exc: raise newAsyncStreamReadError(exc) else: if isNil(rstream.readerLoop): return await read(rstream.rsource) else: var res = newSeq[byte]() readLoop(): if rstream.atEof(): (0, true) else: let count = rstream.buffer.dataLen() res.add(rstream.buffer.buffer.toOpenArray(0, count - 1)) (count, false) return res proc read*(rstream: AsyncStreamReader, n: int): Future[seq[byte]] {.async.} = ## Read all bytes (n <= 0) or exactly `n` bytes from read-only stream ## ``rstream``. ## ## This procedure allocates buffer seq[byte] and return it as result. checkStreamClosed(rstream) if isNil(rstream.rsource): try: return await read(rstream.tsource, n) except CancelledError as exc: raise exc except CatchableError as exc: raise newAsyncStreamReadError(exc) else: if isNil(rstream.readerLoop): return await read(rstream.rsource, n) else: if n <= 0: return await read(rstream.rsource) else: var res = newSeq[byte]() readLoop(): if rstream.atEof(): (0, true) else: let count = min(rstream.buffer.dataLen(), n - len(res)) res.add(rstream.buffer.buffer.toOpenArray(0, count - 1)) (count, len(res) == n) return res proc consume*(rstream: AsyncStreamReader): Future[int] {.async.} = ## Consume (discard) all bytes from read-only stream ``rstream``. ## ## Return number of bytes actually consumed (discarded). checkStreamClosed(rstream) if isNil(rstream.rsource): try: return await consume(rstream.tsource) except CancelledError as exc: raise exc except TransportLimitError: raise newAsyncStreamLimitError() except CatchableError as exc: raise newAsyncStreamReadError(exc) else: if isNil(rstream.readerLoop): return await consume(rstream.rsource) else: var res = 0 readLoop(): if rstream.atEof(): (0, true) else: res += rstream.buffer.dataLen() (rstream.buffer.dataLen(), false) return res proc consume*(rstream: AsyncStreamReader, n: int): Future[int] {.async.} = ## Consume (discard) all bytes (n <= 0) or ``n`` bytes from read-only stream ## ``rstream``. ## ## Return number of bytes actually consumed (discarded). checkStreamClosed(rstream) if isNil(rstream.rsource): try: return await consume(rstream.tsource, n) except CancelledError as exc: raise exc except TransportLimitError: raise newAsyncStreamLimitError() except CatchableError as exc: raise newAsyncStreamReadError(exc) else: if isNil(rstream.readerLoop): return await consume(rstream.rsource, n) else: if n <= 0: return await rstream.consume() else: var res = 0 readLoop(): if rstream.atEof(): (0, true) else: let count = min(rstream.buffer.dataLen(), n - res) res += count (count, res == n) return res proc readMessage*(rstream: AsyncStreamReader, pred: ReadMessagePredicate) {. async.} = ## Read all bytes from stream ``rstream`` until ``predicate`` callback ## will not be satisfied. ## ## ``predicate`` callback should return tuple ``(consumed, result)``, where ## ``consumed`` is the number of bytes processed and ``result`` is a ## completion flag (``true`` if readMessage() should stop reading data, ## or ``false`` if readMessage() should continue to read data from stream). ## ## ``predicate`` callback must copy all the data from ``data`` array and ## return number of bytes it is going to consume. ## ``predicate`` callback will receive (zero-length) openarray, if stream ## is at EOF. doAssert(not(isNil(pred)), "`predicate` callback should not be `nil`") checkStreamClosed(rstream) if isNil(rstream.rsource): try: await readMessage(rstream.tsource, pred) except CancelledError as exc: raise exc except CatchableError as exc: raise newAsyncStreamReadError(exc) else: if isNil(rstream.readerLoop): await readMessage(rstream.rsource, pred) else: readLoop(): let count = rstream.buffer.dataLen() if count == 0: if rstream.atEof(): pred([]) else: # Case, when transport's buffer is not yet filled with data. (0, false) else: pred(rstream.buffer.buffer.toOpenArray(0, count - 1)) proc write*(wstream: AsyncStreamWriter, pbytes: pointer, nbytes: int) {.async.} = ## Write sequence of bytes pointed by ``pbytes`` of length ``nbytes`` to ## writer stream ``wstream``. ## ## ``nbytes` must be more then zero. checkStreamClosed(wstream) if nbytes <= 0: raiseEmptyMessageDefect() if isNil(wstream.wsource): var res: int try: res = await write(wstream.tsource, pbytes, nbytes) except CancelledError as exc: raise exc except AsyncStreamError as exc: raise exc except CatchableError as exc: raise newAsyncStreamWriteError(exc) if res != nbytes: raise newAsyncStreamIncompleteError() wstream.bytesCount = wstream.bytesCount + uint64(nbytes) else: if isNil(wstream.writerLoop): await write(wstream.wsource, pbytes, nbytes) wstream.bytesCount = wstream.bytesCount + uint64(nbytes) else: var item = WriteItem(kind: Pointer) item.dataPtr = pbytes item.size = nbytes item.future = newFuture[void]("async.stream.write(pointer)") try: await wstream.queue.put(item) await item.future wstream.bytesCount = wstream.bytesCount + uint64(item.size) except CancelledError as exc: raise exc except AsyncStreamError as exc: raise exc except CatchableError as exc: raise newAsyncStreamWriteError(exc) proc write*(wstream: AsyncStreamWriter, sbytes: seq[byte], msglen = -1) {.async.} = ## Write sequence of bytes ``sbytes`` of length ``msglen`` to writer ## stream ``wstream``. ## ## Sequence of bytes ``sbytes`` must not be zero-length. ## ## If ``msglen < 0`` whole sequence ``sbytes`` will be writen to stream. ## If ``msglen > len(sbytes)`` only ``len(sbytes)`` bytes will be written to ## stream. checkStreamClosed(wstream) let length = if msglen <= 0: len(sbytes) else: min(msglen, len(sbytes)) if length <= 0: raiseEmptyMessageDefect() if isNil(wstream.wsource): var res: int try: res = await write(wstream.tsource, sbytes, length) except CancelledError as exc: raise exc except CatchableError as exc: raise newAsyncStreamWriteError(exc) if res != length: raise newAsyncStreamIncompleteError() wstream.bytesCount = wstream.bytesCount + uint64(length) else: if isNil(wstream.writerLoop): await write(wstream.wsource, sbytes, length) wstream.bytesCount = wstream.bytesCount + uint64(length) else: var item = WriteItem(kind: Sequence) if not isLiteral(sbytes): shallowCopy(item.dataSeq, sbytes) else: item.dataSeq = sbytes item.size = length item.future = newFuture[void]("async.stream.write(seq)") try: await wstream.queue.put(item) await item.future wstream.bytesCount = wstream.bytesCount + uint64(item.size) except CancelledError as exc: raise exc except AsyncStreamError as exc: raise exc except CatchableError as exc: raise newAsyncStreamWriteError(exc) proc write*(wstream: AsyncStreamWriter, sbytes: string, msglen = -1) {.async.} = ## Write string ``sbytes`` of length ``msglen`` to writer stream ``wstream``. ## ## String ``sbytes`` must not be zero-length. ## ## If ``msglen < 0`` whole string ``sbytes`` will be writen to stream. ## If ``msglen > len(sbytes)`` only ``len(sbytes)`` bytes will be written to ## stream. checkStreamClosed(wstream) let length = if msglen <= 0: len(sbytes) else: min(msglen, len(sbytes)) if length <= 0: raiseEmptyMessageDefect() if isNil(wstream.wsource): var res: int try: res = await write(wstream.tsource, sbytes, length) except CancelledError as exc: raise exc except CatchableError as exc: raise newAsyncStreamWriteError(exc) if res != length: raise newAsyncStreamIncompleteError() wstream.bytesCount = wstream.bytesCount + uint64(length) else: if isNil(wstream.writerLoop): await write(wstream.wsource, sbytes, length) wstream.bytesCount = wstream.bytesCount + uint64(length) else: var item = WriteItem(kind: String) if not isLiteral(sbytes): shallowCopy(item.dataStr, sbytes) else: item.dataStr = sbytes item.size = length item.future = newFuture[void]("async.stream.write(string)") try: await wstream.queue.put(item) await item.future wstream.bytesCount = wstream.bytesCount + uint64(item.size) except CancelledError as exc: raise exc except AsyncStreamError as exc: raise exc except CatchableError as exc: raise newAsyncStreamWriteError(exc) proc finish*(wstream: AsyncStreamWriter) {.async.} = ## Finish write stream ``wstream``. checkStreamClosed(wstream) if not isNil(wstream.wsource): if isNil(wstream.writerLoop): await wstream.wsource.finish() else: var item = WriteItem(kind: Pointer) item.size = 0 item.future = newFuture[void]("async.stream.finish") try: await wstream.queue.put(item) await item.future except CancelledError as exc: raise exc except AsyncStreamError as exc: raise exc except CatchableError as exc: raise newAsyncStreamWriteError(exc) proc join*(rw: AsyncStreamRW): Future[void] = ## Get Future[void] which will be completed when stream become finished or ## closed. when rw is AsyncStreamReader: var retFuture = newFuture[void]("async.stream.reader.join") else: var retFuture = newFuture[void]("async.stream.writer.join") proc continuation(udata: pointer) {.gcsafe.} = retFuture.complete() proc cancellation(udata: pointer) {.gcsafe.} = rw.future.removeCallback(continuation, cast[pointer](retFuture)) if not(rw.future.finished()): rw.future.addCallback(continuation, cast[pointer](retFuture)) rw.future.cancelCallback = cancellation else: retFuture.complete() return retFuture proc close*(rw: AsyncStreamRW) = ## Close and frees resources of stream ``rw``. ## ## Note close() procedure is not completed immediately! if rw.closed(): raiseAsyncStreamIncorrectDefect("Stream is already closed!") rw.state = AsyncStreamState.Closed proc continuation(udata: pointer) = if not isNil(rw.udata): GC_unref(cast[ref int](rw.udata)) if not(rw.future.finished()): rw.future.complete() when rw is AsyncStreamReader: untrackAsyncStreamReader(rw) elif rw is AsyncStreamWriter: untrackAsyncStreamWriter(rw) when rw is AsyncStreamReader: if isNil(rw.rsource) or isNil(rw.readerLoop) or isNil(rw.future): callSoon(continuation) else: if rw.future.finished(): callSoon(continuation) else: rw.future.addCallback(continuation) rw.future.cancel() elif rw is AsyncStreamWriter: if isNil(rw.wsource) or isNil(rw.writerLoop) or isNil(rw.future): callSoon(continuation) else: if rw.future.finished(): callSoon(continuation) else: rw.future.addCallback(continuation) rw.future.cancel() proc closeWait*(rw: AsyncStreamRW): Future[void] = ## Close and frees resources of stream ``rw``. rw.close() rw.join() proc startReader(rstream: AsyncStreamReader) = rstream.state = Running if not isNil(rstream.readerLoop): rstream.future = rstream.readerLoop(rstream) else: rstream.future = newFuture[void]("async.stream.empty.reader") proc startWriter(wstream: AsyncStreamWriter) = wstream.state = Running if not isNil(wstream.writerLoop): wstream.future = wstream.writerLoop(wstream) else: wstream.future = newFuture[void]("async.stream.empty.writer") proc init*(child, wsource: AsyncStreamWriter, loop: StreamWriterLoop, queueSize = AsyncStreamDefaultQueueSize) = ## Initialize newly allocated object ``child`` with AsyncStreamWriter ## parameters. child.writerLoop = loop child.wsource = wsource child.tsource = wsource.tsource child.queue = newAsyncQueue[WriteItem](queueSize) trackAsyncStreamWriter(child) child.startWriter() proc init*[T](child, wsource: AsyncStreamWriter, loop: StreamWriterLoop, queueSize = AsyncStreamDefaultQueueSize, udata: ref T) = ## Initialize newly allocated object ``child`` with AsyncStreamWriter ## parameters. child.writerLoop = loop child.wsource = wsource child.tsource = wsource.tsource child.queue = newAsyncQueue[WriteItem](queueSize) if not isNil(udata): GC_ref(udata) child.udata = cast[pointer](udata) trackAsyncStreamWriter(child) child.startWriter() proc init*(child, rsource: AsyncStreamReader, loop: StreamReaderLoop, bufferSize = AsyncStreamDefaultBufferSize) = ## Initialize newly allocated object ``child`` with AsyncStreamReader ## parameters. child.readerLoop = loop child.rsource = rsource child.tsource = rsource.tsource child.buffer = AsyncBuffer.init(bufferSize) trackAsyncStreamReader(child) child.startReader() proc init*[T](child, rsource: AsyncStreamReader, loop: StreamReaderLoop, bufferSize = AsyncStreamDefaultBufferSize, udata: ref T) = ## Initialize newly allocated object ``child`` with AsyncStreamReader ## parameters. child.readerLoop = loop child.rsource = rsource child.tsource = rsource.tsource child.buffer = AsyncBuffer.init(bufferSize) if not isNil(udata): GC_ref(udata) child.udata = cast[pointer](udata) trackAsyncStreamReader(child) child.startReader() proc init*(child: AsyncStreamWriter, tsource: StreamTransport) = ## Initialize newly allocated object ``child`` with AsyncStreamWriter ## parameters. child.writerLoop = nil child.wsource = nil child.tsource = tsource trackAsyncStreamWriter(child) child.startWriter() proc init*[T](child: AsyncStreamWriter, tsource: StreamTransport, udata: ref T) = ## Initialize newly allocated object ``child`` with AsyncStreamWriter ## parameters. child.writerLoop = nil child.wsource = nil child.tsource = tsource trackAsyncStreamWriter(child) child.startWriter() proc init*(child, wsource: AsyncStreamWriter) = ## Initialize newly allocated object ``child`` with AsyncStreamWriter ## parameters. child.writerLoop = nil child.wsource = wsource child.tsource = wsource.tsource trackAsyncStreamWriter(child) child.startWriter() proc init*[T](child, wsource: AsyncStreamWriter, udata: ref T) = ## Initialize newly allocated object ``child`` with AsyncStreamWriter ## parameters. child.writerLoop = nil child.wsource = wsource child.tsource = wsource.tsource if not isNil(udata): GC_ref(udata) child.udata = cast[pointer](udata) trackAsyncStreamWriter(child) child.startWriter() proc init*(child: AsyncStreamReader, tsource: StreamTransport) = ## Initialize newly allocated object ``child`` with AsyncStreamReader ## parameters. child.readerLoop = nil child.rsource = nil child.tsource = tsource trackAsyncStreamReader(child) child.startReader() proc init*[T](child: AsyncStreamReader, tsource: StreamTransport, udata: ref T) = ## Initialize newly allocated object ``child`` with AsyncStreamReader ## parameters. child.readerLoop = nil child.rsource = nil child.tsource = tsource if not isNil(udata): GC_ref(udata) child.udata = cast[pointer](udata) trackAsyncStreamReader(child) child.startReader() proc init*(child, rsource: AsyncStreamReader) = ## Initialize newly allocated object ``child`` with AsyncStreamReader ## parameters. child.readerLoop = nil child.rsource = rsource child.tsource = rsource.tsource trackAsyncStreamReader(child) child.startReader() proc init*[T](child, rsource: AsyncStreamReader, udata: ref T) = ## Initialize newly allocated object ``child`` with AsyncStreamReader ## parameters. child.readerLoop = nil child.rsource = rsource child.tsource = rsource.tsource if not isNil(udata): GC_ref(udata) child.udata = cast[pointer](udata) trackAsyncStreamReader(child) child.startReader() proc newAsyncStreamReader*[T](rsource: AsyncStreamReader, loop: StreamReaderLoop, bufferSize = AsyncStreamDefaultBufferSize, udata: ref T): AsyncStreamReader = ## Create new AsyncStreamReader object, which will use other async stream ## reader ``rsource`` as source data channel. ## ## ``loop`` is main reading loop procedure. ## ## ``bufferSize`` is internal buffer size. ## ## ``udata`` - user object which will be associated with new AsyncStreamReader ## object. var res = AsyncStreamReader() res.init(rsource, loop, bufferSize, udata) res proc newAsyncStreamReader*(rsource: AsyncStreamReader, loop: StreamReaderLoop, bufferSize = AsyncStreamDefaultBufferSize ): AsyncStreamReader = ## Create new AsyncStreamReader object, which will use other async stream ## reader ``rsource`` as source data channel. ## ## ``loop`` is main reading loop procedure. ## ## ``bufferSize`` is internal buffer size. var res = AsyncStreamReader() res.init(rsource, loop, bufferSize) res proc newAsyncStreamReader*[T](tsource: StreamTransport, udata: ref T): AsyncStreamReader = ## Create new AsyncStreamReader object, which will use stream transport ## ``tsource`` as source data channel. ## ## ``udata`` - user object which will be associated with new AsyncStreamWriter ## object. var res = AsyncStreamReader() res.init(tsource, udata) res proc newAsyncStreamReader*(tsource: StreamTransport): AsyncStreamReader = ## Create new AsyncStreamReader object, which will use stream transport ## ``tsource`` as source data channel. var res = AsyncStreamReader() res.init(tsource) res proc newAsyncStreamWriter*[T](wsource: AsyncStreamWriter, loop: StreamWriterLoop, queueSize = AsyncStreamDefaultQueueSize, udata: ref T): AsyncStreamWriter = ## Create new AsyncStreamWriter object which will use other AsyncStreamWriter ## object ``wsource`` as data channel. ## ## ``loop`` is main writing loop procedure. ## ## ``queueSize`` is writing queue size (default size is unlimited). ## ## ``udata`` - user object which will be associated with new AsyncStreamWriter ## object. var res = AsyncStreamWriter() res.init(wsource, loop, queueSize, udata) res proc newAsyncStreamWriter*(wsource: AsyncStreamWriter, loop: StreamWriterLoop, queueSize = AsyncStreamDefaultQueueSize ): AsyncStreamWriter = ## Create new AsyncStreamWriter object which will use other AsyncStreamWriter ## object ``wsource`` as data channel. ## ## ``loop`` is main writing loop procedure. ## ## ``queueSize`` is writing queue size (default size is unlimited). var res = AsyncStreamWriter() res.init(wsource, loop, queueSize) res proc newAsyncStreamWriter*[T](tsource: StreamTransport, udata: ref T): AsyncStreamWriter = ## Create new AsyncStreamWriter object which will use stream transport ## ``tsource`` as data channel. ## ## ``udata`` - user object which will be associated with new AsyncStreamWriter ## object. var res = AsyncStreamWriter() res.init(tsource, udata) res proc newAsyncStreamWriter*(tsource: StreamTransport): AsyncStreamWriter = ## Create new AsyncStreamWriter object which will use stream transport ## ``tsource`` as data channel. var res = AsyncStreamWriter() res.init(tsource) res proc newAsyncStreamWriter*[T](wsource: AsyncStreamWriter, udata: ref T): AsyncStreamWriter = ## Create copy of AsyncStreamWriter object ``wsource``. ## ## ``udata`` - user object which will be associated with new AsyncStreamWriter ## object. var res = AsyncStreamWriter() res.init(wsource, udata) res proc newAsyncStreamWriter*(wsource: AsyncStreamWriter): AsyncStreamWriter = ## Create copy of AsyncStreamWriter object ``wsource``. var res = AsyncStreamWriter() res.init(wsource) res proc newAsyncStreamReader*[T](rsource: AsyncStreamWriter, udata: ref T): AsyncStreamWriter = ## Create copy of AsyncStreamReader object ``rsource``. ## ## ``udata`` - user object which will be associated with new AsyncStreamReader ## object. var res = AsyncStreamReader() res.init(rsource, udata) res proc newAsyncStreamReader*(rsource: AsyncStreamReader): AsyncStreamReader = ## Create copy of AsyncStreamReader object ``rsource``. var res = AsyncStreamReader() res.init(rsource) res proc getUserData*[T](rw: AsyncStreamRW): T {.inline.} = ## Obtain user data associated with AsyncStreamReader or AsyncStreamWriter ## object ``rw``. cast[T](rw.udata)