# # Chronos Stream Transport # (c) Copyright 2018-Present # Status Research & Development GmbH # # Licensed under either of # Apache License, version 2.0, (LICENSE-APACHEv2) # MIT license (LICENSE-MIT) when (NimMajor, NimMinor) < (1, 4): {.push raises: [Defect].} else: {.push raises: [].} import std/deques import ".."/[asyncloop, handles, osdefs, osutils] import common type VectorKind = enum DataBuffer, # Simple buffer pointer/length DataFile # File handle for sendfile/TransmitFile StreamVector = object kind: VectorKind # Writer vector source kind buf: pointer # Writer buffer pointer buflen: int # Writer buffer size offset: uint # Writer vector offset size: int # Original size writer: Future[int] # Writer vector completion Future TransportKind* {.pure.} = enum Socket, # Socket transport Pipe, # Pipe transport File # File transport TransportFlags* = enum None, # Default value WinServerPipe, # This is internal flag which used to differentiate between server pipe # handle and client pipe handle. WinNoPipeFlash, # By default `AddressFamily.Unix` transports in Windows are using # `FlushFileBuffers()` when transport closing. # This flag disables usage of `FlushFileBuffers()` on `AddressFamily.Unix` # transport shutdown. If both server and client are running in the same # thread, because of `FlushFileBuffers()` will ensure that all bytes # or messages written to the pipe are read by the client, it is possible to # get stuck on transport `close()`. # Please use this flag only if you are making both client and server in # the same thread. TcpNoDelay # deprecated: Use SocketFlags.TcpNoDelay SocketFlags* {.pure.} = enum TcpNoDelay, ReuseAddr, ReusePort StreamTransportTracker* = ref object of TrackerBase opened*: int64 closed*: int64 StreamServerTracker* = ref object of TrackerBase opened*: int64 closed*: int64 ReadMessagePredicate* = proc (data: openArray[byte]): tuple[consumed: int, done: bool] {. gcsafe, raises: [Defect].} const StreamTransportTrackerName* = "stream.transport" StreamServerTrackerName* = "stream.server" when defined(windows): type StreamTransport* = ref object of RootRef fd*: AsyncFD # File descriptor state: set[TransportState] # Current Transport state reader: Future[void] # Current reader Future buffer: seq[byte] # Reading buffer offset: int # Reading buffer offset error: ref CatchableError # Current error queue: Deque[StreamVector] # Writer queue future: Future[void] # Stream life future # Windows specific part rwsabuf: WSABUF # Reader WSABUF wwsabuf: WSABUF # Writer WSABUF rovl: CustomOverlapped # Reader OVERLAPPED structure wovl: CustomOverlapped # Writer OVERLAPPED structure roffset: int # Pending reading offset flags: set[TransportFlags] # Internal flags case kind*: TransportKind of TransportKind.Socket: domain: Domain # Socket transport domain (IPv4/IPv6) local: TransportAddress # Local address remote: TransportAddress # Remote address of TransportKind.Pipe: todo1: int of TransportKind.File: todo2: int else: type StreamTransport* = ref object of RootRef fd*: AsyncFD # File descriptor state: set[TransportState] # Current Transport state reader: Future[void] # Current reader Future buffer: seq[byte] # Reading buffer offset: int # Reading buffer offset error: ref CatchableError # Current error queue: Deque[StreamVector] # Writer queue future: Future[void] # Stream life future case kind*: TransportKind of TransportKind.Socket: domain: Domain # Socket transport domain (IPv4/IPv6) local: TransportAddress # Local address remote: TransportAddress # Remote address of TransportKind.Pipe: todo1: int of TransportKind.File: todo2: int type StreamCallback* = proc(server: StreamServer, client: StreamTransport): Future[void] {. gcsafe, raises: [Defect].} ## New remote client connection callback ## ``server`` - StreamServer object. ## ``client`` - accepted client transport. TransportInitCallback* = proc(server: StreamServer, fd: AsyncFD): StreamTransport {. gcsafe, raises: [Defect].} ## Custom transport initialization procedure, which can allocate inherited ## StreamTransport object. StreamServer* = ref object of SocketServer ## StreamServer object function*: StreamCallback # callback which will be called after new # client accepted init*: TransportInitCallback # callback which will be called before # transport for new client proc remoteAddress*(transp: StreamTransport): TransportAddress {. raises: [Defect, TransportError].} = ## Returns ``transp`` remote socket address. if transp.kind != TransportKind.Socket: raise newException(TransportError, "Socket required!") if transp.remote.family == AddressFamily.None: var saddr: Sockaddr_storage var slen = SockLen(sizeof(saddr)) if getpeername(SocketHandle(transp.fd), cast[ptr SockAddr](addr saddr), addr slen) != 0: raiseTransportOsError(osLastError()) fromSAddr(addr saddr, slen, transp.remote) transp.remote proc localAddress*(transp: StreamTransport): TransportAddress {. raises: [Defect, TransportError].} = ## Returns ``transp`` local socket address. if transp.kind != TransportKind.Socket: raise newException(TransportError, "Socket required!") if transp.local.family == AddressFamily.None: var saddr: Sockaddr_storage var slen = SockLen(sizeof(saddr)) if getsockname(SocketHandle(transp.fd), cast[ptr SockAddr](addr saddr), addr slen) != 0: raiseTransportOsError(osLastError()) fromSAddr(addr saddr, slen, transp.local) transp.local proc localAddress*(server: StreamServer): TransportAddress = ## Returns ``server`` bound local socket address. server.local template completeReader(stream: StreamTransport) = if not(isNil(transp.reader)) and not(transp.reader.finished()): transp.reader.complete() transp.reader = nil template setReadError(t, e: untyped) = (t).state.incl(ReadError) (t).error = getTransportOsError(e) template checkPending(t: untyped) = if not(isNil((t).reader)): raise newException(TransportError, "Read operation already pending!") template shiftBuffer(t, c: untyped) = if (t).offset > c: if c > 0: moveMem(addr((t).buffer[0]), addr((t).buffer[(c)]), (t).offset - (c)) (t).offset = (t).offset - (c) else: (t).offset = 0 template shiftVectorBuffer(v: var StreamVector, o: untyped) = (v).buf = cast[pointer](cast[uint]((v).buf) + uint(o)) (v).buflen -= int(o) template shiftVectorFile(v: var StreamVector, o: untyped) = (v).buf = cast[pointer](cast[uint]((v).buf) - uint(o)) (v).offset += uint(o) proc setupStreamTransportTracker(): StreamTransportTracker {. gcsafe, raises: [Defect].} proc setupStreamServerTracker(): StreamServerTracker {. gcsafe, raises: [Defect].} proc getStreamTransportTracker(): StreamTransportTracker {.inline.} = var res = cast[StreamTransportTracker](getTracker(StreamTransportTrackerName)) if isNil(res): res = setupStreamTransportTracker() doAssert(not(isNil(res))) res proc getStreamServerTracker(): StreamServerTracker {.inline.} = var res = cast[StreamServerTracker](getTracker(StreamServerTrackerName)) if isNil(res): res = setupStreamServerTracker() doAssert(not(isNil(res))) res proc dumpTransportTracking(): string {.gcsafe.} = var tracker = getStreamTransportTracker() "Opened transports: " & $tracker.opened & "\n" & "Closed transports: " & $tracker.closed proc dumpServerTracking(): string {.gcsafe.} = var tracker = getStreamServerTracker() "Opened servers: " & $tracker.opened & "\n" & "Closed servers: " & $tracker.closed proc leakTransport(): bool {.gcsafe.} = var tracker = getStreamTransportTracker() tracker.opened != tracker.closed proc leakServer(): bool {.gcsafe.} = var tracker = getStreamServerTracker() tracker.opened != tracker.closed proc trackStream(t: StreamTransport) {.inline.} = var tracker = getStreamTransportTracker() inc(tracker.opened) proc untrackStream(t: StreamTransport) {.inline.} = var tracker = getStreamTransportTracker() inc(tracker.closed) proc trackServer(s: StreamServer) {.inline.} = var tracker = getStreamServerTracker() inc(tracker.opened) proc untrackServer(s: StreamServer) {.inline.} = var tracker = getStreamServerTracker() inc(tracker.closed) proc setupStreamTransportTracker(): StreamTransportTracker {.gcsafe.} = let res = StreamTransportTracker( opened: 0, closed: 0, dump: dumpTransportTracking, isLeaked: leakTransport) addTracker(StreamTransportTrackerName, res) res proc setupStreamServerTracker(): StreamServerTracker {.gcsafe.} = let res = StreamServerTracker( opened: 0, closed: 0, dump: dumpServerTracking, isLeaked: leakServer) addTracker(StreamServerTrackerName, res) res proc completePendingWriteQueue(queue: var Deque[StreamVector], v: int) {.inline.} = while len(queue) > 0: var vector = queue.popFirst() if not(vector.writer.finished()): vector.writer.complete(v) proc failPendingWriteQueue(queue: var Deque[StreamVector], error: ref CatchableError) {.inline.} = while len(queue) > 0: var vector = queue.popFirst() if not(vector.writer.finished()): vector.writer.fail(error) proc clean(server: StreamServer) {.inline.} = if not(server.loopFuture.finished()): untrackServer(server) server.loopFuture.complete() if not(isNil(server.udata)) and (GCUserData in server.flags): GC_unref(cast[ref int](server.udata)) GC_unref(server) proc clean(transp: StreamTransport) {.inline.} = if not(transp.future.finished()): untrackStream(transp) transp.future.complete() GC_unref(transp) when defined(windows): template zeroOvelappedOffset(t: untyped) = (t).offset = 0 (t).offsetHigh = 0 template setOverlappedOffset(t, o: untyped) = (t).offset = cast[DWORD](cast[uint64](o) and 0xFFFFFFFF'u64) (t).offsetHigh = cast[DWORD](cast[uint64](o) shr 32) template getFileSize(v: untyped): uint = cast[uint]((v).buf) template getFileHandle(v: untyped): HANDLE = cast[HANDLE]((v).buflen) template setReaderWSABuffer(t: untyped) = (t).rwsabuf.buf = cast[cstring]( cast[uint](addr t.buffer[0]) + uint((t).roffset)) (t).rwsabuf.len = ULONG(len((t).buffer) - (t).roffset) template setWriterWSABuffer(t, v: untyped) = (t).wwsabuf.buf = cast[cstring](v.buf) (t).wwsabuf.len = cast[ULONG](v.buflen) proc isConnResetError(err: OSErrorCode): bool {.inline.} = result = (err == OSErrorCode(osdefs.WSAECONNRESET)) or (err == OSErrorCode(osdefs.WSAECONNABORTED)) or (err == OSErrorCode(osdefs.ERROR_PIPE_NOT_CONNECTED)) proc writeStreamLoop(udata: pointer) {.gcsafe, nimcall.} = var bytesCount: uint32 var ovl = cast[PtrCustomOverlapped](udata) var transp = cast[StreamTransport](ovl.data.udata) if WriteClosed in transp.state: transp.state.excl(WritePending) transp.state.incl({WritePaused}) let error = getTransportUseClosedError() failPendingWriteQueue(transp.queue, error) else: while len(transp.queue) > 0: if WritePending in transp.state: ## Continuation transp.state.excl(WritePending) let err = transp.wovl.data.errCode if err == OSErrorCode(-1): bytesCount = transp.wovl.data.bytesCount var vector = transp.queue.popFirst() if bytesCount == 0: if not(vector.writer.finished()): vector.writer.complete(0) else: if transp.kind == TransportKind.Socket: if vector.kind == VectorKind.DataBuffer: if bytesCount < transp.wwsabuf.len: vector.shiftVectorBuffer(bytesCount) transp.queue.addFirst(vector) else: if not(vector.writer.finished()): # This conversion to `int` safe, because its impossible # to call write() with size bigger than `int`. vector.writer.complete(int(transp.wwsabuf.len)) else: if uint(bytesCount) < getFileSize(vector): vector.shiftVectorFile(bytesCount) transp.queue.addFirst(vector) else: if not(vector.writer.finished()): vector.writer.complete(int(getFileSize(vector))) elif transp.kind == TransportKind.Pipe: if vector.kind == VectorKind.DataBuffer: if bytesCount < transp.wwsabuf.len: vector.shiftVectorBuffer(bytesCount) transp.queue.addFirst(vector) else: if not(vector.writer.finished()): # This conversion to `int` safe, because its impossible # to call write() with size bigger than `int`. vector.writer.complete(int(transp.wwsabuf.len)) elif int(err) == osdefs.ERROR_OPERATION_ABORTED: # CancelIO() interrupt transp.state.incl({WritePaused, WriteEof}) let vector = transp.queue.popFirst() if not(vector.writer.finished()): vector.writer.complete(0) completePendingWriteQueue(transp.queue, 0) break else: let vector = transp.queue.popFirst() if isConnResetError(err): # Soft error happens which indicates that remote peer got # disconnected, complete all pending writes in queue with 0. transp.state.incl({WritePaused, WriteEof}) if not(vector.writer.finished()): vector.writer.complete(0) completePendingWriteQueue(transp.queue, 0) break else: transp.state.incl({WritePaused, WriteError}) let error = getTransportOsError(err) if not(vector.writer.finished()): vector.writer.fail(error) failPendingWriteQueue(transp.queue, error) break else: ## Initiation transp.state.incl(WritePending) if transp.kind == TransportKind.Socket: let sock = SocketHandle(transp.fd) var vector = transp.queue.popFirst() if vector.kind == VectorKind.DataBuffer: transp.wovl.zeroOvelappedOffset() transp.setWriterWSABuffer(vector) let ret = wsaSend(sock, addr transp.wwsabuf, 1, addr bytesCount, DWORD(0), cast[POVERLAPPED](addr transp.wovl), nil) if ret != 0: let err = osLastError() if int(err) == osdefs.ERROR_OPERATION_ABORTED: # CancelIO() interrupt transp.state.excl(WritePending) transp.state.incl({WritePaused, WriteEof}) if not(vector.writer.finished()): vector.writer.complete(0) completePendingWriteQueue(transp.queue, 0) break elif int(err) == osdefs.ERROR_IO_PENDING: transp.queue.addFirst(vector) else: transp.state.excl(WritePending) if isConnResetError(err): # Soft error happens which indicates that remote peer got # disconnected, complete all pending writes in queue with 0. transp.state.incl({WritePaused, WriteEof}) if not(vector.writer.finished()): vector.writer.complete(0) completePendingWriteQueue(transp.queue, 0) break else: transp.state.incl({WritePaused, WriteError}) let error = getTransportOsError(err) if not(vector.writer.finished()): vector.writer.fail(error) failPendingWriteQueue(transp.queue, error) break else: transp.queue.addFirst(vector) else: let loop = getThreadDispatcher() let size = min(uint32(getFileSize(vector)), 2_147_483_646'u32) transp.wovl.setOverlappedOffset(vector.offset) var ret = loop.transmitFile(sock, getFileHandle(vector), size, 0'u32, cast[POVERLAPPED](addr transp.wovl), nil, 0'u32) if ret == 0: let err = osLastError() if int(err) == osdefs.ERROR_OPERATION_ABORTED: # CancelIO() interrupt transp.state.excl(WritePending) transp.state.incl({WritePaused, WriteEof}) if not(vector.writer.finished()): vector.writer.complete(0) completePendingWriteQueue(transp.queue, 0) break elif int(err) == osdefs.ERROR_IO_PENDING: transp.queue.addFirst(vector) else: transp.state.excl(WritePending) if isConnResetError(err): # Soft error happens which indicates that remote peer got # disconnected, complete all pending writes in queue with 0. transp.state.incl({WritePaused, WriteEof}) if not(vector.writer.finished()): vector.writer.complete(0) completePendingWriteQueue(transp.queue, 0) break else: transp.state.incl({WritePaused, WriteError}) let error = getTransportOsError(err) if not(vector.writer.finished()): vector.writer.fail(error) failPendingWriteQueue(transp.queue, error) break else: transp.queue.addFirst(vector) elif transp.kind == TransportKind.Pipe: let pipe = HANDLE(transp.fd) var vector = transp.queue.popFirst() if vector.kind == VectorKind.DataBuffer: transp.wovl.zeroOvelappedOffset() transp.setWriterWSABuffer(vector) let ret = writeFile(pipe, cast[pointer](transp.wwsabuf.buf), DWORD(transp.wwsabuf.len), addr bytesCount, cast[POVERLAPPED](addr transp.wovl)) if ret == 0: let err = osLastError() if int(err) in {osdefs.ERROR_OPERATION_ABORTED, osdefs.ERROR_NO_DATA}: # CancelIO() interrupt transp.state.excl(WritePending) transp.state.incl({WritePaused, WriteEof}) if not(vector.writer.finished()): vector.writer.complete(0) completePendingWriteQueue(transp.queue, 0) break elif int(err) == osdefs.ERROR_IO_PENDING: transp.queue.addFirst(vector) else: transp.state.excl(WritePending) if isConnResetError(err): # Soft error happens which indicates that remote peer got # disconnected, complete all pending writes in queue with 0. transp.state.incl({WritePaused, WriteEof}) if not(vector.writer.finished()): vector.writer.complete(0) completePendingWriteQueue(transp.queue, 0) break else: transp.state.incl({WritePaused, WriteError}) let error = getTransportOsError(err) if not(vector.writer.finished()): vector.writer.fail(error) failPendingWriteQueue(transp.queue, error) break else: transp.queue.addFirst(vector) break if len(transp.queue) == 0: transp.state.incl(WritePaused) proc readStreamLoop(udata: pointer) {.gcsafe, nimcall.} = var ovl = cast[PtrCustomOverlapped](udata) var transp = cast[StreamTransport](ovl.data.udata) while true: if ReadPending in transp.state: ## Continuation transp.state.excl(ReadPending) let err = transp.rovl.data.errCode if err == OSErrorCode(-1): let bytesCount = transp.rovl.data.bytesCount if bytesCount == 0: transp.state.incl({ReadEof, ReadPaused}) else: if transp.offset != transp.roffset: moveMem(addr transp.buffer[transp.offset], addr transp.buffer[transp.roffset], bytesCount) transp.offset += int(bytesCount) transp.roffset = transp.offset if transp.offset == len(transp.buffer): transp.state.incl(ReadPaused) elif int(err) in {osdefs.ERROR_OPERATION_ABORTED, osdefs.ERROR_CONNECTION_ABORTED, osdefs.ERROR_BROKEN_PIPE, osdefs.ERROR_NETNAME_DELETED}: # CancelIO() interrupt or closeSocket() call. transp.state.incl(ReadPaused) elif transp.kind == TransportKind.Socket and (int(err) in {osdefs.ERROR_NETNAME_DELETED, osdefs.WSAECONNABORTED}): transp.state.incl({ReadEof, ReadPaused}) elif transp.kind == TransportKind.Pipe and (int(err) in {osdefs.ERROR_PIPE_NOT_CONNECTED}): transp.state.incl({ReadEof, ReadPaused}) else: transp.setReadError(err) transp.completeReader() if ReadClosed in transp.state: # Stop tracking transport transp.clean() if ReadPaused in transp.state: # Transport buffer is full, so we will not continue on reading. break else: ## Initiation if transp.state * {ReadEof, ReadClosed, ReadError} == {}: var flags = DWORD(0) var bytesCount = 0'u32 transp.state.excl(ReadPaused) transp.state.incl(ReadPending) if transp.kind == TransportKind.Socket: let sock = SocketHandle(transp.fd) transp.roffset = transp.offset transp.setReaderWSABuffer() let ret = wsaRecv(sock, addr transp.rwsabuf, 1, addr bytesCount, addr flags, cast[POVERLAPPED](addr transp.rovl), nil) if ret != 0: let err = osLastError() if int32(err) == osdefs.ERROR_OPERATION_ABORTED: # CancelIO() interrupt transp.state.excl(ReadPending) transp.state.incl(ReadPaused) elif int32(err) in {osdefs.WSAECONNRESET, osdefs.WSAENETRESET, osdefs.WSAECONNABORTED}: transp.state.excl(ReadPending) transp.state.incl({ReadEof, ReadPaused}) transp.completeReader() elif int32(err) != osdefs.ERROR_IO_PENDING: transp.state.excl(ReadPending) transp.state.incl(ReadPaused) transp.setReadError(err) transp.completeReader() elif transp.kind == TransportKind.Pipe: let pipe = HANDLE(transp.fd) transp.roffset = transp.offset transp.setReaderWSABuffer() let ret = readFile(pipe, cast[pointer](transp.rwsabuf.buf), DWORD(transp.rwsabuf.len), addr bytesCount, cast[POVERLAPPED](addr transp.rovl)) if ret == 0: let err = osLastError() if int32(err) == osdefs.ERROR_OPERATION_ABORTED: # CancelIO() interrupt transp.state.excl(ReadPending) transp.state.incl(ReadPaused) elif int32(err) in {osdefs.ERROR_BROKEN_PIPE, osdefs.ERROR_PIPE_NOT_CONNECTED}: transp.state.excl(ReadPending) transp.state.incl({ReadEof, ReadPaused}) transp.completeReader() elif int32(err) != osdefs.ERROR_IO_PENDING: transp.state.excl(ReadPending) transp.state.incl(ReadPaused) transp.setReadError(err) transp.completeReader() else: transp.state.incl(ReadPaused) transp.completeReader() # Transport close happens in callback, and we not started new # WSARecvFrom session. if ReadClosed in transp.state: if not(transp.future.finished()): transp.future.complete() ## Finish Loop break proc newStreamSocketTransport(sock: AsyncFD, bufsize: int, child: StreamTransport): StreamTransport = var transp: StreamTransport if not(isNil(child)): transp = child else: transp = StreamTransport(kind: TransportKind.Socket) transp.fd = sock transp.rovl.data = CompletionData(cb: readStreamLoop, udata: cast[pointer](transp)) transp.wovl.data = CompletionData(cb: writeStreamLoop, udata: cast[pointer](transp)) transp.buffer = newSeq[byte](bufsize) transp.state = {ReadPaused, WritePaused} transp.queue = initDeque[StreamVector]() transp.future = newFuture[void]("stream.socket.transport") GC_ref(transp) transp proc newStreamPipeTransport(fd: AsyncFD, bufsize: int, child: StreamTransport, flags: set[TransportFlags] = {}): StreamTransport = var transp: StreamTransport if not(isNil(child)): transp = child else: transp = StreamTransport(kind: TransportKind.Pipe) transp.fd = fd transp.rovl.data = CompletionData(cb: readStreamLoop, udata: cast[pointer](transp)) transp.wovl.data = CompletionData(cb: writeStreamLoop, udata: cast[pointer](transp)) transp.buffer = newSeq[byte](bufsize) transp.flags = flags transp.state = {ReadPaused, WritePaused} transp.queue = initDeque[StreamVector]() transp.future = newFuture[void]("stream.pipe.transport") GC_ref(transp) transp proc bindToDomain(handle: AsyncFD, domain: Domain): bool = if domain == Domain.AF_INET6: var saddr: Sockaddr_in6 saddr.sin6_family = type(saddr.sin6_family)(osdefs.AF_INET6) if osdefs.bindSocket(SocketHandle(handle), cast[ptr SockAddr](addr(saddr)), sizeof(saddr).SockLen) != 0'i32: return false true elif domain == Domain.AF_INET: var saddr: Sockaddr_in saddr.sin_family = type(saddr.sin_family)(osdefs.AF_INET) if osdefs.bindSocket(SocketHandle(handle), cast[ptr SockAddr](addr(saddr)), sizeof(saddr).SockLen) != 0'i32: return false true else: raiseAssert "Unsupported domain" proc connect*(address: TransportAddress, bufferSize = DefaultStreamBufferSize, child: StreamTransport = nil, localAddress = TransportAddress(), flags: set[SocketFlags] = {}, ): Future[StreamTransport] = ## Open new connection to remote peer with address ``address`` and create ## new transport object ``StreamTransport`` for established connection. ## ``bufferSize`` is size of internal buffer for transport. let loop = getThreadDispatcher() var retFuture = newFuture[StreamTransport]("stream.transport.connect") if address.family in {AddressFamily.IPv4, AddressFamily.IPv6}: ## Socket handling part var saddr: Sockaddr_storage slen: SockLen sock: AsyncFD povl: RefCustomOverlapped proto: Protocol var raddress = windowsAnyAddressFix(address) toSAddr(raddress, saddr, slen) proto = Protocol.IPPROTO_TCP sock = createAsyncSocket(raddress.getDomain(), SockType.SOCK_STREAM, proto) if sock == asyncInvalidSocket: retFuture.fail(getTransportOsError(osLastError())) return retFuture if SocketFlags.ReuseAddr in flags: if not(setSockOpt(sock, SOL_SOCKET, SO_REUSEADDR, 1)): let err = osLastError() sock.closeSocket() retFuture.fail(getTransportOsError(err)) return retFuture if SocketFlags.ReusePort in flags: if not(setSockOpt(sock, SOL_SOCKET, SO_REUSEPORT, 1)): let err = osLastError() sock.closeSocket() retFuture.fail(getTransportOsError(err)) return retFuture if localAddress != TransportAddress(): if localAddress.family != address.family: sock.closeSocket() retFuture.fail(newException(TransportOsError, "connect local address domain is not equal to target address domain")) return retFuture var localAddr: Sockaddr_storage localAddrLen: SockLen localAddress.toSAddr(localAddr, localAddrLen) if bindSocket(SocketHandle(sock), cast[ptr SockAddr](addr localAddr), localAddrLen) != 0: sock.closeSocket() retFuture.fail(getTransportOsError(osLastError())) return retFuture elif not(bindToDomain(sock, raddress.getDomain())): let err = wsaGetLastError() sock.closeSocket() retFuture.fail(getTransportOsError(err)) return retFuture proc socketContinuation(udata: pointer) {.gcsafe.} = var ovl = cast[RefCustomOverlapped](udata) if not(retFuture.finished()): if ovl.data.errCode == OSErrorCode(-1): if setsockopt(SocketHandle(sock), cint(osdefs.SOL_SOCKET), cint(osdefs.SO_UPDATE_CONNECT_CONTEXT), nil, SockLen(0)) != 0'i32: let err = wsaGetLastError() sock.closeSocket() retFuture.fail(getTransportOsError(err)) else: let transp = newStreamSocketTransport(sock, bufferSize, child) # Start tracking transport trackStream(transp) retFuture.complete(transp) else: sock.closeSocket() retFuture.fail(getTransportOsError(ovl.data.errCode)) GC_unref(ovl) proc cancel(udata: pointer) {.gcsafe.} = sock.closeSocket() povl = RefCustomOverlapped() GC_ref(povl) povl.data = CompletionData(cb: socketContinuation) let res = loop.connectEx(SocketHandle(sock), cast[ptr SockAddr](addr saddr), cint(slen), nil, 0, nil, cast[POVERLAPPED](povl)) # We will not process immediate completion, to avoid undefined behavior. if res == osdefs.FALSE: let err = osLastError() if int32(err) != osdefs.ERROR_IO_PENDING: GC_unref(povl) sock.closeSocket() retFuture.fail(getTransportOsError(err)) retFuture.cancelCallback = cancel elif address.family == AddressFamily.Unix: ## Unix domain socket emulation with Windows Named Pipes. # For some reason Nim compiler does not detect `pipeHandle` usage in # pipeContinuation() procedure, so we marking it as {.used.} here. var pipeHandle {.used.} = osdefs.INVALID_HANDLE_VALUE var pipeContinuation: proc (udata: pointer) {.gcsafe, raises: [Defect].} pipeContinuation = proc (udata: pointer) {.gcsafe, raises: [Defect].} = # Continue only if `retFuture` is not cancelled. if not(retFuture.finished()): let pipeSuffix = $cast[cstring](unsafeAddr address.address_un[0]) pipeAsciiName = PipeHeaderName & pipeSuffix[1 .. ^1] pipeName = toWideString(pipeAsciiName).valueOr: retFuture.fail(getTransportOsError(error)) return genericFlags = osdefs.GENERIC_READ or osdefs.GENERIC_WRITE shareFlags = osdefs.FILE_SHARE_READ or osdefs.FILE_SHARE_WRITE pipeHandle = createFile(pipeName, genericFlags, shareFlags, nil, osdefs.OPEN_EXISTING, osdefs.FILE_FLAG_OVERLAPPED, HANDLE(0)) free(pipeName) if pipeHandle == osdefs.INVALID_HANDLE_VALUE: let err = osLastError() if int32(err) == osdefs.ERROR_PIPE_BUSY: discard setTimer(Moment.fromNow(50.milliseconds), pipeContinuation, nil) else: retFuture.fail(getTransportOsError(err)) else: let res = register2(AsyncFD(pipeHandle)) if res.isErr(): retFuture.fail(getTransportOsError(res.error())) return let transp = newStreamPipeTransport(AsyncFD(pipeHandle), bufferSize, child) # Start tracking transport trackStream(transp) retFuture.complete(transp) pipeContinuation(nil) return retFuture proc createAcceptPipe(server: StreamServer): Result[AsyncFD, OSErrorCode] = let pipeSuffix = $cast[cstring](addr server.local.address_un) pipeName = ? toWideString(PipeHeaderName & pipeSuffix) openMode = if FirstPipe notin server.flags: server.flags.incl(FirstPipe) osdefs.PIPE_ACCESS_DUPLEX or osdefs.FILE_FLAG_OVERLAPPED or osdefs.FILE_FLAG_FIRST_PIPE_INSTANCE else: osdefs.PIPE_ACCESS_DUPLEX or osdefs.FILE_FLAG_OVERLAPPED pipeMode = osdefs.PIPE_TYPE_BYTE or osdefs.PIPE_READMODE_BYTE or osdefs.PIPE_WAIT pipeHandle = createNamedPipe(pipeName, openMode, pipeMode, osdefs.PIPE_UNLIMITED_INSTANCES, DWORD(server.bufferSize), DWORD(server.bufferSize), DWORD(0), nil) free(pipeName) if pipeHandle == osdefs.INVALID_HANDLE_VALUE: return err(osLastError()) let res = register2(AsyncFD(pipeHandle)) if res.isErr(): discard osdefs.closeHandle(pipeHandle) return err(res.error()) ok(AsyncFD(pipeHandle)) proc acceptPipeLoop(udata: pointer) {.gcsafe, nimcall.} = var ovl = cast[PtrCustomOverlapped](udata) var server = cast[StreamServer](ovl.data.udata) while true: if server.apending: ## Continuation server.apending = false if server.status notin {ServerStatus.Stopped, ServerStatus.Closed}: if ovl.data.errCode == OSErrorCode(-1): var ntransp: StreamTransport var flags = {WinServerPipe} if NoPipeFlash in server.flags: flags.incl(WinNoPipeFlash) if not(isNil(server.init)): var transp = server.init(server, server.sock) ntransp = newStreamPipeTransport(server.sock, server.bufferSize, transp, flags) else: ntransp = newStreamPipeTransport(server.sock, server.bufferSize, nil, flags) # Start tracking transport trackStream(ntransp) asyncSpawn server.function(server, ntransp) elif int32(ovl.data.errCode) == osdefs.ERROR_OPERATION_ABORTED: # CancelIO() interrupt or close call. if server.status in {ServerStatus.Closed, ServerStatus.Stopped}: server.clean() break else: # We should not raise defects in this loop. discard disconnectNamedPipe(HANDLE(server.sock)) discard closeHandle(HANDLE(server.sock)) raiseOsDefect(osLastError(), "acceptPipeLoop(): Unable to accept " & "new pipe connection") else: # Server close happens in callback, and we are not started new # connectNamedPipe session. if not(server.loopFuture.finished()): server.clean() break else: ## Initiation if server.status notin {ServerStatus.Stopped, ServerStatus.Closed}: server.apending = true let pipeSuffix = $cast[cstring](addr server.local.address_un) pipeAsciiName = PipeHeaderName & pipeSuffix pipeName = toWideString(pipeAsciiName).valueOr: raiseOsDefect(error, "acceptPipeLoop(): Unable to create name " & "for new pipe connection") openMode = if FirstPipe notin server.flags: server.flags.incl(FirstPipe) osdefs.PIPE_ACCESS_DUPLEX or osdefs.FILE_FLAG_OVERLAPPED or osdefs.FILE_FLAG_FIRST_PIPE_INSTANCE else: osdefs.PIPE_ACCESS_DUPLEX or osdefs.FILE_FLAG_OVERLAPPED pipeMode = osdefs.PIPE_TYPE_BYTE or osdefs.PIPE_READMODE_BYTE or osdefs.PIPE_WAIT pipeHandle = createNamedPipe(pipeName, openMode, pipeMode, osdefs.PIPE_UNLIMITED_INSTANCES, DWORD(server.bufferSize), DWORD(server.bufferSize), DWORD(0), nil) free(pipeName) if pipeHandle == osdefs.INVALID_HANDLE_VALUE: raiseOsDefect(osLastError(), "acceptPipeLoop(): Unable to create " & "new pipe") server.sock = AsyncFD(pipeHandle) let wres = register2(server.sock) if wres.isErr(): raiseOsDefect(wres.error(), "acceptPipeLoop(): Unable to " & "register new pipe in dispatcher") let res = connectNamedPipe(pipeHandle, cast[POVERLAPPED](addr server.aovl)) if res == 0: let errCode = osLastError() if errCode == osdefs.ERROR_OPERATION_ABORTED: server.apending = false break elif errCode == osdefs.ERROR_IO_PENDING: discard elif errCode == osdefs.ERROR_PIPE_CONNECTED: discard else: raiseOsDefect(errCode, "acceptPipeLoop(): Unable to establish " & "pipe connection") break else: # Server close happens in callback, and we are not started new # connectNamedPipe session. if not(server.loopFuture.finished()): server.clean() break proc acceptLoop(udata: pointer) {.gcsafe, nimcall.} = var ovl = cast[PtrCustomOverlapped](udata) var server = cast[StreamServer](ovl.data.udata) var loop = getThreadDispatcher() while true: if server.apending: ## Continuation server.apending = false if server.status notin {ServerStatus.Stopped, ServerStatus.Closed}: if ovl.data.errCode == OSErrorCode(-1): if setsockopt(SocketHandle(server.asock), cint(osdefs.SOL_SOCKET), cint(osdefs.SO_UPDATE_ACCEPT_CONTEXT), addr server.sock, SockLen(sizeof(SocketHandle))) != 0'i32: let errCode = OSErrorCode(wsaGetLastError()) server.asock.closeSocket() raiseOsDefect(errCode, "acceptLoop(): Unable to set accept " & "context for socket") else: var ntransp: StreamTransport if not(isNil(server.init)): let transp = server.init(server, server.asock) ntransp = newStreamSocketTransport(server.asock, server.bufferSize, transp) else: ntransp = newStreamSocketTransport(server.asock, server.bufferSize, nil) # Start tracking transport trackStream(ntransp) asyncSpawn server.function(server, ntransp) elif int32(ovl.data.errCode) == osdefs.ERROR_OPERATION_ABORTED: # CancelIO() interrupt or close. server.asock.closeSocket() if server.status in {ServerStatus.Closed, ServerStatus.Stopped}: # Stop tracking server if not(server.loopFuture.finished()): server.clean() break else: server.asock.closeSocket() raiseOsDefect(ovl.data.errCode, "acceptLoop(): Unable to accept " & "new connection") else: # Server close happens in callback, and we are not started new # AcceptEx session. if not(server.loopFuture.finished()): server.clean() break else: ## Initiation if server.status notin {ServerStatus.Stopped, ServerStatus.Closed}: server.apending = true # TODO No way to report back errors! server.asock = block: let sock = createAsyncSocket(server.domain, SockType.SOCK_STREAM, Protocol.IPPROTO_TCP) if sock == asyncInvalidSocket: raiseOsDefect(osLastError(), "acceptLoop(): Unablet to create new socket") sock var dwBytesReceived = DWORD(0) let dwReceiveDataLength = DWORD(0) let dwLocalAddressLength = DWORD(sizeof(Sockaddr_in6) + 16) let dwRemoteAddressLength = DWORD(sizeof(Sockaddr_in6) + 16) let res = loop.acceptEx(SocketHandle(server.sock), SocketHandle(server.asock), addr server.abuffer[0], dwReceiveDataLength, dwLocalAddressLength, dwRemoteAddressLength, addr dwBytesReceived, cast[POVERLAPPED](addr server.aovl)) if res == osdefs.FALSE: let errCode = osLastError() if errCode == osdefs.ERROR_OPERATION_ABORTED: server.apending = false break elif errCode == osdefs.ERROR_IO_PENDING: discard else: raiseOsDefect(errCode, "acceptLoop(): Unable to accept " & "connection") break else: # Server close happens in callback, and we are not started new # AcceptEx session. if not(server.loopFuture.finished()): server.clean() break proc resumeRead(transp: StreamTransport): Result[void, OSErrorCode] = if ReadPaused in transp.state: transp.state.excl(ReadPaused) readStreamLoop(cast[pointer](addr transp.rovl)) ok() proc resumeWrite(transp: StreamTransport): Result[void, OSErrorCode] = if WritePaused in transp.state: transp.state.excl(WritePaused) writeStreamLoop(cast[pointer](addr transp.wovl)) ok() proc pauseAccept(server: StreamServer): Result[void, OSErrorCode] = if server.apending: discard cancelIo(HANDLE(server.sock)) ok() proc resumeAccept(server: StreamServer): Result[void, OSErrorCode] = if not(server.apending): server.aovl.data.cb(addr server.aovl) ok() proc accept*(server: StreamServer): Future[StreamTransport] = var retFuture = newFuture[StreamTransport]("stream.server.accept") doAssert(server.status != ServerStatus.Running, "You could not use accept() if server was already started") if server.status == ServerStatus.Closed: retFuture.fail(getServerUseClosedError()) return retFuture proc continuationSocket(udata: pointer) {.gcsafe.} = if retFuture.finished(): # `retFuture` could become finished in 2 cases: # 1. OS sends IOCP notification about failure, but we already failed # `retFuture` with proper error. # 2. `accept()` call has been cancelled. Cancellation callback closed # accepting socket, so OS sends IOCP notification with an # `ERROR_OPERATION_ABORTED` error. return var ovl = cast[PtrCustomOverlapped](udata) server = cast[StreamServer](ovl.data.udata) server.apending = false if server.status in {ServerStatus.Stopped, ServerStatus.Closed}: retFuture.fail(getServerUseClosedError()) server.asock.closeSocket() server.clean() else: case ovl.data.errCode of OSErrorCode(-1): if setsockopt(SocketHandle(server.asock), cint(osdefs.SOL_SOCKET), cint(osdefs.SO_UPDATE_ACCEPT_CONTEXT), addr server.sock, SockLen(sizeof(SocketHandle))) != 0'i32: let err = osLastError() server.asock.closeSocket() if err == osdefs.WSAENOTSOCK: # This can be happened when server get closed, but continuation # was already scheduled, so we failing it not with OS error. retFuture.fail(getServerUseClosedError()) else: let errorMsg = osErrorMsg(err) retFuture.fail(getConnectionAbortedError(errorMsg)) else: var ntransp: StreamTransport if not(isNil(server.init)): let transp = server.init(server, server.asock) ntransp = newStreamSocketTransport(server.asock, server.bufferSize, transp) else: ntransp = newStreamSocketTransport(server.asock, server.bufferSize, nil) # Start tracking transport trackStream(ntransp) retFuture.complete(ntransp) of OSErrorCode(osdefs.ERROR_OPERATION_ABORTED): # CancelIO() interrupt or close. server.asock.closeSocket() retFuture.fail(getServerUseClosedError()) server.clean() of OSErrorCode(osdefs.WSAENETDOWN), OSErrorCode(osdefs.WSAENETRESET), OSErrorCode(osdefs.WSAECONNABORTED), OSErrorCode(osdefs.WSAECONNRESET), OSErrorCode(osdefs.WSAETIMEDOUT): server.asock.closeSocket() retFuture.fail(getConnectionAbortedError(int(ovl.data.errCode))) server.clean() else: server.asock.closeSocket() retFuture.fail(getTransportOsError(ovl.data.errCode)) proc cancellationSocket(udata: pointer) {.gcsafe.} = if server.apending: server.apending = false server.asock.closeSocket() proc continuationPipe(udata: pointer) {.gcsafe.} = if retFuture.finished(): # `retFuture` could become finished in 2 cases: # 1. OS sends IOCP notification about failure, but we already failed # `retFuture` with proper error. # 2. `accept()` call has been cancelled. Cancellation callback closed # accepting socket, so OS sends IOCP notification with an # `ERROR_OPERATION_ABORTED` error. return var ovl = cast[PtrCustomOverlapped](udata) server = cast[StreamServer](ovl.data.udata) server.apending = false if server.status in {ServerStatus.Stopped, ServerStatus.Closed}: retFuture.fail(getServerUseClosedError()) server.sock.closeHandle() server.clean() else: if ovl.data.errCode == OSErrorCode(-1): var ntransp: StreamTransport var flags = {WinServerPipe} if NoPipeFlash in server.flags: flags.incl(WinNoPipeFlash) if not(isNil(server.init)): var transp = server.init(server, server.sock) ntransp = newStreamPipeTransport(server.sock, server.bufferSize, transp, flags) else: ntransp = newStreamPipeTransport(server.sock, server.bufferSize, nil, flags) server.sock = server.createAcceptPipe().valueOr: server.sock = asyncInvalidSocket server.errorCode = error retFuture.fail(getTransportOsError(error)) return trackStream(ntransp) retFuture.complete(ntransp) elif int32(ovl.data.errCode) in {osdefs.ERROR_OPERATION_ABORTED, osdefs.ERROR_PIPE_NOT_CONNECTED}: # CancelIO() interrupt or close call. retFuture.fail(getServerUseClosedError()) server.clean() else: discard closeHandle(HANDLE(server.sock)) server.sock = server.createAcceptPipe().valueOr: server.sock = asyncInvalidSocket server.errorCode = error retFuture.fail(getTransportOsError(error)) return retFuture.fail(getTransportOsError(ovl.data.errCode)) proc cancellationPipe(udata: pointer) {.gcsafe.} = if server.apending: server.apending = false server.sock.closeHandle() if server.local.family in {AddressFamily.IPv4, AddressFamily.IPv6}: # TCP Sockets part var loop = getThreadDispatcher() server.asock = createAsyncSocket(server.domain, SockType.SOCK_STREAM, Protocol.IPPROTO_TCP) if server.asock == asyncInvalidSocket: let err = osLastError() case int(err) of osdefs.ERROR_TOO_MANY_OPEN_FILES, osdefs.WSAENOBUFS, osdefs.WSAEMFILE: retFuture.fail(getTransportTooManyError(int(err))) else: retFuture.fail(getTransportOsError(err)) return retFuture var dwBytesReceived = DWORD(0) let dwReceiveDataLength = DWORD(0) let dwLocalAddressLength = DWORD(sizeof(Sockaddr_in6) + 16) let dwRemoteAddressLength = DWORD(sizeof(Sockaddr_in6) + 16) server.aovl.data = CompletionData(cb: continuationSocket, udata: cast[pointer](server)) server.apending = true let res = loop.acceptEx(SocketHandle(server.sock), SocketHandle(server.asock), addr server.abuffer[0], dwReceiveDataLength, dwLocalAddressLength, dwRemoteAddressLength, addr dwBytesReceived, cast[POVERLAPPED](addr server.aovl)) if res == osdefs.FALSE: let err = osLastError() case int(err) of osdefs.ERROR_OPERATION_ABORTED: server.apending = false retFuture.fail(getServerUseClosedError()) return retFuture of osdefs.ERROR_IO_PENDING: discard of osdefs.WSAECONNRESET, osdefs.WSAECONNABORTED, osdefs.WSAENETDOWN, osdefs.WSAENETRESET, osdefs.WSAETIMEDOUT: server.apending = false retFuture.fail(getConnectionAbortedError(int(err))) return retFuture else: server.apending = false retFuture.fail(getTransportOsError(err)) return retFuture retFuture.cancelCallback = cancellationSocket elif server.local.family in {AddressFamily.Unix}: # Unix domain sockets emulation via Windows Named pipes part. server.apending = true if server.sock == asyncInvalidPipe: let err = server.errorCode if int32(err) == osdefs.ERROR_TOO_MANY_OPEN_FILES: retFuture.fail(getTransportTooManyError()) else: retFuture.fail(getTransportOsError(err)) return retFuture server.aovl.data = CompletionData(cb: continuationPipe, udata: cast[pointer](server)) server.apending = true let res = connectNamedPipe(HANDLE(server.sock), cast[POVERLAPPED](addr server.aovl)) if res == 0: let err = osLastError() if int32(err) == osdefs.ERROR_OPERATION_ABORTED: server.apending = false retFuture.fail(getServerUseClosedError()) return retFuture elif int32(err) in {osdefs.ERROR_IO_PENDING, osdefs.ERROR_PIPE_CONNECTED}: discard else: server.apending = false retFuture.fail(getTransportOsError(err)) return retFuture retFuture.cancelCallback = cancellationPipe return retFuture else: import ../sendfile proc isConnResetError(err: OSErrorCode): bool {.inline.} = (err == OSErrorCode(ECONNRESET)) or (err == OSErrorCode(EPIPE)) proc writeStreamLoop(udata: pointer) = if isNil(udata): # TODO this is an if rather than an assert for historical reasons: # it should not happen unless there are race conditions - but if there # are race conditions, `transp` might be invalid even if it's not nil: # it could have been released return let transp = cast[StreamTransport](udata) fd = SocketHandle(transp.fd) if WriteClosed in transp.state: if transp.queue.len > 0: let error = getTransportUseClosedError() discard removeWriter2(transp.fd) failPendingWriteQueue(transp.queue, error) return # We exit this loop in two ways: # * The queue is empty: we call removeWriter to disable further callbacks # * EWOULDBLOCK is returned and we need to wait for a new notification while len(transp.queue) > 0: template handleError() = let err = osLastError() if cint(err) == EINTR: # Signal happened while writing - try again with all data transp.queue.addFirst(vector) continue if cint(err) in [EWOULDBLOCK, EAGAIN]: # Socket buffer is full - wait until next write notification - in # particular, ensure removeWriter is not called transp.queue.addFirst(vector) return # The errors below will clear the write queue, meaning we'll exit the # loop if isConnResetError(err): # Soft error happens which indicates that remote peer got # disconnected, complete all pending writes in queue with 0. transp.state.incl({WriteEof}) if not(vector.writer.finished()): vector.writer.complete(0) completePendingWriteQueue(transp.queue, 0) else: transp.state.incl({WriteError}) let error = getTransportOsError(err) if not(vector.writer.finished()): vector.writer.fail(error) failPendingWriteQueue(transp.queue, error) var vector = transp.queue.popFirst() case vector.kind of VectorKind.DataBuffer: let res = case transp.kind of TransportKind.Socket: osdefs.send(fd, vector.buf, vector.buflen, MSG_NOSIGNAL) of TransportKind.Pipe: osdefs.write(cint(fd), vector.buf, vector.buflen) else: raiseAssert "Unsupported transport kind: " & $transp.kind if res >= 0: if vector.buflen == res: if not(vector.writer.finished()): vector.writer.complete(vector.size) else: vector.shiftVectorBuffer(res) transp.queue.addFirst(vector) # Try again with rest of data else: handleError() of VectorKind.DataFile: var nbytes = cast[int](vector.buf) let res = sendfile(int(fd), cast[int](vector.buflen), int(vector.offset), nbytes) # In case of some errors on some systems, some bytes may have been # written (see sendfile.nim) vector.size += nbytes if res >= 0: if cast[int](vector.buf) == nbytes: if not(vector.writer.finished()): vector.writer.complete(vector.size) else: vector.shiftVectorFile(nbytes) transp.queue.addFirst(vector) else: vector.shiftVectorFile(nbytes) handleError() # Nothing left in the queue - no need for further write notifications # All writers are already scheduled, so its impossible to notify about an # error. transp.state.incl(WritePaused) discard removeWriter2(transp.fd) proc readStreamLoop(udata: pointer) = if isNil(udata): # TODO this is an if rather than an assert for historical reasons: # it should not happen unless there are race conditions - but if there # are race conditions, `transp` might be invalid even if it's not nil: # it could have been released return let transp = cast[StreamTransport](udata) fd = SocketHandle(transp.fd) if ReadClosed in transp.state: transp.state.incl({ReadPaused}) transp.completeReader() else: if transp.kind == TransportKind.Socket: while true: let res = handleEintr( osdefs.recv(fd, addr transp.buffer[transp.offset], len(transp.buffer) - transp.offset, cint(0))) if res < 0: let err = osLastError() if int(err) == ECONNRESET: transp.state.incl({ReadEof, ReadPaused}) let rres = removeReader2(transp.fd) if rres.isErr(): transp.state.incl(ReadError) transp.setReadError(rres.error()) else: transp.state.incl({ReadPaused, ReadError}) transp.setReadError(err) discard removeReader2(transp.fd) elif res == 0: transp.state.incl({ReadEof, ReadPaused}) let rres = removeReader2(transp.fd) if rres.isErr(): transp.state.incl(ReadError) transp.setReadError(rres.error()) else: transp.offset += res if transp.offset == len(transp.buffer): transp.state.incl(ReadPaused) let rres = removeReader2(transp.fd) if rres.isErr(): transp.state.incl(ReadError) transp.setReadError(rres.error()) transp.completeReader() break elif transp.kind == TransportKind.Pipe: while true: let res = handleEintr( osdefs.read(cint(fd), addr transp.buffer[transp.offset], len(transp.buffer) - transp.offset)) if res < 0: let err = osLastError() transp.state.incl(ReadPaused) transp.setReadError(err) discard removeReader2(transp.fd) elif res == 0: transp.state.incl({ReadEof, ReadPaused}) let rres = removeReader2(transp.fd) if rres.isErr(): transp.state.incl(ReadError) transp.setReadError(rres.error()) else: transp.offset += res if transp.offset == len(transp.buffer): transp.state.incl(ReadPaused) let rres = removeReader2(transp.fd) if rres.isErr(): transp.state.incl(ReadError) transp.setReadError(rres.error()) transp.completeReader() break proc newStreamSocketTransport(sock: AsyncFD, bufsize: int, child: StreamTransport): StreamTransport = var transp: StreamTransport if not(isNil(child)): transp = child else: transp = StreamTransport(kind: TransportKind.Socket) transp.fd = sock transp.buffer = newSeq[byte](bufsize) transp.state = {ReadPaused, WritePaused} transp.queue = initDeque[StreamVector]() transp.future = newFuture[void]("socket.stream.transport") GC_ref(transp) transp proc newStreamPipeTransport(fd: AsyncFD, bufsize: int, child: StreamTransport): StreamTransport = var transp: StreamTransport if not(isNil(child)): transp = child else: transp = StreamTransport(kind: TransportKind.Pipe) transp.fd = fd transp.buffer = newSeq[byte](bufsize) transp.state = {ReadPaused, WritePaused} transp.queue = initDeque[StreamVector]() transp.future = newFuture[void]("pipe.stream.transport") GC_ref(transp) transp proc connect*(address: TransportAddress, bufferSize = DefaultStreamBufferSize, child: StreamTransport = nil, localAddress = TransportAddress(), flags: set[SocketFlags] = {}, ): Future[StreamTransport] = ## Open new connection to remote peer with address ``address`` and create ## new transport object ``StreamTransport`` for established connection. ## ``bufferSize`` - size of internal buffer for transport. var saddr: Sockaddr_storage slen: SockLen proto: Protocol var retFuture = newFuture[StreamTransport]("stream.transport.connect") address.toSAddr(saddr, slen) proto = Protocol.IPPROTO_TCP if address.family == AddressFamily.Unix: # `Protocol` enum is missing `0` value, so we making here cast, until # `Protocol` enum will not support IPPROTO_IP == 0. proto = cast[Protocol](0) let sock = createAsyncSocket(address.getDomain(), SockType.SOCK_STREAM, proto) if sock == asyncInvalidSocket: let err = osLastError() if int(err) == EMFILE: retFuture.fail(getTransportTooManyError()) else: retFuture.fail(getTransportOsError(err)) return retFuture if address.family in {AddressFamily.IPv4, AddressFamily.IPv6}: if SocketFlags.TcpNoDelay in flags: if not(setSockOpt(sock, osdefs.IPPROTO_TCP, osdefs.TCP_NODELAY, 1)): let err = osLastError() sock.closeSocket() retFuture.fail(getTransportOsError(err)) return retFuture if SocketFlags.ReuseAddr in flags: if not(setSockOpt(sock, SOL_SOCKET, SO_REUSEADDR, 1)): let err = osLastError() sock.closeSocket() retFuture.fail(getTransportOsError(err)) return retFuture if SocketFlags.ReusePort in flags: if not(setSockOpt(sock, SOL_SOCKET, SO_REUSEPORT, 1)): let err = osLastError() sock.closeSocket() retFuture.fail(getTransportOsError(err)) return retFuture if localAddress != TransportAddress(): if localAddress.family != address.family: sock.closeSocket() retFuture.fail(newException(TransportOsError, "connect local address domain is not equal to target address domain")) return retFuture var localAddr: Sockaddr_storage localAddrLen: SockLen localAddress.toSAddr(localAddr, localAddrLen) if bindSocket(SocketHandle(sock), cast[ptr SockAddr](addr localAddr), localAddrLen) != 0: sock.closeSocket() retFuture.fail(getTransportOsError(osLastError())) return retFuture proc continuation(udata: pointer) = if not(retFuture.finished()): var err = 0 let res = removeWriter2(sock) if res.isErr(): discard unregisterAndCloseFd(sock) retFuture.fail(getTransportOsError(res.error())) return if not(sock.getSocketError(err)): discard unregisterAndCloseFd(sock) retFuture.fail(getTransportOsError(res.error())) return if err != 0: discard unregisterAndCloseFd(sock) retFuture.fail(getTransportOsError(OSErrorCode(err))) return let transp = newStreamSocketTransport(sock, bufferSize, child) # Start tracking transport trackStream(transp) retFuture.complete(transp) proc cancel(udata: pointer) = if not(retFuture.finished()): closeSocket(sock) while true: let res = osdefs.connect(SocketHandle(sock), cast[ptr SockAddr](addr saddr), slen) if res == 0: let transp = newStreamSocketTransport(sock, bufferSize, child) # Start tracking transport trackStream(transp) retFuture.complete(transp) break else: let errorCode = osLastError() # If connect() is interrupted by a signal that is caught while blocked # waiting to establish a connection, connect() shall fail and set # connect() to [EINTR], but the connection request shall not be aborted, # and the connection shall be established asynchronously. # # http://www.madore.org/~david/computers/connect-intr.html if (errorCode == EINPROGRESS) or (errorCode == EINTR): let res = addWriter2(sock, continuation) if res.isErr(): discard unregisterAndCloseFd(sock) retFuture.fail(getTransportOsError(res.error())) return retFuture retFuture.cancelCallback = cancel break else: discard unregisterAndCloseFd(sock) retFuture.fail(getTransportOsError(errorCode)) break return retFuture proc acceptLoop(udata: pointer) = if isNil(udata): # TODO this is an if rather than an assert for historical reasons: # it should not happen unless there are race conditions - but if there # are race conditions, `transp` might be invalid even if it's not nil: # it could have been released return var saddr: Sockaddr_storage slen: SockLen let server = cast[StreamServer](udata) if server.status in {ServerStatus.Stopped, ServerStatus.Closed}: return let flags = {DescriptorFlag.CloseOnExec, DescriptorFlag.NonBlock} sres = acceptConn(cint(server.sock), cast[ptr SockAddr](addr saddr), addr slen, flags) if sres.isOk(): let sock = AsyncFD(sres.get()) let rres = register2(sock) if rres.isOk(): let ntransp = if not(isNil(server.init)): let transp = server.init(server, sock) newStreamSocketTransport(sock, server.bufferSize, transp) else: newStreamSocketTransport(sock, server.bufferSize, nil) trackStream(ntransp) asyncSpawn server.function(server, ntransp) else: # Client was accepted, so we not going to raise assertion, but # we need to close the socket. discard closeFd(cint(sock)) else: let errorCode = sres.error() if errorCode != EAGAIN: # This EAGAIN error appears only when server get closed, while # acceptLoop() reader callback is already scheduled. raiseOsDefect(errorCode, "acceptLoop(): Unable to accept connection") proc resumeAccept(server: StreamServer): Result[void, OSErrorCode] = addReader2(server.sock, acceptLoop, cast[pointer](server)) proc pauseAccept(server: StreamServer): Result[void, OSErrorCode] = removeReader2(server.sock) proc resumeRead(transp: StreamTransport): Result[void, OSErrorCode] = if ReadPaused in transp.state: ? addReader2(transp.fd, readStreamLoop, cast[pointer](transp)) transp.state.excl(ReadPaused) ok() proc resumeWrite(transp: StreamTransport): Result[void, OSErrorCode] = if transp.queue.len() == 1: # writeStreamLoop keeps writing until queue is empty - we should not call # resumeWrite under any other condition than when the items are # added to a queue - if the flag is not set here, it means that the socket # was not removed from write notifications at the right time, and this # would mean an imbalance in registration and deregistration doAssert(WritePaused in transp.state) ? addWriter2(transp.fd, writeStreamLoop, cast[pointer](transp)) transp.state.excl(WritePaused) ok() proc accept*(server: StreamServer): Future[StreamTransport] = var retFuture = newFuture[StreamTransport]("stream.server.accept") doAssert(server.status != ServerStatus.Running, "You could not use accept() if server was started with start()") if server.status == ServerStatus.Closed: retFuture.fail(getServerUseClosedError()) return retFuture proc continuation(udata: pointer) {.gcsafe.} = var saddr: Sockaddr_storage slen: SockLen if not(retFuture.finished()): if server.status in {ServerStatus.Stopped, ServerStatus.Closed}: retFuture.fail(getServerUseClosedError()) else: let flags = {DescriptorFlag.CloseOnExec, DescriptorFlag.NonBlock} sres = acceptConn(cint(server.sock), cast[ptr SockAddr](addr saddr), addr slen, flags) if sres.isErr(): let errorCode = sres.error() if errorCode == EAGAIN: # This error appears only when server get closed, while accept() # continuation is already scheduled. retFuture.fail(getServerUseClosedError()) elif cint(errorCode) in {EMFILE, ENFILE, ENOBUFS, ENOMEM}: retFuture.fail(getTransportTooManyError(cint(errorCode))) elif cint(errorCode) in {ECONNABORTED, EPERM, ETIMEDOUT}: retFuture.fail(getConnectionAbortedError(cint(errorCode))) else: retFuture.fail(getTransportOsError(errorCode)) # Error is already happened so we ignore removeReader2() errors. discard removeReader2(server.sock) else: let sock = AsyncFD(sres.get()) rres = register2(sock) if rres.isOk(): let res = removeReader2(server.sock) if res.isOk(): let ntransp = if not(isNil(server.init)): let transp = server.init(server, sock) newStreamSocketTransport(sock, server.bufferSize, transp) else: newStreamSocketTransport(sock, server.bufferSize, nil) # Start tracking transport trackStream(ntransp) retFuture.complete(ntransp) else: discard closeFd(cint(sock)) let errorMsg = osErrorMsg(res.error()) retFuture.fail(getConnectionAbortedError(errorMsg)) else: # Error is already happened so we ignore errors. discard removeReader2(server.sock) discard closeFd(cint(sock)) let errorMsg = osErrorMsg(rres.error()) retFuture.fail(getConnectionAbortedError(errorMsg)) proc cancellation(udata: pointer) = if not(retFuture.finished()): discard removeReader2(server.sock) let res = addReader2(server.sock, continuation, nil) if res.isErr(): retFuture.fail(getTransportOsError(res.error())) else: retFuture.cancelCallback = cancellation return retFuture proc start2*(server: StreamServer): Result[void, OSErrorCode] = ## Starts ``server``. doAssert(not(isNil(server.function)), "You should not start the server " & "unless you have processing callback configured!") if server.status == ServerStatus.Starting: ? server.resumeAccept() server.status = ServerStatus.Running ok() proc stop2*(server: StreamServer): Result[void, OSErrorCode] = ## Stops ``server``. if server.status == ServerStatus.Running: if not(isNil(server.function)): ? server.pauseAccept() server.status = ServerStatus.Stopped elif server.status == ServerStatus.Starting: server.status = ServerStatus.Stopped ok() proc start*(server: StreamServer) {.raises: [Defect, TransportOsError].} = ## Starts ``server``. let res = start2(server) if res.isErr(): raiseTransportOsError(res.error()) proc stop*(server: StreamServer) {.raises: [Defect, TransportOsError].} = ## Stops ``server``. let res = stop2(server) if res.isErr(): raiseTransportOsError(res.error()) proc join*(server: StreamServer): Future[void] = ## Waits until ``server`` is not closed. var retFuture = newFuture[void]("stream.transport.server.join") proc continuation(udata: pointer) = retFuture.complete() proc cancel(udata: pointer) = server.loopFuture.removeCallback(continuation, cast[pointer](retFuture)) if not(server.loopFuture.finished()): server.loopFuture.addCallback(continuation, cast[pointer](retFuture)) retFuture.cancelCallback = cancel else: retFuture.complete() return retFuture proc connect*(address: TransportAddress, bufferSize = DefaultStreamBufferSize, child: StreamTransport = nil, flags: set[TransportFlags], localAddress = TransportAddress()): Future[StreamTransport] = # Retro compatibility with TransportFlags var mappedFlags: set[SocketFlags] if TcpNoDelay in flags: mappedFlags.incl(SocketFlags.TcpNoDelay) address.connect(bufferSize, child, localAddress, mappedFlags) proc close*(server: StreamServer) = ## Release ``server`` resources. ## ## Please note that release of resources is not completed immediately, to be ## sure all resources got released please use ``await server.join()``. proc continuation(udata: pointer) = # Stop tracking server if not(server.loopFuture.finished()): server.clean() if server.status in {ServerStatus.Starting, ServerStatus.Stopped}: server.status = ServerStatus.Closed when defined(windows): if server.local.family in {AddressFamily.IPv4, AddressFamily.IPv6}: if server.apending: server.asock.closeSocket() server.apending = false server.sock.closeSocket(continuation) elif server.local.family in {AddressFamily.Unix}: if NoPipeFlash notin server.flags: discard flushFileBuffers(HANDLE(server.sock)) discard disconnectNamedPipe(HANDLE(server.sock)) server.sock.closeHandle(continuation) else: server.sock.closeSocket(continuation) proc closeWait*(server: StreamServer): Future[void] = ## Close server ``server`` and release all resources. server.close() result = server.join() proc createStreamServer*(host: TransportAddress, cbproc: StreamCallback, flags: set[ServerFlags] = {}, sock: AsyncFD = asyncInvalidSocket, backlog: int = 100, bufferSize: int = DefaultStreamBufferSize, child: StreamServer = nil, init: TransportInitCallback = nil, udata: pointer = nil): StreamServer {. raises: [Defect, TransportOsError].} = ## Create new TCP stream server. ## ## ``host`` - address to which server will be bound. ## ``flags`` - flags to apply to server socket. ## ``cbproc`` - callback function which will be called, when new client ## connection will be established. ## ``sock`` - user-driven socket to use. ## ``backlog`` - number of outstanding connections in the socket's listen ## queue. ## ``bufferSize`` - size of internal buffer for transport. ## ``child`` - existing object ``StreamServer``object to initialize, can be ## used to initalize ``StreamServer`` inherited objects. ## ``udata`` - user-defined pointer. var saddr: Sockaddr_storage slen: SockLen serverSocket: AsyncFD localAddress: TransportAddress when defined(nimdoc): discard elif defined(windows): # Windows if host.family in {AddressFamily.IPv4, AddressFamily.IPv6}: if sock == asyncInvalidSocket: serverSocket = createAsyncSocket(host.getDomain(), SockType.SOCK_STREAM, Protocol.IPPROTO_TCP) if serverSocket == asyncInvalidSocket: raiseTransportOsError(osLastError()) else: let bres = setDescriptorBlocking(SocketHandle(sock), false) if bres.isErr(): raiseTransportOsError(bres.error()) let wres = register2(sock) if wres.isErr(): raiseTransportOsError(wres.error()) serverSocket = sock # SO_REUSEADDR is not useful for Unix domain sockets. if ServerFlags.ReuseAddr in flags: if not(setSockOpt(serverSocket, osdefs.SOL_SOCKET, osdefs.SO_REUSEADDR, 1)): let err = osLastError() if sock == asyncInvalidSocket: discard closeFd(SocketHandle(serverSocket)) raiseTransportOsError(err) if ServerFlags.ReusePort in flags: if not(setSockOpt(serverSocket, osdefs.SOL_SOCKET, osdefs.SO_REUSEPORT, 1)): let err = osLastError() if sock == asyncInvalidSocket: discard closeFd(SocketHandle(serverSocket)) raiseTransportOsError(err) # TCP flags are not useful for Unix domain sockets. if ServerFlags.TcpNoDelay in flags: if not(setSockOpt(serverSocket, osdefs.IPPROTO_TCP, osdefs.TCP_NODELAY, 1)): let err = osLastError() if sock == asyncInvalidSocket: discard closeFd(SocketHandle(serverSocket)) raiseTransportOsError(err) host.toSAddr(saddr, slen) if osdefs.bindSocket(SocketHandle(serverSocket), cast[ptr SockAddr](addr saddr), slen) != 0: let err = osLastError() if sock == asyncInvalidSocket: discard closeFd(SocketHandle(serverSocket)) raiseTransportOsError(err) slen = SockLen(sizeof(saddr)) if getsockname(SocketHandle(serverSocket), cast[ptr SockAddr](addr saddr), addr slen) != 0: let err = osLastError() if sock == asyncInvalidSocket: discard closeFd(SocketHandle(serverSocket)) raiseTransportOsError(err) fromSAddr(addr saddr, slen, localAddress) if listen(SocketHandle(serverSocket), cint(backlog)) != 0: let err = osLastError() if sock == asyncInvalidSocket: discard closeFd(SocketHandle(serverSocket)) raiseTransportOsError(err) elif host.family == AddressFamily.Unix: serverSocket = AsyncFD(0) else: # Posix if sock == asyncInvalidSocket: var proto = Protocol.IPPROTO_TCP if host.family == AddressFamily.Unix: # `Protocol` enum is missing `0` value, so we making here cast, until # `Protocol` enum will not support IPPROTO_IP == 0. proto = cast[Protocol](0) serverSocket = createAsyncSocket(host.getDomain(), SockType.SOCK_STREAM, proto) if serverSocket == asyncInvalidSocket: raiseTransportOsError(osLastError()) else: let bres = setDescriptorFlags(cint(sock), true, true) if bres.isErr(): raiseTransportOsError(osLastError()) let rres = register2(sock) if rres.isErr(): raiseTransportOsError(osLastError()) serverSocket = sock if host.family in {AddressFamily.IPv4, AddressFamily.IPv6}: # SO_REUSEADDR and SO_REUSEPORT are not useful for Unix domain sockets. if ServerFlags.ReuseAddr in flags: if not(setSockOpt(serverSocket, SOL_SOCKET, SO_REUSEADDR, 1)): let err = osLastError() if sock == asyncInvalidSocket: discard unregisterAndCloseFd(serverSocket) raiseTransportOsError(err) if ServerFlags.ReusePort in flags: if not(setSockOpt(serverSocket, SOL_SOCKET, SO_REUSEPORT, 1)): let err = osLastError() if sock == asyncInvalidSocket: discard unregisterAndCloseFd(serverSocket) raiseTransportOsError(err) # TCP flags are not useful for Unix domain sockets. if ServerFlags.TcpNoDelay in flags: if not(setSockOpt(serverSocket, osdefs.IPPROTO_TCP, osdefs.TCP_NODELAY, 1)): let err = osLastError() if sock == asyncInvalidSocket: discard unregisterAndCloseFd(serverSocket) raiseTransportOsError(err) elif host.family in {AddressFamily.Unix}: # We do not care about result here, because if file cannot be removed, # `bindSocket` will return EADDRINUSE. discard osdefs.unlink(cast[cstring](unsafeAddr host.address_un[0])) host.toSAddr(saddr, slen) if osdefs.bindSocket(SocketHandle(serverSocket), cast[ptr SockAddr](addr saddr), slen) != 0: let err = osLastError() if sock == asyncInvalidSocket: discard unregisterAndCloseFd(serverSocket) raiseTransportOsError(err) # Obtain real address slen = SockLen(sizeof(saddr)) if getsockname(SocketHandle(serverSocket), cast[ptr SockAddr](addr saddr), addr slen) != 0: let err = osLastError() if sock == asyncInvalidSocket: serverSocket.closeSocket() raiseTransportOsError(err) fromSAddr(addr saddr, slen, localAddress) if listen(SocketHandle(serverSocket), cint(backlog)) != 0: let err = osLastError() if sock == asyncInvalidSocket: discard unregisterAndCloseFd(serverSocket) raiseTransportOsError(err) var sres = if not(isNil(child)): child else: StreamServer() sres.sock = serverSocket sres.flags = flags sres.function = cbproc sres.init = init sres.bufferSize = bufferSize sres.status = Starting sres.loopFuture = newFuture[void]("stream.transport.server") sres.udata = udata if localAddress.family == AddressFamily.None: sres.local = host else: sres.local = localAddress when defined(windows): var cb: CallbackFunc if host.family in {AddressFamily.IPv4, AddressFamily.IPv6}: cb = acceptLoop elif host.family == AddressFamily.Unix: cb = acceptPipeLoop if not(isNil(cbproc)): sres.aovl.data = CompletionData(cb: cb, udata: cast[pointer](sres)) else: if host.family == AddressFamily.Unix: sres.sock = block: let res = sres.createAcceptPipe() if res.isErr(): raiseTransportOsError(res.error()) res.get() sres.domain = host.getDomain() sres.apending = false # Start tracking server trackServer(sres) GC_ref(sres) sres proc createStreamServer*(host: TransportAddress, flags: set[ServerFlags] = {}, sock: AsyncFD = asyncInvalidSocket, backlog: int = 100, bufferSize: int = DefaultStreamBufferSize, child: StreamServer = nil, init: TransportInitCallback = nil, udata: pointer = nil): StreamServer {. raises: [Defect, CatchableError].} = createStreamServer(host, nil, flags, sock, backlog, bufferSize, child, init, cast[pointer](udata)) proc createStreamServer*[T](host: TransportAddress, cbproc: StreamCallback, flags: set[ServerFlags] = {}, udata: ref T, sock: AsyncFD = asyncInvalidSocket, backlog: int = 100, bufferSize: int = DefaultStreamBufferSize, child: StreamServer = nil, init: TransportInitCallback = nil): StreamServer {. raises: [Defect, CatchableError].} = var fflags = flags + {GCUserData} GC_ref(udata) createStreamServer(host, cbproc, fflags, sock, backlog, bufferSize, child, init, cast[pointer](udata)) proc createStreamServer*[T](host: TransportAddress, flags: set[ServerFlags] = {}, udata: ref T, sock: AsyncFD = asyncInvalidSocket, backlog: int = 100, bufferSize: int = DefaultStreamBufferSize, child: StreamServer = nil, init: TransportInitCallback = nil): StreamServer {. raises: [Defect, CatchableError].} = var fflags = flags + {GCUserData} GC_ref(udata) createStreamServer(host, nil, fflags, sock, backlog, bufferSize, child, init, cast[pointer](udata)) proc getUserData*[T](server: StreamServer): T {.inline.} = ## Obtain user data stored in ``server`` object. result = cast[T](server.udata) template fastWrite(transp: auto, pbytes: var ptr byte, rbytes: var int, nbytes: int) = # On windows, the write could be initiated here if there is no other write # ongoing, but the queue is still needed due to the mechanics of iocp when not defined(windows) and not defined(nimdoc): if transp.queue.len == 0: while rbytes > 0: let res = case transp.kind of TransportKind.Socket: osdefs.send(SocketHandle(transp.fd), pbytes, rbytes, MSG_NOSIGNAL) of TransportKind.Pipe: osdefs.write(cint(transp.fd), pbytes, rbytes) else: raiseAssert "Unsupported transport kind: " & $transp.kind if res > 0: pbytes = cast[ptr byte](cast[uint](pbytes) + cast[uint](res)) rbytes -= res if rbytes == 0: retFuture.complete(nbytes) return retFuture # Not all bytes written - keep going else: let err = osLastError() if cint(err) in [EAGAIN, EWOULDBLOCK]: break # No bytes written, add to queue if cint(err) == EINTR: continue if isConnResetError(err): transp.state.incl({WriteEof}) retFuture.complete(0) return retFuture else: transp.state.incl({WriteError}) let error = getTransportOsError(err) retFuture.fail(error) return retFuture proc write*(transp: StreamTransport, pbytes: pointer, nbytes: int): Future[int] = ## Write data from buffer ``pbytes`` with size ``nbytes`` using transport ## ``transp``. var retFuture = newFuture[int]("stream.transport.write(pointer)") transp.checkClosed(retFuture) transp.checkWriteEof(retFuture) var pbytes = cast[ptr byte](pbytes) rbytes = nbytes # Remaining bytes fastWrite(transp, pbytes, rbytes, nbytes) var vector = StreamVector(kind: DataBuffer, writer: retFuture, buf: pbytes, buflen: rbytes, size: nbytes) transp.queue.addLast(vector) let wres = transp.resumeWrite() if wres.isErr(): retFuture.fail(getTransportOsError(wres.error())) return retFuture proc write*(transp: StreamTransport, msg: sink string, msglen = -1): Future[int] = ## Write data from string ``msg`` using transport ``transp``. var retFuture = newFutureStr[int]("stream.transport.write(string)") transp.checkClosed(retFuture) transp.checkWriteEof(retFuture) let nbytes = if msglen <= 0: len(msg) else: msglen var pbytes = cast[ptr byte](unsafeAddr msg[0]) rbytes = nbytes fastWrite(transp, pbytes, rbytes, nbytes) let written = nbytes - rbytes # In case fastWrite wrote some pbytes = when declared(shallowCopy): if not(isLiteral(msg)): shallowCopy(retFuture.gcholder, msg) cast[ptr byte](addr retFuture.gcholder[written]) else: retFuture.gcholder = msg[written ..< nbytes] cast[ptr byte](addr retFuture.gcholder[0]) else: retFuture.gcholder = msg[written ..< nbytes] cast[ptr byte](addr retFuture.gcholder[0]) var vector = StreamVector(kind: DataBuffer, writer: retFuture, buf: pbytes, buflen: rbytes, size: nbytes) transp.queue.addLast(vector) let wres = transp.resumeWrite() if wres.isErr(): retFuture.fail(getTransportOsError(wres.error())) return retFuture proc write*[T](transp: StreamTransport, msg: sink seq[T], msglen = -1): Future[int] = ## Write sequence ``msg`` using transport ``transp``. var retFuture = newFutureSeq[int, T]("stream.transport.write(seq)") transp.checkClosed(retFuture) transp.checkWriteEof(retFuture) let nbytes = if msglen <= 0: (len(msg) * sizeof(T)) else: (msglen * sizeof(T)) var pbytes = cast[ptr byte](unsafeAddr msg[0]) rbytes = nbytes fastWrite(transp, pbytes, rbytes, nbytes) let written = nbytes - rbytes # In case fastWrite wrote some pbytes = when declared(shallowCopy): if not(isLiteral(msg)): shallowCopy(retFuture.gcholder, msg) cast[ptr byte](addr retFuture.gcholder[written]) else: retFuture.gcholder = msg[written ..< nbytes] cast[ptr byte](addr retFuture.gcholder[0]) else: retFuture.gcholder = msg[written ..< nbytes] cast[ptr byte](addr retFuture.gcholder[0]) var vector = StreamVector(kind: DataBuffer, writer: retFuture, buf: pbytes, buflen: rbytes, size: nbytes) transp.queue.addLast(vector) let wres = transp.resumeWrite() if wres.isErr(): retFuture.fail(getTransportOsError(wres.error())) return retFuture proc writeFile*(transp: StreamTransport, handle: int, offset: uint = 0, size: int = 0): Future[int] = ## Write data from file descriptor ``handle`` to transport ``transp``. ## ## You can specify starting ``offset`` in opened file and number of bytes ## to transfer from file to transport via ``size``. var retFuture = newFuture[int]("stream.transport.writeFile") when defined(windows): if transp.kind != TransportKind.Socket: retFuture.fail(newException( TransportNoSupport, "writeFile() is not supported!")) return retFuture transp.checkClosed(retFuture) transp.checkWriteEof(retFuture) var vector = StreamVector(kind: DataFile, writer: retFuture, buf: cast[pointer](size), offset: offset, buflen: handle) transp.queue.addLast(vector) let wres = transp.resumeWrite() if wres.isErr(): retFuture.fail(getTransportOsError(wres.error())) return retFuture proc atEof*(transp: StreamTransport): bool {.inline.} = ## Returns ``true`` if ``transp`` is at EOF. (transp.offset == 0) and (ReadEof in transp.state) and (ReadPaused in transp.state) template readLoop(name, body: untyped): untyped = # Read data until a predicate is satisfied - the body should return a tuple # signalling how many bytes have been processed and whether we're done reading checkClosed(transp) checkPending(transp) while true: if ReadClosed in transp.state: raise newException(TransportUseClosedError, "Attempt to read data from closed stream") if transp.offset == 0: # We going to raise an error, only if transport buffer is empty. if ReadError in transp.state: raise transp.getError() let (consumed, done) = body transp.shiftBuffer(consumed) if done: break else: checkPending(transp) var fut = newFuture[void](name) transp.reader = fut let res = resumeRead(transp) if res.isErr(): let errorCode = res.error() when defined(windows): # This assertion could be changed, because at this moment # resumeRead() could not return any error. raiseOsDefect(errorCode, "readLoop(): Unable to resume reading") else: transp.reader.complete() if errorCode == ESRCH: # ESRCH 3 "No such process" # This error could be happened on pipes only, when process which # owns and communicates through this pipe (stdin, stdout, stderr) is # already dead. In such case we need to send notification that this # pipe is at EOF. transp.state.incl({ReadEof, ReadPaused}) else: raiseTransportOsError(errorCode) else: await fut proc readExactly*(transp: StreamTransport, pbytes: pointer, nbytes: int) {.async.} = ## Read exactly ``nbytes`` bytes from transport ``transp`` and store it to ## ``pbytes``. ``pbytes`` must not be ``nil`` pointer and ``nbytes`` should ## be Natural. ## ## If ``nbytes == 0`` this operation will return immediately. ## ## If EOF is received and ``nbytes`` is not yet readed, the procedure ## will raise ``TransportIncompleteError``, potentially with some bytes ## already written. doAssert(not(isNil(pbytes)), "pbytes must not be nil") doAssert(nbytes >= 0, "nbytes must be non-negative integer") if nbytes == 0: return var index = 0 var pbuffer = cast[ptr UncheckedArray[byte]](pbytes) readLoop("stream.transport.readExactly"): if transp.offset == 0: if transp.atEof(): raise newException(TransportIncompleteError, "Data incomplete!") let count = min(nbytes - index, transp.offset) if count > 0: copyMem(addr pbuffer[index], addr(transp.buffer[0]), count) index += count (consumed: count, done: index == nbytes) proc readOnce*(transp: StreamTransport, pbytes: pointer, nbytes: int): Future[int] {.async.} = ## Perform one read operation on transport ``transp``. ## ## If internal buffer is not empty, ``nbytes`` bytes will be transferred from ## internal buffer, otherwise it will wait until some bytes will be received. doAssert(not(isNil(pbytes)), "pbytes must not be nil") doAssert(nbytes > 0, "nbytes must be positive integer") var count = 0 readLoop("stream.transport.readOnce"): if transp.offset == 0: (0, transp.atEof()) else: count = min(transp.offset, nbytes) copyMem(pbytes, addr(transp.buffer[0]), count) (count, true) return count proc readUntil*(transp: StreamTransport, pbytes: pointer, nbytes: int, sep: seq[byte]): Future[int] {.async.} = ## Read data from the transport ``transp`` 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 ## ``TransportIncompleteError``. ## ## If ``nbytes`` bytes has been received and `sep` was not found, procedure ## will raise ``TransportLimitError``. ## ## 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 integer") if nbytes == 0: raise newException(TransportLimitError, "Limit reached!") var pbuffer = cast[ptr UncheckedArray[byte]](pbytes) var state = 0 var k = 0 readLoop("stream.transport.readUntil"): if transp.atEof(): raise newException(TransportIncompleteError, "Data incomplete!") var index = 0 while index < transp.offset: if k >= nbytes: raise newException(TransportLimitError, "Limit reached!") let ch = transp.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*(transp: StreamTransport, limit = 0, sep = "\r\n"): Future[string] {.async.} = ## Read one line from transport ``transp``, 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 read is limited to ``limit`` bytes. let lim = if limit <= 0: -1 else: limit var state = 0 readLoop("stream.transport.readLine"): if transp.atEof(): (0, true) else: var index = 0 while index < transp.offset: let ch = char(transp.buffer[index]) index += 1 if sep[state] == ch: inc(state) if state == len(sep): break else: if state != 0: if limit > 0: let missing = min(state, lim - len(result) - 1) result.add(sep[0 ..< missing]) else: result.add(sep[0 ..< state]) state = 0 result.add(ch) if len(result) == lim: break (index, (state == len(sep)) or (lim == len(result))) proc read*(transp: StreamTransport): Future[seq[byte]] {.async.} = ## Read all bytes from transport ``transp``. ## ## This procedure allocates buffer seq[byte] and return it as result. readLoop("stream.transport.read"): if transp.atEof(): (0, true) else: result.add(transp.buffer.toOpenArray(0, transp.offset - 1)) (transp.offset, false) proc read*(transp: StreamTransport, n: int): Future[seq[byte]] {.async.} = ## Read all bytes (n <= 0) or exactly `n` bytes from transport ``transp``. ## ## This procedure allocates buffer seq[byte] and return it as result. if n <= 0: return await transp.read() else: readLoop("stream.transport.read"): if transp.atEof(): (0, true) else: let count = min(transp.offset, n - len(result)) result.add(transp.buffer.toOpenArray(0, count - 1)) (count, len(result) == n) proc consume*(transp: StreamTransport): Future[int] {.async.} = ## Consume all bytes from transport ``transp`` and discard it. ## ## Return number of bytes actually consumed and discarded. readLoop("stream.transport.consume"): if transp.atEof(): (0, true) else: result += transp.offset (transp.offset, false) proc consume*(transp: StreamTransport, n: int): Future[int] {.async.} = ## Consume all bytes (n <= 0) or ``n`` bytes from transport ``transp`` and ## discard it. ## ## Return number of bytes actually consumed and discarded. if n <= 0: return await transp.consume() else: readLoop("stream.transport.consume"): if transp.atEof(): (0, true) else: let count = min(transp.offset, n - result) result += count (count, result == n) proc readMessage*(transp: StreamTransport, predicate: ReadMessagePredicate) {.async.} = ## Read all bytes from transport ``transp`` 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 transport). ## ## ``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 transport ## is at EOF. readLoop("stream.transport.readMessage"): if transp.offset == 0: if transp.atEof(): predicate([]) else: # Case, when transport's buffer is not yet filled with data. (0, false) else: predicate(transp.buffer.toOpenArray(0, transp.offset - 1)) proc join*(transp: StreamTransport): Future[void] = ## Wait until ``transp`` will not be closed. var retFuture = newFuture[void]("stream.transport.join") proc continuation(udata: pointer) {.gcsafe.} = retFuture.complete() proc cancel(udata: pointer) {.gcsafe.} = transp.future.removeCallback(continuation, cast[pointer](retFuture)) if not(transp.future.finished()): transp.future.addCallback(continuation, cast[pointer](retFuture)) retFuture.cancelCallback = cancel else: retFuture.complete() return retFuture proc close*(transp: StreamTransport) = ## Closes and frees resources of transport ``transp``. ## ## Please note that release of resources is not completed immediately, to be ## sure all resources got released please use ``await transp.join()``. proc continuation(udata: pointer) {.gcsafe.} = transp.clean() if {ReadClosed, WriteClosed} * transp.state == {}: transp.state.incl({WriteClosed, ReadClosed}) when defined(windows): if transp.kind == TransportKind.Pipe: if WinServerPipe in transp.flags: if WinNoPipeFlash notin transp.flags: discard flushFileBuffers(HANDLE(transp.fd)) discard disconnectNamedPipe(HANDLE(transp.fd)) else: if WinNoPipeFlash notin transp.flags: discard flushFileBuffers(HANDLE(transp.fd)) if ReadPaused in transp.state: # If readStreamLoop() is not running we need to finish in # continuation step. closeHandle(transp.fd, continuation) else: # If readStreamLoop() is running, it will be properly finished inside # of readStreamLoop(). closeHandle(transp.fd) elif transp.kind == TransportKind.Socket: if ReadPaused in transp.state: # If readStreamLoop() is not running we need to finish in # continuation step. closeSocket(transp.fd, continuation) else: # If readStreamLoop() is running, it will be properly finished inside # of readStreamLoop(). closeSocket(transp.fd) else: if transp.kind == TransportKind.Pipe: closeHandle(transp.fd, continuation) elif transp.kind == TransportKind.Socket: closeSocket(transp.fd, continuation) proc closeWait*(transp: StreamTransport): Future[void] = ## Close and frees resources of transport ``transp``. transp.close() transp.join() proc closed*(transp: StreamTransport): bool {.inline.} = ## Returns ``true`` if transport in closed state. ({ReadClosed, WriteClosed} * transp.state != {}) proc finished*(transp: StreamTransport): bool {.inline.} = ## Returns ``true`` if transport in finished (EOF) state. ({ReadEof, WriteEof} * transp.state != {}) proc failed*(transp: StreamTransport): bool {.inline.} = ## Returns ``true`` if transport in error state. ({ReadError, WriteError} * transp.state != {}) proc running*(transp: StreamTransport): bool {.inline.} = ## Returns ``true`` if transport is still pending. ({ReadClosed, ReadEof, ReadError, WriteClosed, WriteEof, WriteError} * transp.state == {}) proc fromPipe2*(fd: AsyncFD, child: StreamTransport = nil, bufferSize = DefaultStreamBufferSize ): Result[StreamTransport, OSErrorCode] = ## Create new transport object using pipe's file descriptor. ## ## ``bufferSize`` is size of internal buffer for transport. ? register2(fd) var res = newStreamPipeTransport(fd, bufferSize, child) # Start tracking transport trackStream(res) ok(res) proc fromPipe*(fd: AsyncFD, child: StreamTransport = nil, bufferSize = DefaultStreamBufferSize): StreamTransport {. raises: [Defect, TransportOsError].} = ## Create new transport object using pipe's file descriptor. ## ## ``bufferSize`` is size of internal buffer for transport. let res = fromPipe2(fd, child, bufferSize) if res.isErr(): raiseTransportOsError(res.error()) res.get()