#
# Chronos Transport Common Types
# (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/[os, strutils, nativesockets, net]
import stew/base10
import ../asyncloop
export net
when defined(windows) or defined(nimdoc):
import winlean
else:
import posix
const
DefaultStreamBufferSize* = 4096 ## Default buffer size for stream
## transports
DefaultDatagramBufferSize* = 65536 ## Default buffer size for datagram
## transports
type
ServerFlags* = enum
## Server's flags
ReuseAddr, ReusePort, TcpNoDelay, NoAutoRead, GCUserData, FirstPipe,
NoPipeFlash, Broadcast
AddressFamily* {.pure.} = enum
None, IPv4, IPv6, Unix
TransportAddress* = object
## Transport network address
case family*: AddressFamily
of AddressFamily.None:
discard
of AddressFamily.IPv4:
address_v4*: array[4, uint8]
of AddressFamily.IPv6:
address_v6*: array[16, uint8]
of AddressFamily.Unix:
address_un*: array[108, uint8]
port*: Port # Port number
ServerCommand* = enum
## Server's commands
Start, # Start server
Pause, # Pause server
Stop # Stop server
ServerStatus* = enum
## Server's statuses
Starting, # Server created
Stopped, # Server stopped
Running, # Server running
Closed # Server closed
when defined(windows) or defined(nimdoc):
type
SocketServer* = ref object of RootRef
## Socket server object
sock*: AsyncFD # Socket
local*: TransportAddress # Address
status*: ServerStatus # Current server status
udata*: pointer # User-defined pointer
flags*: set[ServerFlags] # Flags
bufferSize*: int # Size of internal transports' buffer
loopFuture*: Future[void] # Server's main Future
domain*: Domain # Current server domain (IPv4 or IPv6)
apending*: bool
asock*: AsyncFD # Current AcceptEx() socket
errorCode*: OSErrorCode # Current error code
abuffer*: array[128, byte] # Windows AcceptEx() buffer
when defined(windows):
aovl*: CustomOverlapped # AcceptEx OVERLAPPED structure
else:
type
SocketServer* = ref object of RootRef
## Socket server object
sock*: AsyncFD # Socket
local*: TransportAddress # Address
status*: ServerStatus # Current server status
udata*: pointer # User-defined pointer
flags*: set[ServerFlags] # Flags
bufferSize*: int # Size of internal transports' buffer
loopFuture*: Future[void] # Server's main Future
errorCode*: OSErrorCode # Current error code
type
TransportError* = object of AsyncError
## Transport's specific exception
TransportOsError* = object of TransportError
## Transport's OS specific exception
code*: OSErrorCode
TransportIncompleteError* = object of TransportError
## Transport's `incomplete data received` exception
TransportLimitError* = object of TransportError
## Transport's `data limit reached` exception
TransportAddressError* = object of TransportError
## Transport's address specific exception
code*: OSErrorCode
TransportNoSupport* = object of TransportError
## Transport's capability not supported exception
TransportUseClosedError* = object of TransportError
## Usage after transport close exception
TransportTooManyError* = object of TransportError
## Too many open file descriptors exception
TransportAbortedError* = object of TransportError
## Remote client disconnected before server accepts connection
TransportState* = enum
## Transport's state
ReadPending, # Read operation pending (Windows)
ReadPaused, # Read operations paused
ReadClosed, # Read operations closed
ReadEof, # Read at EOF
ReadError, # Read error
WritePending, # Writer operation pending (Windows)
WritePaused, # Writer operations paused
WriteClosed, # Writer operations closed
WriteEof, # Remote peer disconnected
WriteError # Write error
var
AnyAddress* = TransportAddress(family: AddressFamily.IPv4, port: Port(0))
## Default INADDR_ANY address for IPv4
AnyAddress6* = TransportAddress(family: AddressFamily.IPv6, port: Port(0))
## Default INADDR_ANY address for IPv6
proc `==`*(lhs, rhs: TransportAddress): bool =
## Compare two transport addresses ``lhs`` and ``rhs``. Return ``true`` if
## addresses are equal.
if lhs.family != rhs.family:
return false
case lhs.family
of AddressFamily.None:
true
of AddressFamily.IPv4:
equalMem(unsafeAddr lhs.address_v4[0],
unsafeAddr rhs.address_v4[0], sizeof(lhs.address_v4)) and
(lhs.port == rhs.port)
of AddressFamily.IPv6:
equalMem(unsafeAddr lhs.address_v6[0],
unsafeAddr rhs.address_v6[0], sizeof(lhs.address_v6)) and
(lhs.port == rhs.port)
of AddressFamily.Unix:
equalMem(unsafeAddr lhs.address_un[0],
unsafeAddr rhs.address_un[0], sizeof(lhs.address_un))
proc getDomain*(address: TransportAddress): Domain =
## Returns OS specific Domain from TransportAddress.
case address.family
of AddressFamily.IPv4:
Domain.AF_INET
of AddressFamily.IPv6:
Domain.AF_INET6
of AddressFamily.Unix:
when defined(windows):
cast[Domain](1)
else:
Domain.AF_UNIX
else:
cast[Domain](0)
proc `$`*(address: TransportAddress): string =
## Returns string representation of ``address``.
case address.family
of AddressFamily.IPv4:
var a = IpAddress(family: IpAddressFamily.IPv4,
address_v4: address.address_v4)
var res = $a
res.add(":")
res.add(Base10.toString(uint16(address.port)))
res
of AddressFamily.IPv6:
var a = IpAddress(family: IpAddressFamily.IPv6,
address_v6: address.address_v6)
var res = "[" & $a & "]:"
res.add(Base10.toString(uint16(address.port)))
res
of AddressFamily.Unix:
const length = sizeof(address.address_un) + 1
var buffer: array[length, char]
if not equalMem(addr buffer[0], unsafeAddr address.address_un[0],
sizeof(address.address_un)):
copyMem(addr buffer[0], unsafeAddr address.address_un[0],
sizeof(address.address_un))
$cast[cstring](addr buffer)
else:
"/"
else:
"Unknown address family: " & $address.family
proc initTAddress*(address: string): TransportAddress {.
raises: [Defect, TransportAddressError].} =
## Parses string representation of ``address``. ``address`` can be IPv4, IPv6
## or Unix domain address.
##
## IPv4 transport address format is ``a.b.c.d:port``.
## IPv6 transport address format is ``[::]:port``.
## Unix transport address format is ``/address``.
if len(address) > 0:
if address[0] == '/':
var res = TransportAddress(family: AddressFamily.Unix, port: Port(1))
let size = if len(address) < (sizeof(res.address_un) - 1): len(address)
else: (sizeof(res.address_un) - 1)
copyMem(addr res.address_un[0], unsafeAddr address[0], size)
res
else:
let parts =
block:
let res = address.rsplit(":", maxsplit = 1)
if len(res) != 2:
raise newException(TransportAddressError,
"Format is
:!")
res
let port =
block:
let res = Base10.decode(uint16, parts[1])
if res.isErr():
raise newException(TransportAddressError,
"Invalid port number!")
res.get()
let ipaddr =
try:
if parts[0][0] == '[' and parts[0][^1] == ']':
parseIpAddress(parts[0][1..^2])
else:
parseIpAddress(parts[0])
except CatchableError as exc:
raise newException(TransportAddressError, exc.msg)
case ipaddr.family
of IpAddressFamily.IPv4:
TransportAddress(family: AddressFamily.IPv4,
address_v4: ipaddr.address_v4, port: Port(port))
of IpAddressFamily.IPv6:
TransportAddress(family: AddressFamily.IPv6,
address_v6: ipaddr.address_v6, port: Port(port))
else:
TransportAddress(family: AddressFamily.Unix)
proc initTAddress*(address: string, port: Port): TransportAddress {.
raises: [Defect, TransportAddressError].} =
## Initialize ``TransportAddress`` with IP (IPv4 or IPv6) address ``address``
## and port number ``port``.
let ipaddr =
try:
parseIpAddress(address)
except CatchableError as exc:
raise newException(TransportAddressError, exc.msg)
case ipaddr.family
of IpAddressFamily.IPv4:
TransportAddress(family: AddressFamily.IPv4,
address_v4: ipaddr.address_v4, port: port)
of IpAddressFamily.IPv6:
TransportAddress(family: AddressFamily.IPv6,
address_v6: ipaddr.address_v6, port: port)
proc initTAddress*(address: string, port: int): TransportAddress {.
raises: [Defect, TransportAddressError].} =
## Initialize ``TransportAddress`` with IP (IPv4 or IPv6) address ``address``
## and port number ``port``.
if port < 0 or port > 65535:
raise newException(TransportAddressError, "Illegal port number!")
initTAddress(address, Port(port))
proc initTAddress*(address: IpAddress, port: Port): TransportAddress =
## Initialize ``TransportAddress`` with net.nim ``IpAddress`` and
## port number ``port``.
case address.family
of IpAddressFamily.IPv4:
TransportAddress(family: AddressFamily.IPv4,
address_v4: address.address_v4, port: port)
of IpAddressFamily.IPv6:
TransportAddress(family: AddressFamily.IPv6,
address_v6: address.address_v6, port: port)
proc getAddrInfo(address: string, port: Port, domain: Domain,
sockType: SockType = SockType.SOCK_STREAM,
protocol: Protocol = Protocol.IPPROTO_TCP): ptr AddrInfo {.
raises: [Defect, TransportAddressError].} =
## We have this one copy of ``getAddrInfo()`` because of AI_V4MAPPED in
## ``net.nim:getAddrInfo()``, which is not cross-platform.
var hints: AddrInfo
var res: ptr AddrInfo = nil
hints.ai_family = toInt(domain)
hints.ai_socktype = toInt(sockType)
hints.ai_protocol = toInt(protocol)
var gaiRes = getaddrinfo(address, cstring(Base10.toString(uint16(port))),
addr(hints), res)
if gaiRes != 0'i32:
when defined(windows) or defined(nimdoc):
raise newException(TransportAddressError, osErrorMsg(osLastError()))
else:
raise newException(TransportAddressError, $gai_strerror(gaiRes))
res
proc fromSAddr*(sa: ptr Sockaddr_storage, sl: SockLen,
address: var TransportAddress) =
## Set transport address ``address`` with value from OS specific socket
## address storage.
if int(sa.ss_family) == toInt(Domain.AF_INET) and
int(sl) == sizeof(Sockaddr_in):
address = TransportAddress(family: AddressFamily.IPv4)
let s = cast[ptr Sockaddr_in](sa)
copyMem(addr address.address_v4[0], addr s.sin_addr,
sizeof(address.address_v4))
address.port = Port(nativesockets.ntohs(s.sin_port))
elif int(sa.ss_family) == toInt(Domain.AF_INET6) and
int(sl) == sizeof(Sockaddr_in6):
address = TransportAddress(family: AddressFamily.IPv6)
let s = cast[ptr Sockaddr_in6](sa)
copyMem(addr address.address_v6[0], addr s.sin6_addr,
sizeof(address.address_v6))
address.port = Port(nativesockets.ntohs(s.sin6_port))
elif int(sa.ss_family) == toInt(Domain.AF_UNIX):
when not defined(windows) and not defined(nimdoc):
address = TransportAddress(family: AddressFamily.Unix)
if int(sl) > sizeof(sa.ss_family):
var length = int(sl) - sizeof(sa.ss_family)
if length > (sizeof(address.address_un) - 1):
length = sizeof(address.address_un) - 1
let s = cast[ptr Sockaddr_un](sa)
copyMem(addr address.address_un[0], addr s.sun_path[0], length)
address.port = Port(1)
else:
discard
proc toSAddr*(address: TransportAddress, sa: var Sockaddr_storage,
sl: var SockLen) =
## Set socket OS specific socket address storage with address from transport
## address ``address``.
case address.family
of AddressFamily.IPv4:
sl = SockLen(sizeof(Sockaddr_in))
let s = cast[ptr Sockaddr_in](addr sa)
s.sin_family = type(s.sin_family)(toInt(Domain.AF_INET))
s.sin_port = nativesockets.htons(uint16(address.port))
copyMem(addr s.sin_addr, unsafeAddr address.address_v4[0],
sizeof(s.sin_addr))
of AddressFamily.IPv6:
sl = SockLen(sizeof(Sockaddr_in6))
let s = cast[ptr Sockaddr_in6](addr sa)
s.sin6_family = type(s.sin6_family)(toInt(Domain.AF_INET6))
s.sin6_port = nativesockets.htons(uint16(address.port))
copyMem(addr s.sin6_addr, unsafeAddr address.address_v6[0],
sizeof(s.sin6_addr))
of AddressFamily.Unix:
when not defined(windows) and not defined(nimdoc):
if address.port == Port(0):
sl = SockLen(sizeof(sa.ss_family))
else:
let s = cast[ptr Sockaddr_un](addr sa)
var name = cast[cstring](unsafeAddr address.address_un[0])
sl = SockLen(sizeof(sa.ss_family) + len(name) + 1)
s.sun_family = type(s.sun_family)(toInt(Domain.AF_UNIX))
copyMem(addr s.sun_path, unsafeAddr address.address_un[0],
len(name) + 1)
else:
discard
proc address*(ta: TransportAddress): IpAddress {.
raises: [Defect, ValueError].} =
## Converts ``TransportAddress`` to ``net.IpAddress`` object.
##
## Note its impossible to convert ``TransportAddress`` of ``Unix`` family,
## because ``IpAddress`` supports only IPv4, IPv6 addresses.
case ta.family
of AddressFamily.IPv4:
IpAddress(family: IpAddressFamily.IPv4, address_v4: ta.address_v4)
of AddressFamily.IPv6:
IpAddress(family: IpAddressFamily.IPv6, address_v6: ta.address_v6)
else:
raise newException(ValueError, "IpAddress supports only IPv4/IPv6!")
proc host*(ta: TransportAddress): string {.raises: [Defect].} =
## Returns ``host`` of TransportAddress ``ta``.
##
## For IPv4 and IPv6 addresses it will return IP address as string, or empty
## string for Unix address.
case ta.family
of AddressFamily.IPv4:
$IpAddress(family: IpAddressFamily.IPv4, address_v4: ta.address_v4)
of AddressFamily.IPv6:
let a = $IpAddress(family: IpAddressFamily.IPv6,
address_v6: ta.address_v6)
"[" & a & "]"
else:
""
proc resolveTAddress*(address: string, port: Port,
domain: Domain): seq[TransportAddress] {.
raises: [Defect, TransportAddressError].} =
var res: seq[TransportAddress]
let aiList = getAddrInfo(address, port, domain)
var it = aiList
while not(isNil(it)):
var ta: TransportAddress
fromSAddr(cast[ptr Sockaddr_storage](it.ai_addr),
SockLen(it.ai_addrlen), ta)
# For some reason getAddrInfo() sometimes returns duplicate addresses,
# for example getAddrInfo(`localhost`) returns `127.0.0.1` twice.
if ta notin res:
res.add(ta)
it = it.ai_next
res
proc resolveTAddress*(address: string, domain: Domain): seq[TransportAddress] {.
raises: [Defect, TransportAddressError].} =
let parts =
block:
let res = address.rsplit(":", maxsplit = 1)
if len(res) != 2:
raise newException(TransportAddressError, "Format is :!")
res
let port =
block:
let res = Base10.decode(uint16, parts[1])
if res.isErr():
raise newException(TransportAddressError, "Invalid port number!")
res.get()
let hostname =
if parts[0][0] == '[' and parts[0][^1] == ']':
# IPv6 numeric addresses must be enclosed with `[]`.
parts[0][1..^2]
else:
parts[0]
resolveTAddress(hostname, Port(port), domain)
proc resolveTAddress*(address: string): seq[TransportAddress] {.
raises: [Defect, TransportAddressError].} =
## Resolve string representation of ``address``.
##
## Supported formats are:
## IPv4 numeric address ``a.b.c.d:port``
## IPv6 numeric address ``[::]:port``
## Hostname address ``hostname:port``
##
## If hostname address is detected, then network address translation via DNS
## will be performed.
resolveTAddress(address, Domain.AF_UNSPEC)
proc resolveTAddress*(address: string, port: Port): seq[TransportAddress] {.
raises: [Defect, TransportAddressError].} =
## Resolve string representation of ``address``.
##
## Supported formats are:
## IPv4 numeric address ``a.b.c.d:port``
## IPv6 numeric address ``[::]:port``
## Hostname address ``hostname:port``
##
## If hostname address is detected, then network address translation via DNS
## will be performed.
resolveTAddress(address, port, Domain.AF_UNSPEC)
proc resolveTAddress*(address: string,
family: AddressFamily): seq[TransportAddress] {.
raises: [Defect, TransportAddressError].} =
## Resolve string representation of ``address``.
##
## Supported formats are:
## IPv4 numeric address ``a.b.c.d:port``
## IPv6 numeric address ``[::]:port``
## Hostname address ``hostname:port``
##
## If hostname address is detected, then network address translation via DNS
## will be performed.
case family
of AddressFamily.IPv4:
resolveTAddress(address, Domain.AF_INET)
of AddressFamily.IPv6:
resolveTAddress(address, Domain.AF_INET6)
else:
raiseAssert("Unable to resolve non-internet address")
proc resolveTAddress*(address: string, port: Port,
family: AddressFamily): seq[TransportAddress] {.
raises: [Defect, TransportAddressError].} =
## Resolve string representation of ``address``.
##
## ``address`` could be dot IPv4/IPv6 address or hostname.
##
## If hostname address is detected, then network address translation via DNS
## will be performed.
case family
of AddressFamily.IPv4:
resolveTAddress(address, port, Domain.AF_INET)
of AddressFamily.IPv6:
resolveTAddress(address, port, Domain.AF_INET6)
else:
raiseAssert("Unable to resolve non-internet address")
proc resolveTAddress*(address: string,
family: IpAddressFamily): seq[TransportAddress] {.
deprecated, raises: [Defect, TransportAddressError].} =
case family
of IpAddressFamily.IPv4:
resolveTAddress(address, AddressFamily.IPv4)
of IpAddressFamily.IPv6:
resolveTAddress(address, AddressFamily.IPv6)
proc resolveTAddress*(address: string, port: Port,
family: IpAddressFamily): seq[TransportAddress] {.
deprecated, raises: [Defect, TransportAddressError].} =
case family
of IpAddressFamily.IPv4:
resolveTAddress(address, port, AddressFamily.IPv4)
of IpAddressFamily.IPv6:
resolveTAddress(address, port, AddressFamily.IPv6)
proc windowsAnyAddressFix*(a: TransportAddress): TransportAddress =
## BSD Sockets on \*nix systems are able to perform connections to
## `0.0.0.0` or `::0` which are equal to `127.0.0.1` or `::1`.
when defined(windows):
if (a.family == AddressFamily.IPv4 and
a.address_v4 == AnyAddress.address_v4):
try:
initTAddress("127.0.0.1", a.port)
except TransportAddressError as exc:
raiseAssert exc.msg
elif (a.family == AddressFamily.IPv6 and
a.address_v6 == AnyAddress6.address_v6):
try:
initTAddress("::1", a.port)
except TransportAddressError as exc:
raiseAssert exc.msg
else:
a
else:
a
template checkClosed*(t: untyped) =
if (ReadClosed in (t).state) or (WriteClosed in (t).state):
raise newException(TransportUseClosedError, "Transport is already closed!")
template checkClosed*(t: untyped, future: untyped) =
if (ReadClosed in (t).state) or (WriteClosed in (t).state):
future.fail(newException(TransportUseClosedError,
"Transport is already closed!"))
return future
template checkWriteEof*(t: untyped, future: untyped) =
if (WriteEof in (t).state):
future.fail(newException(TransportError,
"Transport connection is already dropped!"))
return future
template getError*(t: untyped): ref CatchableError =
var err = (t).error
(t).error = nil
err
template getServerUseClosedError*(): ref TransportUseClosedError =
newException(TransportUseClosedError, "Server is already closed!")
template getTransportUseClosedError*(): ref TransportUseClosedError =
newException(TransportUseClosedError, "Transport is already closed!")
template getTransportOsError*(err: OSErrorCode): ref TransportOsError =
var msg = "(" & $int(err) & ") " & osErrorMsg(err)
var tre = newException(TransportOsError, msg)
tre.code = err
tre
template getTransportOsError*(err: cint): ref TransportOsError =
getTransportOsError(OSErrorCode(err))
proc raiseTransportOsError*(err: OSErrorCode) {.
raises: [Defect, TransportOsError].} =
## Raises transport specific OS error.
raise getTransportOsError(err)
type
SeqHeader = object
length, reserved: int
proc isLiteral*(s: string): bool {.inline.} =
when defined(gcOrc) or defined(gcArc):
false
else:
(cast[ptr SeqHeader](s).reserved and (1 shl (sizeof(int) * 8 - 2))) != 0
proc isLiteral*[T](s: seq[T]): bool {.inline.} =
when defined(gcOrc) or defined(gcArc):
false
else:
(cast[ptr SeqHeader](s).reserved and (1 shl (sizeof(int) * 8 - 2))) != 0
when defined(windows):
import winlean
const
ERROR_OPERATION_ABORTED* = 995
ERROR_PIPE_CONNECTED* = 535
ERROR_PIPE_BUSY* = 231
ERROR_SUCCESS* = 0
ERROR_CONNECTION_REFUSED* = 1225
PIPE_TYPE_BYTE* = 0
PIPE_READMODE_BYTE* = 0
PIPE_TYPE_MESSAGE* = 0x4
PIPE_READMODE_MESSAGE* = 0x2
PIPE_WAIT* = 0
PIPE_UNLIMITED_INSTANCES* = 255
ERROR_BROKEN_PIPE* = 109
ERROR_PIPE_NOT_CONNECTED* = 233
ERROR_NO_DATA* = 232
ERROR_CONNECTION_ABORTED* = 1236
ERROR_TOO_MANY_OPEN_FILES* = 4
WSAEMFILE* = 10024
WSAENETDOWN* = 10050
WSAENETRESET* = 10052
WSAECONNABORTED* = 10053
WSAECONNRESET* = 10054
WSAENOBUFS* = 10055
WSAETIMEDOUT* = 10060
proc cancelIo*(hFile: Handle): WINBOOL
{.stdcall, dynlib: "kernel32", importc: "CancelIo".}
proc connectNamedPipe*(hPipe: Handle, lpOverlapped: ptr OVERLAPPED): WINBOOL
{.stdcall, dynlib: "kernel32", importc: "ConnectNamedPipe".}
proc disconnectNamedPipe*(hPipe: Handle): WINBOOL
{.stdcall, dynlib: "kernel32", importc: "DisconnectNamedPipe".}
proc setNamedPipeHandleState*(hPipe: Handle, lpMode, lpMaxCollectionCount,
lpCollectDataTimeout: ptr DWORD): WINBOOL
{.stdcall, dynlib: "kernel32", importc: "SetNamedPipeHandleState".}
proc resetEvent*(hEvent: Handle): WINBOOL
{.stdcall, dynlib: "kernel32", importc: "ResetEvent".}
template getTransportTooManyError*(code: int = 0): ref TransportTooManyError =
let msg =
when defined(posix):
if code == 0:
"Too many open transports"
elif code == EMFILE:
"[EMFILE] Too many open files in the process"
elif code == ENFILE:
"[ENFILE] Too many open files in system"
elif code == ENOBUFS:
"[ENOBUFS] No buffer space available"
elif code == ENOMEM:
"[ENOMEM] Not enough memory availble"
else:
"[" & $code & "] Too many open transports"
elif defined(windows):
case code
of 0:
"Too many open transports"
of ERROR_TOO_MANY_OPEN_FILES:
"[ERROR_TOO_MANY_OPEN_FILES] Too many open files"
of WSAENOBUFS:
"[WSAENOBUFS] No buffer space available"
of WSAEMFILE:
"[WSAEMFILE] Too many open sockets"
else:
"[" & $code & "] Too many open transports"
else:
"[" & $code & "] Too many open transports"
newException(TransportTooManyError, msg)
template getConnectionAbortedError*(m: string = ""): ref TransportAbortedError =
let msg =
if len(m) == 0:
"[ECONNABORTED] Connection has been aborted before being accepted"
else:
"[ECONNABORTED] " & m
newException(TransportAbortedError, msg)
template getConnectionAbortedError*(code: int): ref TransportAbortedError =
let msg =
when defined(posix):
if code == 0:
"[ECONNABORTED] Connection has been aborted before being accepted"
elif code == EPERM:
"[EPERM] Firewall rules forbid connection"
elif code == ETIMEDOUT:
"[ETIMEDOUT] Operation has been timed out"
else:
"[" & $code & "] Connection has been aborted"
elif defined(windows):
case code
of 0, WSAECONNABORTED:
"[ECONNABORTED] Connection has been aborted before being accepted"
of WSAENETDOWN:
"[ENETDOWN] Network is down"
of WSAENETRESET:
"[ENETRESET] Network dropped connection on reset"
of WSAECONNRESET:
"[ECONNRESET] Connection reset by peer"
of WSAETIMEDOUT:
"[ETIMEDOUT] Connection timed out"
else:
"[" & $code & "] Connection has been aborted"
else:
"[" & $code & "] Connection has been aborted"
newException(TransportAbortedError, msg)