# # # Nim's Runtime Library # (c) Copyright 2016 Eugene Kabanov # # See the file "copying.txt", included in this # distribution, for details about the copyright. # # This module implements Posix and Windows select(). import times, nativesockets when defined(windows): import winlean when defined(gcc): {.passl: "-lws2_32".} elif defined(vcc): {.passl: "ws2_32.lib".} const platformHeaders = """#include #include """ const EAGAIN = WSAEWOULDBLOCK else: const platformHeaders = """#include #include #include #include """ type Fdset {.importc: "fd_set", header: platformHeaders, pure, final.} = object var FD_SETSIZE {.importc: "FD_SETSIZE", header: platformHeaders.}: cint proc IOFD_SET(fd: SocketHandle, fdset: ptr Fdset) {.cdecl, importc: "FD_SET", header: platformHeaders, inline.} proc IOFD_CLR(fd: SocketHandle, fdset: ptr Fdset) {.cdecl, importc: "FD_CLR", header: platformHeaders, inline.} proc IOFD_ZERO(fdset: ptr Fdset) {.cdecl, importc: "FD_ZERO", header: platformHeaders, inline.} when defined(windows): proc IOFD_ISSET(fd: SocketHandle, fdset: ptr Fdset): cint {.stdcall, importc: "FD_ISSET", header: platformHeaders, inline.} proc ioselect(nfds: cint, readFds, writeFds, exceptFds: ptr Fdset, timeout: ptr Timeval): cint {.stdcall, importc: "select", header: platformHeaders.} else: proc IOFD_ISSET(fd: SocketHandle, fdset: ptr Fdset): cint {.cdecl, importc: "FD_ISSET", header: platformHeaders, inline.} proc ioselect(nfds: cint, readFds, writeFds, exceptFds: ptr Fdset, timeout: ptr Timeval): cint {.cdecl, importc: "select", header: platformHeaders.} when hasThreadSupport: type SelectorImpl[T] = object rSet: FdSet wSet: FdSet eSet: FdSet maxFD: int fds: ptr SharedArray[SelectorKey[T]] count: int lock: Lock Selector*[T] = ptr SelectorImpl[T] else: type SelectorImpl[T] = object rSet: FdSet wSet: FdSet eSet: FdSet maxFD: int fds: seq[SelectorKey[T]] count: int Selector*[T] = ref SelectorImpl[T] type SelectEventImpl = object rsock: SocketHandle wsock: SocketHandle SelectEvent* = ptr SelectEventImpl when hasThreadSupport: template withSelectLock[T](s: Selector[T], body: untyped) = acquire(s.lock) {.locks: [s.lock].}: try: body finally: release(s.lock) else: template withSelectLock[T](s: Selector[T], body: untyped) = body proc newSelector*[T](): Selector[T] = when hasThreadSupport: result = cast[Selector[T]](allocShared0(sizeof(SelectorImpl[T]))) result.fds = allocSharedArray[SelectorKey[T]](FD_SETSIZE) initLock result.lock else: result = Selector[T]() result.fds = newSeq[SelectorKey[T]](FD_SETSIZE) for i in 0 ..< FD_SETSIZE: result.fds[i].ident = InvalidIdent IOFD_ZERO(addr result.rSet) IOFD_ZERO(addr result.wSet) IOFD_ZERO(addr result.eSet) proc close*[T](s: Selector[T]) = when hasThreadSupport: deallocSharedArray(s.fds) deallocShared(cast[pointer](s)) when defined(windows): proc newSelectEvent*(): SelectEvent = var ssock = createNativeSocket() var wsock = createNativeSocket() var rsock: SocketHandle = INVALID_SOCKET var saddr = Sockaddr_in() saddr.sin_family = winlean.AF_INET saddr.sin_port = 0 saddr.sin_addr.s_addr = INADDR_ANY if bindAddr(ssock, cast[ptr SockAddr](addr(saddr)), sizeof(saddr).SockLen) < 0'i32: raiseIOSelectorsError(osLastError()) if winlean.listen(ssock, 1) != 0: raiseIOSelectorsError(osLastError()) var namelen = sizeof(saddr).SockLen if getsockname(ssock, cast[ptr SockAddr](addr(saddr)), addr(namelen)) != 0'i32: raiseIOSelectorsError(osLastError()) saddr.sin_addr.s_addr = 0x0100007F if winlean.connect(wsock, cast[ptr SockAddr](addr(saddr)), sizeof(saddr).SockLen) != 0: raiseIOSelectorsError(osLastError()) namelen = sizeof(saddr).SockLen rsock = winlean.accept(ssock, cast[ptr SockAddr](addr(saddr)), cast[ptr SockLen](addr(namelen))) if rsock == SocketHandle(-1): raiseIOSelectorsError(osLastError()) if winlean.closesocket(ssock) != 0: raiseIOSelectorsError(osLastError()) var mode = clong(1) if ioctlsocket(rsock, FIONBIO, addr(mode)) != 0: raiseIOSelectorsError(osLastError()) mode = clong(1) if ioctlsocket(wsock, FIONBIO, addr(mode)) != 0: raiseIOSelectorsError(osLastError()) result = cast[SelectEvent](allocShared0(sizeof(SelectEventImpl))) result.rsock = rsock result.wsock = wsock proc trigger*(ev: SelectEvent) = var data: uint64 = 1 if winlean.send(ev.wsock, cast[pointer](addr data), cint(sizeof(uint64)), 0) != sizeof(uint64): raiseIOSelectorsError(osLastError()) proc close*(ev: SelectEvent) = let res1 = winlean.closesocket(ev.rsock) let res2 = winlean.closesocket(ev.wsock) deallocShared(cast[pointer](ev)) if res1 != 0 or res2 != 0: raiseIOSelectorsError(osLastError()) else: proc newSelectEvent*(): SelectEvent = var fds: array[2, cint] if posix.pipe(fds) != 0: raiseIOSelectorsError(osLastError()) setNonBlocking(fds[0]) setNonBlocking(fds[1]) result = cast[SelectEvent](allocShared0(sizeof(SelectEventImpl))) result.rsock = SocketHandle(fds[0]) result.wsock = SocketHandle(fds[1]) proc trigger*(ev: SelectEvent) = var data: uint64 = 1 if posix.write(cint(ev.wsock), addr data, sizeof(uint64)) != sizeof(uint64): raiseIOSelectorsError(osLastError()) proc close*(ev: SelectEvent) = let res1 = posix.close(cint(ev.rsock)) let res2 = posix.close(cint(ev.wsock)) deallocShared(cast[pointer](ev)) if res1 != 0 or res2 != 0: raiseIOSelectorsError(osLastError()) proc setSelectKey[T](s: Selector[T], fd: SocketHandle, events: set[Event], data: T) = var i = 0 let fdi = int(fd) while i < FD_SETSIZE: if s.fds[i].ident == InvalidIdent: var pkey = addr(s.fds[i]) pkey.ident = fdi pkey.events = events pkey.data = data break inc(i) if i >= FD_SETSIZE: raiseIOSelectorsError("Maximum number of descriptors is exhausted!") proc getKey[T](s: Selector[T], fd: SocketHandle): ptr SelectorKey[T] = var i = 0 let fdi = int(fd) while i < FD_SETSIZE: if s.fds[i].ident == fdi: result = addr(s.fds[i]) break inc(i) doAssert(i < FD_SETSIZE, "Descriptor [" & $int(fd) & "] is not registered in the queue!") proc delKey[T](s: Selector[T], fd: SocketHandle) = var empty: T var i = 0 while i < FD_SETSIZE: if s.fds[i].ident == fd.int: s.fds[i].ident = InvalidIdent s.fds[i].events = {} s.fds[i].data = empty break inc(i) doAssert(i < FD_SETSIZE, "Descriptor [" & $int(fd) & "] is not registered in the queue!") proc registerHandle*[T](s: Selector[T], fd: int | SocketHandle, events: set[Event], data: T) = when not defined(windows): let fdi = int(fd) s.withSelectLock(): s.setSelectKey(fd, events, data) when not defined(windows): if fdi > s.maxFD: s.maxFD = fdi if Event.Read in events: IOFD_SET(fd, addr s.rSet) inc(s.count) if Event.Write in events: IOFD_SET(fd, addr s.wSet) IOFD_SET(fd, addr s.eSet) inc(s.count) proc registerEvent*[T](s: Selector[T], ev: SelectEvent, data: T) = when not defined(windows): let fdi = int(ev.rsock) s.withSelectLock(): s.setSelectKey(ev.rsock, {Event.User}, data) when not defined(windows): if fdi > s.maxFD: s.maxFD = fdi IOFD_SET(ev.rsock, addr s.rSet) inc(s.count) proc updateHandle*[T](s: Selector[T], fd: int | SocketHandle, events: set[Event]) = let maskEvents = {Event.Timer, Event.Signal, Event.Process, Event.Vnode, Event.User, Event.Oneshot, Event.Error} s.withSelectLock(): var pkey = s.getKey(fd) doAssert(pkey.events * maskEvents == {}) if pkey.events != events: if (Event.Read in pkey.events) and (Event.Read notin events): IOFD_CLR(fd, addr s.rSet) dec(s.count) if (Event.Write in pkey.events) and (Event.Write notin events): IOFD_CLR(fd, addr s.wSet) IOFD_CLR(fd, addr s.eSet) dec(s.count) if (Event.Read notin pkey.events) and (Event.Read in events): IOFD_SET(fd, addr s.rSet) inc(s.count) if (Event.Write notin pkey.events) and (Event.Write in events): IOFD_SET(fd, addr s.wSet) IOFD_SET(fd, addr s.eSet) inc(s.count) pkey.events = events proc unregister*[T](s: Selector[T], fd: SocketHandle|int) = s.withSelectLock(): let fd = fd.SocketHandle var pkey = s.getKey(fd) if Event.Read in pkey.events or Event.User in pkey.events: IOFD_CLR(fd, addr s.rSet) dec(s.count) if Event.Write in pkey.events: IOFD_CLR(fd, addr s.wSet) IOFD_CLR(fd, addr s.eSet) dec(s.count) s.delKey(fd) proc unregister*[T](s: Selector[T], ev: SelectEvent) = let fd = ev.rsock s.withSelectLock(): var pkey = s.getKey(fd) IOFD_CLR(fd, addr s.rSet) dec(s.count) s.delKey(fd) proc selectInto*[T](s: Selector[T], timeout: int, results: var openarray[ReadyKey]): int = var tv = Timeval() var ptv = addr tv var rset, wset, eset: FdSet verifySelectParams(timeout) if timeout != -1: when defined(genode): tv.tv_sec = Time(timeout div 1_000) else: tv.tv_sec = timeout.int32 div 1_000 tv.tv_usec = (timeout.int32 %% 1_000) * 1_000 else: ptv = nil s.withSelectLock(): rset = s.rSet wset = s.wSet eset = s.eSet var count = ioselect(cint(s.maxFD) + 1, addr(rset), addr(wset), addr(eset), ptv) if count < 0: result = 0 when defined(windows): raiseIOSelectorsError(osLastError()) else: let err = osLastError() if cint(err) != EINTR: raiseIOSelectorsError(err) elif count == 0: result = 0 else: var rindex = 0 var i = 0 var k = 0 while (i < FD_SETSIZE) and (k < count): if s.fds[i].ident != InvalidIdent: var flag = false var pkey = addr(s.fds[i]) var rkey = ReadyKey(fd: int(pkey.ident), events: {}) let fd = SocketHandle(pkey.ident) if IOFD_ISSET(fd, addr rset) != 0: if Event.User in pkey.events: var data: uint64 = 0 if recv(fd, cast[pointer](addr(data)), sizeof(uint64).cint, 0) != sizeof(uint64): let err = osLastError() if cint(err) != EAGAIN: raiseIOSelectorsError(err) else: inc(i) inc(k) continue else: flag = true rkey.events = {Event.User} else: flag = true rkey.events = {Event.Read} if IOFD_ISSET(fd, addr wset) != 0: rkey.events.incl(Event.Write) if IOFD_ISSET(fd, addr eset) != 0: rkey.events.incl(Event.Error) flag = true if flag: results[rindex] = rkey inc(rindex) inc(k) inc(i) result = rindex proc select*[T](s: Selector[T], timeout: int): seq[ReadyKey] = result = newSeq[ReadyKey](FD_SETSIZE) var count = selectInto(s, timeout, result) result.setLen(count) proc flush*[T](s: Selector[T]) = discard template isEmpty*[T](s: Selector[T]): bool = (s.count == 0) proc contains*[T](s: Selector[T], fd: SocketHandle|int): bool {.inline.} = s.withSelectLock(): result = false let fdi = int(fd) for i in 0..