# # # 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 allows high-level and efficient I/O multiplexing. ## ## Supported OS primitives: ``epoll``, ``kqueue``, ``poll`` and ## Windows ``select``. ## ## To use threadsafe version of this module, it needs to be compiled ## with both ``-d:threadsafe`` and ``--threads:on`` options. ## ## Supported features: files, sockets, pipes, timers, processes, signals ## and user events. ## ## Fully supported OS: MacOSX, FreeBSD, OpenBSD, NetBSD, Linux (except ## for Android). ## ## Partially supported OS: Windows (only sockets and user events), ## Solaris (files, sockets, handles and user events). ## Android (files, sockets, handles and user events). ## ## TODO: ``/dev/poll``, ``event ports`` and filesystem events. # Based on std/selectors, but with stricter exception handling and effect # support - changes could potentially be backported to nim but are not # backwards-compatible. import results import "."/[config, osdefs, osutils, oserrno] export results, oserrno when defined(nimdoc): type Selector*[T] = ref object ## An object which holds descriptors to be checked for read/write status Event* {.pure.} = enum ## An enum which hold event types Read, ## Descriptor is available for read Write, ## Descriptor is available for write Timer, ## Timer descriptor is completed Signal, ## Signal is raised Process, ## Process is finished Vnode, ## BSD specific file change User, ## User event is raised Error, ## Error occurred while waiting for descriptor VnodeWrite, ## NOTE_WRITE (BSD specific, write to file occurred) VnodeDelete, ## NOTE_DELETE (BSD specific, unlink of file occurred) VnodeExtend, ## NOTE_EXTEND (BSD specific, file extended) VnodeAttrib, ## NOTE_ATTRIB (BSD specific, file attributes changed) VnodeLink, ## NOTE_LINK (BSD specific, file link count changed) VnodeRename, ## NOTE_RENAME (BSD specific, file renamed) VnodeRevoke ## NOTE_REVOKE (BSD specific, file revoke occurred) IOSelectorsException* = object of CatchableError ReadyKey* = object ## An object which holds result for descriptor fd* : int ## file/socket descriptor events*: set[Event] ## set of events errorCode*: OSErrorCode ## additional error code information for ## Error events SelectEvent* = object ## An object which holds user defined event proc newSelector*[T](): Selector[T] = ## Creates a new selector proc close*[T](s: Selector[T]) = ## Closes the selector. proc registerHandle*[T](s: Selector[T], fd: int | SocketHandle, events: set[Event], data: T) = ## Registers file/socket descriptor ``fd`` to selector ``s`` ## with events set in ``events``. The ``data`` is application-defined ## data, which will be passed when an event is triggered. proc updateHandle*[T](s: Selector[T], fd: int | SocketHandle, events: set[Event]) = ## Update file/socket descriptor ``fd``, registered in selector ## ``s`` with new events set ``event``. proc registerTimer*[T](s: Selector[T], timeout: int, oneshot: bool, data: T): int {.discardable.} = ## Registers timer notification with ``timeout`` (in milliseconds) ## to selector ``s``. ## ## If ``oneshot`` is ``true``, timer will be notified only once. ## ## Set ``oneshot`` to ``false`` if you want periodic notifications. ## ## The ``data`` is application-defined data, which will be passed, when ## the timer is triggered. ## ## Returns the file descriptor for the registered timer. proc registerSignal*[T](s: Selector[T], signal: int, data: T): int {.discardable.} = ## Registers Unix signal notification with ``signal`` to selector ## ``s``. ## ## The ``data`` is application-defined data, which will be ## passed when signal raises. ## ## Returns the file descriptor for the registered signal. ## ## **Note:** This function is not supported on ``Windows``. proc registerProcess*[T](s: Selector[T], pid: int, data: T): int {.discardable.} = ## Registers a process id (pid) notification (when process has ## exited) in selector ``s``. ## ## The ``data`` is application-defined data, which will be passed when ## process with ``pid`` has exited. ## ## Returns the file descriptor for the registered signal. proc registerEvent*[T](s: Selector[T], ev: SelectEvent, data: T) = ## Registers selector event ``ev`` in selector ``s``. ## ## The ``data`` is application-defined data, which will be passed when ## ``ev`` happens. proc registerVnode*[T](s: Selector[T], fd: cint, events: set[Event], data: T) = ## Registers selector BSD/MacOSX specific vnode events for file ## descriptor ``fd`` and events ``events``. ## ``data`` application-defined data, which to be passed, when ## vnode event happens. ## ## **Note:** This function is supported only by BSD and MacOSX. proc newSelectEvent*(): SelectEvent = ## Creates a new user-defined event. proc trigger*(ev: SelectEvent) = ## Trigger event ``ev``. proc close*(ev: SelectEvent) = ## Closes user-defined event ``ev``. proc unregister*[T](s: Selector[T], ev: SelectEvent) = ## Unregisters user-defined event ``ev`` from selector ``s``. proc unregister*[T](s: Selector[T], fd: int|SocketHandle|cint) = ## Unregisters file/socket descriptor ``fd`` from selector ``s``. proc selectInto*[T](s: Selector[T], timeout: int, results: var openArray[ReadyKey]): int = ## Waits for events registered in selector ``s``. ## ## The ``timeout`` argument specifies the maximum number of milliseconds ## the function will be blocked for if no events are ready. Specifying a ## timeout of ``-1`` causes the function to block indefinitely. ## All available events will be stored in ``results`` array. ## ## Returns number of triggered events. proc select*[T](s: Selector[T], timeout: int): seq[ReadyKey] = ## Waits for events registered in selector ``s``. ## ## The ``timeout`` argument specifies the maximum number of milliseconds ## the function will be blocked for if no events are ready. Specifying a ## timeout of ``-1`` causes the function to block indefinitely. ## ## Returns a list of triggered events. proc getData*[T](s: Selector[T], fd: SocketHandle|int): var T = ## Retrieves application-defined ``data`` associated with descriptor ``fd``. ## If specified descriptor ``fd`` is not registered, empty/default value ## will be returned. proc setData*[T](s: Selector[T], fd: SocketHandle|int, data: var T): bool = ## Associate application-defined ``data`` with descriptor ``fd``. ## ## Returns ``true``, if data was successfully updated, ``false`` otherwise. template isEmpty*[T](s: Selector[T]): bool = # TODO: Why is this a template? ## Returns ``true``, if there are no registered events or descriptors ## in selector. template withData*[T](s: Selector[T], fd: SocketHandle|int, value, body: untyped) = ## Retrieves the application-data assigned with descriptor ``fd`` ## to ``value``. This ``value`` can be modified in the scope of ## the ``withData`` call. ## ## .. code-block:: nim ## ## s.withData(fd, value) do: ## # block is executed only if ``fd`` registered in selector ``s`` ## value.uid = 1000 ## template withData*[T](s: Selector[T], fd: SocketHandle|int, value, body1, body2: untyped) = ## Retrieves the application-data assigned with descriptor ``fd`` ## to ``value``. This ``value`` can be modified in the scope of ## the ``withData`` call. ## ## .. code-block:: nim ## ## s.withData(fd, value) do: ## # block is executed only if ``fd`` registered in selector ``s``. ## value.uid = 1000 ## do: ## # block is executed if ``fd`` not registered in selector ``s``. ## raise ## proc contains*[T](s: Selector[T], fd: SocketHandle|int): bool {.inline.} = ## Determines whether selector contains a file descriptor. proc getFd*[T](s: Selector[T]): int = ## Retrieves the underlying selector's file descriptor. ## ## For *poll* and *select* selectors ``-1`` is returned. else: type IOSelectorsException* = object of CatchableError SelectResult*[T] = Result[T, OSErrorCode] Event* {.pure.} = enum Read, Write, Timer, Signal, Process, Vnode, User, Error, Oneshot, Finished, VnodeWrite, VnodeDelete, VnodeExtend, VnodeAttrib, VnodeLink, VnodeRename, VnodeRevoke ReadyKey* = object fd* : int events*: set[Event] errorCode*: OSErrorCode SelectorKey[T] = object ident: int events: set[Event] param: int data: T const InvalidIdent = -1 proc raiseIOSelectorsError[T](message: T) = var msg = "" when T is string: msg.add(message) elif T is OSErrorCode: msg.add(osErrorMsg(message) & " (code: " & $int(message) & ")") else: msg.add("Internal Error\n") var err = newException(IOSelectorsException, msg) raise err when chronosEventEngine in ["epoll", "kqueue"]: const hasThreadSupport = compileOption("threads") proc blockSignals(newmask: Sigset, oldmask: var Sigset): Result[void, OSErrorCode] = var nmask = newmask # We do this trick just because Nim's posix.nim has declaration like # this: # proc pthread_sigmask(a1: cint; a2, a3: var Sigset): cint # proc sigprocmask*(a1: cint, a2, a3: var Sigset): cint when hasThreadSupport: if pthread_sigmask(SIG_BLOCK, nmask, oldmask) == -1: err(osLastError()) else: ok() else: if sigprocmask(SIG_BLOCK, nmask, oldmask) == -1: err(osLastError()) else: ok() proc unblockSignals(newmask: Sigset, oldmask: var Sigset): Result[void, OSErrorCode] = # We do this trick just because Nim's posix.nim has declaration like # this: # proc pthread_sigmask(a1: cint; a2, a3: var Sigset): cint # proc sigprocmask*(a1: cint, a2, a3: var Sigset): cint var nmask = newmask when hasThreadSupport: if pthread_sigmask(SIG_UNBLOCK, nmask, oldmask) == -1: err(osLastError()) else: ok() else: if sigprocmask(SIG_UNBLOCK, nmask, oldmask) == -1: err(osLastError()) else: ok() template verifySelectParams(timeout, min, max: int) = # Timeout of -1 means: wait forever # Anything higher is the time to wait in milliseconds. doAssert((timeout >= min) and (timeout <= max), "Cannot select with incorrect timeout value, got " & $timeout) when chronosEventEngine == "epoll": include ./ioselects/ioselectors_epoll elif chronosEventEngine == "kqueue": include ./ioselects/ioselectors_kqueue elif chronosEventEngine == "poll": include ./ioselects/ioselectors_poll else: {.fatal: "Event engine `" & chronosEventEngine & "` is not supported!".}