NAME

Future::IO - Future-returning IO methods

SYNOPSIS

use Future::IO;

my $delay = Future::IO->sleep( 5 );
# $delay will become done in 5 seconds time

my $input = Future::IO->sysread( \*STDIN, 4096 );
# $input will yield some input from the STDIN IO handle

DESCRIPTION

This package provides a few basic methods that behave similarly to the same-named core perl functions relating to IO operations, but yield their results asynchronously via Future instances.

This is provided primarily as a decoupling mechanism, to allow modules to be written that perform IO in an asynchronous manner to depend directly on this, while allowing asynchronous event systems to provide an implementation of these operations.

Default Implementation

If the override_impl method is not invoked, a default implementation of these operations is provided. This implementation allows a single queue of sysread or syswrite calls on a single filehandle only, combined with sleep calls. It does not support waitpid.

It is provided for the simple cases where modules only need one filehandle (most likely a single network socket or hardware device handle), allowing such modules to work without needing a better event system.

If there are both read/write and sleep futures pending, the implementation will use select() to wait for either. This may be problematic on MSWin32, depending on what type of filehandle is involved.

If select() is not being used then the default implementation will temporarily set filehandles into blocking mode (by switching off the O_NONBLOCK flag) while performing IO on them.

For cases where multiple filehandles are required, or for doing more involved IO operations, a real implementation based on an actual event loop should be provided. The following are known to exist; CPAN may provide others:

Unit Testing

The replaceable implementation is also useful for writing unit test scripts. If the implementation is set to an instance of some sort of test fixture or mocking object, a unit test can check that the appropriate IO operations happen as part of the test.

A testing module which does this is provided by Test::Future::IO.

METHODS

accept

$socketfh = await Future::IO->accept( $fh );

Since version 0.11.

Returns a Future that will become done when a new connection has been accepted on the given filehandle, which should represent a listen-mode socket. The returned future will yield the newly-accepted client socket filehandle.

alarm

await Future::IO->alarm( $epoch );

Since version 0.08.

Returns a Future that will become done at a fixed point in the future, given as an epoch timestamp (such as returned by time()). This value may be fractional.

connect

await Future::IO->connect( $fh, $name );

Since version 0.11.

Returns a Future that will become done when a connect() has succeeded on the given filehandle to the given sockname address.

sleep

await Future::IO->sleep( $secs );

Returns a Future that will become done a fixed delay from now, given in seconds. This value may be fractional.

sysread

$bytes = await Future::IO->sysread( $fh, $length );

Returns a Future that will become done when at least one byte can be read from the given filehandle. It may return up to $length bytes. On EOF, the returned future will yield an empty list (or undef in scalar context). On any error (other than EAGAIN / EWOULDBLOCK which are ignored), the future fails with a suitable error message.

Note specifically this may perform only a single sysread() call, and thus is not guaranteed to actually return the full length.

sysread_exactly

$bytes = await Future::IO->sysread_exactly( $fh, $length );

Since version 0.03.

Returns a Future that will become done when exactly the given number of bytes have been read from the given filehandle. It returns exactly $length bytes. On EOF, the returned future will yield an empty list (or undef in scalar context), even if fewer bytes have already been obtained. These bytes will be lost. On any error (other than EAGAIN / EWOULDBLOCK which are ignored), the future fails with a suitable error message.

This may make more than one sysread() call.

sysread_until_eof

$f = Future::IO->sysread_until_eof( $fh );

Since version 0.12.

Returns a Future that will become done when the given filehandle reaches the EOF condition. The returned future will yield all of the bytes read up until that point.

syswrite

$written_len = await Future::IO->syswrite( $fh, $bytes );

Since version 0.04.

Returns a Future that will become done when at least one byte has been written to the given filehandle. It may write up to all of the bytes. On any error (other than EAGAIN / EWOULDBLOCK which are ignored) the future fails with a suitable error message.

Note specifically this may perform only a single syswrite() call, and thus is not guaranteed to actually return the full length.

syswrite_exactly

$written_len = await Future::IO->syswrite_exactly( $fh, $bytes );

Since version 0.04.

Returns a Future that will become done when exactly the given bytes have been written to the given filehandle. On any error (other than EAGAIN / EWOULDBLOCK which are ignored) the future fails with a suitable error message.

This may make more than one syswrite() call.

waitpid

$wstatus = await Future::IO->waitpid( $pid );

Since version 0.09.

Returns a Future that will become done when the given child process terminates. The future will yield the wait status of the child process. This can be inspected by the usual bitshifting operations as per $?:

if( my $termsig = ($wstatus & 0x7f) ) {
   say "Terminated with signal $termsig";
}
else {
   my $exitcode = ($wstatus >> 8);
   say "Terminated with exit code $exitcode";
}

override_impl

Future::IO->override_impl( $impl );

Sets a new implementation for Future::IO, replacing the minimal default internal implementation. This can either be a package name or an object instance reference, but must provide the methods named above.

This method is intended to be called by event loops and other similar places, to provide a better integration. Another way, which doesn't involve directly depending on Future::IO or loading it, is to use the $IMPL variable; see below.

Can only be called once, and only if the default implementation is not in use, therefore a module that wishes to override this ought to invoke it as soon as possible on program startup, before any of the main Future::IO methods may have been called.

HAVE_MULTIPLE_FILEHANDLES

$has = Future::IO->HAVE_MULTIPLE_FILEHANDLES;

Since version 0.11.

Returns true if the underlying IO implementation actually supports multiple filehandles. Most real support modules will return true here, but this returns false for the internal minimal implementation.

await

$f = $f->await;

Since version 0.07.

Blocks until this future is ready (either by success or failure). Does not throw an exception if failed.

THE $IMPL VARIABLE

Since version 0.02.

As an alternative to setting an implementation by using override_impl, a package variable is also available that allows modules such as event systems to opportunistically provide an implementation without needing to depend on the module, or loading it require. Simply directly set that package variable to the name of an implementing package or an object instance.

Additionally, implementors may use a name within the Future::IO::Impl:: namespace, suffixed by the name of their event system.

For example, something like the following code arrangement is recommended.

package Future::IO::Impl::BananaLoop;

{
   no warnings 'once';
   ( $Future::IO::IMPL //= __PACKAGE__ ) eq __PACKAGE__ or
      warn "Unable to set Future::IO implementation to " . __PACKAGE__ .
         " as it is already $Future::IO::IMPL\n";
}

sub sleep
{
   ...
}

sub sysread
{
   ...
}

sub syswrite
{
   ...
}

sub waitpid
{
   ...
}

Optionally, you can also implement "sysread_exactly" and "syswrite_exactly":

sub sysread_exactly
{
   ...
}

sub syswrite_exactly
{
   ...
}

If not, they will be emulated by Future::IO itself, making multiple calls to the non-_exactly versions.

AUTHOR

Paul Evans <leonerd@leonerd.org.uk>