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# Manage a platonic, monotonic clock to keep the event queue ordered
package POE::Resource::Clock;
use vars qw($VERSION);
$VERSION = '1.370'; # NOTE - Should be #.### (three decimal places)
use strict;
use Config;
use POSIX;
use POE::Pipe::OneWay;
use File::Spec;
require Exporter;
our @EXPORT_OK = qw( monotime sleep walltime wall2mono mono2wall time );
our @ISA = qw( Exporter );
sub DEBUG () { 0 }
sub CLK_TIMEOUT () { 0 }
sub CLK_SKEW    () { 1 }
sub CLK_EN_READ () { "rt-lock-read" }
# Perform a runtime check for a compile-time flag.
#
# TODO - Enable compiler optimization of all calls to this function.
# The customary way to do this is to migrate the environment variable
# value into a constant at compile time, then for all callers to check
# the constant directly.  This is such a common thing to do that POE
# should define a utility library for it.
sub _do_X 
{
    my( $X, $default ) = @_;
    my $m = $X;
    return POE::Kernel->can( $m )->() if POE::Kernel->can( $m );
    my $k = "POE_$X";
    return $ENV{$k} if exists $ENV{$k};
    return $default if defined $default;
    return 1;
}
# Try to get the exact difference between the monotonic clock's epoch
# and the system clock's epoch.  We do this by comparing the 2 for
# 0.25 second or 10 samples.  To compensate for delays between calling
# time and get_time, we run in both order.  Even so, I still see up to
# 10 mS divergence in my dev VM between invocations.
#
# Only called once, at compile time.
sub _exact_epoch
{
    my( $monoclock ) = @_;
    my $N=0;
    my $total = 0;
    my $end = $monoclock->get_time() + 0.25;
    while( $end > $monoclock->get_time() or $N < 20) {
        my $hr = Time::HiRes::time();
        my $mono = $monoclock->get_time();
        $total += $hr - $mono;
        $N++;
        $mono = $monoclock->get_time();
        $hr = Time::HiRes::time();
        $total += $hr - $mono;
        $N++;
    }
    DEBUG and POE::Kernel::_warn( "<ck> RT clock samples=$N" );
    return $total/$N;
}
#########################################
sub _get_epoch
{
    my( $monoclock, $wallclock ) = @_;
    return $wallclock->get_time() - $monoclock->get_time();
}
#########################################
our $FORMAT = 'iF';
our $LENGTH = length pack $FORMAT, 0, 0;
sub _pipe_write
{
    my( $write, $op, $skew ) = @_;
    DEBUG and POE::Kernel::_warn( "<ck> write op=$op" );
    my $buffer = pack $FORMAT, $op, $skew;
    syswrite( $write, $buffer, $LENGTH );
}
#########################################
sub _pipe_read
{
    my( $read ) = @_;
    my $buffer;
    sysread( $read, $buffer, $LENGTH );
    return unless length $buffer;
    return unpack $FORMAT, $buffer;
}
our( $SIGACT, $SIGSET );
sub _build_sig
{
    my( $write ) = @_;
    my $handler = sub {
            DEBUG and POE::Kernel::_warn( "<ck> timeout" );
            _pipe_write( $write, CLK_TIMEOUT, 0 );
        };
    my $default = eval { _sig_number( 'RTMIN' ) } ||
                  eval { _sig_number( 'RTALRM' ) } ||
                  SIGALRM;
    my $signal = _do_X( 'CLOCK_SIGNAL', $default ) || $default;
    $SIGSET = POSIX::SigSet->new( $signal );
    $SIGACT = POSIX::SigAction->new( $handler, $SIGSET, 0 );
    $SIGACT->safe(1);
    POSIX::sigaction( $signal, $SIGACT );
    return $signal;
}
#########################################
sub _rt_setup
{
    my( $read, $kernel ) = @_;
    $kernel->loop_pause_time_watcher();
    DEBUG and POE::Kernel::_warn( "<ck> Setup RT pipe" );
    # Add to the select list
    $kernel->_data_handle_condition( $read );
    $kernel->loop_watch_filehandle( $read, POE::Kernel::MODE_RD() );
}
our $EPSILON = 0.0001;
sub _rt_resume
{
    my( $what, $timer, $kernel, $pri ) = @_;
    DEBUG and POE::Kernel::_warn( "<ck> $what pri=$pri" );
    $kernel->loop_pause_time_watcher();
    if( $pri <= monotime() ) {
        $timer->set_timeout( $EPSILON );
    }
    else {
        $timer->set_timeout( $pri, 0, 1 );
    }
}
sub _rt_pause
{
    my( $timer, $kernel ) = @_;
    DEBUG and POE::Kernel::_warn( "<ck> Pause" );
    $timer->set_timeout( 60 );
    $kernel->loop_pause_time_watcher();
}
#########################################
sub _rt_read_pipe
{
    my( $kernel, $read ) = @_;
    my $dispatch_once;
    while( 1 ) {
        my( $op, $skew ) = _pipe_read( $read );
        return unless defined $op;
        DEBUG and POE::Kernel::_warn( "<ck> Read pipe op=$op" );
        if( $op == CLK_TIMEOUT ) {
            next unless $dispatch_once;
            $kernel->_data_ev_dispatch_due();
            $dispatch_once = 1;
        }
        elsif( $op == CLK_SKEW ) {
            rt_skew( $kernel );
            $dispatch_once = 0;
        }
        elsif( DEBUG ) {
            POE::Kernel::_warn( "<ck> Unknown op=$op" );
        }
    }
}
#########################################
sub _rt_ready
{
    my( $read, $frd, $kernel, $fileno ) = @_;
    return 0 unless $frd == $fileno;
    _rt_read_pipe( $kernel, $read );
    return 1;
}
#########################################
my %SIGnames;
sub _sig_number
{
    my( $name ) = @_;
    return $name if $name =~ /^\d+$/;
    my $X = 0;
    $X = $1 if $name =~ s/\+(\d+)$//;
    unless( %SIGnames ) {
        # this code is lifted from Config pod
        die "Config is missing either sig_name or sig_num;  You must use a numeric signal"
            unless $Config{sig_name} and $Config{sig_num};
        my @names = split ' ', $Config{sig_name};
        @SIGnames{@names} = split ' ', $Config{sig_num};
    }
    return $SIGnames{ $name }+$X;
}
#########################################
BEGIN {
    my $done;
    my $have_clock;
    if( _do_X( 'USE_POSIXRT' ) ) {
        eval {
            require File::Spec->catfile( qw( POSIX RT Clock.pm ) );
            require File::Spec->catfile( qw( POSIX RT Timer.pm ) );
            my $monoclock = POSIX::RT::Clock->new( 'monotonic' );
            my $wallclock = POSIX::RT::Clock->new( 'realtime' );
            *monotime = sub { return $monoclock->get_time(); };
            *walltime = sub { return $wallclock->get_time(); };
            *sleep = sub { $monoclock->sleep_deeply(@_) };
            if( _do_X( 'USE_STATIC_EPOCH' ) ) {
                # This is where we cheat:  without a static epoch the tests fail
                # because they expect alarm(), alarm_set() to arrive in order
                # Calling _get_epoch() each time would preclude this
                my $epoch = 0;
                if( _do_X( 'USE_EXACT_EPOCH', 0 ) ) {
                    $epoch = _exact_epoch( $monoclock, $wallclock );
                }
                else {
                    $epoch = _get_epoch( $monoclock, $wallclock );
                }
                DEBUG and warn( "<ck> epoch=$epoch" );
                *wall2mono = sub { $_[0] - $epoch };
                *mono2wall = sub { $_[0] + $epoch };
            }
            else {
                *wall2mono = sub { $_[0] - _get_epoch($monoclock, $wallclock) };
                *mono2wall = sub { $_[0] + _get_epoch($monoclock, $wallclock) };
                my ($rd, $wr) = POE::Pipe::OneWay->new();
                die "Unable to build pipe: $!" unless defined $rd;
                my $signal = _build_sig( $wr );
                my $timer = POSIX::RT::Timer->new(
                  value    => 0,
                  interval => 0,
                  clock    => 'monotonic',
                  signal   => $signal
                );
                $EPSILON = $monoclock->get_resolution();
                DEBUG and warn( "<ck> epsilon=$EPSILON" );
                #*clock_pause  = sub { _rt_pause( $timer, @_ ); };
                #*clock_reset  = sub { _rt_resume( Reset           = > $timer, @_ ); };
                #*clock_resume = sub { _rt_resume( Resume          = > $timer, @_ ); };
                #*clock_setup  = sub { _rt_setup( $rd, @_ ) };
                my $frd = fileno( $rd );
                #*clock_read = sub { _rt_ready( $rd, $frd, @_ ) };
                $have_clock = 1;
            }
            $done = 1;
        };
        if( DEBUG ) {
            warn( "<ck> POSIX::RT::Clock not installed: $@" ) if $@;
            warn( "<ck> using POSIX::RT::Clock" ) if $done;
        }
    }
    if( !$done and _do_X( 'USE_HIRES' ) ) {
        eval {
            require File::Spec->catfile( qw( Time HiRes.pm ) );
            *monotime = \&Time::HiRes::time;
            *walltime = \&Time::HiRes::time;
            *sleep = \&Time::HiRes::sleep;
            *wall2mono = sub { return $_[0] };
            *mono2wall = sub { return $_[0] };
            $done = 1;
        };
        if( DEBUG ) {
            warn( "<ck> Time::HiRes not installed: $@" )if $@;
            warn( "<ck> using Time::HiRes" ) if $done;
        }
    }
    unless( $done ) {
        # \&CORE::time fails :-(
        *monotime = sub { CORE::time };
        *walltime = sub { CORE::time };
        *sleep = sub { CORE::sleep(@_) };
        *wall2mono = sub { return $_[0] };
        *mono2wall = sub { return $_[0] };
        warn( "<ck> using CORE::time" )if DEBUG;
    }
    unless( $have_clock ) {
        #*clock_pause  = sub { $_[0]->loop_pause_time_watcher() };
        #*clock_reset  = sub { $_[0]->loop_reset_time_watcher(mono2wall($_[1])) };
        #*clock_resume = sub { $_[0]->loop_resume_time_watcher(mono2wall($_[1])) };
        #*clock_setup  = sub { 0 };
        #*clock_read   = sub { 0 };
    }
    # *time = sub { Carp::confess( "This should be monotime" ) };
    *time = \&walltime;
}
1;
__END__
HideShow 152 lines of Pod
=head1 NAME
POE::Resource::Clock - internal clock used for ordering the queue
=head1 SYNOPSIS
    sub POE::Kernel::USE_POSIXRT { 0 }
    use POE;
=head1 DESCRIPTION
POE::Resource::Clock is a helper module for POE::Kernel.  It provides the
features to keep an internal monotonic clock and a wall clock.  It also
converts between this monotonic clock and the wall clock.
The monotonic clock is used to keep an ordered queue of events.  The wall
clock is used to communicate the time with user code
(L<POE::Kernel/alarm_set>, L<POE::Kernel/alarm_remove>).
There are 3 possible clock sources in order of preference:
L<POSIX::RT::Clock>, L<Time::HiRes> and L<perlfunc/time>.  Only
C<POSIX::RT::Clock> has a separate monotonic and wall clock; the other two use the
same source for both clocks.
Clock selection and behaviour is controlled with the following:
=head2 USE_POSIXRT
    export POE_USE_POSIXRT=0
        or
    sub POE::Kernel::USE_POSIXRT { 0 }
Uses the C<monotonic> clock source for queue priority and the C<realtime>
clock source for wall clock.  Not used if POSIX::RT::Clock is not installed
or your system does not have a C<monotonic> clock.
Defaults to true.  If you want the old POE behaviour, set this to 0.
=head2 USE_STATIC_EPOCH
    export POE_USE_STATIC_EPOCH=0
        or
    sub POE::Kernel::USE_STATIC_EPOCH { 0 }
The epoch of the POSIX::RT::Clock monotonic is different from that of the
realtime clock.  For instance on Linux 2.6.18, the monotonic clock is the
number of seconds since system boot.  This epoch is used to convert from
walltime into monotonic time for L<POE::Kernel/alarm>,
L<POE::Kernel/alarm_add> and L<POE::Kernel/alarm_set>. If
C<USE_STATIC_EPOCH> is true (the default), then the epoch is calculated at
load time.  If false, the epoch is calculated each time it is needed.
Defaults to true.  Only relevant for if using POSIX::RT::Clock. Long-running
POE servers should have this set to false so that system clock skew does
mess up the queue.
It is important to point out that without a static epoch, the ordering of
the following two alarms is undefined.
    $poe_kernel->alarm_set( a1 => $time );
    $poe_kernel->alarm_set( a2 => $time );
=head2 USE_EXACT_EPOCH
    export POE_USE_EXACT_EPOCH=1
        or
    sub POE::Kernel::USE_EXACT_EPOCH { 1 }
There currently no way to exactly get the monotonic clock's epoch.  Instead
the difference between the current monotonic clock value to the realtime
clock's value is used.  This is obviously inexact because there is a slight
delay between the 2 system calls.  Setting USE_EXACT_EPOCH to true will
calculate an average of this difference over 250 ms or at least 20 samples.
What's more, the system calls are done in both orders (monotonic then
realtime, realtime then monotonic) to try and get a more exact value.
Defaults to false.  Only relevant if L</USE_STATIC_EPOCH> is true.
=head2 USE_HIRES
    export POE_USE_HIRES=0
        or
    sub POE::Kernel::USE_HIRES { 0 }
Use L<Time::HiRes> as both monotonic and wall clock source.  This was POE's
previous default clock.
Defaults to true.  Only relevant if L</USE_POSIXRT> is false.  Set this to false to use
L<perlfunc/time>.
=head1 EXPORTS
This module optionally exports a few timekeeping helper functions.
=head2 mono2wall
mono2wall() converts a monotonic time to an epoch wall time.
  my $wall = mono2wall( $monotonic );
=head2 monotime
monotime() makes a best-effort attempt to return the time from a
monotonic system clock.  It may fall back to non-monotonic time if
there are no monotonic clocks available.
  my $monotonic = monotime();
=head2 sleep
sleep() makes a best-effort attempt to sleep a particular amount of
high-resolution time using a monotonic clock.  This feature will
degrade gracefully to non-monotonic high-resolution clocks, then
low-resolution clocks, depending on available libraries.
  sleep( 3.141 );
=head2 time
time() is a backwards compatible alias for walltime().  Please see
walltime()'s documentation for details.
=head2 wall2mono
wall2mono() makes a best-effort attempt to convert wall time to its
equivalent monotonic-clock time.  Its feature degrades gracefully
depending on clock availability.
  my $monotonic = wall2mono( $epoch );
=head2 walltime
time() makes a best-effort attempt to return non-monotonic wall time
at the highest available resolution known.
  my $epoch = walltime();
=head1 SEE ALSO
See L<POE::Resource> for general discussion about resources and the
classes that manage them.
=head1 BUGS
None known.
=head1 AUTHORS & COPYRIGHTS
Please see L<POE> for more information about authors and contributors.
=cut
# rocco // vim: ts=2 sw=2 expandtab
# TODO - Edit.