sub watch_io {
my ($self, %watch) = @_;
my $fh = $watch{handle};
- log_debug { my $type = ref($fh); "Adding watch for ref of type '$type'" };
+ Dlog_debug { "Adding IO watch for $_" } $fh;
+
+ #TODO if this works out non-blocking support
+ #will need to be integrated in a way that
+ #is compatible with Windows which has no
+ #non-blocking support - see also ::ReadChannel
+ if (0) {
+ Dlog_warn { "setting file handle to be non-blocking: $_" } $fh;
+ use Fcntl qw(F_GETFL F_SETFL O_NONBLOCK);
+ my $flags = fcntl($fh, F_GETFL, 0)
+ or die "Can't get flags for the socket: $!\n";
+ $flags = fcntl($fh, F_SETFL, $flags | O_NONBLOCK)
+ or die "Can't set flags for the socket: $!\n";
+ }
+
if (my $cb = $watch{on_read_ready}) {
- log_trace { "IO watcher on_read_ready has been invoked" };
+ log_trace { "IO watcher is registering with select for reading" };
$self->_read_select->add($fh);
$self->_read_watches->{$fh} = $cb;
}
if (my $cb = $watch{on_write_ready}) {
- log_trace { "IO watcher on_write_ready has been invoked" };
+ log_trace { "IO watcher is registering with select for writing" };
$self->_write_select->add($fh);
$self->_write_watches->{$fh} = $cb;
}
sub unwatch_io {
my ($self, %watch) = @_;
my $fh = $watch{handle};
- log_debug { my $type = ref($fh); "Removing watch for ref of type '$type'" };
+ Dlog_debug { "Removing IO watch for $_" } $fh;
if ($watch{on_read_ready}) {
+ log_trace { "IO watcher is removing read from select()" };
$self->_read_select->remove($fh);
delete $self->_read_watches->{$fh};
}
if ($watch{on_write_ready}) {
+ log_trace { "IO watcher is removing write from select()" };
$self->_write_select->remove($fh);
delete $self->_write_watches->{$fh};
}
return;
}
+sub _sort_timers {
+ my ($self, @new) = @_;
+ my $timers = $self->_timers;
+
+ log_trace { "Sorting timers" };
+
+ @{$timers} = sort { $a->[0] <=> $b->[0] } @{$timers}, @new;
+ return;
+}
+
sub watch_time {
my ($self, %watch) = @_;
- my $at = $watch{at} || do {
- die "watch_time requires at or after" unless my $after = $watch{after};
- time() + $after;
- };
+ my $at;
+
+ Dlog_trace { "watch_time() invoked with $_" } \%watch;
+
+ if (exists($watch{every})) {
+ $at = time() + $watch{every};
+ } elsif (exists($watch{after})) {
+ $at = time() + $watch{after};
+ } elsif (exists($watch{at})) {
+ $at = $watch{at};
+ } else {
+ die "watch_time requires every, after or at";
+ }
+
die "watch_time requires code" unless my $code = $watch{code};
my $timers = $self->_timers;
- my $new = [ $at => $code ];
- @{$timers} = sort { $a->[0] <=> $b->[0] } @{$timers}, $new;
+ my $new = [ $at => $code, $watch{every} ];
+ $self->_sort_timers($new);
log_debug { "Created new timer that expires at '$at'" };
return "$new";
}
#when data is ready - when the system
#deadlocks the chatter from the timeout in
#select clogs up the logs
+ #TODO should make this an attribute
my $delay_max = undef;
return $delay_max unless @$timers;
$duration = $delay_max;
}
- log_trace { "returning $duration as select() timeout period" }
-
return $duration;
}
my ($self) = @_;
my $read = $self->_read_watches;
my $write = $self->_write_watches;
+ our $Loop_Entered = 1;
my $read_count = 0;
my $write_count = 0;
my @c = caller;
my $wait_time = $self->_next_timer_expires_delay;
- log_debug { sprintf("Run loop: loop_once() has been invoked by $c[1]:$c[2] with read:%i write:%i select timeout:%s",
+ log_trace { sprintf("Run loop: loop_once() has been invoked by $c[1]:$c[2] with read:%i write:%i select timeout:%s",
scalar(keys(%$read)), scalar(keys(%$write)), defined $wait_time ? $wait_time : 'indefinite' ) };
+ #TODO The docs state that select() in some instances can return a socket as ready to
+ #read data even if reading from it would block and the recomendation is to set
+ #handles used with select() as non-blocking but Perl on Windows can not set a
+ #handle to use non-blocking IO - If Windows is not one of the operating
+ #systems where select() returns a handle that could block it would work to
+ #enable non-blocking mode only under Posix - the non-blocking sysread()
+ #logic would work unmodified for both blocking and non-blocking handles
+ #under Posix and Windows.
my ($readable, $writeable) = IO::Select->select(
+ #TODO how come select() isn't used to identify handles with errors on them?
+ #TODO is there a specific reason for a half second maximum wait duration?
+ #The two places I've found for the runloop to be invoked don't return control
+ #to the caller until a controlling variable interrupts the loop that invokes
+ #loop_once() - is this to allow that variable to be polled and exit the
+ #run loop? If so why isn't that behavior event driven and causes select() to
+ #return?
$self->_read_select, $self->_write_select, undef, $wait_time
);
- log_debug {
+ log_trace {
my $readable_count = defined $readable ? scalar(@$readable) : 0;
my $writable_count = defined $writeable ? scalar(@$writeable) : 0;
"Run loop: select returned readable:$readable_count writeable:$writable_count";
# I would love to trap errors in the select call but IO::Select doesn't
# differentiate between an error and a timeout.
# -- no, love, mst.
+
+ local $Loop_Entered;
+
log_trace { "Reading from all ready filehandles" };
foreach my $fh (@$readable) {
next unless $read->{$fh};
$read_count++;
$read->{$fh}();
-# $read->{$fh}() if $read->{$fh};
+ last if $Loop_Entered;
}
log_trace { "Writing to all ready filehandles" };
foreach my $fh (@$writeable) {
next unless $write->{$fh};
$write_count++;
$write->{$fh}();
-# $write->{$fh}() if $write->{$fh};
+ last if $Loop_Entered;
}
+
log_trace { "Read from $read_count filehandles; wrote to $write_count filehandles" };
my $timers = $self->_timers;
my $now = time();
log_trace { "Checking timers" };
while (@$timers and $timers->[0][0] <= $now) {
- Dlog_debug { "Found timer that needs to be executed: $_" } $timers->[0];
- (shift @$timers)->[1]->();
+ my $active = $timers->[0];
+ Dlog_debug { "Found timer that needs to be executed: $_" } $active;
+# my (shift @$timers)->[1]->();
+
+ if (defined($active->[2])) {
+ #handle the case of an 'every' timer
+ $active->[0] = time() + $active->[2];
+ Dlog_trace { "scheduling timer for repeat execution at $_"} $active->[0];
+ $self->_sort_timers;
+ } else {
+ #it doesn't repeat again so get rid of it
+ shift(@$timers);
+ }
+
+ #execute the timer
+ $active->[1]->();
+
+ last if $Loop_Entered;
}
- log_debug { "Run loop: single loop is completed" };
+
+ log_trace { "Run loop: single loop is completed" };
return;
}
+#::Node and ::ConnectionServer use the want_run() / want_stop()
+#counter to cause a run-loop to execute while something is active;
+#the futures do this via a different mechanism
sub want_run {
my ($self) = @_;
Dlog_debug { "Run loop: Incrimenting want_running, is now $_" }
sub run_while_wanted {
my ($self) = @_;
- log_debug { "Run loop: run_while_wanted() invoked" };
+ log_debug { my $wr = $self->{want_running}; "Run loop: run_while_wanted() invoked; want_running: $wr" };
$self->loop_once while $self->{want_running};
log_debug { "Run loop: run_while_wanted() completed" };
return;
--$self->{want_running};
}
+#TODO Hypothesis: Futures invoke run() which gives that future
+#it's own localized is_running attribute - any adjustment to the
+#is_running attribute outside of that future will not effect that
+#future so each future winds up able to call run() and stop() at
+#will with out interfering with each other - how about having
+#run loop until the future becomes ready?
sub run {
my ($self) = @_;
- log_info { "Run loop: run() invoked" };
+ log_trace { "Run loop: run() invoked" };
local $self->{is_running} = 1;
while ($self->is_running) {
$self->loop_once;
}
- log_info { "Run loop: run() completed" };
+ log_trace { "Run loop: run() completed" };
return;
}