File Coverage

blib/lib/POE/Resource/Clock.pm

Criterion	Covered	Total	%
statement	44	166	26.5
branch	7	42	16.6
condition	1	14	7.1
subroutine	9	22	40.9
pod			n/a
total	61	244	25.0

line	stmt	bran	cond	sub	time	code
1						# Manage a platonic, monotonic clock to keep the event queue ordered
2
3						package POE::Resource::Clock;
4
5	178			178	729	use vars qw($VERSION);
	178				224
	178				8379
6						$VERSION = '1.366'; # NOTE - Should be #.### (three decimal places)
7
8	178			178	763	use strict;
	178				362
	178				4335
9
10	178			178	760	use Config;
	178				206
	178				6577
11	178			178	40919	use POSIX;
	178				417817
	178				1065
12	178			178	435305	use POE::Pipe::OneWay;
	178				552
	178				4780
13	178			178	901	use File::Spec;
	178				224
	178				305265
14
15						require Exporter;
16						our @EXPORT_OK = qw( monotime sleep walltime wall2mono mono2wall time );
17						our @ISA = qw( Exporter );
18
19						sub DEBUG () { 0 }
20
21						sub CLK_TIMEOUT () { 0 }
22						sub CLK_SKEW () { 1 }
23
24						sub CLK_EN_READ () { "rt-lock-read" }
25
26
27						# Perform a runtime check for a compile-time flag.
28						#
29						# TODO - Enable compiler optimization of all calls to this function.
30						# The customary way to do this is to migrate the environment variable
31						# value into a constant at compile time, then for all callers to check
32						# the constant directly. This is such a common thing to do that POE
33						# should define a utility library for it.
34
35						sub _do_X
36						{
37	356			356	631	my( $X, $default ) = @_;
38	356				432	my $m = $X;
39	356	50			3381	return POE::Kernel->can( $m )->() if POE::Kernel->can( $m );
40	356				597	my $k = "POE_$X";
41	356	50			1167	return $ENV{$k} if exists $ENV{$k};
42	356	50			983	return $default if defined $default;
43	356				1596	return 1;
44						}
45
46
47						# Try to get the exact difference between the monotonic clock's epoch
48						# and the system clock's epoch. We do this by comparing the 2 for
49						# 0.25 second or 10 samples. To compensate for delays between calling
50						# time and get_time, we run in both order. Even so, I still see up to
51						# 10 mS divergence in my dev VM between invocations.
52						#
53						# Only called once, at compile time.
54
55						sub _exact_epoch
56						{
57	0			0		my( $monoclock ) = @_;
58
59	0					my $N=0;
60	0					my $total = 0;
61	0					my $end = $monoclock->get_time() + 0.25;
62	0		0			while( $end > $monoclock->get_time() or $N < 20) {
63	0					my $hr = Time::HiRes::time();
64	0					my $mono = $monoclock->get_time();
65	0					$total += $hr - $mono;
66	0					$N++;
67	0					$mono = $monoclock->get_time();
68	0					$hr = Time::HiRes::time();
69	0					$total += $hr - $mono;
70	0					$N++;
71						}
72	0					DEBUG and POE::Kernel::_warn( " RT clock samples=$N" );
73	0					return $total/$N;
74						}
75
76
77						#########################################
78						sub _get_epoch
79						{
80	0			0		my( $monoclock, $wallclock ) = @_;
81	0					return $wallclock->get_time() - $monoclock->get_time();
82						}
83
84
85						#########################################
86						our $FORMAT = 'iF';
87						our $LENGTH = length pack $FORMAT, 0, 0;
88						sub _pipe_write
89						{
90	0			0		my( $write, $op, $skew ) = @_;
91	0					DEBUG and POE::Kernel::_warn( " write op=$op" );
92	0					my $buffer = pack $FORMAT, $op, $skew;
93	0					syswrite( $write, $buffer, $LENGTH );
94						}
95
96
97						#########################################
98						sub _pipe_read
99						{
100	0			0		my( $read ) = @_;
101	0					my $buffer;
102	0					sysread( $read, $buffer, $LENGTH );
103	0	0				return unless length $buffer;
104	0					return unpack $FORMAT, $buffer;
105						}
106
107
108						our( $SIGACT, $SIGSET );
109						sub _build_sig
110						{
111	0			0		my( $write ) = @_;
112						my $handler = sub {
113	0			0		DEBUG and POE::Kernel::_warn( " timeout" );
114	0					_pipe_write( $write, CLK_TIMEOUT, 0 );
115	0					};
116						my $default = eval { _sig_number( 'RTMIN' ) } \|\|
117	0		0			eval { _sig_number( 'RTALRM' ) } \|\|
118						SIGALRM;
119
120	0		0			my $signal = _do_X( 'CLOCK_SIGNAL', $default ) \|\| $default;
121	0					$SIGSET = POSIX::SigSet->new( $signal );
122	0					$SIGACT = POSIX::SigAction->new( $handler, $SIGSET, 0 );
123	0					$SIGACT->safe(1);
124	0					POSIX::sigaction( $signal, $SIGACT );
125	0					return $signal;
126						}
127
128
129						#########################################
130						sub _rt_setup
131						{
132	0			0		my( $read, $kernel ) = @_;
133	0					$kernel->loop_pause_time_watcher();
134	0					DEBUG and POE::Kernel::_warn( " Setup RT pipe" );
135						# Add to the select list
136	0					$kernel->_data_handle_condition( $read );
137	0					$kernel->loop_watch_filehandle( $read, POE::Kernel::MODE_RD() );
138						}
139
140
141						our $EPSILON = 0.0001;
142						sub _rt_resume
143						{
144	0			0		my( $what, $timer, $kernel, $pri ) = @_;
145	0					DEBUG and POE::Kernel::_warn( " $what pri=$pri" );
146	0					$kernel->loop_pause_time_watcher();
147	0	0				if( $pri <= monotime() ) {
148	0					$timer->set_timeout( $EPSILON );
149						}
150						else {
151	0					$timer->set_timeout( $pri, 0, 1 );
152						}
153						}
154
155
156						sub _rt_pause
157						{
158	0			0		my( $timer, $kernel ) = @_;
159	0					DEBUG and POE::Kernel::_warn( " Pause" );
160	0					$timer->set_timeout( 60 );
161	0					$kernel->loop_pause_time_watcher();
162						}
163
164
165						#########################################
166						sub _rt_read_pipe
167						{
168	0			0		my( $kernel, $read ) = @_;
169	0					my $dispatch_once;
170	0					while( 1 ) {
171	0					my( $op, $skew ) = _pipe_read( $read );
172	0	0				return unless defined $op;
173	0					DEBUG and POE::Kernel::_warn( " Read pipe op=$op" );
174	0	0				if( $op == CLK_TIMEOUT ) {
		0
175	0	0				next unless $dispatch_once;
176	0					$kernel->_data_ev_dispatch_due();
177	0					$dispatch_once = 1;
178						}
179						elsif( $op == CLK_SKEW ) {
180	0					rt_skew( $kernel );
181	0					$dispatch_once = 0;
182						}
183	0					elsif( DEBUG ) {
184						POE::Kernel::_warn( " Unknown op=$op" );
185						}
186						}
187						}
188
189
190						#########################################
191						sub _rt_ready
192						{
193	0			0		my( $read, $frd, $kernel, $fileno ) = @_;
194	0	0				return 0 unless $frd == $fileno;
195	0					_rt_read_pipe( $kernel, $read );
196	0					return 1;
197						}
198
199
200						#########################################
201						my %SIGnames;
202						sub _sig_number
203						{
204	0			0		my( $name ) = @_;
205	0	0				return $name if $name =~ /^\d+$/;
206	0					my $X = 0;
207	0	0				$X = $1 if $name =~ s/\+(\d+)$//;
208	0	0				unless( %SIGnames ) {
209						# this code is lifted from Config pod
210	0	0	0			die "Config is missing either sig_name or sig_num; You must use a numeric signal"
211						unless $Config{sig_name} and $Config{sig_num};
212	0					my @names = split ' ', $Config{sig_name};
213	0					@SIGnames{@names} = split ' ', $Config{sig_num};
214						}
215	0					return $SIGnames{ $name }+$X;
216						}
217
218
219						#########################################
220						BEGIN {
221	178			178	744	my $done;
222						my $have_clock;
223	178	50			633	if( _do_X( 'USE_POSIXRT' ) ) {
224	178				235	eval {
225	178				35848	require File::Spec->catfile( qw( POSIX RT Clock.pm ) );
226	0				0	require File::Spec->catfile( qw( POSIX RT Timer.pm ) );
227	0				0	my $monoclock = POSIX::RT::Clock->new( 'monotonic' );
228	0				0	my $wallclock = POSIX::RT::Clock->new( 'realtime' );
229	0				0	*monotime = sub { return $monoclock->get_time(); };
	0				0
230	0				0	*walltime = sub { return $wallclock->get_time(); };
	0				0
231	0				0	*sleep = sub { $monoclock->sleep_deeply(@_) };
	0				0
232	0	0			0	if( _do_X( 'USE_STATIC_EPOCH' ) ) {
233						# This is where we cheat: without a static epoch the tests fail
234						# because they expect alarm(), alarm_set() to arrive in order
235						# Calling _get_epoch() each time would preclude this
236	0				0	my $epoch = 0;
237	0	0			0	if( _do_X( 'USE_EXACT_EPOCH', 0 ) ) {
238	0				0	$epoch = _exact_epoch( $monoclock, $wallclock );
239						}
240						else {
241	0				0	$epoch = _get_epoch( $monoclock, $wallclock );
242						}
243	0				0	DEBUG and warn( " epoch=$epoch" );
244	0				0	*wall2mono = sub { $_[0] - $epoch };
	0				0
245	0				0	*mono2wall = sub { $_[0] + $epoch };
	0				0
246						}
247						else {
248	0				0	*wall2mono = sub { $_[0] - _get_epoch($monoclock, $wallclock) };
	0				0
249	0				0	*mono2wall = sub { $_[0] + _get_epoch($monoclock, $wallclock) };
	0				0
250
251	0				0	my ($rd, $wr) = POE::Pipe::OneWay->new();
252	0	0			0	die "Unable to build pipe: $!" unless defined $rd;
253
254	0				0	my $signal = _build_sig( $wr );
255
256	0				0	my $timer = POSIX::RT::Timer->new(
257						value => 0,
258						interval => 0,
259						clock => 'monotonic',
260						signal => $signal
261						);
262
263	0				0	$EPSILON = $monoclock->get_resolution();
264	0				0	DEBUG and warn( " epsilon=$EPSILON" );
265						#*clock_pause = sub { _rt_pause( $timer, @_ ); };
266						#*clock_reset = sub { _rt_resume( Reset = > $timer, @_ ); };
267						#*clock_resume = sub { _rt_resume( Resume = > $timer, @_ ); };
268						#*clock_setup = sub { _rt_setup( $rd, @_ ) };
269	0				0	my $frd = fileno( $rd );
270						#*clock_read = sub { _rt_ready( $rd, $frd, @_ ) };
271	0				0	$have_clock = 1;
272						}
273	0				0	$done = 1;
274						};
275	178				642	if( DEBUG ) {
276						warn( " POSIX::RT::Clock not installed: $@" ) if $@;
277						warn( " using POSIX::RT::Clock" ) if $done;
278						}
279						}
280	178	50	33		920	if( !$done and _do_X( 'USE_HIRES' ) ) {
281	178				272	eval {
282	178				97820	require File::Spec->catfile( qw( Time HiRes.pm ) );
283	178				229690	*monotime = \&Time::HiRes::time;
284	178				367	*walltime = \&Time::HiRes::time;
285	178				281	*sleep = \&Time::HiRes::sleep;
286	178			1500	755	*wall2mono = sub { return $_[0] };
	1500				3835
287	178			0	440	*mono2wall = sub { return $_[0] };
	0				0
288	178				332	$done = 1;
289						};
290	178				256	if( DEBUG ) {
291						warn( " Time::HiRes not installed: $@" )if $@;
292						warn( " using Time::HiRes" ) if $done;
293						}
294						}
295	178	50			597	unless( $done ) {
296						# \&CORE::time fails :-(
297	0				0	*monotime = sub { CORE::time };
	0				0
298	0				0	*walltime = sub { CORE::time };
	0				0
299	0				0	*sleep = sub { CORE::sleep(@_) };
	0				0
300	0				0	*wall2mono = sub { return $_[0] };
	0				0
301	0				0	*mono2wall = sub { return $_[0] };
	0				0
302	0				0	warn( " using CORE::time" )if DEBUG;
303						}
304
305	178	50			589	unless( $have_clock ) {
306						#*clock_pause = sub { $_[0]->loop_pause_time_watcher() };
307						#*clock_reset = sub { $_[0]->loop_reset_time_watcher(mono2wall($_[1])) };
308						#*clock_resume = sub { $_[0]->loop_resume_time_watcher(mono2wall($_[1])) };
309						#*clock_setup = sub { 0 };
310						#*clock_read = sub { 0 };
311						}
312
313						# *time = sub { Carp::confess( "This should be monotime" ) };
314	178				5428	*time = \&walltime;
315						}
316
317						1;
318
319						__END__