File Coverage

blib/lib/Net/WebSocket/Endpoint/Server.pm

Criterion	Covered	Total	%
statement	9	9	100.0
branch			n/a
condition			n/a
subroutine	3	3	100.0
pod			n/a
total	12	12	100.0

line	stmt	sub	time	code
1				package Net::WebSocket::Endpoint::Server;
2
3				=encoding utf-8
4
5				=head1 NAME
6
7				Net::WebSocket::Endpoint::Server
8
9				=head1 SYNOPSIS
10
11				my $ept = Net::WebSocket::Endpoint::Server->new(
12				parser => $parser_obj,
13
14				out => $out_fh,
15
16				#optional, # of pings to send before we send a close
17				max_pings => 5,
18
19				#optional
20				on_data_frame => sub {
21				my ($frame_obj) = @_;
22
23				#...
24				},
25				);
26
27				if ( _we_timed_out_waiting_for_read_readiness() ) {
28				$ept->check_heartbeat();
29				}
30				else {
31
32				#Only necessary for non-blocking I/O;
33				#it’s meaningless in blocking I/O.
34				#See below for an alternative pattern for use with POE, etc.
35				if ( $ept->get_write_queue_size() ) {
36				$ept->flush_write_queue();
37				}
38
39				#This should only be called when reading won’t produce an error.
40				#For example, in non-blocking I/O you’ll need a select() in front
41				#of this. (Blocking I/O can just call it and wait!)
42				$ept->get_next_message();
43
44				#INSTEAD OF flush_write_queue(), you might want to send the write
45				#queue off to a multiplexing framework like POE, for which this
46				#would be useful:
47				while ( my $frame = $ept->shift_write_queue() ) {
48				#… do something with $frame->to_bytes() -- probably send it
49				}
50
51				#Check for this at the end of each cycle.
52				_custom_logic_to_finish_up() if $ept->is_closed();
53				}
54
55				=head1 DESCRIPTION
56
57				This module, like its twin, L, attempts
58				to wrap up “obvious” bits of a WebSocket endpoint’s workflow into a
59				reusable component.
60
61				The basic workflow is shown in the SYNOPSIS; descriptions of the individual
62				methods follow:
63
64				=head1 METHODS
65
66				=head2 I->new( %OPTS )
67
68				Instantiate the class. Nothing is actually done here. Options are:
69
70				=over
71
72				=item * C (required) - An instance of L.
73
74				=item * C (required) - The endpoint’s output object. An
75				instance of L or a compatible class.
76
77				=item * C (optional) - The maximum # of pings to send before
78				we send a C frame (which ends the session).
79
80				=item * C (optional) - A callback that receives every data
81				frame that C receives. Use this to facilitate chunking.
82
83				If you want to avoid buffering a large message, you can do this:
84
85				on_data_frame => sub {
86				#... however you’re going to handle this chunk
87
88				$_[0] = (ref $_[0])->new(
89				payload_sr => \q<>,
90				fin => $_[0]->get_fin(),
91				);
92				},
93
94				=back
95
96				=head2 I->get_next_message()
97
98				The “workhorse” method. It returns a data message if one is available
99				and is the next frame; otherwise, it returns undef.
100
101				This method also handles control frames that arrive before or among
102				message frames:
103
104				=over
105
106				=item * close: Respond (immediately) with the identical close frame.
107				See below for more information.
108
109				=item * ping: Send the appropriate pong frame.
110
111				=item * pong: Set the internal ping counter to zero. If the pong is
112				unrecognized (i.e., we’ve not sent the payload in a ping), then we send
113				a PROTOCOL_ERROR close frame.
114
115				=back
116
117				This method may not be called after a close frame has been sent (i.e.,
118				if the C method returns true).
119
120				=head2 I->check_heartbeat()
121
122				Ordinarily, sends a distinct ping frame to the remote server
123				and increments the ping counter. Once a sent ping is
124				received back (i.e., a pong), the ping counter gets reset.
125
126				If the internal ping counter has already reached C, then we
127				send a PROTOCOL_ERROR close frame. Further I/O attempts on this object
128				will prompt an appropriate exception to be thrown.
129
130				=head2 I->sent_close_frame()
131
132				Returns a C object or undef to represent the
133				frame that the object has sent, either via the C method directly
134				or automatically via the internal handling of control messages.
135
136				=head2 I->received_close_frame()
137
138				Returns a C object or undef to represent the
139				frame that the object has received.
140
141				=head2 I->is_closed()
142
143				DEPRECATED: Returns 1 or 0 to indicate whether we have sent a close frame.
144				Note that C provides a more useful variant of the
145				same functionality; there is no good reason to use this method anymore.
146
147				=head1 WHEN A CLOSE FRAME IS RECEIVED
148
149				C will automatically send a close frame in response
150				when it receives one. The received close frame is not returned to the
151				application but, like ping and pong, is handled transparently.
152
153				Rationale: WebSocket is often billed as “TCP for the web”; however, the
154				protocol curiously diverges from TCP in not supporting “half-close”; a
155				WebSocket connection is either fully open (i.e., bidirectional) or fully
156				closed. (There is some leeway given for finishing up an in-progress message,
157				but this is a much more limited concept.)
158
159				=head1 EXTENSIONS
160
161				This module has several controls for supporting WebSocket extensions:
162
163				=over
164
165				=item * C’s returned messages will always contain
166				a C method, which you can use to read the reserved bits
167				of the individual data frames.
168
169				=item * You can create C methods on a subclass of this module
170				to handle different types of control frames. (e.g., C)
171				to handle frames of type C.) The C object that you pass
172				to the constructor has to be aware of such messages; for more details,
173				see the documentation for L.
174
175				=back
176
177				=cut
178
179	1	1	124944	use strict;
	1		3
	1		37
180	1	1	9	use warnings;
	1		4
	1		44
181
182	1		8	use parent qw(
183				Net::WebSocket::Endpoint
184				Net::WebSocket::Masker::Server
185	1	1	8	);
	1		2
186
187				1;