[ViewVC] Diff of: cvs/AnyEvent-DBI/DBI.pm

Comparing AnyEvent-DBI/DBI.pm (file contents):
Revision 1.8 by root, Mon Nov 3 12:08:22 2008 UTC vs.
Revision 1.20 by root, Sat Mar 24 23:22:25 2018 UTC

…		…
9	my $cv = AnyEvent->condvar;	9	my $cv = AnyEvent->condvar;
10		10
11	my $dbh = new AnyEvent::DBI "DBI:SQLite:dbname=test.db", "", "";	11	my $dbh = new AnyEvent::DBI "DBI:SQLite:dbname=test.db", "", "";
12		12
13	$dbh->exec ("select * from test where num=?", 10, sub {	13	$dbh->exec ("select * from test where num=?", 10, sub {
14	my ($rows, $rv) = @_;	14	my ($dbh, $rows, $rv) = @_;
		15
		16	$#_ or die "failure: $@";
15		17
16	print "@$_\n"	18	print "@$_\n"
17	for @$rows;	19	for @$rows;
18		20
19	$cv->broadcast;	21	$cv->broadcast;
…		…
31	This module implements asynchronous DBI access by forking or executing	33	This module implements asynchronous DBI access by forking or executing
32	separate "DBI-Server" processes and sending them requests.	34	separate "DBI-Server" processes and sending them requests.
33		35
34	It means that you can run DBI requests in parallel to other tasks.	36	It means that you can run DBI requests in parallel to other tasks.
35		37
36	The overhead for very simple statements ("select 0") is somewhere	38	With DBD::mysql, the overhead for very simple statements
37	around 120% to 200% (dual/single core CPU) compared to an explicit	39	("select 0") is somewhere around 50% compared to an explicit
38	prepare_cached/execute/fetchrow_arrayref/finish combination.	40	prepare_cached/execute/fetchrow_arrayref/finish combination. With
		41	DBD::SQlite3, it's more like a factor of 8 for this trivial statement.
		42
		43	=head2 ERROR HANDLING
		44
		45	This module defines a number of functions that accept a callback
		46	argument. All callbacks used by this module get their AnyEvent::DBI handle
		47	object passed as first argument.
		48
		49	If the request was successful, then there will be more arguments,
		50	otherwise there will only be the C<$dbh> argument and C<$@> contains an
		51	error message.
		52
		53	A convenient way to check whether an error occurred is to check C<$#_> -
		54	if that is true, then the function was successful, otherwise there was an
		55	error.
39		56
40	=cut	57	=cut
41		58
42	package AnyEvent::DBI;	59	package AnyEvent::DBI;
43		60
44	use strict;	61	use common::sense;
45	no warnings;
46		62
47	use Carp;	63	use Carp;
48	use Socket ();	64	use Convert::Scalar ();
49	use Scalar::Util ();	65	use AnyEvent::Fork ();
50	use Storable ();	66	use CBOR::XS ();
51
52	use DBI ();
53		67
54	use AnyEvent ();	68	use AnyEvent ();
55	use AnyEvent::Util ();	69	use AnyEvent::Util ();
56		70
		71	use Errno ();
		72
57	our $VERSION = '1.1';	73	our $VERSION = '3.02';
58
59	# this is the forked server code
60
61	our $DBH;
62
63	sub req_open {
64	my (undef, $dbi, $user, $pass, %attr) = @{+shift};
65
66	$DBH = DBI->connect ($dbi, $user, $pass, \%attr);
67
68	[1]
69	}
70
71	sub req_exec {
72	my (undef, $st, @args) = @{+shift};
73
74	my $sth = $DBH->prepare_cached ($st, undef, 1);
75
76	my $rv = $sth->execute (@args)
77	or die $sth->errstr;
78
79	[1, $sth->{NUM_OF_FIELDS} ? $sth->fetchall_arrayref : undef, { rv => $rv }]
80	}
81
82	sub serve {
83	my ($fh) = @_;
84
85	no strict;
86
87	eval {
88	my $rbuf;
89
90	while () {
91	sysread $fh, $rbuf, 16384, length $rbuf
92	or last;
93
94	while () {
95	my $len = unpack "L", $rbuf;
96
97	# full request available?
98	last unless $len && $len + 4 <= length $rbuf;
99
100	my $req = Storable::thaw substr $rbuf, 4;
101	substr $rbuf, 0, $len + 4, ""; # remove length + request
102
103	my $wbuf = eval { pack "L/a*", Storable::freeze $req->[0]($req) };
104
105	$wbuf = pack "L/a*", Storable::freeze [undef, "$@"]
106	if $@;
107
108	for (my $ofs = 0; $ofs < length $wbuf; ) {
109	$ofs += (syswrite $fh, substr $wbuf, $ofs
110	or die "unable to write results");
111	}
112	}
113	}
114	};
115
116	if (AnyEvent::WIN32) {
117	kill 9, $$; # no other way on the broken windows platform
118	# and the above doesn't even work on windows, it seems the only
119	# way to is to leak memory and kill 9 from the parent. yay.
120	}
121
122	require POSIX;
123	POSIX::_exit (0);
124	# and the above kills the parent process on windows
125	}
126		74
127	=head2 METHODS	75	=head2 METHODS
128		76
129	=over 4	77	=over 4
130		78
…		…
151		99
152	When an error occurs, then this callback will be invoked. On entry, C<$@>	100	When an error occurs, then this callback will be invoked. On entry, C<$@>
153	is set to the error message. C<$filename> and C<$line> is where the	101	is set to the error message. C<$filename> and C<$line> is where the
154	original request was submitted.	102	original request was submitted.
155		103
156	If this callback returns and this was a fatal error (C<$fatal> is true)	104	If the fatal argument is true then the database connection is shut down
157	then AnyEvent::DBI die's, otherwise it calls the original request callback	105	and your database handle became invalid. In addition to invoking the
158	without any arguments.	106	C<on_error> callback, all of your queued request callbacks are called
		107	without only the C<$dbh> argument.
159		108
160	If omitted, then C<die> will be called on any errors, fatal or not.	109	If omitted, then C<die> will be called on any errors, fatal or not.
161		110
		111	=item on_connect => $callback->($dbh[, $success])
		112
		113	If you supply an C<on_connect> callback, then this callback will be
		114	invoked after the database connect attempt. If the connection succeeds,
		115	C<$success> is true, otherwise it is missing and C<$@> contains the
		116	C<$DBI::errstr>.
		117
		118	Regardless of whether C<on_connect> is supplied, connect errors will result in
		119	C<on_error> being called. However, if no C<on_connect> callback is supplied, then
		120	connection errors are considered fatal. The client will C<die> and the C<on_error>
		121	callback will be called with C<$fatal> true.
		122
		123	When on_connect is supplied, connect error are not fatal and AnyEvent::DBI
		124	will not C<die>. You still cannot, however, use the $dbh object you
		125	received from C<new> to make requests.
		126
		127	=item fork_template => $AnyEvent::Fork-object
		128
		129	C<AnyEvent::DBI> uses C<< AnyEvent::Fork->new >> to create the database
		130	slave, which in turn either C<exec>'s a new process (similar to the old
		131	C<exec_server> constructor argument) or uses a process forked early (see
		132	L<AnyEvent::Fork::Early>).
		133
		134	With this argument you can provide your own fork template. This can be
		135	useful if you create a lot of C<AnyEvent::DBI> handles and want to save
		136	memory (And speed up startup) by not having to load C<AnyEvent::DBI> again
		137	and again into your child processes:
		138
		139	my $template = AnyEvent::Fork
		140	->new # create new template
		141	->require ("AnyEvent::DBI::Slave"); # preload AnyEvent::DBI::Slave module
		142
		143	for (...) {
		144	$dbh = new AnyEvent::DBI ...
		145	fork_template => $template;
		146
		147	=item timeout => seconds
		148
		149	If you supply a timeout parameter (fractional values are supported), then
		150	a timer is started any time the DBI handle expects a response from the
		151	server. This includes connection setup as well as requests made to the
		152	backend. The timeout spans the duration from the moment the first data
		153	is written (or queued to be written) until all expected responses are
		154	returned, but is postponed for "timeout" seconds each time more data is
		155	returned from the server. If the timer ever goes off then a fatal error is
		156	generated. If you have an C<on_error> handler installed, then it will be
		157	called, otherwise your program will die().
		158
		159	When altering your databases with timeouts it is wise to use
		160	transactions. If you quit due to timeout while performing insert, update
		161	or schema-altering commands you can end up not knowing if the action was
		162	submitted to the database, complicating recovery.
		163
		164	Timeout errors are always fatal.
		165
162	=back	166	=back
163		167
		168	Any additional key-value pairs will be rolled into a hash reference
		169	and passed as the final argument to the C<< DBI->connect (...) >>
		170	call. For example, to suppress errors on STDERR and send them instead to an
		171	AnyEvent::Handle you could do:
		172
		173	$dbh = new AnyEvent::DBI
		174	"DBI:mysql:test;mysql_read_default_file=/root/.my.cnf", "", "",
		175	PrintError => 0,
		176	on_error => sub {
		177	$log_handle->push_write ("DBI Error: $@ at $_[1]:$_[2]\n");
		178	};
		179
164	=cut	180	=cut
165
166	# stupid Storable autoloading, total loss-loss situation
167	Storable::thaw Storable::freeze [];
168		181
169	sub new {	182	sub new {
170	my ($class, $dbi, $user, $pass, %arg) = @_;	183	my ($class, $dbi, $user, $pass, %arg) = @_;
171		184
172	socketpair my $client, my $server, &Socket::AF_UNIX, &Socket::SOCK_STREAM, &Socket::PF_UNSPEC	185	# we use our own socketpair, so we always have a socket
		186	# available, even before the forked process exsist.
		187	# this is mostly done so this module is compatible
		188	# to versions of itself older than 3.0.
		189	my ($client, $server) = AnyEvent::Util::portable_socketpair
173	or croak "unable to create dbi communicaiton pipe: $!";	190	or croak "unable to create AnyEvent::DBI communications pipe: $!";
		191
		192	AnyEvent::fh_unblock $client;
		193
		194	my $fork = delete $arg{fork_template};
		195
		196	my %dbi_args = %arg;
		197	delete @dbi_args{qw(on_connect on_error timeout fork_template exec_server)};
174		198
175	my $self = bless \%arg, $class;	199	my $self = bless \%arg, $class;
176		200
177	$self->{fh} = $client;	201	$self->{fh} = $client;
178
179	Scalar::Util::weaken (my $wself = $self);
180
181	AnyEvent::Util::fh_nonblocking $client, 1;
182		202
183	my $rbuf;	203	my $rbuf;
184	my @caller = (caller)[1,2]; # the "default" caller	204	my @caller = (caller)[1,2]; # the "default" caller
185		205
186	$self->{rw} = AnyEvent->io (fh => $client, poll => "r", cb => sub {	206	$fork = $fork ? $fork->fork : AnyEvent::Fork->new
187	my $len = sysread $client, $rbuf, 65536, length $rbuf;	207	or croak "fork: $!";
188		208
		209	$fork->require ("AnyEvent::DBI::Slave");
		210	$fork->send_arg ($VERSION);
		211	$fork->send_fh ($server);
		212
		213	# we don't rely on the callback, because we use our own
		214	# socketpair, for better or worse.
		215	$fork->run ("AnyEvent::DBI::Slave::serve", sub { });
		216
		217	{
		218	Convert::Scalar::weaken (my $self = $self);
		219
		220	my $cbor = new CBOR::XS;
		221
		222	$self->{rw} = AE::io $client, 0, sub {
		223	my $len = Convert::Scalar::extend_read $client, $rbuf, 65536;
		224
189	if ($len > 0) {	225	if ($len > 0) {
		226	# we received data, so reset the timer
		227	$self->{last_activity} = AE::now;
190		228
191	while () {	229	for my $res ($cbor->incr_parse_multiple ($rbuf)) {
192	my $len = unpack "L", $rbuf;	230	last unless $self;
193		231
194	# full request available?
195	last unless $len && $len + 4 <= length $rbuf;
196
197	my $res = Storable::thaw substr $rbuf, 4;
198	substr $rbuf, 0, $len + 4, ""; # remove length + request
199
200	my $req = shift @{ $wself->{queue} };	232	my $req = shift @{ $self->{queue} };
201		233
202	if (defined $res->[0]) {	234	if (defined $res->[0]) {
		235	$res->[0] = $self;
203	$req->[0](@$res);	236	$req->[0](@$res);
		237	} else {
		238	my $cb = shift @$req;
		239	local $@ = $res->[1];
		240	$cb->($self);
		241	$self->_error ($res->[1], @$req, $res->[2]) # error, request record, is_fatal
		242	if $self; # cb() could have deleted it
		243	}
		244
		245	# no more queued requests, so become idle
		246	if ($self && !@{ $self->{queue} }) {
		247	undef $self->{last_activity};
		248	$self->{tw_cb}->();
		249	}
		250	}
		251
		252	} elsif (defined $len) {
		253	# todo, caller?
		254	$self->_error ("unexpected eof", @caller, 1);
		255	} elsif ($! != Errno::EAGAIN) {
		256	# todo, caller?
		257	$self->_error ("read error: $!", @caller, 1);
		258	}
		259	};
		260
		261	$self->{tw_cb} = sub {
		262	if ($self->{timeout} && $self->{last_activity}) {
		263	if (AE::now > $self->{last_activity} + $self->{timeout}) {
		264	# we did time out
		265	my $req = $self->{queue}[0];
		266	$self->_error (timeout => $req->[1], $req->[2], 1); # timeouts are always fatal
204	} else {	267	} else {
205	my $cb = shift @$req;	268	# we need to re-set the timeout watcher
206	$wself->_error ($res->[1], @$req);	269	$self->{tw} = AE::timer
		270	$self->{last_activity} + $self->{timeout} - AE::now,
		271	0,
		272	$self->{tw_cb},
207	$cb->();	273	;
208	}	274	}
		275	} else {
		276	# no timeout check wanted, or idle
		277	undef $self->{tw};
209	}	278	}
210
211	} elsif (defined $len) {
212	$wself->_error ("unexpected eof", @caller, 1);
213	} else {
214	$wself->_error ("read error: $!", @caller, 1);
215	}	279	};
216	});
217		280
218	$self->{ww_cb} = sub {	281	$self->{ww_cb} = sub {
		282	$self->{last_activity} = AE::now;
		283
219	my $len = syswrite $client, $wself->{wbuf}	284	my $len = syswrite $client, $self->{wbuf}
220	or return delete $wself->{ww};	285	or return delete $self->{ww};
221		286
222	substr $wself->{wbuf}, 0, $len, "";	287	substr $self->{wbuf}, 0, $len, "";
		288	};
223	};	289	}
224		290
225	my $pid = fork;	291	$self->_req (
		292	sub {
		293	return unless $self;
		294	$self->{child_pid} = $_[1];
		295	},
		296	(caller)[1,2],
		297	"req_pid"
		298	);
226		299
227	if ($pid) {	300	$self->_req (
228	# parent	301	sub {
229	close $server;	302	return unless $self;
230		303	&{ $self->{on_connect} } if $self->{on_connect};
231	} elsif (defined $pid) {	304	},
232	# child	305	(caller)[1,2],
233	close $client;	306	req_open => $dbi, $user, $pass, %dbi_args
234	@_ = $server;	307	);
235	goto &serve;
236
237	} else {
238	croak "fork: $!";
239	}
240
241	$self->_req (sub { }, (caller)[1,2], 1, req_open => $dbi, $user, $pass);
242		308
243	$self	309	$self
		310	}
		311
		312	sub _server_pid {
		313	shift->{child_pid}
		314	}
		315
		316	sub kill_child {
		317	my $self = shift;
		318
		319	if (my $pid = delete $self->{child_pid}) {
		320	# kill and reap process
		321	my $kid_watcher; $kid_watcher = AE::child $pid, sub {
		322	undef $kid_watcher;
		323	};
		324	kill TERM => $pid;
		325	}
		326
		327	delete $self->{rw};
		328	delete $self->{ww};
		329	delete $self->{tw};
		330	close delete $self->{fh};
		331	}
		332
		333	sub DESTROY {
		334	shift->kill_child;
244	}	335	}
245		336
246	sub _error {	337	sub _error {
247	my ($self, $error, $filename, $line, $fatal) = @_;	338	my ($self, $error, $filename, $line, $fatal) = @_;
248		339
		340	if ($fatal) {
		341	delete $self->{tw};
249	delete $self->{rw};	342	delete $self->{rw};
250	delete $self->{ww};	343	delete $self->{ww};
251	delete $self->{fh};	344	delete $self->{fh};
252		345
		346	# for fatal errors call all enqueued callbacks with error
		347	while (my $req = shift @{$self->{queue}}) {
		348	local $@ = $error;
		349	$req->[0]->($self);
		350	}
		351	$self->kill_child;
		352	}
		353
253	$@ = $error;	354	local $@ = $error;
254		355
		356	if ($self->{on_error}) {
255	$self->{on_error}($self, $filename, $line, $fatal)	357	$self->{on_error}($self, $filename, $line, $fatal)
256	if $self->{on_error};	358	} else {
257
258	die "$error at $filename, line $line\n";	359	die "$error at $filename, line $line\n";
		360	}
		361	}
		362
		363	=item $dbh->on_error ($cb->($dbh, $filename, $line, $fatal))
		364
		365	Sets (or clears, with C<undef>) the C<on_error> handler.
		366
		367	=cut
		368
		369	sub on_error {
		370	$_[0]{on_error} = $_[1];
		371	}
		372
		373	=item $dbh->timeout ($seconds)
		374
		375	Sets (or clears, with C<undef>) the database timeout. Useful to extend the
		376	timeout when you are about to make a really long query.
		377
		378	=cut
		379
		380	sub timeout {
		381	my ($self, $timeout) = @_;
		382
		383	$self->{timeout} = $timeout;
		384
		385	# reschedule timer if one was running
		386	$self->{tw_cb}->();
259	}	387	}
260		388
261	sub _req {	389	sub _req {
262	my ($self, $cb, $filename, $line, $fatal) = splice @_, 0, 5, ();	390	my ($self, $cb, $filename, $line) = splice @_, 0, 4, ();
263		391
		392	unless ($self->{fh}) {
		393	local $@ = my $err = 'no database connection';
		394	$cb->($self);
		395	$self->_error ($err, $filename, $line, 1);
		396	return;
		397	}
		398
264	push @{ $self->{queue} }, [$cb, $filename, $line, $fatal];	399	push @{ $self->{queue} }, [$cb, $filename, $line];
265		400
266	$self->{wbuf} .= pack "L/a*", Storable::freeze \@_;	401	# re-start timeout if necessary
		402	if ($self->{timeout} && !$self->{tw}) {
		403	$self->{last_activity} = AE::now;
		404	$self->{tw_cb}->();
		405	}
		406
		407	$self->{wbuf} .= CBOR::XS::encode_cbor \@_;
267		408
268	unless ($self->{ww}) {	409	unless ($self->{ww}) {
269	my $len = syswrite $self->{fh}, $self->{wbuf};	410	my $len = syswrite $self->{fh}, $self->{wbuf};
270	substr $self->{wbuf}, 0, $len, "";	411	substr $self->{wbuf}, 0, $len, "";
271		412
272	# still any left? then install a write watcher	413	# still any left? then install a write watcher
273	$self->{ww} = AnyEvent->io (fh => $self->{fh}, poll => "w", cb => $self->{ww_cb})	414	$self->{ww} = AE::io $self->{fh}, 1, $self->{ww_cb}
274	if length $self->{wbuf};	415	if length $self->{wbuf};
275	}	416	}
276	}	417	}
277		418
		419	=item $dbh->attr ($attr_name[, $attr_value], $cb->($dbh, $new_value))
		420
		421	An accessor for the database handle attributes, such as C<AutoCommit>,
		422	C<RaiseError>, C<PrintError> and so on. If you provide an C<$attr_value>
		423	(which might be C<undef>), then the given attribute will be set to that
		424	value.
		425
		426	The callback will be passed the database handle and the attribute's value
		427	if successful.
		428
		429	If an error occurs and the C<on_error> callback returns, then only C<$dbh>
		430	will be passed and C<$@> contains the error message.
		431
278	=item $dbh->exec ("statement", @args, $cb->($rows, $rv, ...))	432	=item $dbh->exec ("statement", @args, $cb->($dbh, \@rows, $rv))
279		433
280	Executes the given SQL statement with placeholders replaced by	434	Executes the given SQL statement with placeholders replaced by
281	C<@args>. The statement will be prepared and cached on the server side, so	435	C<@args>. The statement will be prepared and cached on the server side, so
282	using placeholders is compulsory.	436	using placeholders is extremely important.
283		437
284	The callback will be called with the result of C<fetchall_arrayref> as	438	The callback will be called with a weakened AnyEvent::DBI object as the
285	first argument (or C<undef> if the statement wasn't a select statement)	439	first argument and the result of C<fetchall_arrayref> as (or C<undef>
286	and the return value of C<execute> as second argument. Additional	440	if the statement wasn't a select statement) as the second argument.
287	arguments might get passed as well.
288		441
		442	Third argument is the return value from the C<< DBI->execute >> method
		443	call.
		444
289	If an error occurs and the C<on_error> callback returns, then no arguments	445	If an error occurs and the C<on_error> callback returns, then only C<$dbh>
290	will be passed and C<$@> contains the error message.	446	will be passed and C<$@> contains the error message.
291		447
		448	=item $dbh->stattr ($attr_name, $cb->($dbh, $value))
		449
		450	An accessor for the statement attributes of the most recently executed
		451	statement, such as C<NAME> or C<TYPE>.
		452
		453	The callback will be passed the database handle and the attribute's value
		454	if successful.
		455
		456	If an error occurs and the C<on_error> callback returns, then only C<$dbh>
		457	will be passed and C<$@> contains the error message.
		458
		459	=item $dbh->begin_work ($cb->($dbh[, $rc]))
		460
		461	=item $dbh->commit ($cb->($dbh[, $rc]))
		462
		463	=item $dbh->rollback ($cb->($dbh[, $rc]))
		464
		465	The begin_work, commit, and rollback methods expose the equivalent
		466	transaction control method of the DBI driver. On success, C<$rc> is true.
		467
		468	If an error occurs and the C<on_error> callback returns, then only C<$dbh>
		469	will be passed and C<$@> contains the error message.
		470
		471	=item $dbh->func ('string_which_yields_args_when_evaled', $func_name, $cb->($dbh, $rc, $dbi_err, $dbi_errstr))
		472
		473	This gives access to database driver private methods. Because they
		474	are not standard you cannot always depend on the value of C<$rc> or
		475	C<$dbi_err>. Check the documentation for your specific driver/function
		476	combination to see what it returns.
		477
		478	Note that the first argument will be eval'ed to produce the argument list to
		479	the func() method. This must be done because the serialization protocol
		480	between the AnyEvent::DBI server process and your program does not support the
		481	passage of closures.
		482
		483	Here's an example to extend the query language in SQLite so it supports an
		484	intstr() function:
		485
		486	$cv = AnyEvent->condvar;
		487	$dbh->func (
		488	q{
		489	instr => 2, sub {
		490	my ($string, $search) = @_;
		491	return index $string, $search;
		492	},
		493	},
		494	create_function => sub {
		495	return $cv->send ($@)
		496	unless $#_;
		497	$cv->send (undef, @_[1,2,3]);
		498	}
		499	);
		500
		501	my ($err,$rc,$errcode,$errstr) = $cv->recv;
		502
		503	die $err if defined $err;
		504	die "EVAL failed: $errstr"
		505	if $errcode;
		506
		507	# otherwise, we can ignore $rc and $errcode for this particular func
		508
292	=cut	509	=cut
293		510
294	sub exec {	511	for my $cmd_name (qw(attr exec stattr begin_work commit rollback func)) {
		512	eval 'sub ' . $cmd_name . '{
295	my $cb = pop;	513	my $cb = pop;
296	splice @_, 1, 0, $cb, (caller)[1,2], 0, "req_exec";	514	splice @_, 1, 0, $cb, (caller)[1,2], "req_' . $cmd_name . '";
297		515	&_req
298	goto &_req;	516	}';
299	}	517	}
300		518
301	=back	519	=back
302		520
303	=head1 SEE ALSO	521	=head1 SEE ALSO
304		522
305	L<AnyEvent>, L<DBI>.	523	L<AnyEvent>, L<DBI>, L<Coro::Mysql>.
306		524
307	=head1 AUTHOR	525	=head1 AUTHOR AND CONTACT
308		526
309	Marc Lehmann <schmorp@schmorp.de>	527	Marc Lehmann <schmorp@schmorp.de> (current maintainer)
310	http://home.schmorp.de/	528	http://home.schmorp.de/
311		529
		530	Adam Rosenstein <adam@redcondor.com>
		531	http://www.redcondor.com/
		532
312	=cut	533	=cut
313		534
314	1	535	1
315

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Comparing AnyEvent-DBI/DBI.pm (file contents): Revision 1.8 by root, Mon Nov 3 12:08:22 2008 UTC vs. Revision 1.20 by root, Sat Mar 24 23:22:25 2018 UTC

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Comparing AnyEvent-DBI/DBI.pm (file contents):
Revision 1.8 by root, Mon Nov 3 12:08:22 2008 UTC vs.
Revision 1.20 by root, Sat Mar 24 23:22:25 2018 UTC