/usr/lib/perl5/AnyEvent/Util.pm is in libanyevent-perl 7.070-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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=head1 NAME
AnyEvent::Util - various utility functions.
=head1 SYNOPSIS
use AnyEvent::Util;
=head1 DESCRIPTION
This module implements various utility functions, mostly replacing
well-known functions by event-ised counterparts.
All functions documented without C<AnyEvent::Util::> prefix are exported
by default.
=over 4
=cut
package AnyEvent::Util;
use Carp ();
use Errno ();
use Socket ();
use AnyEvent (); BEGIN { AnyEvent::common_sense }
use base 'Exporter';
our @EXPORT = qw(fh_nonblocking guard fork_call portable_pipe portable_socketpair run_cmd);
our @EXPORT_OK = qw(
AF_INET6 WSAEWOULDBLOCK WSAEINPROGRESS WSAEINVAL
close_all_fds_except
punycode_encode punycode_decode idn_nameprep idn_to_ascii idn_to_unicode
);
our $VERSION = $AnyEvent::VERSION;
BEGIN {
# provide us with AF_INET6, but only if allowed
if (
$AnyEvent::PROTOCOL{ipv6}
&& _AF_INET6
&& socket my $ipv6_socket, _AF_INET6, Socket::SOCK_DGRAM(), 0 # check if they can be created
) {
*AF_INET6 = \&_AF_INET6;
} else {
# disable ipv6
*AF_INET6 = sub () { 0 };
delete $AnyEvent::PROTOCOL{ipv6};
}
# fix buggy Errno on some non-POSIX platforms
# such as openbsd and windows.
my %ERR = (
EBADMSG => Errno::EDOM (),
EPROTO => Errno::ESPIPE (),
);
while (my ($k, $v) = each %ERR) {
next if eval "Errno::$k ()";
AE::log 8 => "Broken Errno module, adding Errno::$k.";
eval "sub Errno::$k () { $v }";
push @Errno::EXPORT_OK, $k;
push @{ $Errno::EXPORT_TAGS{POSIX} }, $k;
}
}
=item ($r, $w) = portable_pipe
Calling C<pipe> in Perl is portable - except it doesn't really work on
sucky windows platforms (at least not with most perls - cygwin's perl
notably works fine): On windows, you actually get two file handles you
cannot use select on.
This function gives you a pipe that actually works even on the broken
windows platform (by creating a pair of TCP sockets on windows, so do not
expect any speed from that) and using C<pipe> everywhere else.
See C<portable_socketpair>, below, for a bidirectional "pipe".
Returns the empty list on any errors.
=item ($fh1, $fh2) = portable_socketpair
Just like C<portable_pipe>, above, but returns a bidirectional pipe
(usually by calling C<socketpair> to create a local loopback socket pair,
except on windows, where it again returns two interconnected TCP sockets).
Returns the empty list on any errors.
=cut
BEGIN {
if (AnyEvent::WIN32) {
*_win32_socketpair = sub () {
# perl's socketpair emulation fails on many vista machines, because
# vista returns fantasy port numbers.
for (1..10) {
socket my $l, Socket::AF_INET(), Socket::SOCK_STREAM(), 0
or next;
bind $l, Socket::pack_sockaddr_in 0, "\x7f\x00\x00\x01"
or next;
my $sa = getsockname $l
or next;
listen $l, 1
or next;
socket my $r, Socket::AF_INET(), Socket::SOCK_STREAM(), 0
or next;
bind $r, Socket::pack_sockaddr_in 0, "\x7f\x00\x00\x01"
or next;
connect $r, $sa
or next;
accept my $w, $l
or next;
# vista has completely broken peername/sockname that return
# fantasy ports. this combo seems to work, though.
(Socket::unpack_sockaddr_in getpeername $r)[0]
== (Socket::unpack_sockaddr_in getsockname $w)[0]
or (($! = WSAEINVAL), next);
# vista example (you can't make this shit up...):
#(Socket::unpack_sockaddr_in getsockname $r)[0] == 53364
#(Socket::unpack_sockaddr_in getpeername $r)[0] == 53363
#(Socket::unpack_sockaddr_in getsockname $w)[0] == 53363
#(Socket::unpack_sockaddr_in getpeername $w)[0] == 53365
return ($r, $w);
}
()
};
*portable_socketpair = \&_win32_socketpair;
*portable_pipe = \&_win32_socketpair;
} else {
*portable_pipe = sub () {
my ($r, $w);
pipe $r, $w
or return;
($r, $w);
};
*portable_socketpair = sub () {
socketpair my $fh1, my $fh2, Socket::AF_UNIX(), Socket::SOCK_STREAM(), 0
or return;
($fh1, $fh2)
};
}
}
=item fork_call { CODE } @args, $cb->(@res)
Executes the given code block asynchronously, by forking. Everything the
block returns will be transferred to the calling process (by serialising and
deserialising via L<Storable>).
If there are any errors, then the C<$cb> will be called without any
arguments. In that case, either C<$@> contains the exception (and C<$!> is
irrelevant), or C<$!> contains an error number. In all other cases, C<$@>
will be C<undef>ined.
The code block must not ever call an event-polling function or use
event-based programming that might cause any callbacks registered in the
parent to run.
Win32 spoilers: Due to the endlessly sucky and broken native windows
perls (there is no way to cleanly exit a child process on that platform
that doesn't also kill the parent), you have to make sure that your main
program doesn't exit as long as any C<fork_calls> are still in progress,
otherwise the program won't exit. Also, on most windows platforms some
memory will leak for every invocation. We are open for improvements that
don't require XS hackery.
Note that forking can be expensive in large programs (RSS 200MB+). On
windows, it is abysmally slow, do not expect more than 5..20 forks/s on
that sucky platform (note this uses perl's pseudo-threads, so avoid those
like the plague).
Example: poor man's async disk I/O (better use L<AnyEvent::IO> together
with L<IO::AIO>).
fork_call {
open my $fh, "</etc/passwd"
or die "passwd: $!";
local $/;
<$fh>
} sub {
my ($passwd) = @_;
...
};
=item $AnyEvent::Util::MAX_FORKS [default: 10]
The maximum number of child processes that C<fork_call> will fork in
parallel. Any additional requests will be queued until a slot becomes free
again.
The environment variable C<PERL_ANYEVENT_MAX_FORKS> is used to initialise
this value.
=cut
our $MAX_FORKS = int 1 * $ENV{PERL_ANYEVENT_MAX_FORKS};
$MAX_FORKS = 10 if $MAX_FORKS <= 0;
my $forks;
my @fork_queue;
sub _fork_schedule;
sub _fork_schedule {
require Storable unless $Storable::VERSION;
require POSIX unless $POSIX::VERSION;
while ($forks < $MAX_FORKS) {
my $job = shift @fork_queue
or last;
++$forks;
my $coderef = shift @$job;
my $cb = pop @$job;
# gimme a break...
my ($r, $w) = portable_pipe
or ($forks and last) # allow failures when we have at least one job
or die "fork_call: $!";
my $pid = fork;
if ($pid != 0) {
# parent
close $w;
my $buf;
my $ww; $ww = AE::io $r, 0, sub {
my $len = sysread $r, $buf, 65536, length $buf;
return unless defined $len or $! != Errno::EINTR;
if (!$len) {
undef $ww;
close $r;
--$forks;
_fork_schedule;
my $result = eval { Storable::thaw ($buf) };
$result = [$@] unless $result;
$@ = shift @$result;
$cb->(@$result);
# work around the endlessly broken windows perls
kill 9, $pid if AnyEvent::WIN32;
# clean up the pid
waitpid $pid, 0;
}
};
} elsif (defined $pid) {
# child
close $r;
my $result = eval {
local $SIG{__DIE__};
Storable::freeze ([undef, $coderef->(@$job)])
};
$result = Storable::freeze (["$@"])
if $@;
# windows forces us to these contortions
my $ofs;
while () {
my $len = (length $result) - $ofs
or last;
$len = syswrite $w, $result, $len < 65536 ? $len : 65536, $ofs;
last unless $len || (!defined $len && $! == Errno::EINTR);
$ofs += $len;
}
# on native windows, _exit KILLS YOUR FORKED CHILDREN!
if (AnyEvent::WIN32) {
shutdown $w, 1; # signal parent to please kill us
sleep 10; # give parent a chance to clean up
sysread $w, (my $buf), 1; # this *might* detect the parent exiting in some cases.
}
POSIX::_exit (0);
exit 1;
} elsif (($! != &Errno::EAGAIN && $! != &Errno::ENOMEM) || !$forks) {
# we ignore some errors as long as we can run at least one job
# maybe we should wait a few seconds and retry instead
die "fork_call: $!";
}
}
}
sub fork_call(&@) {
push @fork_queue, [@_];
_fork_schedule;
}
END {
if (AnyEvent::WIN32) {
while ($forks) {
@fork_queue = ();
AnyEvent->one_event;
}
}
}
# to be removed
sub dotted_quad($) {
$_[0] =~ /^(?:25[0-5]|2[0-4][0-9]|1[0-9][0-9]|[0-9][0-9]?)
\.(?:25[0-5]|2[0-4][0-9]|1[0-9][0-9]|[0-9][0-9]?)
\.(?:25[0-5]|2[0-4][0-9]|1[0-9][0-9]|[0-9][0-9]?)
\.(?:25[0-5]|2[0-4][0-9]|1[0-9][0-9]|[0-9][0-9]?)$/x
}
# just a forwarder
sub inet_aton {
require AnyEvent::Socket;
*inet_aton = \&AnyEvent::Socket::inet_aton;
goto &inet_aton
}
=item fh_nonblocking $fh, $nonblocking
Sets the blocking state of the given filehandle (true == nonblocking,
false == blocking). Uses fcntl on anything sensible and ioctl FIONBIO on
broken (i.e. windows) platforms.
=cut
BEGIN {
*fh_nonblocking = AnyEvent::WIN32
? sub($$) {
ioctl $_[0], 0x8004667e, pack "L", $_[1]; # FIONBIO
}
: sub($$) {
fcntl $_[0], AnyEvent::F_SETFL, $_[1] ? AnyEvent::O_NONBLOCK : 0;
}
;
}
=item $guard = guard { CODE }
This function creates a special object that, when called, will execute
the code block.
This is often handy in continuation-passing style code to clean up some
resource regardless of where you break out of a process.
The L<Guard> module will be used to implement this function, if it is
available. Otherwise a pure-perl implementation is used.
While the code is allowed to throw exceptions in unusual conditions, it is
not defined whether this exception will be reported (at the moment, the
Guard module and AnyEvent's pure-perl implementation both try to report
the error and continue).
You can call one method on the returned object:
=item $guard->cancel
This simply causes the code block not to be invoked: it "cancels" the
guard.
=cut
BEGIN {
if (!$ENV{PERL_ANYEVENT_AVOID_GUARD} && eval { require Guard; $Guard::VERSION >= 0.5 }) {
*guard = \&Guard::guard;
AE::log 8 => "Using Guard module to implement guards.";
} else {
*AnyEvent::Util::guard::DESTROY = sub {
local $@;
eval {
local $SIG{__DIE__};
${$_[0]}->();
};
AE::log 4 => "Runtime error in AnyEvent::guard callback: $@" if $@;
};
*AnyEvent::Util::guard::cancel = sub ($) {
${$_[0]} = sub { };
};
*guard = sub (&) {
bless \(my $cb = shift), "AnyEvent::Util::guard"
};
AE::log 8 => "Using pure-perl guard implementation.";
}
}
=item AnyEvent::Util::close_all_fds_except @fds
This rarely-used function simply closes all file descriptors (or tries to)
of the current process except the ones given as arguments.
When you want to start a long-running background server, then it is often
beneficial to do this, as too many C-libraries are too stupid to mark
their internal fd's as close-on-exec.
The function expects to be called shortly before an C<exec> call.
Example: close all fds except 0, 1, 2.
close_all_fds_except 0, 2, 1;
=cut
sub close_all_fds_except {
my %except; @except{@_} = ();
require POSIX unless $POSIX::VERSION;
# some OSes have a usable /dev/fd, sadly, very few
if ($^O =~ /(freebsd|cygwin|linux)/) {
# netbsd, openbsd, solaris have a broken /dev/fd
my $dir;
if (opendir $dir, "/dev/fd" or opendir $dir, "/proc/self/fd") {
my @fds = sort { $a <=> $b } grep /^\d+$/, readdir $dir;
# broken OS's have device nodes for 0..63 usually, solaris 0..255
if (@fds < 20 or "@fds" ne join " ", 0..$#fds) {
# assume the fds array is valid now
exists $except{$_} or POSIX::close ($_)
for @fds;
return;
}
}
}
my $fd_max = eval { POSIX::sysconf (POSIX::_SC_OPEN_MAX ()) - 1 } || 1023;
exists $except{$_} or POSIX::close ($_)
for 0..$fd_max;
}
=item $cv = run_cmd $cmd, key => value...
Run a given external command, potentially redirecting file descriptors and
return a condition variable that gets sent the exit status (like C<$?>)
when the program exits I<and> all redirected file descriptors have been
exhausted.
The C<$cmd> is either a single string, which is then passed to a shell, or
an arrayref, which is passed to the C<execvp> function.
The key-value pairs can be:
=over 4
=item ">" => $filename
Redirects program standard output into the specified filename, similar to C<<
>filename >> in the shell.
=item ">" => \$data
Appends program standard output to the referenced scalar. The condvar will
not be signalled before EOF or an error is signalled.
=item ">" => $filehandle
Redirects program standard output to the given filehandle (or actually its
underlying file descriptor).
=item ">" => $callback->($data)
Calls the given callback each time standard output receives some data,
passing it the data received. On EOF or error, the callback will be
invoked once without any arguments.
The condvar will not be signalled before EOF or an error is signalled.
=item "fd>" => $see_above
Like ">", but redirects the specified fd number instead.
=item "<" => $see_above
The same, but redirects the program's standard input instead. The same
forms as for ">" are allowed.
In the callback form, the callback is supposed to return data to be
written, or the empty list or C<undef> or a zero-length scalar to signal
EOF.
Similarly, either the write data must be exhausted or an error is to be
signalled before the condvar is signalled, for both string-reference and
callback forms.
=item "fd<" => $see_above
Like "<", but redirects the specified file descriptor instead.
=item on_prepare => $cb
Specify a callback that is executed just before the command is C<exec>'ed,
in the child process. Be careful not to use any event handling or other
services not available in the child.
This can be useful to set up the environment in special ways, such as
changing the priority of the command or manipulating signal handlers (e.g.
setting C<SIGINT> to C<IGNORE>).
=item close_all => $boolean
When C<close_all> is enabled (default is disabled), then all extra file
descriptors will be closed, except the ones that were redirected and C<0>,
C<1> and C<2>.
See C<close_all_fds_except> for more details.
=item '$$' => \$pid
A reference to a scalar which will receive the PID of the newly-created
subprocess after C<run_cmd> returns.
Note the the PID might already have been recycled and used by an unrelated
process at the time C<run_cmd> returns, so it's not useful to send
signals, use a unique key in data structures and so on.
=back
Example: run C<rm -rf />, redirecting standard input, output and error to
F</dev/null>.
my $cv = run_cmd [qw(rm -rf /)],
"<", "/dev/null",
">", "/dev/null",
"2>", "/dev/null";
$cv->recv and die "d'oh! something survived!"
Example: run F<openssl> and create a self-signed certificate and key,
storing them in C<$cert> and C<$key>. When finished, check the exit status
in the callback and print key and certificate.
my $cv = run_cmd [qw(openssl req
-new -nodes -x509 -days 3650
-newkey rsa:2048 -keyout /dev/fd/3
-batch -subj /CN=AnyEvent
)],
"<", "/dev/null",
">" , \my $cert,
"3>", \my $key,
"2>", "/dev/null";
$cv->cb (sub {
shift->recv and die "openssl failed";
print "$key\n$cert\n";
});
=cut
sub run_cmd {
my $cmd = shift;
require POSIX unless $POSIX::VERSION;
my $cv = AE::cv;
my %arg;
my %redir;
my @exe;
while (@_) {
my ($type, $ob) = splice @_, 0, 2;
my $fd = $type =~ s/^(\d+)// ? $1 : undef;
if ($type eq ">") {
$fd = 1 unless defined $fd;
if (defined eval { fileno $ob }) {
$redir{$fd} = $ob;
} elsif (ref $ob) {
my ($pr, $pw) = AnyEvent::Util::portable_pipe;
$cv->begin;
fcntl $pr, AnyEvent::F_SETFD, AnyEvent::FD_CLOEXEC;
fh_nonblocking $pr, 1;
my $w; $w = AE::io $pr, 0,
"SCALAR" eq ref $ob
? sub {
defined (sysread $pr, $$ob, 16384, length $$ob
and return)
or ($! == Errno::EINTR and return);
undef $w; $cv->end;
}
: sub {
my $buf;
defined (sysread $pr, $buf, 16384
and return $ob->($buf))
or ($! == Errno::EINTR and return);
undef $w; $cv->end;
$ob->();
}
;
$redir{$fd} = $pw;
} else {
push @exe, sub {
open my $fh, ">", $ob
or POSIX::_exit (125);
$redir{$fd} = $fh;
};
}
} elsif ($type eq "<") {
$fd = 0 unless defined $fd;
if (defined eval { fileno $ob }) {
$redir{$fd} = $ob;
} elsif (ref $ob) {
my ($pr, $pw) = AnyEvent::Util::portable_pipe;
$cv->begin;
my $data;
if ("SCALAR" eq ref $ob) {
$data = $$ob;
$ob = sub { };
} else {
$data = $ob->();
}
fcntl $pw, AnyEvent::F_SETFD, AnyEvent::FD_CLOEXEC;
fh_nonblocking $pw, 1;
my $w; $w = AE::io $pw, 1, sub {
my $len = syswrite $pw, $data;
return unless defined $len or $! != Errno::EINTR;
if (!$len) {
undef $w; $cv->end;
} else {
substr $data, 0, $len, "";
unless (length $data) {
$data = $ob->();
unless (length $data) {
undef $w; $cv->end
}
}
}
};
$redir{$fd} = $pr;
} else {
push @exe, sub {
open my $fh, "<", $ob
or POSIX::_exit (125);
$redir{$fd} = $fh;
};
}
} else {
$arg{$type} = $ob;
}
}
my $pid = fork;
defined $pid
or Carp::croak "fork: $!";
unless ($pid) {
# step 1, execute
$_->() for @exe;
# step 2, move any existing fd's out of the way
# this also ensures that dup2 is never called with fd1==fd2
# so the cloexec flag is always cleared
my (@oldfh, @close);
for my $fh (values %redir) {
push @oldfh, $fh; # make sure we keep it open
$fh = fileno $fh; # we only want the fd
# dup if we are in the way
# if we "leak" fds here, they will be dup2'ed over later
defined ($fh = POSIX::dup ($fh)) or POSIX::_exit (124)
while exists $redir{$fh};
}
# step 3, execute redirects
while (my ($k, $v) = each %redir) {
defined POSIX::dup2 ($v, $k)
or POSIX::_exit (123);
}
# step 4, close everything else, except 0, 1, 2
if ($arg{close_all}) {
close_all_fds_except 0, 1, 2, keys %redir
} else {
POSIX::close ($_)
for values %redir;
}
eval { $arg{on_prepare}(); 1 } or POSIX::_exit (123)
if exists $arg{on_prepare};
ref $cmd
? exec {$cmd->[0]} @$cmd
: exec $cmd;
POSIX::_exit (126);
}
${$arg{'$$'}} = $pid
if $arg{'$$'};
%redir = (); # close child side of the fds
my $status;
$cv->begin (sub { shift->send ($status) });
my $cw; $cw = AE::child $pid, sub {
$status = $_[1];
undef $cw; $cv->end;
};
$cv
}
=item AnyEvent::Util::punycode_encode $string
Punycode-encodes the given C<$string> and returns its punycode form. Note
that uppercase letters are I<not> casefolded - you have to do that
yourself.
Croaks when it cannot encode the string.
=item AnyEvent::Util::punycode_decode $string
Tries to punycode-decode the given C<$string> and return its unicode
form. Again, uppercase letters are not casefoled, you have to do that
yourself.
Croaks when it cannot decode the string.
=cut
sub punycode_encode($) {
require "AnyEvent/Util/idna.pl";
goto &punycode_encode;
}
sub punycode_decode($) {
require "AnyEvent/Util/idna.pl";
goto &punycode_decode;
}
=item AnyEvent::Util::idn_nameprep $idn[, $display]
Implements the IDNA nameprep normalisation algorithm. Or actually the
UTS#46 algorithm. Or maybe something similar - reality is complicated
between IDNA2003, UTS#46 and IDNA2008. If C<$display> is true then the name
is prepared for display, otherwise it is prepared for lookup (default).
If you have no clue what this means, look at C<idn_to_ascii> instead.
This function is designed to avoid using a lot of resources - it uses
about 1MB of RAM (most of this due to Unicode::Normalize). Also, names
that are already "simple" will only be checked for basic validity, without
the overhead of full nameprep processing.
=cut
our ($uts46_valid, $uts46_imap);
sub idn_nameprep($;$) {
local $_ = $_[0];
# lowercasing these should always be valid, and is required for xn-- detection
y/A-Z/a-z/;
if (/[^0-9a-z\-.]/) {
# load the mapping data
unless (defined $uts46_imap) {
require Unicode::Normalize;
require "AnyEvent/Util/uts46data.pl";
}
# uts46 nameprep
# I naively tried to use a regex/transliterate approach first,
# with one regex and one y///, but the compiled code was 4.5MB.
# this version has a bit-table for the valid class, and
# a char-replacement search string
# for speed (cough) reasons, we skip-case 0-9a-z, -, ., which
# really ought to be trivially valid. A-Z is valid, but already lowercased.
s{
([^0-9a-z\-.])
}{
my $chr = $1;
unless (vec $uts46_valid, ord $chr, 1) {
# not in valid class, search for mapping
utf8::encode $chr; # the imap table is in utf-8
(my $rep = index $uts46_imap, "\x00$chr") >= 0
or Carp::croak "$_[0]: disallowed characters ($chr) during idn_nameprep" . unpack "H*", $chr;
(substr $uts46_imap, $rep, 128) =~ /\x00 .[\x80-\xbf]* ([^\x00]*) \x00/x
or die "FATAL: idn_nameprep imap table has unexpected contents";
$rep = $1;
$chr = $rep unless $rep =~ s/^\x01// && $_[1]; # replace unless deviation and display
utf8::decode $chr;
}
$chr
}gex;
# KC
$_ = Unicode::Normalize::NFKC ($_);
}
# decode punycode components, check for invalid xx-- prefixes
s{
(^|\.)(..)--([^\.]*)
}{
my ($pfx, $ace, $pc) = ($1, $2, $3);
if ($ace eq "xn") {
$pc = punycode_decode $pc; # will croak on error (we hope :)
require Unicode::Normalize;
$pc eq Unicode::Normalize::NFC ($pc)
or Carp::croak "$_[0]: punycode label not in NFC detected during idn_nameprep";
"$pfx$pc"
} elsif ($ace !~ /^[a-z0-9]{2}$/) {
"$pfx$ace--$pc"
} else {
Carp::croak "$_[0]: hyphens in 3rd/4th position of a label are not allowed";
}
}gex;
# uts46 verification
/\.-|-\./
and Carp::croak "$_[0]: invalid hyphens detected during idn_nameprep";
# missing: label begin with combining mark, idna2008 bidi
# now check validity of each codepoint
if (/[^0-9a-z\-.]/) {
# load the mapping data
unless (defined $uts46_imap) {
require "AnyEvent/Util/uts46data.pl";
}
vec $uts46_valid, ord, 1
or $_[1] && 0 <= index $uts46_imap, pack "C0U*", 0, ord, 1 # deviation == \x00$chr\x01
or Carp::croak "$_[0]: disallowed characters during idn_nameprep"
for split //;
}
$_
}
=item $domainname = AnyEvent::Util::idn_to_ascii $idn
Converts the given unicode string (C<$idn>, international domain name,
e.g. 日本語。JP) to a pure-ASCII domain name (this is usually
called the "IDN ToAscii" transform). This transformation is idempotent,
which means you can call it just in case and it will do the right thing.
Unlike some other "ToAscii" implementations, this one works on full domain
names and should never fail - if it cannot convert the name, then it will
return it unchanged.
This function is an amalgam of IDNA2003, UTS#46 and IDNA2008 - it tries to
be reasonably compatible to other implementations, reasonably secure, as
much as IDNs can be secure, and reasonably efficient when confronted with
IDNs that are already valid DNS names.
=cut
sub idn_to_ascii($) {
return $_[0]
unless $_[0] =~ /[^\x00-\x7f]/;
my @output;
eval {
# punycode by label
for (split /\./, (idn_nameprep $_[0]), -1) {
if (/[^\x00-\x7f]/) {
eval {
push @output, "xn--" . punycode_encode $_;
1;
} or do {
push @output, $_;
};
} else {
push @output, $_;
}
}
1
} or return $_[0];
shift @output
while !length $output[0] && @output > 1;
join ".", @output
}
=item $idn = AnyEvent::Util::idn_to_unicode $idn
Converts the given unicode string (C<$idn>, international domain name,
e.g. 日本語。JP, www.deliantra.net, www.xn--l-0ga.de) to
unicode form (this is usually called the "IDN ToUnicode" transform). This
transformation is idempotent, which means you can call it just in case and
it will do the right thing.
Unlike some other "ToUnicode" implementations, this one works on full
domain names and should never fail - if it cannot convert the name, then
it will return it unchanged.
This function is an amalgam of IDNA2003, UTS#46 and IDNA2008 - it tries to
be reasonably compatible to other implementations, reasonably secure, as
much as IDNs can be secure, and reasonably efficient when confronted with
IDNs that are already valid DNS names.
At the moment, this function simply calls C<idn_nameprep $idn, 1>,
returning its argument when that function fails.
=cut
sub idn_to_unicode($) {
my $res = eval { idn_nameprep $_[0], 1 };
defined $res ? $res : $_[0]
}
=back
=head1 AUTHOR
Marc Lehmann <schmorp@schmorp.de>
http://anyevent.schmorp.de
=cut
1
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