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Man Pages
Net::Curl::examples(3) User Contributed Perl Documentation Net::Curl::examples(3)

Net::Curl::examples - sample modules and test code for Net::Curl

Extracted from "examples/01-curl-transport.pl"

This module shows:

buildtime version check
Required features will be missing if libcurl was too old at Net::Curl compilation.
basic inheritance
Use Net::Curl::* as base for your modules.
exception handling
Most methods die() with a dualvar exception on error. You can compare them numerically, or display as part of a message.

recv() and send() methods use non-blocking transfer, this may be very annoying in simple scripts. This wrapper implements blocking send() wrapper, and two recv() wrappers called read() and readline().

 package Curl::Transport;

 use strict;
 use warnings;
 use Net::Curl::Easy qw(/^CURLE_/);
 use base qw(Net::Curl::Easy);

 BEGIN {
     if ( Net::Curl::LIBCURL_VERSION_NUM() < 0x071202 ) {
         my $ver = Net::Curl::LIBCURL_VERSION();
         die "curl $ver does not support send() and recv()";
     }
     # alternatively you can write:
     if ( not Net::Curl::Easy->can( "send" )
             or not Net::Curl::Easy->can( "recv" ) ) {
         die "Net::Curl is missing send() and recv()\n"
     }
 }

 use constant {
     B_URI => 0,
     B_SOCKET => 1,
     B_VEC => 2,
     B_READBUF => 3,
 };


 # new( URL ) -- get new object
 sub new
 {
     my $class = shift;
     my $uri = shift;

     # use an array as our object base
     my $base = [ $uri, undef, undef, '' ];

     my $self = $class->SUPER::new( $base );

     $self->setopt( Net::Curl::Easy::CURLOPT_URL, $uri );
     $self->setopt( Net::Curl::Easy::CURLOPT_CONNECT_ONLY, 1 );

     # will die if fails
     $self->perform();

     $self->[ B_SOCKET ] = $self->getinfo(
         Net::Curl::Easy::CURLINFO_LASTSOCKET
     );

     # prepare select vector
     my $vec = '';
     vec( $vec, $self->[ B_SOCKET ], 1 ) = 1;
     $self->[ B_VEC ] = $vec;

     return $self;
 }

 # send( DATA ) -- send some data, wait for socket availability
 # if it cannot be sent all at once
 sub send($$)
 {
     my $self = shift;
     my $data = shift;

     while ( length $data ) {
         # copy, because select overwrites those values
         my $w = $self->[ B_VEC ];

         # wait for write
         select undef, $w, undef, 0;

         # make sure some write bit is set
         next unless vec( $w, $self->[ B_SOCKET ], 1 );

         # actually send the data
         my $sent = $self->SUPER::send( $data );

         # remove from buffer what we sent
         substr $data, 0, $sent, '';
     };
 }

 # read( SIZE ) -- read SIZE bytes, wait for more data if there
 # wasn't enough
 sub read($$)
 {
     my $self = shift;
     my $size = shift;

     return '' unless $size > 0;

     while ( length $self->[ B_READBUF ] < $size ) {
         my $r = $self->[ B_VEC ];

         # wait for data
         select $r, undef, undef, 0;

         # make sure some read bit is set
         redo unless vec( $r, $self->[ B_SOCKET ], 1 );

         eval {
             my $l = $self->SUPER::recv( $self->[ B_READBUF ],
                 $size - length $self->[ B_READBUF ] );
         };
         if ( $@ ) {
             if ( $@ == CURLE_UNSUPPORTED_PROTOCOL ) {
                 my $uri = $self->[ B_URI ];
                 warn "Connection to $uri closed: $@\n";
                 last;
             } elsif ( $@ == CURLE_AGAIN ) {
                 warn "nothing to read, this should not happen";
             } else {
                 die $@;
             }
         }
     }

     return substr $self->[ B_READBUF ], 0, $size, '';
 }

 # readline() -- read until $/
 sub readline($)
 {
     my $self = shift;

     # we allow changing $/, but we don't support $/ = undef.
     local $/;
     $/ = "\n" unless defined $/;

     my $idx;
     until ( ( $idx = index $self->[ B_READBUF ], $/ ) >= 0 ) {
         my $r = $self->[ B_VEC ];

         # wait for data
         select $r, undef, undef, 0;

         # make sure some read bit is set
         next unless vec( $r, $self->[ B_SOCKET ], 1 );

         # read 256 bytes, should be enough in most cases
         eval {
             $self->SUPER::recv( $self->[ B_READBUF ], 256 );
         };
         if ( $@ ) {
             if ( $@ == CURLE_UNSUPPORTED_PROTOCOL ) {
                 my $uri = $self->[ B_URI ];
                 warn "Connection to $uri closed: $@\n";
                 last;
             } elsif ( $@ == CURLE_AGAIN ) {
                 warn "nothing to read, this should not happen";
             } else {
                 die $@;
             }
         }
     }

     return substr $self->[ B_READBUF ], 0, ($idx + length $/), '';
 }

 1;

Sample application using this module could look like this:

 #!perl
 use strict;
 use warnings;
 use Curl::Transport;

 my $host = shift @ARGV || "example.com";

 my $t = Curl::Transport->new( "http://$host" );
 $t->send( "GET / HTTP/1.0\r\n" );
 $t->send( "User-Agent: Curl::Transport test\r\n" );
 $t->send( "Accept: */*\r\n" );
 $t->send( "Host: $host\r\n" );
 $t->send( "Connection: Close\r\n" );
 $t->send( "\r\n" );

 my $length;
 {
     local $/ = "\r\n";
     local $_;
     do {
         $_ = $t->readline();
         $length = 0 | $1 if /Content-Length:\s*(\d+)/;
         chomp;
         print "HEADER: $_\n";
     } while ( length $_ );
 }

 if ( defined $length ) {
     print "Reading $length bytes of data:\n";
     print $t->read( $length );

     print "\nTrying to read one more byte, should fail:\n";
     print $t->read( 1 );
     print "\n";
 } else {
     print "Don't know how much to read\n";
     while ( $_ = $t->readline() ) {
         print;
     }
 }

 printf "Last error: %s\n", $t->error();

Extracted from "examples/02-multi-simple.pl"

This module shows how to use Net::Curl::Multi interface correctly in its simpliest form. Uses perl builtin select(). A more advanced code would use callbacks and some event library instead.

Writing a proper multi wrapper code requires a rather good understainding of libcurl multi interface. This code provides a recipie for those who just need something that "simply works".

 package Multi::Simple;

 use strict;
 use warnings;
 use Net::Curl::Multi;
 use base qw(Net::Curl::Multi);

 # make new object, preset the data
 sub new
 {
     my $class = shift;
     my $active = 0;
     return $class->SUPER::new( \$active );
 }

 # add one handle and count it
 sub add_handle($$)
 {
     my $self = shift;
     my $easy = shift;

     $$self++;
     $self->SUPER::add_handle( $easy );
 }

 # perform until some handle finishes, does all the magic needed
 # to make it efficient (check as soon as there is some data)
 # without overusing the cpu.
 sub get_one($)
 {
     my $self = shift;

     if ( my @result = $self->info_read() ) {
         $self->remove_handle( $result[ 1 ] );
         return @result;
     }

     while ( $$self ) {
         my $t = $self->timeout;
         if ( $t != 0 ) {
             $t = 10000 if $t < 0;
             my ( $r, $w, $e ) = $self->fdset;

             select $r, $w, $e, $t / 1000;
         }

         my $ret = $self->perform();
         if ( $$self != $ret ) {
             $$self = $ret;
             if ( my @result = $self->info_read() ) {
                 $self->remove_handle( $result[ 1 ] );
                 return @result;
             }
         }
     };

     return ();
 }

 1;

Sample application using this module looks like this:

 #!perl
 use strict;
 use warnings;
 use Multi::Simple;
 use Net::Curl::Share qw(:constants);


 sub easy
 {
     my $uri = shift;
     my $share = shift;

     require Net::Curl::Easy;

     my $easy = Net::Curl::Easy->new( { uri => $uri, body => '' } );
     $easy->setopt( Net::Curl::Easy::CURLOPT_VERBOSE(), 1 );
     $easy->setopt( Net::Curl::Easy::CURLOPT_URL(), $uri );
     $easy->setopt( Net::Curl::Easy::CURLOPT_WRITEHEADER(),
         \$easy->{headers} );
     $easy->setopt( Net::Curl::Easy::CURLOPT_FILE(),
         \$easy->{body} );
     $easy->setopt( Net::Curl::Easy::CURLOPT_SHARE(), $share );

     # This wasn't needed prior to curl 7.67, which changed the interface
     # so that an easy that uses a cookie-share now requires an explicit
     # cookie-engine enable to use cookies. Previously the easy's use of
     # a cookie-share implicitly enabled the easy's cookie engine.
     $easy->setopt( Net::Curl::Easy::CURLOPT_COOKIEFILE(), q<> );

     return $easy;
 }

 my $multi = Multi::Simple->new();

 my @uri = (
     "http://www.google.com/search?q=perl",
     "http://www.google.com/search?q=curl",
     "http://www.google.com/search?q=perl+curl",
 );

 {
     # share cookies between all handles
     my $share = Net::Curl::Share->new();
     $share->setopt( CURLSHOPT_SHARE, CURL_LOCK_DATA_COOKIE );
     $multi->add_handle( easy( shift ( @uri ), $share ) );
 }

 my $ret = 0;
 while ( my ( $msg, $easy, $result ) = $multi->get_one() ) {
     print "\nFinished downloading $easy->{uri}: $result:\n";
     printf "Body is %d bytes long\n", length $easy->{body};
     print "=" x 80 . "\n";

     $ret = 1 if $result;

     $multi->add_handle( easy( shift ( @uri ), $easy->share ) )
         if @uri;
 }

 exit $ret;

Extracted from "examples/03-multi-event.pl"

This module shows how to use Net::Curl::Multi interface with an event library, AnyEvent in this case.

This is the most efficient method for using Net::Curl::Multi interface, but it requires a really good understanding of it. This code tries to show the quirks found when using event-based programming.

 package Multi::Event;

 use strict;
 use warnings;
 use AnyEvent;
 use Net::Curl::Multi qw(/^CURL_POLL_/ /^CURL_CSELECT_/);
 use base qw(Net::Curl::Multi);

 BEGIN {
     if ( not Net::Curl::Multi->can( 'CURLMOPT_TIMERFUNCTION' ) ) {
         die "Net::Curl::Multi is missing timer callback,\n" .
             "rebuild Net::Curl with libcurl 7.16.0 or newer\n";
     }
 }

 sub new
 {
     my $class = shift;

     # no base object this time
     # we'll use the default hash

     my $multi = $class->SUPER::new();

     $multi->setopt( Net::Curl::Multi::CURLMOPT_SOCKETFUNCTION,
         \&_cb_socket );
     $multi->setopt( Net::Curl::Multi::CURLMOPT_TIMERFUNCTION,
         \&_cb_timer );

     $multi->{active} = -1;

     return $multi;
 }


 # socket callback: will be called by curl any time events on some
 # socket must be updated
 sub _cb_socket
 {
     my ( $multi, $easy, $socket, $poll ) = @_;
     #warn "on_socket( $socket => $poll )\n";

     # Right now $socket belongs to that $easy, but it can be
     # shared with another easy handle if server supports persistent
     # connections.
     # This is why we register socket events inside multi object
     # and not $easy.

     # deregister old io events
     delete $multi->{ "r$socket" };
     delete $multi->{ "w$socket" };

     # AnyEvent does not support registering a socket for both
     # reading and writing. This is rarely used so there is no
     # harm in separating the events.

     # register read event
     if ( $poll == CURL_POLL_IN or $poll == CURL_POLL_INOUT ) {
         $multi->{ "r$socket" } = AE::io $socket, 0, sub {
             $multi->socket_action( $socket, CURL_CSELECT_IN );
         };
     }

     # register write event
     if ( $poll == CURL_POLL_OUT or $poll == CURL_POLL_INOUT ) {
         $multi->{ "w$socket" } = AE::io $socket, 1, sub {
             $multi->socket_action( $socket, CURL_CSELECT_OUT );
         };
     }

     return 1;
 }


 # timer callback: It triggers timeout update. Timeout value tells
 # us how soon socket_action must be called if there were no actions
 # on sockets. This will allow curl to trigger timeout events.
 sub _cb_timer
 {
     my ( $multi, $timeout_ms ) = @_;
     #warn "on_timer( $timeout_ms )\n";

     # deregister old timer
     delete $multi->{timer};

     my $cb = sub {
         $multi->socket_action(
             Net::Curl::Multi::CURL_SOCKET_TIMEOUT
         );
     };

     if ( $timeout_ms < 0 ) {
         # Negative timeout means there is no timeout at all.
         # Normally happens if there are no handles anymore.
         #
         # However, curl_multi_timeout(3) says:
         #
         # Note: if libcurl returns a -1 timeout here, it just means
         # that libcurl currently has no stored timeout value. You
         # must not wait too long (more than a few seconds perhaps)
         # before you call curl_multi_perform() again.

         if ( $multi->handles ) {
             $multi->{timer} = AE::timer 10, 10, $cb;
         }
     } else {
         # This will trigger timeouts if there are any.
         $multi->{timer} = AE::timer $timeout_ms / 1000, 0, $cb;
     }

     return 1;
 }

 # add one handle and kickstart download
 sub add_handle($$)
 {
     my $multi = shift;
     my $easy = shift;

     die "easy cannot finish()\n"
         unless $easy->can( 'finish' );

     # Calling socket_action with default arguments will trigger
     # socket callback and register IO events.
     #
     # It _must_ be called _after_ add_handle(); AE will take care
     # of that.
     #
     # We are delaying the call because in some cases socket_action
     # may finish inmediatelly (i.e. there was some error or we used
     # persistent connections and server returned data right away)
     # and it could confuse our application -- it would appear to
     # have finished before it started.
     AE::timer 0, 0, sub {
         $multi->socket_action();
     };

     $multi->SUPER::add_handle( $easy );
 }

 # perform and call any callbacks that have finished
 sub socket_action
 {
     my $multi = shift;

     my $active = $multi->SUPER::socket_action( @_ );
     return if $multi->{active} == $active;

     $multi->{active} = $active;

     while ( my ( $msg, $easy, $result ) = $multi->info_read() ) {
         if ( $msg == Net::Curl::Multi::CURLMSG_DONE ) {
             $multi->remove_handle( $easy );
             $easy->finish( $result );
         } else {
             die "I don't know what to do with message $msg.\n";
         }
     }
 }

 1;

Multi::Event requires Easy object to provide finish() method.

 package Easy::Event;
 use strict;
 use warnings;
 use Net::Curl::Easy qw(/^CURLOPT_/);
 use base qw(Net::Curl::Easy);

 sub new
 {
     my $class = shift;
     my $uri = shift;
     my $cb = shift;

     my $easy = $class->SUPER::new(
         { uri => $uri, body => '', cb => $cb }
     );
     $easy->setopt( CURLOPT_URL, $uri );
     $easy->setopt( CURLOPT_WRITEHEADER, \$easy->{headers} );
     $easy->setopt( CURLOPT_FILE, \$easy->{body} );

     return $easy;
 }

 sub finish
 {
     my ( $easy, $result ) = @_;

     printf "\nFinished downloading %s: %s: %d bytes\n",
         $easy->{uri}, $result, length $easy->{body};

     $easy->{cb}->( $easy->{body} );
 }

 1;

 #!perl
 use strict;
 use warnings;
 use Easy::Event;
 use Multi::Event;
 use AnyEvent;

 my $multi = Multi::Event->new();
 my $cv = AE::cv;


 my @uris = (
     "http://www.google.com/search?q=perl",
     "http://www.google.com/search?q=curl",
     "http://www.google.com/search?q=perl+curl",
 );


 my $i = scalar @uris;
 sub done
 {
     my $body = shift;

     # process...

     unless ( --$i ) {
         $cv->send;
     }
 }

 my $timer;
 $timer = AE::timer 0, 0.1, sub {
     my $uri = shift @uris;
     $multi->add_handle( Easy::Event->new( $uri, \&done ) );

     unless ( @uris ) {
         undef $timer;
     }
 };

 $cv->recv;

 exit 0;

Extracted from "examples/04-share-threads.pl"

This module shows how one can share http cookies and dns cache between multiple threads.

Threads are evil, but some people think they are not. I want to make them a favor and show how bad threads really are.

  • Net::Curl::Share is the only package that allows sharing between threads. Others (Easy, Multi, Form) are usable only in their creating thread.
  • Share internals are always shared between threads, but you must mark your base object as shared if you want to use the data elsewhere.
  • Shared Net::Curl::Share does not support lock and unlock callbacks. However, locking is done internally, so no worries about corruption.
  • If we want to share the data, we cannot trigger all downloads at the same time, because there would be no data to share at the time. This solution opts to lock other downloads until headers from the server are fully received. It assures cache coherency, but slows down overall application.
  • This method does not reuse persistent connections, it would be much faster to get those 6 requests one after another than to doing all 6 in parallel.
  • If you share dns cache all connections for one domain will go to the same IP, even if domain name resolves to multiple adresses.

 package Share::Threads;
 use threads;
 use threads::shared;
 use Thread::Semaphore;
 use Net::Curl::Share qw(:constants);
 use base qw(Net::Curl::Share);


 sub new
 {
     my $class = shift;

     # we want our private data to be shareable
     my %base :shared;

     # create a shared share object
     my $self :shared = $class->SUPER::new( \%base );

     # share both cookies and dns
     $self->setopt( CURLSHOPT_SHARE, CURL_LOCK_DATA_COOKIE );
     $self->setopt( CURLSHOPT_SHARE, CURL_LOCK_DATA_DNS );

     # Net::Curl::Share locks each datum automatically, this will
     # prevent memory corruption.
     #
     # we use semaphore to lock share completely
     $self->{sem} = Thread::Semaphore->new();

     return $self;
 }

 # this locks way too much, but works as expected
 sub lock
 {
     my $share = shift;
     $share->{sem}->down();
     $share->{blocker} = threads->tid();
 }

 sub unlock
 {
     my $share = shift;
     unless ( exists $share->{blocker} ) {
         warn "Tried to unlock share that wasn't locked\n";
         return;
     }
     unless ( $share->{blocker} == threads->tid() ) {
         warn "Tried to unlock share from another thread\n";
         return;
     }
     delete $share->{blocker};
     $share->{sem}->up();
 }

 1;

This Easy::Threads object will block whole share object for duration of dns name resolution and until headers are completely received.

 package Easy::Threads;
 use strict;
 use warnings;
 use Net::Curl::Easy qw(/^CURLOPT_.*/);
 use base qw(Net::Curl::Easy);

 sub new
 {
     my $class = shift;
     my $share = shift;

     my $easy = $class->SUPER::new( { body => '', head => '' } );
     $easy->setopt( CURLOPT_VERBOSE, 1 );
     $easy->setopt( CURLOPT_WRITEHEADER, \$easy->{head} );
     $easy->setopt( CURLOPT_FILE, \$easy->{body} );
     $easy->setopt( CURLOPT_HEADERFUNCTION, \&cb_header );
     $easy->setopt( CURLOPT_SHARE, $share );

     return $easy;
 }

 sub cb_header {
     my ( $easy, $data, $uservar ) = @_;

     if ( $data eq "\r\n" ) {
         # we have all the headers now, allow other threads to run
         $easy->share->unlock()
             unless $easy->{unlocked};

         $easy->{unlocked} = 1;
     }

     $$uservar .= $data;

     return length $data;
 }

 sub get
 {
     my $easy = shift;
     my $uri = shift;

     $easy->setopt( CURLOPT_URL, $uri );
     $easy->{uri} = $uri;
     $easy->{body} = '';
     $easy->{head} = '';
     delete $easy->{unlocked};

     # lock share
     $easy->share->lock();

     # ok, now we can request
     eval {
         $easy->perform();
     };

     # There may have been some problem, make sure we unlock the share.
     # This should issue a warning, check $easy->{unlocked} to see
     # whether we really need to unlock.
     $easy->share->unlock();

     # return something
     return $easy->{body};
 }

 1;

Sample application using this module looks like this:

 #!perl
 use threads;
 use threads::shared;
 use strict;
 use warnings;
 use Share::Threads;
 use Easy::Threads;

 my $share :shared = Share::Threads->new();

 my @uri = (
     "http://www.google.com/search?q=perl",
     "http://www.google.com/search?q=curl",
     "http://www.google.com/search?q=perl+curl",
     "http://www.google.com/search?q=perl+threads",
     "http://www.google.com/search?q=curl+threads",
     "http://www.google.com/search?q=perl+curl+threads",
 );

 sub getone
 {
     my $uri = shift;

     my $easy = Easy::Threads->new( $share );
     return $easy->get( $uri );
 }

 # start all threads
 my @threads;
 foreach my $uri ( @uri ) {
     push @threads, threads->create( \&getone, $uri );
     threads->yield();
 }

 # reap all threads
 foreach my $t ( @threads ) {
     my $body = $t->join();
     my $len = length $body;
     print "DONE: [[[ $len ]]]\n";
 }

Extracted from "examples/05-irssi-downloader.pl"

This module implements asynchronous file fetcher for Irssi.

Irssi provides a set of nice io and timer handlers, but using them may be painful sometimes. This code provides a working downloader solution.

Save it in your "~/.irssi/scripts" directory as "downloader.pl" for instance. Make sure module is loaded before any script that may use it.

 # Irssi will provide a package name and it must be left unchanged
 #package Irssi::Script::downloader;

 use strict;
 use Irssi ();
 use Net::Curl::Multi qw(/^CURL_POLL_/ /^CURL_CSELECT_/);
 use base qw(Net::Curl::Multi);

 BEGIN {
     if ( not Net::Curl::Multi->can( 'CURLMOPT_TIMERFUNCTION' ) ) {
         die "Net::Curl::Multi is missing timer callback,\n" .
             "rebuild Net::Curl with libcurl 7.16.0 or newer\n";
     }
 }

 sub new
 {
     my $class = shift;

     my $multi = $class->SUPER::new();

     $multi->setopt( Net::Curl::Multi::CURLMOPT_SOCKETFUNCTION,
         \&_cb_socket );
     $multi->setopt( Net::Curl::Multi::CURLMOPT_TIMERFUNCTION,
         \&_cb_timer );

     $multi->{active} = -1;

     return $multi;
 }


 sub _cb_socket
 {
     my ( $multi, $easy, $socket, $poll ) = @_;

     # deregister old io events
     if ( exists $multi->{ "io$socket" } ) {
         Irssi::input_remove( delete $multi->{ "io$socket" } );
     }

     my $cond = 0;
     my $action = 0;
     if ( $poll == CURL_POLL_IN ) {
         $cond = Irssi::INPUT_READ();
         $action = CURL_CSELECT_IN;
     } elsif ( $poll == CURL_POLL_OUT ) {
         $cond = Irssi::INPUT_WRITE();
         $action = CURL_CSELECT_OUT;
     } elsif ( $poll == CURL_POLL_INOUT ) {
         $cond = Irssi::INPUT_READ() | Irssi::INPUT_WRITE();
         # we don't know whether it can read or write,
         # so let libcurl figure it out
         $action = 0;
     } else {
         return 1;
     }

     $multi->{ "io$socket" } = Irssi::input_add( $socket, $cond,
         sub { $multi->socket_action( $socket, $action ); },
         '' );

     return 1;
 }


 sub _cb_timer
 {
     my ( $multi, $timeout_ms ) = @_;

     # deregister old timer
     if ( exists $multi->{timer} ) {
         Irssi::timeout_remove( delete $multi->{timer} );
     }

     my $cb = sub {
         $multi->socket_action(
             Net::Curl::Multi::CURL_SOCKET_TIMEOUT
         );
     };

     if ( $timeout_ms < 0 ) {
         if ( $multi->handles ) {
             # we don't know what the timeout is
             $multi->{timer} = Irssi::timeout_add( 10000, $cb, '' );
         }
     } else {
         # Irssi won't allow smaller timeouts
         $timeout_ms = 10 if $timeout_ms < 10;
         $multi->{timer} = Irssi::timeout_add_once(
             $timeout_ms, $cb, ''
         );
     }

     return 1;
 }

 sub add_handle($$)
 {
     my $multi = shift;
     my $easy = shift;

     die "easy cannot finish()\n"
         unless $easy->can( 'finish' );

     # Irssi won't allow timeout smaller than 10ms
     Irssi::timeout_add_once( 10, sub {
         $multi->socket_action();
     }, '' );

     $multi->{active} = -1;
     $multi->SUPER::add_handle( $easy );
 }

 # perform and call any callbacks that have finished
 sub socket_action
 {
     my $multi = shift;

     my $active = $multi->SUPER::socket_action( @_ );
     return if $multi->{active} == $active;

     $multi->{active} = $active;

     while ( my ( $msg, $easy, $result ) = $multi->info_read() ) {
         if ( $msg == Net::Curl::Multi::CURLMSG_DONE ) {
             $multi->remove_handle( $easy );
             $easy->finish( $result );
         } else {
             die "I don't know what to do with message $msg.\n";
         }
     }
 }


 # we use just one global multi object
 my $multi;

 # put the add() function in some package we know
 sub Net::Curl::Multi::add($)
 {
     unless ( $multi ) {
         $multi = __PACKAGE__->new();
     }
     $multi->add_handle( shift );
 }


 package Irssi::Curl::Easy;
 use strict;
 use warnings;
 use Net::Curl;
 use Net::Curl::Easy qw(/^CURLOPT_/);
 use base qw(Net::Curl::Easy);

 my $has_zlib = ( Net::Curl::version_info()->{features}
     & Net::Curl::CURL_VERSION_LIBZ ) != 0;

 sub new
 {
     my $class = shift;
     my $uri = shift;
     my $cb = shift;

     my $easy = $class->SUPER::new(
         { body => '', headers => '' }
     );
     # some sane defaults
     $easy->setopt( CURLOPT_WRITEHEADER, \$easy->{headers} );
     $easy->setopt( CURLOPT_FILE, \$easy->{body} );
     $easy->setopt( CURLOPT_TIMEOUT, 300 );
     $easy->setopt( CURLOPT_CONNECTTIMEOUT, 60 );
     $easy->setopt( CURLOPT_MAXREDIRS, 20 );
     $easy->setopt( CURLOPT_FOLLOWLOCATION, 1 );
     $easy->setopt( CURLOPT_ENCODING, 'gzip,deflate' ) if $has_zlib;
     $easy->setopt( CURLOPT_SSL_VERIFYPEER, 0 );
     $easy->setopt( CURLOPT_COOKIEFILE, '' );
     $easy->setopt( CURLOPT_USERAGENT, 'Irssi + Net::Curl' );

     return $easy;
 }

 sub finish
 {
     my ( $easy, $result ) = @_;
     $easy->{referer} = $easy->getinfo(
         Net::Curl::Easy::CURLINFO_EFFECTIVE_URL
     );

     my $cb = $easy->{cb};
     $cb->( $easy, $result );
 }

 sub _common_add
 {
     my ( $easy, $uri, $cb ) = @_;
     if ( $easy->{referer} ) {
         $easy->setopt( CURLOPT_REFERER, $easy->{referer} );
     }
     $easy->setopt( CURLOPT_URL, $uri );
     $easy->{uri} = $uri;
     $easy->{cb} = $cb;
     $easy->{body} = '';
     $easy->{headers} = '';
     Net::Curl::Multi::add( $easy );
 }

 # get some uri
 sub get
 {
     my ( $easy, $uri, $cb ) = @_;
     $easy->setopt( CURLOPT_HTTPGET, 1 );
     $easy->_common_add( $uri, $cb );
 }

 # request head on some uri
 sub head
 {
     my ( $easy, $uri, $cb ) = @_;
     $easy->setopt( CURLOPT_NOBODY, 1 );
     $easy->_common_add( $uri, $cb );
 }

 # post data to some uri
 sub post
 {
     my ( $easy, $uri, $cb, $post ) = @_;
     $easy->setopt( CURLOPT_POST, 1 );
     $easy->setopt( CURLOPT_POSTFIELDS, $post );
     $easy->setopt( CURLOPT_POSTFIELDSIZE, length $post );
     $easy->_common_add( $uri, $cb );
 }

 # get new downloader object
 sub Irssi::downloader
 {
     return __PACKAGE__->new();
 }

This script will load downloader module automatically, if it has been named "downloader.pl".

 use strict;
 use warnings;
 use Irssi;
 use IO::File;
 use URI::Escape;

 Irssi::command( '/script load downloader.pl' );

 sub got_body
 {
     my ( $window, $easy, $result ) = @_;
     if ( $result ) {
         warn "Could not download $easy->{uri}: $result\n";
         return;
     }

     my @found;
     while ( $easy->{body} =~ s#<h2\s+class=sr><a\s+href="(.*?)">
             <b>(.*?)</b></a></h2>##x ) {
         my $uri = $1;
         $_ = $2;
         s/&#(\d+);/chr $1/eg;
         chomp;
         push @found, $_;
     }
     @found = "no results" unless @found;
     my $msg = "CPAN search %9$easy->{args}%n: "
         . (join "%9;%n ", @found);
     if ( $window ) {
         $window->print( $msg );
     } else {
         Irssi::print( $msg );
     }
 }

 sub cpan_search
 {
     my ( $args, $server, $window ) = @_;

     my $query = uri_escape( $args );
     my $uri = "http://search.cpan.org/search?query=${query}&mode=all";
     my $easy = Irssi::downloader();
     $easy->{args} = $args;
     $easy->get( $uri, sub { got_body( $window, @_ ) } );
 }

 Irssi::command_bind( 'cpan', \&cpan_search );
2022-05-14 perl v5.32.1

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