AnyEvent-HTTP/HTTP.pm

=head1 NAME

AnyEvent::HTTP - simple but non-blocking HTTP/HTTPS client

=head1 SYNOPSIS

   use AnyEvent::HTTP;

   http_get "http://www.nethype.de/", sub { print $_[1] };

   # ... do something else here

=head1 DESCRIPTION

This module is an L<AnyEvent> user, you need to make sure that you use and
run a supported event loop.

This module implements a simple, stateless and non-blocking HTTP
client. It supports GET, POST and other request methods, cookies and more,
all on a very low level. It can follow redirects supports proxies and
automatically limits the number of connections to the values specified in
the RFC.

It should generally be a "good client" that is enough for most HTTP
tasks. Simple tasks should be simple, but complex tasks should still be
possible as the user retains control over request and response headers.

The caller is responsible for authentication management, cookies (if
the simplistic implementation in this module doesn't suffice), referer
and other high-level protocol details for which this module offers only
limited support.

=head2 METHODS

=over 4

=cut

package AnyEvent::HTTP;

use strict;
no warnings;

use Errno ();

use AnyEvent 5.0 ();
use AnyEvent::Util ();
use AnyEvent::Handle ();

use base Exporter::;

our $VERSION = '1.5';

our @EXPORT = qw(http_get http_post http_head http_request);

our $USERAGENT          = "Mozilla/5.0 (compatible; U; AnyEvent-HTTP/$VERSION; +http://software.schmorp.de/pkg/AnyEvent)";
our $MAX_RECURSE        =  10;
our $MAX_PERSISTENT     =   8;
our $PERSISTENT_TIMEOUT =   2;
our $TIMEOUT            = 300;

# changing these is evil
our $MAX_PERSISTENT_PER_HOST = 0;
our $MAX_PER_HOST       = 4;

our $PROXY;
our $ACTIVE = 0;

my %KA_COUNT; # number of open keep-alive connections per host
my %CO_SLOT;  # number of open connections, and wait queue, per host

=item http_get $url, key => value..., $cb->($data, $headers)

Executes an HTTP-GET request. See the http_request function for details on
additional parameters and the return value.

=item http_head $url, key => value..., $cb->($data, $headers)

Executes an HTTP-HEAD request. See the http_request function for details
on additional parameters and the return value.

=item http_post $url, $body, key => value..., $cb->($data, $headers)

Executes an HTTP-POST request with a request body of C<$body>. See the
http_request function for details on additional parameters and the return
value.

=item http_request $method => $url, key => value..., $cb->($data, $headers)

Executes a HTTP request of type C<$method> (e.g. C<GET>, C<POST>). The URL
must be an absolute http or https URL.

When called in void context, nothing is returned. In other contexts,
C<http_request> returns a "cancellation guard" - you have to keep the
object at least alive until the callback get called. If the object gets
destroyed before the callback is called, the request will be cancelled.

The callback will be called with the response body data as first argument
(or C<undef> if an error occured), and a hash-ref with response headers
(and trailers) as second argument.

All the headers in that hash are lowercased. In addition to the response
headers, the "pseudo-headers" (uppercase to avoid clashing with possible
response headers) C<HTTPVersion>, C<Status> and C<Reason> contain the
three parts of the HTTP Status-Line of the same name. If an error occurs
during the body phase of a request, then the original C<Status> and
C<Reason> values from the header are available as C<OrigStatus> and
C<OrigReason>.

The pseudo-header C<URL> contains the actual URL (which can differ from
the requested URL when following redirects - for example, you might get
an error that your URL scheme is not supported even though your URL is a
valid http URL because it redirected to an ftp URL, in which case you can
look at the URL pseudo header).

The pseudo-header C<Redirect> only exists when the request was a result
of an internal redirect. In that case it is an array reference with
the C<($data, $headers)> from the redirect response. Note that this
response could in turn be the result of a redirect itself, and C<<
$headers->{Redirect}[1]{Redirect} >> will then contain the original
response, and so on.

If the server sends a header multiple times, then their contents will be
joined together with a comma (C<,>), as per the HTTP spec.

If an internal error occurs, such as not being able to resolve a hostname,
then C<$data> will be C<undef>, C<< $headers->{Status} >> will be
C<590>-C<599> and the C<Reason> pseudo-header will contain an error
message. Currently the following status codes are used:

=over 4

=item 595 - errors during connection etsbalishment, proxy handshake.

=item 596 - errors during TLS negotiation, request sending and header processing.

=item 597 - errors during body receiving or processing.

=item 598 - user aborted request via C<on_header> or C<on_body>.

=item 599 - other, usually nonretryable, errors (garbled URL etc.).

=back

A typical callback might look like this:

   sub {
      my ($body, $hdr) = @_;

      if ($hdr->{Status} =~ /^2/) {
         ... everything should be ok
      } else {
         print "error, $hdr->{Status} $hdr->{Reason}\n";
      }
   }

Additional parameters are key-value pairs, and are fully optional. They
include:

=over 4

=item recurse => $count (default: $MAX_RECURSE)

Whether to recurse requests or not, e.g. on redirects, authentication
retries and so on, and how often to do so.

=item headers => hashref

The request headers to use. Currently, C<http_request> may provide its own
C<Host:>, C<Content-Length:>, C<Connection:> and C<Cookie:> headers and
will provide defaults at least for C<TE:>, C<Referer:> and C<User-Agent:>
(this can be suppressed by using C<undef> for these headers in which case
they won't be sent at all).

=item timeout => $seconds

The time-out to use for various stages - each connect attempt will reset
the timeout, as will read or write activity, i.e. this is not an overall
timeout.

Default timeout is 5 minutes.

=item proxy => [$host, $port[, $scheme]] or undef

Use the given http proxy for all requests. If not specified, then the
default proxy (as specified by C<$ENV{http_proxy}>) is used.

C<$scheme> must be either missing, C<http> for HTTP or C<https> for
HTTPS.

=item body => $string

The request body, usually empty. Will be sent as-is (future versions of
this module might offer more options).

=item cookie_jar => $hash_ref

Passing this parameter enables (simplified) cookie-processing, loosely
based on the original netscape specification.

The C<$hash_ref> must be an (initially empty) hash reference which
will get updated automatically. It is possible to save the cookie jar
to persistent storage with something like JSON or Storable - see the
C<AnyEvent::HTTP::cookie_jar_expire> function if you wish to remove
expired or session-only cookies, and also for documentation on the format
of the cookie jar.

Note that this cookie implementation is not meant to be complete. If
you want complete cookie management you have to do that on your
own. C<cookie_jar> is meant as a quick fix to get most cookie-using sites
working. Cookies are a privacy disaster, do not use them unless required
to.

When cookie processing is enabled, the C<Cookie:> and C<Set-Cookie:>
headers will be set and handled by this module, otherwise they will be
left untouched.

=item tls_ctx => $scheme | $tls_ctx

Specifies the AnyEvent::TLS context to be used for https connections. This
parameter follows the same rules as the C<tls_ctx> parameter to
L<AnyEvent::Handle>, but additionally, the two strings C<low> or
C<high> can be specified, which give you a predefined low-security (no
verification, highest compatibility) and high-security (CA and common-name
verification) TLS context.

The default for this option is C<low>, which could be interpreted as "give
me the page, no matter what".

=item on_prepare => $callback->($fh)

In rare cases you need to "tune" the socket before it is used to
connect (for exmaple, to bind it on a given IP address). This parameter
overrides the prepare callback passed to C<AnyEvent::Socket::tcp_connect>
and behaves exactly the same way (e.g. it has to provide a
timeout). See the description for the C<$prepare_cb> argument of
C<AnyEvent::Socket::tcp_connect> for details.

=item tcp_connect => $callback->($host, $service, $connect_cb, $prepare_cb)

In even rarer cases you want total control over how AnyEvent::HTTP
establishes connections. Normally it uses L<AnyEvent::Socket::tcp_connect>
to do this, but you can provide your own C<tcp_connect> function -
obviously, it has to follow the same calling conventions, except that it
may always return a connection guard object.

There are probably lots of weird uses for this function, starting from
tracing the hosts C<http_request> actually tries to connect, to (inexact
but fast) host => IP address caching or even socks protocol support.

=item on_header => $callback->($headers)

When specified, this callback will be called with the header hash as soon
as headers have been successfully received from the remote server (not on
locally-generated errors).

It has to return either true (in which case AnyEvent::HTTP will continue),
or false, in which case AnyEvent::HTTP will cancel the download (and call
the finish callback with an error code of C<598>).

This callback is useful, among other things, to quickly reject unwanted
content, which, if it is supposed to be rare, can be faster than first
doing a C<HEAD> request.

The downside is that cancelling the request makes it impossible to re-use
the connection. Also, the C<on_header> callback will not receive any
trailer (headers sent after the response body).

Example: cancel the request unless the content-type is "text/html".

   on_header => sub {
      $_[0]{"content-type"} =~ /^text\/html\s*(?:;|$)/
   },

=item on_body => $callback->($partial_body, $headers)

When specified, all body data will be passed to this callback instead of
to the completion callback. The completion callback will get the empty
string instead of the body data.

It has to return either true (in which case AnyEvent::HTTP will continue),
or false, in which case AnyEvent::HTTP will cancel the download (and call
the completion callback with an error code of C<598>).

The downside to cancelling the request is that it makes it impossible to
re-use the connection.

This callback is useful when the data is too large to be held in memory
(so the callback writes it to a file) or when only some information should
be extracted, or when the body should be processed incrementally.

It is usually preferred over doing your own body handling via
C<want_body_handle>, but in case of streaming APIs, where HTTP is
only used to create a connection, C<want_body_handle> is the better
alternative, as it allows you to install your own event handler, reducing
resource usage.

=item want_body_handle => $enable

When enabled (default is disabled), the behaviour of AnyEvent::HTTP
changes considerably: after parsing the headers, and instead of
downloading the body (if any), the completion callback will be
called. Instead of the C<$body> argument containing the body data, the
callback will receive the L<AnyEvent::Handle> object associated with the
connection. In error cases, C<undef> will be passed. When there is no body
(e.g. status C<304>), the empty string will be passed.

The handle object might or might not be in TLS mode, might be connected to
a proxy, be a persistent connection etc., and configured in unspecified
ways. The user is responsible for this handle (it will not be used by this
module anymore).

This is useful with some push-type services, where, after the initial
headers, an interactive protocol is used (typical example would be the
push-style twitter API which starts a JSON/XML stream).

If you think you need this, first have a look at C<on_body>, to see if
that doesn't solve your problem in a better way.

=back

Example: do a simple HTTP GET request for http://www.nethype.de/ and print
the response body.

   http_request GET => "http://www.nethype.de/", sub {
      my ($body, $hdr) = @_;
      print "$body\n";
   };

Example: do a HTTP HEAD request on https://www.google.com/, use a
timeout of 30 seconds.

   http_request
      GET     => "https://www.google.com",
      timeout => 30,
      sub {
         my ($body, $hdr) = @_;
         use Data::Dumper;
         print Dumper $hdr;
      }
   ;

Example: do another simple HTTP GET request, but immediately try to
cancel it.

   my $request = http_request GET => "http://www.nethype.de/", sub {
      my ($body, $hdr) = @_;
      print "$body\n";
   };

   undef $request;

=cut

sub _slot_schedule;
sub _slot_schedule($) {
   my $host = shift;

   while ($CO_SLOT{$host}[0] < $MAX_PER_HOST) {
      if (my $cb = shift @{ $CO_SLOT{$host}[1] }) {
         # somebody wants that slot
         ++$CO_SLOT{$host}[0];
         ++$ACTIVE;

         $cb->(AnyEvent::Util::guard {
            --$ACTIVE;
            --$CO_SLOT{$host}[0];
            _slot_schedule $host;
         });
      } else {
         # nobody wants the slot, maybe we can forget about it
         delete $CO_SLOT{$host} unless $CO_SLOT{$host}[0];
         last;
      }
   }
}

# wait for a free slot on host, call callback
sub _get_slot($$) {
   push @{ $CO_SLOT{$_[0]}[1] }, $_[1];

   _slot_schedule $_[0];
}

#############################################################################

# expire cookies
sub cookie_jar_expire($;$) {
   my ($jar, $session_end) = @_;

   %$jar = () if $jar->{version} != 1;

   my $anow = AE::now;

   while (my ($chost, $paths) = each %$jar) {
      next unless ref $paths;

      while (my ($cpath, $cookies) = each %$paths) {
         while (my ($cookie, $kv) = each %$cookies) {
            if (exists $kv->{_expires}) {
               delete $cookies->{$cookie}
                  if $anow > $kv->{_expires};
            } elsif ($session_end) {
               delete $cookies->{$cookie};
            }
         }

         delete $paths->{$cpath}
            unless %$cookies;
      }

      delete $jar->{$chost}
         unless %$paths;
   }
}
 
# extract cookies from jar
sub cookie_jar_extract($$$$) {
   my ($jar, $uscheme, $uhost, $upath) = @_;

   %$jar = () if $jar->{version} != 1;

   my @cookies;

   while (my ($chost, $paths) = each %$jar) {
      next unless ref $paths;

      if ($chost =~ /^\./) {
         next unless $chost eq substr $uhost, -length $chost;
      } elsif ($chost =~ /\./) {
         next unless $chost eq $uhost;
      } else {
         next;
      }

      while (my ($cpath, $cookies) = each %$paths) {
         next unless $cpath eq substr $upath, 0, length $cpath;

         while (my ($cookie, $kv) = each %$cookies) {
            next if $uscheme ne "https" && exists $kv->{secure};

            if (exists $kv->{_expires} and AE::now > $kv->{_expires}) {
               delete $cookies->{$cookie};
               next;
            }

            my $value = $kv->{value};

            if ($value =~ /[=;,[:space:]]/) {
               $value =~ s/([\\"])/\\$1/g;
               $value = "\"$value\"";
            }

            push @cookies, "$cookie=$value";
         }
      }
   }

   \@cookies
}
 
# parse set_cookie header into jar
sub cookie_jar_set_cookie($$$$) {
   my ($jar, $set_cookie, $uhost, $date) = @_;

   my $anow = int AE::now;
   my $snow; # server-now

   for ($set_cookie) {
      # parse NAME=VALUE
      my @kv;

      # expires is not http-compliant in the original cookie-spec,
      # we support the official date format and some extensions
      while (
         m{
            \G\s*
            (?:
               expires \s*=\s* ([A-Z][a-z][a-z]+,\ [^,;]+)
               | ([^=;,[:space:]]+) \s*=\s* (?: "((?:[^\\"]+|\\.)*)" | ([^=;,[:space:]]*) )
            )
         }gcxsi
      ) {
         my $name = $2;
         my $value = $4;

         unless (defined $name) {
            # expires
            $name  = "expires";
            $value = $1;
         } elsif (!defined $value) {
            # quoted
            $value = $3;
            $value =~ s/\\(.)/$1/gs;
         }

         push @kv, lc $name, $value;

         last unless /\G\s*;/gc;
      }

      last unless @kv;

      my $name = shift @kv;
      my %kv = (value => shift @kv, @kv);

      if (exists $kv{"max-age"}) {
         $kv{_expires} = $anow + delete $kv{"max-age"};
      } elsif (exists $kv{expires}) {
         $snow ||= parse_date ($date) || $anow;
         $kv{_expires} = $anow + (parse_date (delete $kv{expires}) - $snow);
      } else {
         delete $kv{_expires};
      }

      my $cdom;
      my $cpath = (delete $kv{path}) || "/";

      if (exists $kv{domain}) {
         $cdom = delete $kv{domain};

         $cdom =~ s/^\.?/./; # make sure it starts with a "."

         next if $cdom =~ /\.$/;

         # this is not rfc-like and not netscape-like. go figure.
         my $ndots = $cdom =~ y/.//;
         next if $ndots < ($cdom =~ /\.[^.][^.]\.[^.][^.]$/ ? 3 : 2);
      } else {
         $cdom = $uhost;
      }

      # store it
      $jar->{version} = 1;
      $jar->{$cdom}{$cpath}{$name} = \%kv;

      redo if /\G\s*,/gc;
   }
}

# continue to parse $_ for headers and place them into the arg
sub parse_hdr() {
   my %hdr;

   # things seen, not parsed:
   # p3pP="NON CUR OTPi OUR NOR UNI"

   $hdr{lc $1} .= ",$2"
      while /\G
            ([^:\000-\037]*):
            [\011\040]*
            ((?: [^\012]+ | \012[\011\040] )*)
            \012
         /gxc;

   /\G$/
     or return;

   # remove the "," prefix we added to all headers above
   substr $_, 0, 1, ""
      for values %hdr;

   \%hdr
}

our $qr_nlnl = qr{(?<![^\012])\015?\012};

our $TLS_CTX_LOW  = { cache => 1, sslv2 => 1 };
our $TLS_CTX_HIGH = { cache => 1, verify => 1, verify_peername => "https" };

sub http_request($$@) {
   my $cb = pop;
   my ($method, $url, %arg) = @_;

   my %hdr;

   $arg{tls_ctx} = $TLS_CTX_LOW  if $arg{tls_ctx} eq "low" || !exists $arg{tls_ctx};
   $arg{tls_ctx} = $TLS_CTX_HIGH if $arg{tls_ctx} eq "high";

   $method = uc $method;

   if (my $hdr = $arg{headers}) {
      while (my ($k, $v) = each %$hdr) {
         $hdr{lc $k} = $v;
      }
   }

   # pseudo headers for all subsequent responses
   my @pseudo = (URL => $url);
   push @pseudo, Redirect => delete $arg{Redirect} if exists $arg{Redirect};

   my $recurse = exists $arg{recurse} ? delete $arg{recurse} : $MAX_RECURSE;

   return $cb->(undef, { @pseudo, Status => 599, Reason => "Too many redirections" })
      if $recurse < 0;

   my $proxy   = $arg{proxy}   || $PROXY;
   my $timeout = $arg{timeout} || $TIMEOUT;

   my ($uscheme, $uauthority, $upath, $query, $fragment) =
      $url =~ m|(?:([^:/?#]+):)?(?://([^/?#]*))?([^?#]*)(?:(\?[^#]*))?(?:#(.*))?|;

   $uscheme = lc $uscheme;

   my $uport = $uscheme eq "http"  ?  80
             : $uscheme eq "https" ? 443
             : return $cb->(undef, { @pseudo, Status => 599, Reason => "Only http and https URL schemes supported" });

   $uauthority =~ /^(?: .*\@ )? ([^\@:]+) (?: : (\d+) )?$/x
      or return $cb->(undef, { @pseudo, Status => 599, Reason => "Unparsable URL" });

   my $uhost = $1;
   $uport = $2 if defined $2;

   $hdr{host} = defined $2 ? "$uhost:$2" : "$uhost"
      unless exists $hdr{host};

   $uhost =~ s/^\[(.*)\]$/$1/;
   $upath .= $query if length $query;

   $upath =~ s%^/?%/%;

   # cookie processing
   if (my $jar = $arg{cookie_jar}) {
      my $cookies = cookie_jar_extract $jar, $uscheme, $uhost, $upath;

      $hdr{cookie} = join "; ", @$cookies
         if @$cookies;
   }

   my ($rhost, $rport, $rscheme, $rpath); # request host, port, path

   if ($proxy) {
      ($rpath, $rhost, $rport, $rscheme) = ($url, @$proxy);

      $rscheme = "http" unless defined $rscheme;

      # don't support https requests over https-proxy transport,
      # can't be done with tls as spec'ed, unless you double-encrypt.
      $rscheme = "http" if $uscheme eq "https" && $rscheme eq "https";
   } else {
      ($rhost, $rport, $rscheme, $rpath) = ($uhost, $uport, $uscheme, $upath);
   }

   # leave out fragment and query string, just a heuristic
   $hdr{referer}      = "$uscheme://$uauthority$upath" unless exists $hdr{referer};
   $hdr{"user-agent"} = $USERAGENT                     unless exists $hdr{"user-agent"};

   $hdr{"content-length"} = length $arg{body}
      if length $arg{body} || $method ne "GET";

   $hdr{connection} = "close TE"; #1.1
   $hdr{te}         = "trailers" unless exists $hdr{te}; #1.1

   my %state = (connect_guard => 1);

   _get_slot $uhost, sub {
      $state{slot_guard} = shift;

      return unless $state{connect_guard};

      my $ae_error = 595; # connecting

      my $connect_cb = sub {
         $state{fh} = shift
            or do {
               my $err = "$!";
               %state = ();
               return $cb->(undef, { @pseudo, Status => $ae_error, Reason => $err });
            };

         return unless delete $state{connect_guard};

         # get handle
         $state{handle} = new AnyEvent::Handle
            fh       => $state{fh},
            peername => $rhost,
            tls_ctx  => $arg{tls_ctx},
            # these need to be reconfigured on keepalive handles
            timeout  => $timeout,
            on_error => sub {
               %state = ();
               $cb->(undef, { @pseudo, Status => $ae_error, Reason => $_[2] });
            },
            on_eof   => sub {
               %state = ();
               $cb->(undef, { @pseudo, Status => $ae_error, Reason => "Unexpected end-of-file" });
            },
         ;

         # limit the number of persistent connections
         # keepalive not yet supported
#         if ($KA_COUNT{$_[1]} < $MAX_PERSISTENT_PER_HOST) {
#            ++$KA_COUNT{$_[1]};
#            $state{handle}{ka_count_guard} = AnyEvent::Util::guard {
#               --$KA_COUNT{$_[1]}
#            };
#            $hdr{connection} = "keep-alive";
#         }

         $state{handle}->starttls ("connect") if $rscheme eq "https";

         # handle actual, non-tunneled, request
         my $handle_actual_request = sub {
            $ae_error = 596; # request phase

            $state{handle}->starttls ("connect") if $uscheme eq "https" && !exists $state{handle}{tls};

            # send request
            $state{handle}->push_write (
               "$method $rpath HTTP/1.1\015\012"
               . (join "", map "\u$_: $hdr{$_}\015\012", grep defined $hdr{$_}, keys %hdr)
               . "\015\012"
               . (delete $arg{body})
            );

            # return if error occured during push_write()
            return unless %state;

            %hdr = (); # reduce memory usage, save a kitten, also make it possible to re-use

            # status line and headers
            $state{read_response} = sub {
               for ("$_[1]") {
                  y/\015//d; # weed out any \015, as they show up in the weirdest of places.

                  /^HTTP\/0*([0-9\.]+) \s+ ([0-9]{3}) (?: \s+ ([^\012]*) )? \012/gxci
                     or return (%state = (), $cb->(undef, { @pseudo, Status => 599, Reason => "Invalid server response" }));

                  # 100 Continue handling
                  # should not happen as we don't send expect: 100-continue,
                  # but we handle it just in case.
                  # since we send the request body regardless, if we get an error
                  # we are out of-sync, which we currently do NOT handle correctly.
                  return $state{handle}->push_read (line => $qr_nlnl, $state{read_response})
                     if $2 eq 100;

                  push @pseudo,
                     HTTPVersion => $1,
                     Status      => $2,
                     Reason      => $3,
                  ;

                  my $hdr = parse_hdr
                     or return (%state = (), $cb->(undef, { @pseudo, Status => 599, Reason => "Garbled response headers" }));

                  %hdr = (%$hdr, @pseudo);
               }

               # redirect handling
               # microsoft and other shitheads don't give a shit for following standards,
               # try to support some common forms of broken Location headers.
               if ($hdr{location} !~ /^(?: $ | [^:\/?\#]+ : )/x) {
                  $hdr{location} =~ s/^\.\/+//;

                  my $url = "$rscheme://$uhost:$uport";

                  unless ($hdr{location} =~ s/^\///) {
                     $url .= $upath;
                     $url =~ s/\/[^\/]*$//;
                  }

                  $hdr{location} = "$url/$hdr{location}";
               }

               my $redirect;

               if ($recurse) {
                  my $status = $hdr{Status};

                  # industry standard is to redirect POST as GET for
                  # 301, 302 and 303, in contrast to HTTP/1.0 and 1.1.
                  # also, the UA should ask the user for 301 and 307 and POST,
                  # industry standard seems to be to simply follow.
                  # we go with the industry standard.
                  if ($status == 301 or $status == 302 or $status == 303) {
                     # HTTP/1.1 is unclear on how to mutate the method
                     $method = "GET" unless $method eq "HEAD";
                     $redirect = 1;
                  } elsif ($status == 307) {
                     $redirect = 1;
                  }
               }

               my $finish = sub { # ($data, $err_status, $err_reason[, $keepalive])
                  my $may_keep_alive = $_[3];

                  $state{handle}->destroy if $state{handle};
                  %state = ();

                  if (defined $_[1]) {
                     $hdr{OrigStatus} = $hdr{Status}; $hdr{Status} = $_[1];
                     $hdr{OrigReason} = $hdr{Reason}; $hdr{Reason} = $_[2];
                  }

                  # set-cookie processing
                  if ($arg{cookie_jar}) {
                     cookie_jar_set_cookie $arg{cookie_jar}, $hdr{"set-cookie"}, $uhost, $hdr{date};
                  }

                  if ($redirect && exists $hdr{location}) {
                     # we ignore any errors, as it is very common to receive
                     # Content-Length != 0 but no actual body
                     # we also access %hdr, as $_[1] might be an erro
                     http_request (
                        $method  => $hdr{location},
                        %arg,
                        recurse  => $recurse - 1,
                        Redirect => [$_[0], \%hdr],
                        $cb);
                  } else {
                     $cb->($_[0], \%hdr);
                  }
               };

               $ae_error = 597; # body phase

               my $len = $hdr{"content-length"};

               if (!$redirect && $arg{on_header} && !$arg{on_header}(\%hdr)) {
                  $finish->(undef, 598 => "Request cancelled by on_header");
               } elsif (
                  $hdr{Status} =~ /^(?:1..|204|205|304)$/
                  or $method eq "HEAD"
                  or (defined $len && !$len)
               ) {
                  # no body
                  $finish->("", undef, undef, 1);
               } else {
                  # body handling, many different code paths
                  # - no body expected
                  # - want_body_handle
                  # - te chunked
                  # - 2x length known (with or without on_body)
                  # - 2x length not known (with or without on_body)
                  if (!$redirect && $arg{want_body_handle}) {
                     $_[0]->on_eof   (undef);
                     $_[0]->on_error (undef);
                     $_[0]->on_read  (undef);

                     $finish->(delete $state{handle});

                  } elsif ($hdr{"transfer-encoding"} =~ /\bchunked\b/i) {
                     my $cl = 0;
                     my $body = undef;
                     my $on_body = $arg{on_body} || sub { $body .= shift; 1 };

                     my $read_chunk; $read_chunk = sub {
                        $_[1] =~ /^([0-9a-fA-F]+)/
                           or $finish->(undef, $ae_error => "Garbled chunked transfer encoding");

                        my $len = hex $1;

                        if ($len) {
                           $cl += $len;

                           $_[0]->push_read (chunk => $len, sub {
                              $on_body->($_[1], \%hdr)
                                 or return $finish->(undef, 598 => "Request cancelled by on_body");

                              $_[0]->push_read (line => sub {
                                 length $_[1]
                                    and return $finish->(undef, $ae_error => "Garbled chunked transfer encoding");
                                 $_[0]->push_read (line => $read_chunk);
                              });
                           });
                        } else {
                           $hdr{"content-length"} ||= $cl;

                           $_[0]->push_read (line => $qr_nlnl, sub {
                              if (length $_[1]) {
                                 for ("$_[1]") {
                                    y/\015//d; # weed out any \015, as they show up in the weirdest of places.

                                    my $hdr = parse_hdr
                                       or return $finish->(undef, $ae_error => "Garbled response trailers");

                                    %hdr = (%hdr, %$hdr);
                                 }
                              }

                              $finish->($body, undef, undef, 1);
                           });
                        }
                     };

                     $_[0]->push_read (line => $read_chunk);

                  } elsif ($arg{on_body}) {
                     if ($len) {
                        $_[0]->on_read (sub {
                           $len -= length $_[0]{rbuf};

                           $arg{on_body}(delete $_[0]{rbuf}, \%hdr)
                              or return $finish->(undef, 598 => "Request cancelled by on_body");

                           $len > 0
                              or $finish->("", undef, undef, 1);
                        });
                     } else {
                        $_[0]->on_eof (sub {
                           $finish->("");
                        });
                        $_[0]->on_read (sub {
                           $arg{on_body}(delete $_[0]{rbuf}, \%hdr)
                              or $finish->(undef, 598 => "Request cancelled by on_body");
                        });
                     }
                  } else {
                     $_[0]->on_eof (undef);

                     if ($len) {
                        $_[0]->on_read (sub {
                           $finish->((substr delete $_[0]{rbuf}, 0, $len, ""), undef, undef, 1)
                              if $len <= length $_[0]{rbuf};
                        });
                     } else {
                        $_[0]->on_error (sub {
                           ($! == Errno::EPIPE || !$!)
                              ? $finish->(delete $_[0]{rbuf})
                              : $finish->(undef, $ae_error => $_[2]);
                        });
                        $_[0]->on_read (sub { });
                     }
                  }
               }
            };

            $state{handle}->push_read (line => $qr_nlnl, $state{read_response});
         };

         # now handle proxy-CONNECT method
         if ($proxy && $uscheme eq "https") {
            # oh dear, we have to wrap it into a connect request

            # maybe re-use $uauthority with patched port?
            $state{handle}->push_write ("CONNECT $uhost:$uport HTTP/1.0\015\012Host: $uhost\015\012\015\012");
            $state{handle}->push_read (line => $qr_nlnl, sub {
               $_[1] =~ /^HTTP\/([0-9\.]+) \s+ ([0-9]{3}) (?: \s+ ([^\015\012]*) )?/ix
                  or return (%state = (), $cb->(undef, { @pseudo, Status => 599, Reason => "Invalid proxy connect response ($_[1])" }));

               if ($2 == 200) {
                  $rpath = $upath;
                  &$handle_actual_request;
               } else {
                  %state = ();
                  $cb->(undef, { @pseudo, Status => $2, Reason => $3 });
               }
            });
         } else {
            &$handle_actual_request;
         }
      };

      my $tcp_connect = $arg{tcp_connect}
                        || do { require AnyEvent::Socket; \&AnyEvent::Socket::tcp_connect };

      $state{connect_guard} = $tcp_connect->($rhost, $rport, $connect_cb, $arg{on_prepare} || sub { $timeout });

   };

   defined wantarray && AnyEvent::Util::guard { %state = () }
}

sub http_get($@) {
   unshift @_, "GET";
   &http_request
}

sub http_head($@) {
   unshift @_, "HEAD";
   &http_request
}

sub http_post($$@) {
   my $url = shift;
   unshift @_, "POST", $url, "body";
   &http_request
}

=back

=head2 DNS CACHING

AnyEvent::HTTP uses the AnyEvent::Socket::tcp_connect function for
the actual connection, which in turn uses AnyEvent::DNS to resolve
hostnames. The latter is a simple stub resolver and does no caching
on its own. If you want DNS caching, you currently have to provide
your own default resolver (by storing a suitable resolver object in
C<$AnyEvent::DNS::RESOLVER>).

=head2 GLOBAL FUNCTIONS AND VARIABLES

=over 4

=item AnyEvent::HTTP::set_proxy "proxy-url"

Sets the default proxy server to use. The proxy-url must begin with a
string of the form C<http://host:port> (optionally C<https:...>), croaks
otherwise.

To clear an already-set proxy, use C<undef>.

=item AnyEvent::HTTP::cookie_jar_expire $jar[, $session_end]

Remove all cookies from the cookie jar that have been expired. If
C<$session_end> is given and true, then additionally remove all session
cookies.

You should call this function (with a true C<$session_end>) before you
save cookies to disk, and you should call this function after loading them
again. If you have a long-running program you can additonally call this
function from time to time.

A cookie jar is initially an empty hash-reference that is managed by this
module. It's format is subject to change, but currently it is like this:

The key C<version> has to contain C<1>, otherwise the hash gets
emptied. All other keys are hostnames or IP addresses pointing to
hash-references. The key for these inner hash references is the
server path for which this cookie is meant, and the values are again
hash-references. The keys of those hash-references is the cookie name, and
the value, you guessed it, is another hash-reference, this time with the
key-value pairs from the cookie, except for C<expires> and C<max-age>,
which have been replaced by a C<_expires> key that contains the cookie
expiry timestamp.

Here is an example of a cookie jar with a single cookie, so you have a
chance of understanding the above paragraph:

   {
      version    => 1,
      "10.0.0.1" => {
         "/" => {
            "mythweb_id" => {
              _expires => 1293917923,
              value    => "ooRung9dThee3ooyXooM1Ohm",
            },
         },
      },
   }

=item $date = AnyEvent::HTTP::format_date $timestamp

Takes a POSIX timestamp (seconds since the epoch) and formats it as a HTTP
Date (RFC 2616).

=item $timestamp = AnyEvent::HTTP::parse_date $date

Takes a HTTP Date (RFC 2616) or a Cookie date (netscape cookie spec) or a
bunch of minor variations of those, and returns the corresponding POSIX
timestamp, or C<undef> if the date cannot be parsed.

=item $AnyEvent::HTTP::MAX_RECURSE

The default value for the C<recurse> request parameter (default: C<10>).

=item $AnyEvent::HTTP::USERAGENT

The default value for the C<User-Agent> header (the default is
C<Mozilla/5.0 (compatible; U; AnyEvent-HTTP/$VERSION; +http://software.schmorp.de/pkg/AnyEvent)>).

=item $AnyEvent::HTTP::MAX_PER_HOST

The maximum number of concurrent connections to the same host (identified
by the hostname). If the limit is exceeded, then the additional requests
are queued until previous connections are closed.

The default value for this is C<4>, and it is highly advisable to not
increase it.

=item $AnyEvent::HTTP::ACTIVE

The number of active connections. This is not the number of currently
running requests, but the number of currently open and non-idle TCP
connections. This number of can be useful for load-leveling.

=back

=cut

our @month   = qw(Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec);
our @weekday = qw(Sun Mon Tue Wed Thu Fri Sat);

sub format_date($) {
   my ($time) = @_;

   # RFC 822/1123 format
   my ($S, $M, $H, $mday, $mon, $year, $wday, $yday, undef) = gmtime $time;

   sprintf "%s, %02d %s %04d %02d:%02d:%02d GMT",
      $weekday[$wday], $mday, $month[$mon], $year + 1900,
      $H, $M, $S;
}

sub parse_date($) {
   my ($date) = @_;

   my ($d, $m, $y, $H, $M, $S);

   if ($date =~ /^[A-Z][a-z][a-z]+, ([0-9][0-9]?)[\- ]([A-Z][a-z][a-z])[\- ]([0-9][0-9][0-9][0-9]) ([0-9][0-9]?):([0-9][0-9]?):([0-9][0-9]?) GMT$/) {
      # RFC 822/1123, required by RFC 2616 (with " ")
      # cookie dates (with "-")

      ($d, $m, $y, $H, $M, $S) = ($1, $2, $3, $4, $5, $6);

   } elsif ($date =~ /^[A-Z][a-z][a-z]+, ([0-9][0-9]?)-([A-Z][a-z][a-z])-([0-9][0-9]) ([0-9][0-9]?):([0-9][0-9]?):([0-9][0-9]?) GMT$/) {
      # RFC 850
      ($d, $m, $y, $H, $M, $S) = ($1, $2, $3 < 69 ? $3 + 2000 : $3 + 1900, $4, $5, $6);

   } elsif ($date =~ /^[A-Z][a-z][a-z]+ ([A-Z][a-z][a-z]) ([0-9 ]?[0-9]) ([0-9][0-9]?):([0-9][0-9]?):([0-9][0-9]?) ([0-9][0-9][0-9][0-9])$/) {
      # ISO C's asctime
      ($d, $m, $y, $H, $M, $S) = ($2, $1, $6, $3, $4, $5);
   }
   # other formats fail in the loop below

   for (0..11) {
      if ($m eq $month[$_]) {
         require Time::Local;
         return Time::Local::timegm ($S, $M, $H, $d, $_, $y);
      }
   }

   undef
}

sub set_proxy($) {
   if (length $_[0]) {
      $_[0] =~ m%^(https?):// ([^:/]+) (?: : (\d*) )?%ix
         or Carp::croak "$_[0]: invalid proxy URL";
      $PROXY = [$2, $3 || 3128, $1]
   } else {
      undef $PROXY;
   }
}

# initialise proxy from environment
eval {
   set_proxy $ENV{http_proxy};
};

=head2 SOCKS PROXIES

Socks proxies are not directly supported by AnyEvent::HTTP. You can
compile your perl to support socks, or use an external program such as
F<socksify> (dante) or F<tsocks> to make your program use a socks proxy
transparently.

Alternatively, for AnyEvent::HTTP only, you can use your own
C<tcp_connect> function that does the proxy handshake - here is an example
that works with socks4a proxies:

   use Errno;
   use AnyEvent::Util;
   use AnyEvent::Socket;
   use AnyEvent::Handle;

   # host, port and username of/for your socks4a proxy
   my $socks_host = "10.0.0.23";
   my $socks_port = 9050;
   my $socks_user = "";

   sub socks4a_connect {
      my ($host, $port, $connect_cb, $prepare_cb) = @_;

      my $hdl = new AnyEvent::Handle
         connect    => [$socks_host, $socks_port],
         on_prepare => sub { $prepare_cb->($_[0]{fh}) },
         on_error   => sub { $connect_cb->() },
      ;

      $hdl->push_write (pack "CCnNZ*Z*", 4, 1, $port, 1, $socks_user, $host);

      $hdl->push_read (chunk => 8, sub {
         my ($hdl, $chunk) = @_;
         my ($status, $port, $ipn) = unpack "xCna4", $chunk;

         if ($status == 0x5a) {
            $connect_cb->($hdl->{fh}, (format_address $ipn) . ":$port");
         } else {
            $! = Errno::ENXIO; $connect_cb->();
         }
      });

      $hdl
   }

Use C<socks4a_connect> instead of C<tcp_connect> when doing C<http_request>s,
possibly after switching off other proxy types:

   AnyEvent::HTTP::set_proxy undef; # usually you do not want other proxies

   http_get 'http://www.google.com', tcp_connect => \&socks4a_connect, sub {
      my ($data, $headers) = @_;
      ...
   };

=head1 SEE ALSO

L<AnyEvent>.

=head1 AUTHOR

   Marc Lehmann <schmorp@schmorp.de>
   http://home.schmorp.de/

With many thanks to Дмитрий Шалашов, who provided countless
testcases and bugreports.

=cut

1

Revision:	1.80
Committed:	Sat Jan 1 21:51:22 2011 UTC (13 years, 4 months ago) by root
Branch:	MAIN
Changes since 1.79:	+95 -15 lines
Log Message:	* empty log message *