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package HTTP::Request::Common; use strict; use warnings; our $VERSION = '6.18'; our $DYNAMIC_FILE_UPLOAD ||= 0; # make it defined (don't know why) use Exporter 5.57 'import'; our @EXPORT =qw(GET HEAD PUT PATCH POST); our @EXPORT_OK = qw($DYNAMIC_FILE_UPLOAD DELETE); require HTTP::Request; use Carp(); my $CRLF = "\015\012"; # "\r\n" is not portable sub GET { _simple_req('GET', @_); } sub HEAD { _simple_req('HEAD', @_); } sub DELETE { _simple_req('DELETE', @_); } sub PATCH { request_type_with_data('PATCH', @_); } sub POST { request_type_with_data('POST', @_); } sub PUT { request_type_with_data('PUT', @_); } sub request_type_with_data { my $type = shift; my $url = shift; my $req = HTTP::Request->new($type => $url); my $content; $content = shift if @_ and ref $_[0]; my($k, $v); while (($k,$v) = splice(@_, 0, 2)) { if (lc($k) eq 'content') { $content = $v; } else { $req->push_header($k, $v); } } my $ct = $req->header('Content-Type'); unless ($ct) { $ct = 'application/x-www-form-urlencoded'; } elsif ($ct eq 'form-data') { $ct = 'multipart/form-data'; } if (ref $content) { if ($ct =~ m,^multipart/form-data\s*(;|$),i) { require HTTP::Headers::Util; my @v = HTTP::Headers::Util::split_header_words($ct); Carp::carp("Multiple Content-Type headers") if @v > 1; @v = @{$v[0]}; my $boundary; my $boundary_index; for (my @tmp = @v; @tmp;) { my($k, $v) = splice(@tmp, 0, 2); if ($k eq "boundary") { $boundary = $v; $boundary_index = @v - @tmp - 1; last; } } ($content, $boundary) = form_data($content, $boundary, $req); if ($boundary_index) { $v[$boundary_index] = $boundary; } else { push(@v, boundary => $boundary); } $ct = HTTP::Headers::Util::join_header_words(@v); } else { # We use a temporary URI object to format # the application/x-www-form-urlencoded content. require URI; my $url = URI->new('http:'); $url->query_form(ref($content) eq "HASH" ? %$content : @$content); $content = $url->query; # HTML/4.01 says that line breaks are represented as "CR LF" pairs (i.e., `%0D%0A') $content =~ s/(?<!%0D)%0A/%0D%0A/g if defined($content); } } $req->header('Content-Type' => $ct); # might be redundant if (defined($content)) { $req->header('Content-Length' => length($content)) unless ref($content); $req->content($content); } else { $req->header('Content-Length' => 0); } $req; } sub _simple_req { my($method, $url) = splice(@_, 0, 2); my $req = HTTP::Request->new($method => $url); my($k, $v); my $content; while (($k,$v) = splice(@_, 0, 2)) { if (lc($k) eq 'content') { $req->add_content($v); $content++; } else { $req->push_header($k, $v); } } if ($content && !defined($req->header("Content-Length"))) { $req->header("Content-Length", length(${$req->content_ref})); } $req; } sub form_data # RFC1867 { my($data, $boundary, $req) = @_; my @data = ref($data) eq "HASH" ? %$data : @$data; # copy my $fhparts; my @parts; while (my ($k,$v) = splice(@data, 0, 2)) { if (!ref($v)) { $k =~ s/([\\\"])/\\$1/g; # escape quotes and backslashes no warnings 'uninitialized'; push(@parts, qq(Content-Disposition: form-data; name="$k"$CRLF$CRLF$v)); } else { my($file, $usename, @headers) = @$v; unless (defined $usename) { $usename = $file; $usename =~ s,.*/,, if defined($usename); } $k =~ s/([\\\"])/\\$1/g; my $disp = qq(form-data; name="$k"); if (defined($usename) and length($usename)) { $usename =~ s/([\\\"])/\\$1/g; $disp .= qq(; filename="$usename"); } my $content = ""; my $h = HTTP::Headers->new(@headers); if ($file) { open(my $fh, "<", $file) or Carp::croak("Can't open file $file: $!"); binmode($fh); if ($DYNAMIC_FILE_UPLOAD) { # will read file later, close it now in order to # not accumulate to many open file handles close($fh); $content = \$file; } else { local($/) = undef; # slurp files $content = <$fh>; close($fh); } unless ($h->header("Content-Type")) { require LWP::MediaTypes; LWP::MediaTypes::guess_media_type($file, $h); } } if ($h->header("Content-Disposition")) { # just to get it sorted first $disp = $h->header("Content-Disposition"); $h->remove_header("Content-Disposition"); } if ($h->header("Content")) { $content = $h->header("Content"); $h->remove_header("Content"); } my $head = join($CRLF, "Content-Disposition: $disp", $h->as_string($CRLF), ""); if (ref $content) { push(@parts, [$head, $$content]); $fhparts++; } else { push(@parts, $head . $content); } } } return ("", "none") unless @parts; my $content; if ($fhparts) { $boundary = boundary(10) # hopefully enough randomness unless $boundary; # add the boundaries to the @parts array for (1..@parts-1) { splice(@parts, $_*2-1, 0, "$CRLF--$boundary$CRLF"); } unshift(@parts, "--$boundary$CRLF"); push(@parts, "$CRLF--$boundary--$CRLF"); # See if we can generate Content-Length header my $length = 0; for (@parts) { if (ref $_) { my ($head, $f) = @$_; my $file_size; unless ( -f $f && ($file_size = -s _) ) { # The file is either a dynamic file like /dev/audio # or perhaps a file in the /proc file system where # stat may return a 0 size even though reading it # will produce data. So we cannot make # a Content-Length header. undef $length; last; } $length += $file_size + length $head; } else { $length += length; } } $length && $req->header('Content-Length' => $length); # set up a closure that will return content piecemeal $content = sub { for (;;) { unless (@parts) { defined $length && $length != 0 && Carp::croak "length of data sent did not match calculated Content-Length header. Probably because uploaded file changed in size during transfer."; return; } my $p = shift @parts; unless (ref $p) { $p .= shift @parts while @parts && !ref($parts[0]); defined $length && ($length -= length $p); return $p; } my($buf, $fh) = @$p; unless (ref($fh)) { my $file = $fh; undef($fh); open($fh, "<", $file) || Carp::croak("Can't open file $file: $!"); binmode($fh); } my $buflength = length $buf; my $n = read($fh, $buf, 2048, $buflength); if ($n) { $buflength += $n; unshift(@parts, ["", $fh]); } else { close($fh); } if ($buflength) { defined $length && ($length -= $buflength); return $buf } } }; } else { $boundary = boundary() unless $boundary; my $bno = 0; CHECK_BOUNDARY: { for (@parts) { if (index($_, $boundary) >= 0) { # must have a better boundary $boundary = boundary(++$bno); redo CHECK_BOUNDARY; } } last; } $content = "--$boundary$CRLF" . join("$CRLF--$boundary$CRLF", @parts) . "$CRLF--$boundary--$CRLF"; } wantarray ? ($content, $boundary) : $content; } sub boundary { my $size = shift || return "xYzZY"; require MIME::Base64; my $b = MIME::Base64::encode(join("", map chr(rand(256)), 1..$size*3), ""); $b =~ s/[\W]/X/g; # ensure alnum only $b; } 1; =pod =encoding UTF-8 =head1 NAME HTTP::Request::Common - Construct common HTTP::Request objects =head1 VERSION version 6.18 =head1 SYNOPSIS use HTTP::Request::Common; $ua = LWP::UserAgent->new; $ua->request(GET 'http://www.sn.no/'); $ua->request(POST 'http://somewhere/foo', [foo => bar, bar => foo]); $ua->request(PATCH 'http://somewhere/foo', [foo => bar, bar => foo]); $ua->request(PUT 'http://somewhere/foo', [foo => bar, bar => foo]); =head1 DESCRIPTION This module provides functions that return newly created C<HTTP::Request> objects. These functions are usually more convenient to use than the standard C<HTTP::Request> constructor for the most common requests. Note that L<LWP::UserAgent> has several convenience methods, including C<get>, C<head>, C<delete>, C<post> and C<put>. The following functions are provided: =over 4 =item GET $url =item GET $url, Header => Value,... The C<GET> function returns an L<HTTP::Request> object initialized with the "GET" method and the specified URL. It is roughly equivalent to the following call HTTP::Request->new( GET => $url, HTTP::Headers->new(Header => Value,...), ) but is less cluttered. What is different is that a header named C<Content> will initialize the content part of the request instead of setting a header field. Note that GET requests should normally not have a content, so this hack makes more sense for the C<PUT>, C<PATCH> and C<POST> functions described below. The C<get(...)> method of L<LWP::UserAgent> exists as a shortcut for C<< $ua->request(GET ...) >>. =item HEAD $url =item HEAD $url, Header => Value,... Like GET() but the method in the request is "HEAD". The C<head(...)> method of L<LWP::UserAgent> exists as a shortcut for C<< $ua->request(HEAD ...) >>. =item DELETE $url =item DELETE $url, Header => Value,... Like C<GET> but the method in the request is C<DELETE>. This function is not exported by default. =item PATCH $url =item PATCH $url, Header => Value,... =item PATCH $url, $form_ref, Header => Value,... =item PATCH $url, Header => Value,..., Content => $form_ref =item PATCH $url, Header => Value,..., Content => $content The same as C<POST> below, but the method in the request is C<PATCH>. =item PUT $url =item PUT $url, Header => Value,... =item PUT $url, $form_ref, Header => Value,... =item PUT $url, Header => Value,..., Content => $form_ref =item PUT $url, Header => Value,..., Content => $content The same as C<POST> below, but the method in the request is C<PUT> =item POST $url =item POST $url, Header => Value,... =item POST $url, $form_ref, Header => Value,... =item POST $url, Header => Value,..., Content => $form_ref =item POST $url, Header => Value,..., Content => $content C<POST>, C<PATCH> and C<PUT> all work with the same parameters. %data = ( title => 'something', body => something else' ); $ua = LWP::UserAgent->new(); $request = HTTP::Request::Common::POST( $url, [ %data ] ); $response = $ua->request($request); They take a second optional array or hash reference parameter C<$form_ref>. The content can also be specified directly using the C<Content> pseudo-header, and you may also provide the C<$form_ref> this way. The C<Content> pseudo-header steals a bit of the header field namespace as there is no way to directly specify a header that is actually called "Content". If you really need this you must update the request returned in a separate statement. The C<$form_ref> argument can be used to pass key/value pairs for the form content. By default we will initialize a request using the C<application/x-www-form-urlencoded> content type. This means that you can emulate an HTML E<lt>form> POSTing like this: POST 'http://www.perl.org/survey.cgi', [ name => 'Gisle Aas', email => 'gisle@aas.no', gender => 'M', born => '1964', perc => '3%', ]; This will create an L<HTTP::Request> object that looks like this: POST http://www.perl.org/survey.cgi Content-Length: 66 Content-Type: application/x-www-form-urlencoded name=Gisle%20Aas&email=gisle%40aas.no&gender=M&born=1964&perc=3%25 Multivalued form fields can be specified by either repeating the field name or by passing the value as an array reference. The POST method also supports the C<multipart/form-data> content used for I<Form-based File Upload> as specified in RFC 1867. You trigger this content format by specifying a content type of C<'form-data'> as one of the request headers. If one of the values in the C<$form_ref> is an array reference, then it is treated as a file part specification with the following interpretation: [ $file, $filename, Header => Value... ] [ undef, $filename, Header => Value,..., Content => $content ] The first value in the array ($file) is the name of a file to open. This file will be read and its content placed in the request. The routine will croak if the file can't be opened. Use an C<undef> as $file value if you want to specify the content directly with a C<Content> header. The $filename is the filename to report in the request. If this value is undefined, then the basename of the $file will be used. You can specify an empty string as $filename if you want to suppress sending the filename when you provide a $file value. If a $file is provided by no C<Content-Type> header, then C<Content-Type> and C<Content-Encoding> will be filled in automatically with the values returned by C<LWP::MediaTypes::guess_media_type()> Sending my F<~/.profile> to the survey used as example above can be achieved by this: POST 'http://www.perl.org/survey.cgi', Content_Type => 'form-data', Content => [ name => 'Gisle Aas', email => 'gisle@aas.no', gender => 'M', born => '1964', init => ["$ENV{HOME}/.profile"], ] This will create an L<HTTP::Request> object that almost looks this (the boundary and the content of your F<~/.profile> is likely to be different): POST http://www.perl.org/survey.cgi Content-Length: 388 Content-Type: multipart/form-data; boundary="6G+f" --6G+f Content-Disposition: form-data; name="name" Gisle Aas --6G+f Content-Disposition: form-data; name="email" gisle@aas.no --6G+f Content-Disposition: form-data; name="gender" M --6G+f Content-Disposition: form-data; name="born" 1964 --6G+f Content-Disposition: form-data; name="init"; filename=".profile" Content-Type: text/plain PATH=/local/perl/bin:$PATH export PATH --6G+f-- If you set the C<$DYNAMIC_FILE_UPLOAD> variable (exportable) to some TRUE value, then you get back a request object with a subroutine closure as the content attribute. This subroutine will read the content of any files on demand and return it in suitable chunks. This allow you to upload arbitrary big files without using lots of memory. You can even upload infinite files like F</dev/audio> if you wish; however, if the file is not a plain file, there will be no C<Content-Length> header defined for the request. Not all servers (or server applications) like this. Also, if the file(s) change in size between the time the C<Content-Length> is calculated and the time that the last chunk is delivered, the subroutine will C<Croak>. The C<post(...)> method of L<LWP::UserAgent> exists as a shortcut for C<< $ua->request(POST ...) >>. =back =head1 SEE ALSO L<HTTP::Request>, L<LWP::UserAgent> Also, there are some examples in L<HTTP::Request/"EXAMPLES"> that you might find useful. For example, batch requests are explained there. =head1 AUTHOR Gisle Aas <gisle@activestate.com> =head1 COPYRIGHT AND LICENSE This software is copyright (c) 1994-2017 by Gisle Aas. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself. =cut __END__ #ABSTRACT: Construct common HTTP::Request objects