GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

package Net::HTTP::Methods; our $VERSION = '6.23'; use strict; use warnings; use URI; my $CRLF = "\015\012"; # "\r\n" is not portable *_bytes = defined(&utf8::downgrade) ? sub { unless (utf8::downgrade($_[0], 1)) { require Carp; Carp::croak("Wide character in HTTP request (bytes required)"); } return $_[0]; } : sub { return $_[0]; }; sub new { my $class = shift; unshift(@_, "Host") if @_ == 1; my %cnf = @_; require Symbol; my $self = bless Symbol::gensym(), $class; return $self->http_configure(\%cnf); } sub http_configure { my($self, $cnf) = @_; die "Listen option not allowed" if $cnf->{Listen}; my $explicit_host = (exists $cnf->{Host}); my $host = delete $cnf->{Host}; # All this because $cnf->{PeerAddr} = 0 is actually valid. my $peer; for my $key (qw{PeerAddr PeerHost}) { next if !defined($cnf->{$key}) || q{} eq $cnf->{$key}; $peer = $cnf->{$key}; last; } if (!defined $peer) { die "No Host option provided" unless $host; $cnf->{PeerAddr} = $peer = $host; } # CONNECTIONS # PREFER: port number from PeerAddr, then PeerPort, then http_default_port my $peer_uri = URI->new("http://$peer"); $cnf->{"PeerPort"} = $peer_uri->_port || $cnf->{PeerPort} || $self->http_default_port; $cnf->{"PeerAddr"} = $peer_uri->host; # HOST header: # If specified but blank, ignore. # If specified with a value, add the port number # If not specified, set to PeerAddr and port number # ALWAYS: If IPv6 address, use [brackets] (thanks to the URI package) # ALWAYS: omit port number if http_default_port if (($host) || (! $explicit_host)) { my $uri = ($explicit_host) ? URI->new("http://$host") : $peer_uri->clone; if (!$uri->_port) { # Always use *our* $self->http_default_port instead of URI's (Covers HTTP, HTTPS) $uri->port( $cnf->{PeerPort} || $self->http_default_port); } my $host_port = $uri->host_port; # Returns host:port or [ipv6]:port my $remove = ":" . $self->http_default_port; # we want to remove the default port number if (substr($host_port,0-length($remove)) eq $remove) { substr($host_port,0-length($remove)) = ""; } $host = $host_port; } $cnf->{Proto} = 'tcp'; my $keep_alive = delete $cnf->{KeepAlive}; my $http_version = delete $cnf->{HTTPVersion}; $http_version = "1.1" unless defined $http_version; my $peer_http_version = delete $cnf->{PeerHTTPVersion}; $peer_http_version = "1.0" unless defined $peer_http_version; my $send_te = delete $cnf->{SendTE}; my $max_line_length = delete $cnf->{MaxLineLength}; $max_line_length = 8*1024 unless defined $max_line_length; my $max_header_lines = delete $cnf->{MaxHeaderLines}; $max_header_lines = 128 unless defined $max_header_lines; return undef unless $self->http_connect($cnf); $self->host($host); $self->keep_alive($keep_alive); $self->send_te($send_te); $self->http_version($http_version); $self->peer_http_version($peer_http_version); $self->max_line_length($max_line_length); $self->max_header_lines($max_header_lines); ${*$self}{'http_buf'} = ""; return $self; } sub http_default_port { 80; } # set up property accessors for my $method (qw(host keep_alive send_te max_line_length max_header_lines peer_http_version)) { my $prop_name = "http_" . $method; no strict 'refs'; *$method = sub { my $self = shift; my $old = ${*$self}{$prop_name}; ${*$self}{$prop_name} = shift if @_; return $old; }; } # we want this one to be a bit smarter sub http_version { my $self = shift; my $old = ${*$self}{'http_version'}; if (@_) { my $v = shift; $v = "1.0" if $v eq "1"; # float unless ($v eq "1.0" or $v eq "1.1") { require Carp; Carp::croak("Unsupported HTTP version '$v'"); } ${*$self}{'http_version'} = $v; } $old; } sub format_request { my $self = shift; my $method = shift; my $uri = shift; my $content = (@_ % 2) ? pop : ""; for ($method, $uri) { require Carp; Carp::croak("Bad method or uri") if /\s/ || !length; } push(@{${*$self}{'http_request_method'}}, $method); my $ver = ${*$self}{'http_version'}; my $peer_ver = ${*$self}{'http_peer_http_version'} || "1.0"; my @h; my @connection; my %given = (host => 0, "content-length" => 0, "te" => 0); while (@_) { my($k, $v) = splice(@_, 0, 2); my $lc_k = lc($k); if ($lc_k eq "connection") { $v =~ s/^\s+//; $v =~ s/\s+$//; push(@connection, split(/\s*,\s*/, $v)); next; } if (exists $given{$lc_k}) { $given{$lc_k}++; } push(@h, "$k: $v"); } if (length($content) && !$given{'content-length'}) { push(@h, "Content-Length: " . length($content)); } my @h2; if ($given{te}) { push(@connection, "TE") unless grep lc($_) eq "te", @connection; } elsif ($self->send_te && gunzip_ok()) { # gzip is less wanted since the IO::Uncompress::Gunzip interface for # it does not really allow chunked decoding to take place easily. push(@h2, "TE: deflate,gzip;q=0.3"); push(@connection, "TE"); } unless (grep lc($_) eq "close", @connection) { if ($self->keep_alive) { if ($peer_ver eq "1.0") { # from looking at Netscape's headers push(@h2, "Keep-Alive: 300"); unshift(@connection, "Keep-Alive"); } } else { push(@connection, "close") if $ver ge "1.1"; } } push(@h2, "Connection: " . join(", ", @connection)) if @connection; unless ($given{host}) { my $h = ${*$self}{'http_host'}; push(@h2, "Host: $h") if $h; } return _bytes(join($CRLF, "$method $uri HTTP/$ver", @h2, @h, "", $content)); } sub write_request { my $self = shift; $self->print($self->format_request(@_)); } sub format_chunk { my $self = shift; return $_[0] unless defined($_[0]) && length($_[0]); return _bytes(sprintf("%x", length($_[0])) . $CRLF . $_[0] . $CRLF); } sub write_chunk { my $self = shift; return 1 unless defined($_[0]) && length($_[0]); $self->print(_bytes(sprintf("%x", length($_[0])) . $CRLF . $_[0] . $CRLF)); } sub format_chunk_eof { my $self = shift; my @h; while (@_) { push(@h, sprintf "%s: %s$CRLF", splice(@_, 0, 2)); } return _bytes(join("", "0$CRLF", @h, $CRLF)); } sub write_chunk_eof { my $self = shift; $self->print($self->format_chunk_eof(@_)); } sub my_read { die if @_ > 3; my $self = shift; my $len = $_[1]; for (${*$self}{'http_buf'}) { if (length) { $_[0] = substr($_, 0, $len, ""); return length($_[0]); } else { die "read timeout" unless $self->can_read; return $self->sysread($_[0], $len); } } } sub my_readline { my $self = shift; my $what = shift; for (${*$self}{'http_buf'}) { my $max_line_length = ${*$self}{'http_max_line_length'}; my $pos; while (1) { # find line ending $pos = index($_, "\012"); last if $pos >= 0; die "$what line too long (limit is $max_line_length)" if $max_line_length && length($_) > $max_line_length; # need to read more data to find a line ending my $new_bytes = 0; READ: { # wait until bytes start arriving $self->can_read or die "read timeout"; # consume all incoming bytes my $bytes_read = $self->sysread($_, 1024, length); if(defined $bytes_read) { $new_bytes += $bytes_read; } elsif($!{EINTR} || $!{EAGAIN} || $!{EWOULDBLOCK}) { redo READ; } else { # if we have already accumulated some data let's at # least return that as a line length or die "$what read failed: $!"; } # no line-ending, no new bytes return length($_) ? substr($_, 0, length($_), "") : undef if $new_bytes==0; } } die "$what line too long ($pos; limit is $max_line_length)" if $max_line_length && $pos > $max_line_length; my $line = substr($_, 0, $pos+1, ""); $line =~ s/(\015?\012)\z// || die "Assert"; return wantarray ? ($line, $1) : $line; } } sub can_read { my $self = shift; return 1 unless defined(fileno($self)); return 1 if $self->isa('IO::Socket::SSL') && $self->pending; return 1 if $self->isa('Net::SSL') && $self->can('pending') && $self->pending; # With no timeout, wait forever. An explicit timeout of 0 can be # used to just check if the socket is readable without waiting. my $timeout = @_ ? shift : (${*$self}{io_socket_timeout} || undef); my $fbits = ''; vec($fbits, fileno($self), 1) = 1; SELECT: { my $before; $before = time if $timeout; my $nfound = select($fbits, undef, undef, $timeout); if ($nfound < 0) { if ($!{EINTR} || $!{EAGAIN} || $!{EWOULDBLOCK}) { # don't really think EAGAIN/EWOULDBLOCK can happen here if ($timeout) { $timeout -= time - $before; $timeout = 0 if $timeout < 0; } redo SELECT; } die "select failed: $!"; } return $nfound > 0; } } sub _rbuf { my $self = shift; if (@_) { for (${*$self}{'http_buf'}) { my $old; $old = $_ if defined wantarray; $_ = shift; return $old; } } else { return ${*$self}{'http_buf'}; } } sub _rbuf_length { my $self = shift; return length ${*$self}{'http_buf'}; } sub _read_header_lines { my $self = shift; my $junk_out = shift; my @headers; my $line_count = 0; my $max_header_lines = ${*$self}{'http_max_header_lines'}; while (my $line = my_readline($self, 'Header')) { if ($line =~ /^(\S+?)\s*:\s*(.*)/s) { push(@headers, $1, $2); } elsif (@headers && $line =~ s/^\s+//) { $headers[-1] .= " " . $line; } elsif ($junk_out) { push(@$junk_out, $line); } else { die "Bad header: '$line'\n"; } if ($max_header_lines) { $line_count++; if ($line_count >= $max_header_lines) { die "Too many header lines (limit is $max_header_lines)"; } } } return @headers; } sub read_response_headers { my($self, %opt) = @_; my $laxed = $opt{laxed}; my($status, $eol) = my_readline($self, 'Status'); unless (defined $status) { die "Server closed connection without sending any data back"; } my($peer_ver, $code, $message) = split(/\s+/, $status, 3); if (!$peer_ver || $peer_ver !~ s,^HTTP/,, || $code !~ /^[1-5]\d\d$/) { die "Bad response status line: '$status'" unless $laxed; # assume HTTP/0.9 ${*$self}{'http_peer_http_version'} = "0.9"; ${*$self}{'http_status'} = "200"; substr(${*$self}{'http_buf'}, 0, 0) = $status . ($eol || ""); return 200 unless wantarray; return (200, "Assumed OK"); }; ${*$self}{'http_peer_http_version'} = $peer_ver; ${*$self}{'http_status'} = $code; my $junk_out; if ($laxed) { $junk_out = $opt{junk_out} || []; } my @headers = $self->_read_header_lines($junk_out); # pick out headers that read_entity_body might need my @te; my $content_length; for (my $i = 0; $i < @headers; $i += 2) { my $h = lc($headers[$i]); if ($h eq 'transfer-encoding') { my $te = $headers[$i+1]; $te =~ s/^\s+//; $te =~ s/\s+$//; push(@te, $te) if length($te); } elsif ($h eq 'content-length') { # ignore bogus and overflow values if ($headers[$i+1] =~ /^\s*(\d{1,15})(?:\s|$)/) { $content_length = $1; } } } ${*$self}{'http_te'} = join(",", @te); ${*$self}{'http_content_length'} = $content_length; ${*$self}{'http_first_body'}++; delete ${*$self}{'http_trailers'}; return $code unless wantarray; return ($code, $message, @headers); } sub read_entity_body { my $self = shift; my $buf_ref = \$_[0]; my $size = $_[1]; die "Offset not supported yet" if $_[2]; my $chunked; my $bytes; if (${*$self}{'http_first_body'}) { ${*$self}{'http_first_body'} = 0; delete ${*$self}{'http_chunked'}; delete ${*$self}{'http_bytes'}; my $method = shift(@{${*$self}{'http_request_method'}}); my $status = ${*$self}{'http_status'}; if ($method eq "HEAD") { # this response is always empty regardless of other headers $bytes = 0; } elsif (my $te = ${*$self}{'http_te'}) { my @te = split(/\s*,\s*/, lc($te)); die "Chunked must be last Transfer-Encoding '$te'" unless pop(@te) eq "chunked"; pop(@te) while @te && $te[-1] eq "chunked"; # ignore repeated chunked spec for (@te) { if ($_ eq "deflate" && inflate_ok()) { #require Compress::Raw::Zlib; my ($i, $status) = Compress::Raw::Zlib::Inflate->new(); die "Can't make inflator: $status" unless $i; $_ = sub { my $out; $i->inflate($_[0], \$out); $out } } elsif ($_ eq "gzip" && gunzip_ok()) { #require IO::Uncompress::Gunzip; my @buf; $_ = sub { push(@buf, $_[0]); return "" unless $_[1]; my $input = join("", @buf); my $output; IO::Uncompress::Gunzip::gunzip(\$input, \$output, Transparent => 0) or die "Can't gunzip content: $IO::Uncompress::Gunzip::GunzipError"; return \$output; }; } elsif ($_ eq "identity") { $_ = sub { $_[0] }; } else { die "Can't handle transfer encoding '$te'"; } } @te = reverse(@te); ${*$self}{'http_te2'} = @te ? \@te : ""; $chunked = -1; } elsif (defined(my $content_length = ${*$self}{'http_content_length'})) { $bytes = $content_length; } elsif ($status =~ /^(?:1|[23]04)/) { # RFC 2616 says that these responses should always be empty # but that does not appear to be true in practice [RT#17907] $bytes = 0; } else { # XXX Multi-Part types are self delimiting, but RFC 2616 says we # only has to deal with 'multipart/byteranges' # Read until EOF } } else { $chunked = ${*$self}{'http_chunked'}; $bytes = ${*$self}{'http_bytes'}; } if (defined $chunked) { # The state encoded in $chunked is: # $chunked == 0: read CRLF after chunk, then chunk header # $chunked == -1: read chunk header # $chunked > 0: bytes left in current chunk to read if ($chunked <= 0) { my $line = my_readline($self, 'Entity body'); if ($chunked == 0) { die "Missing newline after chunk data: '$line'" if !defined($line) || $line ne ""; $line = my_readline($self, 'Entity body'); } die "EOF when chunk header expected" unless defined($line); my $chunk_len = $line; $chunk_len =~ s/;.*//; # ignore potential chunk parameters unless ($chunk_len =~ /^([\da-fA-F]+)\s*$/) { die "Bad chunk-size in HTTP response: $line"; } $chunked = hex($1); ${*$self}{'http_chunked'} = $chunked; if ($chunked == 0) { ${*$self}{'http_trailers'} = [$self->_read_header_lines]; $$buf_ref = ""; my $n = 0; if (my $transforms = delete ${*$self}{'http_te2'}) { for (@$transforms) { $$buf_ref = &$_($$buf_ref, 1); } $n = length($$buf_ref); } # in case somebody tries to read more, make sure we continue # to return EOF delete ${*$self}{'http_chunked'}; ${*$self}{'http_bytes'} = 0; return $n; } } my $n = $chunked; $n = $size if $size && $size < $n; $n = my_read($self, $$buf_ref, $n); return undef unless defined $n; ${*$self}{'http_chunked'} = $chunked - $n; if ($n > 0) { if (my $transforms = ${*$self}{'http_te2'}) { for (@$transforms) { $$buf_ref = &$_($$buf_ref, 0); } $n = length($$buf_ref); $n = -1 if $n == 0; } } return $n; } elsif (defined $bytes) { unless ($bytes) { $$buf_ref = ""; return 0; } my $n = $bytes; $n = $size if $size && $size < $n; $n = my_read($self, $$buf_ref, $n); ${*$self}{'http_bytes'} = defined $n ? $bytes - $n : $bytes; return $n; } else { # read until eof $size ||= 8*1024; return my_read($self, $$buf_ref, $size); } } sub get_trailers { my $self = shift; @{${*$self}{'http_trailers'} || []}; } BEGIN { my $gunzip_ok; my $inflate_ok; sub gunzip_ok { return $gunzip_ok if defined $gunzip_ok; # Try to load IO::Uncompress::Gunzip. local $@; local $SIG{__DIE__}; $gunzip_ok = 0; eval { require IO::Uncompress::Gunzip; $gunzip_ok++; }; return $gunzip_ok; } sub inflate_ok { return $inflate_ok if defined $inflate_ok; # Try to load Compress::Raw::Zlib. local $@; local $SIG{__DIE__}; $inflate_ok = 0; eval { require Compress::Raw::Zlib; $inflate_ok++; }; return $inflate_ok; } } # BEGIN 1; =pod =encoding UTF-8 =head1 NAME Net::HTTP::Methods - Methods shared by Net::HTTP and Net::HTTPS =head1 VERSION version 6.23 =head1 AUTHOR Gisle Aas <gisle@activestate.com> =head1 COPYRIGHT AND LICENSE This software is copyright (c) 2001 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: Methods shared by Net::HTTP and Net::HTTPS