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Direktori : /proc/thread-self/root/usr/share/perl5/vendor_perl/CPAN/HTTP/ |
Current File : //proc/thread-self/root/usr/share/perl5/vendor_perl/CPAN/HTTP/Client.pm |
# -*- Mode: cperl; coding: utf-8; cperl-indent-level: 4 -*- # vim: ts=4 sts=4 sw=4: package CPAN::HTTP::Client; use strict; use vars qw(@ISA); use CPAN::HTTP::Credentials; use HTTP::Tiny 0.005; $CPAN::HTTP::Client::VERSION = $CPAN::HTTP::Client::VERSION = "1.9601"; # CPAN::HTTP::Client is adapted from parts of cpanm by Tatsuhiko Miyagawa # and parts of LWP by Gisle Aas sub new { my $class = shift; my %args = @_; for my $k ( keys %args ) { $args{$k} = '' unless defined $args{$k}; } $args{no_proxy} = [split(",", $args{no_proxy}) ] if $args{no_proxy}; return bless \%args, $class; } # This executes a request with redirection (up to 5) and returns the # response structure generated by HTTP::Tiny # # If authentication fails, it will attempt to get new authentication # information and repeat up to 5 times sub mirror { my($self, $uri, $path) = @_; my $want_proxy = $self->_want_proxy($uri); my $http = HTTP::Tiny->new( verify_SSL => 1, $want_proxy ? (proxy => $self->{proxy}) : () ); my ($response, %headers); my $retries = 0; while ( $retries++ < 5 ) { $response = $http->mirror( $uri, $path, {headers => \%headers} ); if ( $response->{status} eq '401' ) { last unless $self->_get_auth_params( $response, 'non_proxy' ); } elsif ( $response->{status} eq '407' ) { last unless $self->_get_auth_params( $response, 'proxy' ); } else { last; # either success or failure } my %headers = ( $self->_auth_headers( $uri, 'non_proxy' ), ( $want_proxy ? $self->_auth_headers($uri, 'proxy') : () ), ); } return $response; } sub _want_proxy { my ($self, $uri) = @_; return unless $self->{proxy}; my($host) = $uri =~ m|://([^/:]+)|; return ! grep { $host =~ /\Q$_\E$/ } @{ $self->{no_proxy} || [] }; } # Generates the authentication headers for a given mode # C<mode> is 'proxy' or 'non_proxy' # C<_${mode}_type> is 'basic' or 'digest' # C<_${mode}_params> will be the challenge parameters from the 401/407 headers sub _auth_headers { my ($self, $uri, $mode) = @_; # Get names for our mode-specific attributes my ($type_key, $param_key) = map {"_" . $mode . $_} qw/_type _params/; # If _prepare_auth has not been called, we can't prepare headers return unless $self->{$type_key}; # Get user credentials for mode my $cred_method = "get_" . ($mode ? "proxy" : "non_proxy") ."_credentials"; my ($user, $pass) = CPAN::HTTP::Credentials->$cred_method; # Generate the header for the mode & type my $header = $mode eq 'proxy' ? 'Proxy-Authorization' : 'Authorization'; my $value_method = "_" . $self->{$type_key} . "_auth"; my $value = $self->$value_method($user, $pass, $self->{$param_key}, $uri); # If we didn't get a value, we didn't have the right modules available return $value ? ( $header, $value ) : (); } # Extract authentication parameters from headers, but clear any prior # credentials if we failed (so we might prompt user for password again) sub _get_auth_params { my ($self, $response, $mode) = @_; my $prefix = $mode eq 'proxy' ? 'Proxy' : 'WWW'; my ($type_key, $param_key) = map {"_" . $mode . $_} qw/_type _params/; if ( ! $response->{success} ) { # auth failed my $method = "clear_${mode}_credentials"; CPAN::HTTP::Credentials->$method; delete $self->{$_} for $type_key, $param_key; } ($self->{$type_key}, $self->{$param_key}) = $self->_get_challenge( $response, "${prefix}-Authenticate"); return $self->{$type_key}; } # Extract challenge type and parameters for a challenge list sub _get_challenge { my ($self, $response, $auth_header) = @_; my $auth_list = $response->{headers}(lc $auth_header); return unless defined $auth_list; $auth_list = [$auth_list] unless ref $auth_list; for my $challenge (@$auth_list) { $challenge =~ tr/,/;/; # "," is used to separate auth-params!! ($challenge) = $self->split_header_words($challenge); my $scheme = shift(@$challenge); shift(@$challenge); # no value $challenge = { @$challenge }; # make rest into a hash unless ($scheme =~ /^(basic|digest)$/) { next; # bad scheme } $scheme = $1; # untainted now return ($scheme, $challenge); } return; } # Generate a basic authentication header value sub _basic_auth { my ($self, $user, $pass) = @_; unless ( $CPAN::META->has_usable('MIME::Base64') ) { $CPAN::Frontend->mywarn( "MIME::Base64 is required for 'Basic' style authentication" ); return; } return "Basic " . MIME::Base64::encode_base64("$user\:$pass", q{}); } # Generate a digest authentication header value sub _digest_auth { my ($self, $user, $pass, $auth_param, $uri) = @_; unless ( $CPAN::META->has_usable('Digest::MD5') ) { $CPAN::Frontend->mywarn( "Digest::MD5 is required for 'Digest' style authentication" ); return; } my $nc = sprintf "%08X", ++$self->{_nonce_count}{$auth_param->{nonce}}; my $cnonce = sprintf "%8x", time; my ($path) = $uri =~ m{^\w+?://[^/]+(/.*)$}; $path = "/" unless defined $path; my $md5 = Digest::MD5->new; my(@digest); $md5->add(join(":", $user, $auth_param->{realm}, $pass)); push(@digest, $md5->hexdigest); $md5->reset; push(@digest, $auth_param->{nonce}); if ($auth_param->{qop}) { push(@digest, $nc, $cnonce, ($auth_param->{qop} =~ m|^auth[,;]auth-int$|) ? 'auth' : $auth_param->{qop}); } $md5->add(join(":", 'GET', $path)); push(@digest, $md5->hexdigest); $md5->reset; $md5->add(join(":", @digest)); my($digest) = $md5->hexdigest; $md5->reset; my %resp = map { $_ => $auth_param->{$_} } qw(realm nonce opaque); @resp{qw(username uri response algorithm)} = ($user, $path, $digest, "MD5"); if (($auth_param->{qop} || "") =~ m|^auth([,;]auth-int)?$|) { @resp{qw(qop cnonce nc)} = ("auth", $cnonce, $nc); } my(@order) = qw(username realm qop algorithm uri nonce nc cnonce response opaque); my @pairs; for (@order) { next unless defined $resp{$_}; push(@pairs, "$_=" . qq("$resp{$_}")); } my $auth_value = "Digest " . join(", ", @pairs); return $auth_value; } # split_header_words adapted from HTTP::Headers::Util sub split_header_words { my ($self, @words) = @_; my @res = $self->_split_header_words(@words); for my $arr (@res) { for (my $i = @$arr - 2; $i >= 0; $i -= 2) { $arr->[$i] = lc($arr->[$i]); } } return @res; } sub _split_header_words { my($self, @val) = @_; my @res; for (@val) { my @cur; while (length) { if (s/^\s*(=*[^\s=;,]+)//) { # 'token' or parameter 'attribute' push(@cur, $1); # a quoted value if (s/^\s*=\s*\"([^\"\\]*(?:\\.[^\"\\]*)*)\"//) { my $val = $1; $val =~ s/\\(.)/$1/g; push(@cur, $val); # some unquoted value } elsif (s/^\s*=\s*([^;,\s]*)//) { my $val = $1; $val =~ s/\s+$//; push(@cur, $val); # no value, a lone token } else { push(@cur, undef); } } elsif (s/^\s*,//) { push(@res, [@cur]) if @cur; @cur = (); } elsif (s/^\s*;// || s/^\s+//) { # continue } else { die "This should not happen: '$_'"; } } push(@res, \@cur) if @cur; } @res; } 1;