package Mojo::Message; use Mojo::Base 'Mojo::EventEmitter'; use Carp 'croak'; use Mojo::Asset::Memory; use Mojo::Content::Single; use Mojo::DOM; use Mojo::JSON; use Mojo::JSON::Pointer; use Mojo::Parameters; use Mojo::Upload; use Mojo::Util 'decode'; has content => sub { Mojo::Content::Single->new }; has default_charset => 'UTF-8'; has max_line_size => sub { $ENV{MOJO_MAX_LINE_SIZE} || 10240 }; has max_message_size => sub { defined $ENV{MOJO_MAX_MESSAGE_SIZE} ? $ENV{MOJO_MAX_MESSAGE_SIZE} : 10485760 }; has version => '1.1'; sub body { my $self = shift; # Downgrade multipart content my $content = $self->content; $content = $self->content(Mojo::Content::Single->new)->content if $content->is_multipart; # Get return $content->asset->slurp unless @_; # Set $content->asset(Mojo::Asset::Memory->new->add_chunk(@_)); return $self; } sub body_params { my $self = shift; return $self->{body_params} if $self->{body_params}; my $params = $self->{body_params} = Mojo::Parameters->new; $params->charset($self->content->charset || $self->default_charset); # "application/x-www-form-urlencoded" my $type = defined $self->headers->content_type ? $self->headers->content_type : ''; if ($type =~ m!application/x-www-form-urlencoded!i) { $params->parse($self->content->asset->slurp); } # "multipart/form-data" elsif ($type =~ m!multipart/form-data!i) { $params->append(@$_[0, 1]) for @{$self->_parse_formdata}; } return $params; } sub body_size { shift->content->body_size } sub build_body { shift->_build('get_body_chunk') } sub build_headers { shift->_build('get_header_chunk') } sub build_start_line { shift->_build('get_start_line_chunk') } sub cookie { shift->_cache(cookies => @_) } sub cookies { croak 'Method "cookies" not implemented by subclass' } sub dom { my $self = shift; return undef if $self->content->is_multipart; my $dom = $self->{dom} ||= Mojo::DOM->new($self->text); return @_ ? $dom->find(@_) : $dom; } sub error { my $self = shift; # Set if (@_) { $self->{error} = [@_]; return $self->finish; } # Get return unless my $err = $self->{error}; return wantarray ? @$err : $err->[0]; } sub extract_start_line { croak 'Method "extract_start_line" not implemented by subclass'; } sub finish { my $self = shift; $self->{state} = 'finished'; return $self->{finished}++ ? $self : $self->emit('finish'); } sub fix_headers { my $self = shift; # Content-Length or Connection (unless chunked transfer encoding is used) my $content = $self->content; return $self if $self->{fix}++ || $content->is_chunked; my $headers = $self->headers; $content->is_dynamic ? $headers->connection('close') : $headers->content_length($self->body_size) unless $headers->content_length; return $self; } sub get_body_chunk { my ($self, $offset) = @_; $self->emit('progress', 'body', $offset); my $chunk = $self->content->get_body_chunk($offset); return $chunk if !defined $chunk || length $chunk; $self->finish; return $chunk; } sub get_header_chunk { my ($self, $offset) = @_; $self->emit('progress', 'headers', $offset); return $self->fix_headers->content->get_header_chunk($offset); } sub get_start_line_chunk { croak 'Method "get_start_line_chunk" not implemented by subclass'; } sub header_size { shift->fix_headers->content->header_size } sub headers { shift->content->headers } sub is_finished { do { my $tmp = shift->{state}; defined $tmp ? $tmp : ''} eq 'finished' } sub is_limit_exceeded { !!shift->{limit} } sub json { my ($self, $pointer) = @_; return undef if $self->content->is_multipart; my $data = $self->{json} ||= Mojo::JSON->new->decode($self->body); return $pointer ? Mojo::JSON::Pointer->new->get($data, $pointer) : $data; } sub param { shift->body_params->param(@_) } sub parse { my ($self, $chunk) = @_; # Check message size my $max = $self->max_message_size; return $self->_limit('Maximum message size exceeded', 413) if $max && ($self->{raw_size} += length($chunk = defined $chunk ? $chunk : '')) > $max; $self->{buffer} .= $chunk; # Start line unless ($self->{state}) { # Check line size my $len = index $self->{buffer}, "\x0a"; $len = length $self->{buffer} if $len < 0; return $self->_limit('Maximum line size exceeded', 431) if $len > $self->max_line_size; $self->{state} = 'content' if $self->extract_start_line(\$self->{buffer}); } # Content my $state = defined $self->{state} ? $self->{state} : ''; $self->content($self->content->parse(delete $self->{buffer})) if $state eq 'content' || $state eq 'finished'; # Check line size return $self->_limit('Maximum line size exceeded', 431) if $self->headers->is_limit_exceeded; # Check buffer size return $self->error('Maximum buffer size exceeded', 400) if $self->content->is_limit_exceeded; return $self->emit('progress')->content->is_finished ? $self->finish : $self; } sub start_line_size { length shift->build_start_line } sub text { my $self = shift; my $body = $self->body; my $charset = $self->content->charset; return $charset ? do {my $decoded = decode($charset, $body); defined $decoded ? $decoded : $body} : $body; } sub to_string { my $self = shift; return $self->build_start_line . $self->build_headers . $self->build_body; } sub upload { shift->_cache(uploads => @_) } sub uploads { my $self = shift; my @uploads; for my $data (@{$self->_parse_formdata(1)}) { my $upload = Mojo::Upload->new( name => $data->[0], filename => $data->[2], asset => $data->[1]->asset, headers => $data->[1]->headers ); push @uploads, $upload; } return \@uploads; } sub _build { my ($self, $method) = @_; my $buffer = ''; my $offset = 0; while (1) { # No chunk yet, try again next unless defined(my $chunk = $self->$method($offset)); # End of part last unless my $len = length $chunk; $offset += $len; $buffer .= $chunk; } return $buffer; } sub _cache { my ($self, $method, $name) = @_; # Cache objects by name unless ($self->{$method}) { $self->{$method} = {}; push @{$self->{$method}{$_->name}}, $_ for @{$self->$method}; } return unless my $objects = $self->{$method}{$name}; return wantarray ? @$objects : $objects->[0]; } sub _limit { my $self = shift; $self->{limit} = 1; $self->error(@_); } sub _parse_formdata { my ($self, $upload) = @_; my @formdata; my $content = $self->content; return \@formdata unless $content->is_multipart; my $charset = $content->charset || $self->default_charset; # Check all parts recursively my @parts = ($content); while (my $part = shift @parts) { if ($part->is_multipart) { unshift @parts, @{$part->parts}; next; } next unless my $disposition = $part->headers->content_disposition; my ($filename) = $disposition =~ /[; ]filename\s*=\s*"?((?:\\"|[^"])*)"?/i; next if ($upload && !defined $filename) || (!$upload && defined $filename); my ($name) = $disposition =~ /[; ]name\s*=\s*"?((?:\\"|[^";])+)"?/i; if ($charset) { $name = do {my $tmp = decode($charset, $name); defined $tmp ? $tmp : $name} if $name; $filename = do {my $tmp = decode($charset, $filename); defined $tmp ? $tmp : $filename} if $filename; } unless ($upload) { $part = $part->asset->slurp; $part = do {my $decoded = decode($charset, $part); defined $decoded ? $decoded : $part} if $charset; } push @formdata, [$name, $part, $filename]; } return \@formdata; } 1; =encoding utf8 =head1 NAME Mojo::Message - HTTP message base class =head1 SYNOPSIS package Mojo::Message::MyMessage; use Mojo::Base 'Mojo::Message'; sub cookies {...} sub extract_start_line {...} sub get_start_line_chunk {...} =head1 DESCRIPTION L is an abstract base class for HTTP messages as described in RFC 2616 and RFC 2388. =head1 EVENTS L inherits all events from L and can emit the following new ones. =head2 finish $msg->on(finish => sub { my $msg = shift; ... }); Emitted after message building or parsing is finished. my $before = time; $msg->on(finish => sub { my $msg = shift; $msg->headers->header('X-Parser-Time' => time - $before); }); =head2 progress $msg->on(progress => sub { my $msg = shift; ... }); Emitted when message building or parsing makes progress. # Building $msg->on(progress => sub { my ($msg, $state, $offset) = @_; say qq{Building "$state" at offset $offset}; }); # Parsing $msg->on(progress => sub { my $msg = shift; return unless my $len = $msg->headers->content_length; my $size = $msg->content->progress; say 'Progress: ', $size == $len ? 100 : int($size / ($len / 100)), '%'; }); =head1 ATTRIBUTES L implements the following attributes. =head2 content my $msg = $msg->content; $msg = $msg->content(Mojo::Content::Single->new); Message content, defaults to a L object. =head2 default_charset my $charset = $msg->default_charset; $msg = $msg->default_charset('UTF-8'); Default charset used for form-data parsing, defaults to C. =head2 max_line_size my $size = $msg->max_line_size; $msg = $msg->max_line_size(1024); Maximum start line size in bytes, defaults to the value of the MOJO_MAX_LINE_SIZE environment variable or C<10240>. =head2 max_message_size my $size = $msg->max_message_size; $msg = $msg->max_message_size(1024); Maximum message size in bytes, defaults to the value of the MOJO_MAX_MESSAGE_SIZE environment variable or C<10485760>. Setting the value to C<0> will allow messages of indefinite size. Note that increasing this value can also drastically increase memory usage, should you for example attempt to parse an excessively large message body with the L, L or L methods. =head2 version my $version = $msg->version; $msg = $msg->version('1.1'); HTTP version of message, defaults to C<1.1>. =head1 METHODS L inherits all methods from L and implements the following new ones. =head2 body my $bytes = $msg->body; $msg = $msg->body('Hello!'); Slurp or replace L, L will be automatically downgraded to L. =head2 body_params my $params = $msg->body_params; POST parameters extracted from C or C message body, usually a L object. Note that this method caches all data, so it should not be called before the entire message body has been received. Parts of the message body need to be loaded into memory to parse POST parameters, so you have to make sure it is not excessively large. # Get POST parameter value say $msg->body_params->param('foo'); =head2 body_size my $size = $msg->body_size; Content size in bytes. =head2 build_body my $bytes = $msg->build_body; Render whole body. =head2 build_headers my $bytes = $msg->build_headers; Render all headers. =head2 build_start_line my $bytes = $msg->build_start_line; Render start line. =head2 cookie my $cookie = $msg->cookie('foo'); my @cookies = $msg->cookie('foo'); Access message cookies, usually L or L objects. Note that this method caches all data, so it should not be called before all headers have been received. # Get cookie value say $msg->cookie('foo')->value; =head2 cookies my $cookies = $msg->cookies; Access message cookies. Meant to be overloaded in a subclass. =head2 dom my $dom = $msg->dom; my $collection = $msg->dom('a[href]'); Turns message body into a L object and takes an optional selector to perform a C on it right away, which returns a L object. Note that this method caches all data, so it should not be called before the entire message body has been received. The whole message body needs to be loaded into memory to parse it, so you have to make sure it is not excessively large. # Perform "find" right away say $msg->dom('h1, h2, h3')->text; # Use everything else Mojo::DOM has to offer say $msg->dom->at('title')->text; say $msg->dom->html->body->children->type->uniq; =head2 error my $err = $msg->error; my ($err, $code) = $msg->error; $msg = $msg->error('Parser error'); $msg = $msg->error('Parser error', 500); Error and code. =head2 extract_start_line my $bool = $msg->extract_start_line(\$str); Extract start line from string. Meant to be overloaded in a subclass. =head2 finish $msg = $msg->finish; Finish message parser/generator. =head2 fix_headers $msg = $msg->fix_headers; Make sure message has all required headers. =head2 get_body_chunk my $bytes = $msg->get_body_chunk($offset); Get a chunk of body data starting from a specific position. =head2 get_header_chunk my $bytes = $msg->get_header_chunk($offset); Get a chunk of header data, starting from a specific position. =head2 get_start_line_chunk my $bytes = $msg->get_start_line_chunk($offset); Get a chunk of start line data starting from a specific position. Meant to be overloaded in a subclass. =head2 header_size my $size = $msg->header_size; Size of headers in bytes. =head2 headers my $headers = $msg->headers; Message headers, usually a L object. =head2 is_finished my $bool = $msg->is_finished; Check if message parser/generator is finished. =head2 is_limit_exceeded my $bool = $msg->is_limit_exceeded; Check if message has exceeded L or L. =head2 json my $hash = $msg->json; my $array = $msg->json; my $value = $msg->json('/foo/bar'); Decode JSON message body directly using L if possible, returns C otherwise. An optional JSON Pointer can be used to extract a specific value with L. Note that this method caches all data, so it should not be called before the entire message body has been received. The whole message body needs to be loaded into memory to parse it, so you have to make sure it is not excessively large. # Extract JSON values say $msg->json->{foo}{bar}[23]; say $msg->json('/foo/bar/23'); =head2 param my @names = $msg->param; my $foo = $msg->param('foo'); my @foo = $msg->param('foo'); Access POST parameters. Note that this method caches all data, so it should not be called before the entire message body has been received. Parts of the message body need to be loaded into memory to parse POST parameters, so you have to make sure it is not excessively large. =head2 parse $msg = $msg->parse('HTTP/1.1 200 OK...'); Parse message chunk. =head2 start_line_size my $size = $msg->start_line_size; Size of the start line in bytes. =head2 text my $str = $msg->text; Retrieve L and try to decode it if a charset could be extracted with L. =head2 to_string my $str = $msg->to_string; Render whole message. =head2 upload my $upload = $msg->upload('foo'); my @uploads = $msg->upload('foo'); Access C file uploads, usually L objects. Note that this method caches all data, so it should not be called before the entire message body has been received. # Get content of uploaded file say $msg->upload('foo')->asset->slurp; =head2 uploads my $uploads = $msg->uploads; All C file uploads, usually L objects. =head1 SEE ALSO L, L, L. =cut