package Mojo::IOLoop::Client; use Mojo::Base 'Mojo::EventEmitter'; use Errno 'EINPROGRESS'; use IO::Socket::IP; use IO::Socket::UNIX; use Mojo::IOLoop; use Mojo::IOLoop::TLS; use Scalar::Util 'weaken'; use Socket qw(IPPROTO_TCP SOCK_STREAM TCP_NODELAY); # Non-blocking name resolution requires Net::DNS::Native use constant NNR => $ENV{MOJO_NO_NNR} ? 0 : eval { require Net::DNS::Native; Net::DNS::Native->VERSION('0.15'); 1 }; my $NDN; # SOCKS support requires IO::Socket::Socks use constant SOCKS => $ENV{MOJO_NO_SOCKS} ? 0 : eval { require IO::Socket::Socks; IO::Socket::Socks->VERSION('0.64'); 1 }; use constant READ => SOCKS ? IO::Socket::Socks::SOCKS_WANT_READ() : 0; use constant WRITE => SOCKS ? IO::Socket::Socks::SOCKS_WANT_WRITE() : 0; has reactor => sub { Mojo::IOLoop->singleton->reactor }; sub DESTROY { shift->_cleanup } sub can_nnr {NNR} sub can_socks {SOCKS} sub connect { my ($self, $args) = (shift, ref $_[0] ? $_[0] : {@_}); # Timeout weaken $self; my $reactor = $self->reactor; $self->{timer} = $reactor->timer($args->{timeout} || 10, sub { $self->emit(error => 'Connect timeout') }); # Blocking name resolution $_ && s/[[\]]//g for @$args{qw(address socks_address)}; my $address = $args->{socks_address} || ($args->{address} ||= '127.0.0.1'); return $reactor->next_tick(sub { $self && $self->_connect($args) }) if !NNR || $args->{handle} || $args->{path}; # Non-blocking name resolution $NDN //= Net::DNS::Native->new(pool => 5, extra_thread => 1); my $handle = $self->{dns} = $NDN->getaddrinfo($address, _port($args), {protocol => IPPROTO_TCP, socktype => SOCK_STREAM}); $reactor->io( $handle => sub { my $reactor = shift; $reactor->remove($self->{dns}); my ($err, @res) = $NDN->get_result(delete $self->{dns}); return $self->emit(error => "Can't resolve: $err") if $err; $args->{addr_info} = \@res; $self->_connect($args); } )->watch($handle, 1, 0); } sub _cleanup { my $self = shift; $NDN->timedout($self->{dns}) if $NDN && $self->{dns}; return unless my $reactor = $self->reactor; $self->{$_} && $reactor->remove(delete $self->{$_}) for qw(dns timer handle); return $self; } sub _connect { my ($self, $args) = @_; my $path = $args->{path}; my $handle = $self->{handle} = $args->{handle}; unless ($handle) { my $class = $path ? 'IO::Socket::UNIX' : 'IO::Socket::IP'; my %options = (Blocking => 0); # UNIX domain socket if ($path) { $options{Peer} = $path } # IP socket else { if (my $info = $args->{addr_info}) { $options{PeerAddrInfo} = $info } else { $options{PeerAddr} = $args->{socks_address} || $args->{address}; $options{PeerPort} = _port($args); } $options{LocalAddr} = $args->{local_address} if $args->{local_address}; } return $self->emit(error => "Can't connect: $@") unless $self->{handle} = $handle = $class->new(%options); } $handle->blocking(0); $path ? $self->_try_socks($args) : $self->_wait('_ready', $handle, $args); } sub _port { $_[0]{socks_port} || $_[0]{port} || ($_[0]{tls} ? 443 : 80) } sub _ready { my ($self, $args) = @_; # Socket changes in between attempts and needs to be re-added for epoll/kqueue my $handle = $self->{handle}; unless ($handle->connect) { return $self->emit(error => $!) unless $! == EINPROGRESS; $self->reactor->remove($handle); return $self->_wait('_ready', $handle, $args); } return $self->emit(error => $! || 'Not connected') unless $handle->connected; # Disable Nagle's algorithm setsockopt $handle, IPPROTO_TCP, TCP_NODELAY, 1; $self->_try_socks($args); } sub _socks { my ($self, $args) = @_; # Connected my $handle = $self->{handle}; return $self->_try_tls($args) if $handle->ready; # Switch between reading and writing my $err = $IO::Socket::Socks::SOCKS_ERROR; if ($err == READ) { $self->reactor->watch($handle, 1, 0) } elsif ($err == WRITE) { $self->reactor->watch($handle, 1, 1) } else { $self->emit(error => $err) } } sub _try_socks { my ($self, $args) = @_; my $handle = $self->{handle}; return $self->_try_tls($args) unless $args->{socks_address}; return $self->emit( error => 'IO::Socket::Socks 0.64+ required for SOCKS support') unless SOCKS; my %options = (ConnectAddr => $args->{address}, ConnectPort => $args->{port}); @options{qw(AuthType Username Password)} = ('userpass', @$args{qw(socks_user socks_pass)}) if $args->{socks_user}; my $reactor = $self->reactor; $reactor->remove($handle); return $self->emit(error => 'SOCKS upgrade failed') unless IO::Socket::Socks->start_SOCKS($handle, %options); $self->_wait('_socks', $handle, $args); } sub _try_tls { my ($self, $args) = @_; my $handle = $self->{handle}; return $self->_cleanup->emit(connect => $handle) unless $args->{tls}; my $reactor = $self->reactor; $reactor->remove($handle); # Start TLS handshake weaken $self; my $tls = Mojo::IOLoop::TLS->new($handle)->reactor($self->reactor); $tls->on(upgrade => sub { $self->_cleanup->emit(connect => pop) }); $tls->on(error => sub { $self->emit(error => pop) }); $tls->negotiate(%$args); } sub _wait { my ($self, $next, $handle, $args) = @_; weaken $self; $self->reactor->io($handle => sub { $self->$next($args) }) ->watch($handle, 0, 1); } 1; =encoding utf8 =head1 NAME Mojo::IOLoop::Client - Non-blocking TCP/IP and UNIX domain socket client =head1 SYNOPSIS use Mojo::IOLoop::Client; # Create socket connection my $client = Mojo::IOLoop::Client->new; $client->on(connect => sub { my ($client, $handle) = @_; ... }); $client->on(error => sub { my ($client, $err) = @_; ... }); $client->connect(address => 'example.com', port => 80); # Start reactor if necessary $client->reactor->start unless $client->reactor->is_running; =head1 DESCRIPTION L opens TCP/IP and UNIX domain socket connections for L. =head1 EVENTS L inherits all events from L and can emit the following new ones. =head2 connect $client->on(connect => sub { my ($client, $handle) = @_; ... }); Emitted once the connection is established. =head2 error $client->on(error => sub { my ($client, $err) = @_; ... }); Emitted if an error occurs on the connection, fatal if unhandled. =head1 ATTRIBUTES L implements the following attributes. =head2 reactor my $reactor = $client->reactor; $client = $client->reactor(Mojo::Reactor::Poll->new); Low-level event reactor, defaults to the C attribute value of the global L singleton. =head1 METHODS L inherits all methods from L and implements the following new ones. =head2 can_nnr my $bool = Mojo::IOLoop::Client->can_nnr; True if L 0.15+ is installed and non-blocking name resolution support enabled. =head2 can_socks my $bool = Mojo::IOLoop::Client->can_socks; True if L 0.64+ is installed and SOCKS5 support enabled. =head2 connect $client->connect(address => '127.0.0.1', port => 3000); $client->connect({address => '127.0.0.1', port => 3000}); Open a socket connection to a remote host. Note that non-blocking name resolution depends on L (0.15+), SOCKS5 support on L (0.64), and TLS support on L (1.94+). These options are currently available: =over 2 =item address address => 'mojolicious.org' Address or host name of the peer to connect to, defaults to C<127.0.0.1>. =item handle handle => $handle Use an already prepared L object. =item local_address local_address => '127.0.0.1' Local address to bind to. =item path path => '/tmp/myapp.sock' Path of UNIX domain socket to connect to. =item port port => 80 Port to connect to, defaults to C<80> or C<443> with C option. =item socks_address socks_address => '127.0.0.1' Address or host name of SOCKS5 proxy server to use for connection. =item socks_pass socks_pass => 'secr3t' Password to use for SOCKS5 authentication. =item socks_port socks_port => 9050 Port of SOCKS5 proxy server to use for connection. =item socks_user socks_user => 'sri' Username to use for SOCKS5 authentication. =item timeout timeout => 15 Maximum amount of time in seconds establishing connection may take before getting canceled, defaults to C<10>. =item tls tls => 1 Enable TLS. =item tls_ca tls_ca => '/etc/tls/ca.crt' Path to TLS certificate authority file. Also activates hostname verification. =item tls_cert tls_cert => '/etc/tls/client.crt' Path to the TLS certificate file. =item tls_key tls_key => '/etc/tls/client.key' Path to the TLS key file. =back =head1 SEE ALSO L, L, L. =cut