package Socket; use strict; our($VERSION, @ISA, @EXPORT, @EXPORT_OK, %EXPORT_TAGS); $VERSION = "1.94"; =head1 NAME Socket, sockaddr_in, sockaddr_un, inet_aton, inet_ntoa, inet_pton, inet_ntop - load the C socket.h defines and structure manipulators =head1 SYNOPSIS use Socket; $proto = getprotobyname('udp'); socket(Socket_Handle, PF_INET, SOCK_DGRAM, $proto); $iaddr = gethostbyname('hishost.com'); $port = getservbyname('time', 'udp'); $sin = sockaddr_in($port, $iaddr); send(Socket_Handle, 0, 0, $sin); $proto = getprotobyname('tcp'); socket(Socket_Handle, PF_INET, SOCK_STREAM, $proto); $port = getservbyname('smtp', 'tcp'); $sin = sockaddr_in($port,inet_aton("127.1")); $sin = sockaddr_in(7,inet_aton("localhost")); $sin = sockaddr_in(7,INADDR_LOOPBACK); connect(Socket_Handle,$sin); ($port, $iaddr) = sockaddr_in(getpeername(Socket_Handle)); $peer_host = gethostbyaddr($iaddr, AF_INET); $peer_addr = inet_ntoa($iaddr); $proto = getprotobyname('tcp'); socket(Socket_Handle, PF_UNIX, SOCK_STREAM, $proto); unlink('/var/run/usock'); $sun = sockaddr_un('/var/run/usock'); connect(Socket_Handle,$sun); =head1 DESCRIPTION This module is just a translation of the C F file. Unlike the old mechanism of requiring a translated F file, this uses the B program (see the Perl source distribution) and your native C compiler. This means that it has a far more likely chance of getting the numbers right. This includes all of the commonly used pound-defines like AF_INET, SOCK_STREAM, etc. Also, some common socket "newline" constants are provided: the constants C, C, and C, as well as C<$CR>, C<$LF>, and C<$CRLF>, which map to C<\015>, C<\012>, and C<\015\012>. If you do not want to use the literal characters in your programs, then use the constants provided here. They are not exported by default, but can be imported individually, and with the C<:crlf> export tag: use Socket qw(:DEFAULT :crlf); In addition, some structure manipulation functions are available: =over 4 =item inet_aton HOSTNAME Takes a string giving the name of a host, and translates that to an opaque string (if programming in C, struct in_addr). Takes arguments of both the 'rtfm.mit.edu' type and '18.181.0.24'. If the host name cannot be resolved, returns undef. For multi-homed hosts (hosts with more than one address), the first address found is returned. For portability do not assume that the result of inet_aton() is 32 bits wide, in other words, that it would contain only the IPv4 address in network order. =item inet_ntoa IP_ADDRESS Takes a string (an opaque string as returned by inet_aton(), or a v-string representing the four octets of the IPv4 address in network order) and translates it into a string of the form 'd.d.d.d' where the 'd's are numbers less than 256 (the normal human-readable four dotted number notation for Internet addresses). =item INADDR_ANY Note: does not return a number, but a packed string. Returns the 4-byte wildcard ip address which specifies any of the hosts ip addresses. (A particular machine can have more than one ip address, each address corresponding to a particular network interface. This wildcard address allows you to bind to all of them simultaneously.) Normally equivalent to inet_aton('0.0.0.0'). =item INADDR_BROADCAST Note: does not return a number, but a packed string. Returns the 4-byte 'this-lan' ip broadcast address. This can be useful for some protocols to solicit information from all servers on the same LAN cable. Normally equivalent to inet_aton('255.255.255.255'). =item INADDR_LOOPBACK Note - does not return a number. Returns the 4-byte loopback address. Normally equivalent to inet_aton('localhost'). =item INADDR_NONE Note - does not return a number. Returns the 4-byte 'invalid' ip address. Normally equivalent to inet_aton('255.255.255.255'). =item IN6ADDR_ANY Returns the 16-byte wildcard IPv6 address. Normally equivalent to inet_pton(AF_INET6, "::") =item IN6ADDR_LOOPBACK Returns the 16-byte loopback IPv6 address. Normally equivalent to inet_pton(AF_INET6, "::1") =item sockaddr_family SOCKADDR Takes a sockaddr structure (as returned by pack_sockaddr_in(), pack_sockaddr_un() or the perl builtin functions getsockname() and getpeername()) and returns the address family tag. It will match the constant AF_INET for a sockaddr_in and AF_UNIX for a sockaddr_un. It can be used to figure out what unpacker to use for a sockaddr of unknown type. =item sockaddr_in PORT, ADDRESS =item sockaddr_in SOCKADDR_IN In a list context, unpacks its SOCKADDR_IN argument and returns an array consisting of (PORT, ADDRESS). In a scalar context, packs its (PORT, ADDRESS) arguments as a SOCKADDR_IN and returns it. If this is confusing, use pack_sockaddr_in() and unpack_sockaddr_in() explicitly. =item pack_sockaddr_in PORT, IP_ADDRESS Takes two arguments, a port number and an opaque string, IP_ADDRESS (as returned by inet_aton(), or a v-string). Returns the sockaddr_in structure with those arguments packed in with AF_INET filled in. For Internet domain sockets, this structure is normally what you need for the arguments in bind(), connect(), and send(), and is also returned by getpeername(), getsockname() and recv(). =item unpack_sockaddr_in SOCKADDR_IN Takes a sockaddr_in structure (as returned by pack_sockaddr_in()) and returns an array of two elements: the port and an opaque string representing the IP address (you can use inet_ntoa() to convert the address to the four-dotted numeric format). Will croak if the structure does not have AF_INET in the right place. =item sockaddr_in6 PORT, IP6_ADDRESS, [ SCOPE_ID, [ FLOWINFO ] ] =item sockaddr_in6 SOCKADDR_IN6 In list context, unpacks its SOCKADDR_IN6 argument according to unpack_sockaddr_in6(). In scalar context, packs its arguments according to pack_sockaddr_in6(). =item pack_sockaddr_in6 PORT, IP6_ADDRESS, [ SCOPE_ID, [ FLOWINFO ] ] Takes two to four arguments, a port number, an opaque string (as returned by inet_pton()), optionally a scope ID number, and optionally a flow label number. Returns the sockaddr_in6 structure with those arguments packed in with AF_INET6 filled in. IPv6 equivalent of pack_sockaddr_in(). =item unpack_sockaddr_in6 SOCKADDR_IN6 Takes a sockaddr_in6 structure (as returned by pack_sockaddr_in6()) and returns an array of four elements: the port number, an opaque string representing the IPv6 address, the scope ID, and the flow label. (You can use inet_ntop() to convert the address to the usual string format). Will croak if the structure does not have AF_INET6 in the right place. =item sockaddr_un PATHNAME =item sockaddr_un SOCKADDR_UN In a list context, unpacks its SOCKADDR_UN argument and returns an array consisting of (PATHNAME). In a scalar context, packs its PATHNAME arguments as a SOCKADDR_UN and returns it. If this is confusing, use pack_sockaddr_un() and unpack_sockaddr_un() explicitly. These are only supported if your system has EFE. =item pack_sockaddr_un PATH Takes one argument, a pathname. Returns the sockaddr_un structure with that path packed in with AF_UNIX filled in. For unix domain sockets, this structure is normally what you need for the arguments in bind(), connect(), and send(), and is also returned by getpeername(), getsockname() and recv(). =item unpack_sockaddr_un SOCKADDR_UN Takes a sockaddr_un structure (as returned by pack_sockaddr_un()) and returns the pathname. Will croak if the structure does not have AF_UNIX in the right place. =item inet_pton ADDRESS_FAMILY, HOSTNAME Takes an address family, either AF_INET or AF_INET6, and a string giving the name of a host, and translates that to an opaque string (if programming in C, struct in_addr or struct in6_addr depending on the address family passed in). The host string may be a string hostname, such as 'www.perl.org', or an IP address. If using an IP address, the type of IP address must be consistent with the address family passed into the function. This function is not exported by default. =item inet_ntop ADDRESS_FAMILY, IP_ADDRESS Takes an address family, either AF_INET or AF_INET6, and a string (an opaque string as returned by inet_aton() or inet_pton()) and translates it to an IPv4 or IPv6 address string. This function is not exported by default. =item getaddrinfo HOST, SERVICE, [ HINTS ] Given at least one of a hostname and a service name, returns a list of address structures to listen on or connect to. HOST and SERVICE should be plain strings (or a numerical port number for SERVICE). If present, HINTS should be a reference to a HASH, where the following keys are recognised: =over 8 =item flags => INT A bitfield containing C constants =item family => INT Restrict to only generating addresses in this address family =item socktype => INT Restrict to only generating addresses of this socket type =item protocol => INT Restrict to only generating addresses for this protocol =back The return value will be a list; the first value being an error indication, followed by a list of address structures (if no error occured). my ( $err, @results ) = getaddrinfo( ... ); The error value will be a dualvar; comparable to the C error constants, or printable as a human-readable error message string. Each value in the results list will be a HASH reference containing the following fields: =over 8 =item family => INT The address family (e.g. AF_INET) =item socktype => INT The socket type (e.g. SOCK_STREAM) =item protocol => INT The protocol (e.g. IPPROTO_TCP) =item addr => STRING The address in a packed string (such as would be returned by pack_sockaddr_in) =item canonname => STRING The canonical name for the host if the C flag was provided, or C otherwise. This field will only be present on the first returned address. =back =item getnameinfo ADDR, FLAGS Given a packed socket address (such as from C, C, or returned by C in a C field), returns the hostname and symbolic service name it represents. FLAGS may be a bitmask of C constants, or defaults to 0 if unspecified. The return value will be a list; the first value being an error condition, followed by the hostname and service name. my ( $err, $host, $service ) = getnameinfo( ... ); The error value will be a dualvar; comparable to the C error constants, or printable as a human-readable error message string. The host and service names will be plain strings. =back =cut use Carp; use warnings::register; require Exporter; require XSLoader; @ISA = qw(Exporter); # <@Nicholas> you can't change @EXPORT without breaking the implicit API # Please put any new constants in @EXPORT_OK! @EXPORT = qw( inet_aton inet_ntoa sockaddr_family pack_sockaddr_in unpack_sockaddr_in pack_sockaddr_un unpack_sockaddr_un pack_sockaddr_in6 unpack_sockaddr_in6 sockaddr_in sockaddr_in6 sockaddr_un INADDR_ANY INADDR_BROADCAST INADDR_LOOPBACK INADDR_NONE AF_802 AF_AAL AF_APPLETALK AF_CCITT AF_CHAOS AF_CTF AF_DATAKIT AF_DECnet AF_DLI AF_ECMA AF_GOSIP AF_HYLINK AF_IMPLINK AF_INET AF_INET6 AF_ISO AF_KEY AF_LAST AF_LAT AF_LINK AF_MAX AF_NBS AF_NIT AF_NS AF_OSI AF_OSINET AF_PUP AF_ROUTE AF_SNA AF_UNIX AF_UNSPEC AF_USER AF_WAN AF_X25 IOV_MAX IP_OPTIONS IP_HDRINCL IP_TOS IP_TTL IP_RECVOPTS IP_RECVRETOPTS IP_RETOPTS MSG_BCAST MSG_BTAG MSG_CTLFLAGS MSG_CTLIGNORE MSG_CTRUNC MSG_DONTROUTE MSG_DONTWAIT MSG_EOF MSG_EOR MSG_ERRQUEUE MSG_ETAG MSG_FIN MSG_MAXIOVLEN MSG_MCAST MSG_NOSIGNAL MSG_OOB MSG_PEEK MSG_PROXY MSG_RST MSG_SYN MSG_TRUNC MSG_URG MSG_WAITALL MSG_WIRE PF_802 PF_AAL PF_APPLETALK PF_CCITT PF_CHAOS PF_CTF PF_DATAKIT PF_DECnet PF_DLI PF_ECMA PF_GOSIP PF_HYLINK PF_IMPLINK PF_INET PF_INET6 PF_ISO PF_KEY PF_LAST PF_LAT PF_LINK PF_MAX PF_NBS PF_NIT PF_NS PF_OSI PF_OSINET PF_PUP PF_ROUTE PF_SNA PF_UNIX PF_UNSPEC PF_USER PF_WAN PF_X25 SCM_CONNECT SCM_CREDENTIALS SCM_CREDS SCM_RIGHTS SCM_TIMESTAMP SHUT_RD SHUT_RDWR SHUT_WR SOCK_DGRAM SOCK_RAW SOCK_RDM SOCK_SEQPACKET SOCK_STREAM SOL_SOCKET SOMAXCONN SO_ACCEPTCONN SO_ATTACH_FILTER SO_BACKLOG SO_BROADCAST SO_CHAMELEON SO_DEBUG SO_DETACH_FILTER SO_DGRAM_ERRIND SO_DONTLINGER SO_DONTROUTE SO_ERROR SO_FAMILY SO_KEEPALIVE SO_LINGER SO_OOBINLINE SO_PASSCRED SO_PASSIFNAME SO_PEERCRED SO_PROTOCOL SO_PROTOTYPE SO_RCVBUF SO_RCVLOWAT SO_RCVTIMEO SO_REUSEADDR SO_REUSEPORT SO_SECURITY_AUTHENTICATION SO_SECURITY_ENCRYPTION_NETWORK SO_SECURITY_ENCRYPTION_TRANSPORT SO_SNDBUF SO_SNDLOWAT SO_SNDTIMEO SO_STATE SO_TYPE SO_USELOOPBACK SO_XOPEN SO_XSE UIO_MAXIOV ); @EXPORT_OK = qw(CR LF CRLF $CR $LF $CRLF inet_pton inet_ntop getaddrinfo getnameinfo IN6ADDR_ANY IN6ADDR_LOOPBACK AI_CANONNAME AI_NUMERICHOST AI_NUMERICSERV AI_PASSIVE EAI_ADDRFAMILY EAI_AGAIN EAI_BADFLAGS EAI_FAIL EAI_FAMILY EAI_NODATA EAI_NONAME EAI_SERVICE EAI_SOCKTYPE IPPROTO_IP IPPROTO_IPV6 IPPROTO_RAW IPPROTO_ICMP IPPROTO_TCP IPPROTO_UDP NI_DGRAM NI_NAMEREQD NI_NUMERICHOST NI_NUMERICSERV TCP_KEEPALIVE TCP_MAXRT TCP_MAXSEG TCP_NODELAY TCP_STDURG TCP_CORK TCP_KEEPIDLE TCP_KEEPINTVL TCP_KEEPCNT TCP_SYNCNT TCP_LINGER2 TCP_DEFER_ACCEPT TCP_WINDOW_CLAMP TCP_INFO TCP_QUICKACK TCP_CONGESTION TCP_MD5SIG); %EXPORT_TAGS = ( crlf => [qw(CR LF CRLF $CR $LF $CRLF)], all => [@EXPORT, @EXPORT_OK], ); BEGIN { sub CR () {"\015"} sub LF () {"\012"} sub CRLF () {"\015\012"} } *CR = \CR(); *LF = \LF(); *CRLF = \CRLF(); sub sockaddr_in { if (@_ == 6 && !wantarray) { # perl5.001m compat; use this && die my($af, $port, @quad) = @_; warnings::warn "6-ARG sockaddr_in call is deprecated" if warnings::enabled(); pack_sockaddr_in($port, inet_aton(join('.', @quad))); } elsif (wantarray) { croak "usage: (port,iaddr) = sockaddr_in(sin_sv)" unless @_ == 1; unpack_sockaddr_in(@_); } else { croak "usage: sin_sv = sockaddr_in(port,iaddr))" unless @_ == 2; pack_sockaddr_in(@_); } } sub sockaddr_in6 { if (wantarray) { croak "usage: (port,in6addr,scope_id,flowinfo) = sockaddr_in6(sin6_sv)" unless @_ == 1; unpack_sockaddr_in6(@_); } else { croak "usage: sin6_sv = sockaddr_in6(port,in6addr,[scope_id,[flowinfo]])" unless @_ >= 2 and @_ <= 4; pack_sockaddr_in6(@_); } } sub sockaddr_un { if (wantarray) { croak "usage: (filename) = sockaddr_un(sun_sv)" unless @_ == 1; unpack_sockaddr_un(@_); } else { croak "usage: sun_sv = sockaddr_un(filename)" unless @_ == 1; pack_sockaddr_un(@_); } } XSLoader::load(); my %errstr; if( defined &getaddrinfo ) { # These are not part of the API, nothing uses them, and deleting them # reduces the size of %Socket:: by about 12K delete $Socket::{fake_getaddrinfo}; delete $Socket::{fake_getnameinfo}; } else { require Scalar::Util; *getaddrinfo = \&fake_getaddrinfo; *getnameinfo = \&fake_getnameinfo; # These numbers borrowed from GNU libc's implementation, but since # they're only used by our emulation, it doesn't matter if the real # platform's values differ my %constants = ( AI_PASSIVE => 1, AI_CANONNAME => 2, AI_NUMERICHOST => 4, # RFC 2553 doesn't define this but Linux does - lets be nice and # provide it since we can AI_NUMERICSERV => 1024, EAI_BADFLAGS => -1, EAI_NONAME => -2, EAI_NODATA => -5, EAI_FAMILY => -6, EAI_SERVICE => -8, NI_NUMERICHOST => 1, NI_NUMERICSERV => 2, NI_NAMEREQD => 8, NI_DGRAM => 16, ); foreach my $name ( keys %constants ) { my $value = $constants{$name}; no strict 'refs'; defined &$name or *$name = sub () { $value }; } %errstr = ( # These strings from RFC 2553 EAI_BADFLAGS() => "invalid value for ai_flags", EAI_NONAME() => "nodename nor servname provided, or not known", EAI_NODATA() => "no address associated with nodename", EAI_FAMILY() => "ai_family not supported", EAI_SERVICE() => "servname not supported for ai_socktype", ); } # The following functions are used if the system does not have a # getaddrinfo(3) function in libc; and are used to emulate it for the AF_INET # family # Borrowed from Regexp::Common::net my $REGEXP_IPv4_DECIMAL = qr/25[0-5]|2[0-4][0-9]|1?[0-9][0-9]{1,2}/; my $REGEXP_IPv4_DOTTEDQUAD = qr/$REGEXP_IPv4_DECIMAL\.$REGEXP_IPv4_DECIMAL\.$REGEXP_IPv4_DECIMAL\.$REGEXP_IPv4_DECIMAL/; sub fake_makeerr { my ( $errno ) = @_; my $errstr = $errno == 0 ? "" : ( $errstr{$errno} || $errno ); return Scalar::Util::dualvar( $errno, $errstr ); } sub fake_getaddrinfo { my ( $node, $service, $hints ) = @_; $node = "" unless defined $node; $service = "" unless defined $service; my ( $family, $socktype, $protocol, $flags ) = @$hints{qw( family socktype protocol flags )}; $family ||= Socket::AF_INET(); # 0 == AF_UNSPEC, which we want too $family == Socket::AF_INET() or return fake_makeerr( EAI_FAMILY() ); $socktype ||= 0; $protocol ||= 0; $flags ||= 0; my $flag_passive = $flags & AI_PASSIVE(); $flags &= ~AI_PASSIVE(); my $flag_canonname = $flags & AI_CANONNAME(); $flags &= ~AI_CANONNAME(); my $flag_numerichost = $flags & AI_NUMERICHOST(); $flags &= ~AI_NUMERICHOST(); my $flag_numericserv = $flags & AI_NUMERICSERV(); $flags &= ~AI_NUMERICSERV(); $flags == 0 or return fake_makeerr( EAI_BADFLAGS() ); $node eq "" and $service eq "" and return fake_makeerr( EAI_NONAME() ); my $canonname; my @addrs; if( $node ne "" ) { return fake_makeerr( EAI_NONAME() ) if( $flag_numerichost and $node !~ m/^$REGEXP_IPv4_DOTTEDQUAD$/ ); ( $canonname, undef, undef, undef, @addrs ) = gethostbyname( $node ); defined $canonname or return fake_makeerr( EAI_NONAME() ); undef $canonname unless $flag_canonname; } else { $addrs[0] = $flag_passive ? Socket::inet_aton( "0.0.0.0" ) : Socket::inet_aton( "127.0.0.1" ); } my @ports; # Actually ARRAYrefs of [ socktype, protocol, port ] my $protname = ""; if( $protocol ) { $protname = getprotobynumber( $protocol ); } if( $service ne "" and $service !~ m/^\d+$/ ) { return fake_makeerr( EAI_NONAME() ) if( $flag_numericserv ); getservbyname( $service, $protname ) or return fake_makeerr( EAI_SERVICE() ); } foreach my $this_socktype ( Socket::SOCK_STREAM(), Socket::SOCK_DGRAM(), Socket::SOCK_RAW() ) { next if $socktype and $this_socktype != $socktype; my $this_protname = "raw"; $this_socktype == Socket::SOCK_STREAM() and $this_protname = "tcp"; $this_socktype == Socket::SOCK_DGRAM() and $this_protname = "udp"; next if $protname and $this_protname ne $protname; my $port; if( $service ne "" ) { if( $service =~ m/^\d+$/ ) { $port = "$service"; } else { ( undef, undef, $port, $this_protname ) = getservbyname( $service, $this_protname ); next unless defined $port; } } else { $port = 0; } push @ports, [ $this_socktype, scalar getprotobyname( $this_protname ) || 0, $port ]; } my @ret; foreach my $addr ( @addrs ) { foreach my $portspec ( @ports ) { my ( $socktype, $protocol, $port ) = @$portspec; push @ret, { family => $family, socktype => $socktype, protocol => $protocol, addr => Socket::pack_sockaddr_in( $port, $addr ), canonname => undef, }; } } # Only supply canonname for the first result if( defined $canonname ) { $ret[0]->{canonname} = $canonname; } return ( fake_makeerr( 0 ), @ret ); } sub fake_getnameinfo { my ( $addr, $flags ) = @_; my ( $port, $inetaddr ); eval { ( $port, $inetaddr ) = Socket::unpack_sockaddr_in( $addr ) } or return fake_makeerr( EAI_FAMILY() ); my $family = Socket::AF_INET(); $flags ||= 0; my $flag_numerichost = $flags & NI_NUMERICHOST(); $flags &= ~NI_NUMERICHOST(); my $flag_numericserv = $flags & NI_NUMERICSERV(); $flags &= ~NI_NUMERICSERV(); my $flag_namereqd = $flags & NI_NAMEREQD(); $flags &= ~NI_NAMEREQD(); my $flag_dgram = $flags & NI_DGRAM() ; $flags &= ~NI_DGRAM(); $flags == 0 or return fake_makeerr( EAI_BADFLAGS() ); my $node; if( $flag_numerichost ) { $node = Socket::inet_ntoa( $inetaddr ); } else { $node = gethostbyaddr( $inetaddr, $family ); if( !defined $node ) { return fake_makeerr( EAI_NONAME() ) if $flag_namereqd; $node = Socket::inet_ntoa( $inetaddr ); } } my $service; if( $flag_numericserv ) { $service = "$port"; } else { my $protname = $flag_dgram ? "udp" : ""; $service = getservbyport( $port, $protname ); if( !defined $service ) { $service = "$port"; } } return ( fake_makeerr( 0 ), $node, $service ); } 1;