1/* Part of SWI-Prolog 2 3 Author: Jan Wielemaker 4 E-mail: J.Wielemaker@vu.nl 5 WWW: http://www.swi-prolog.org 6 Copyright (c) 2000-2023, University of Amsterdam 7 VU University Amsterdam 8 CWI, Amsterdam 9 SWI-Prolog Solutions b.v. 10 All rights reserved. 11 12 Redistribution and use in source and binary forms, with or without 13 modification, are permitted provided that the following conditions 14 are met: 15 16 1. Redistributions of source code must retain the above copyright 17 notice, this list of conditions and the following disclaimer. 18 19 2. Redistributions in binary form must reproduce the above copyright 20 notice, this list of conditions and the following disclaimer in 21 the documentation and/or other materials provided with the 22 distribution. 23 24 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 25 "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 26 LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 27 FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE 28 COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 29 INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 30 BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 31 LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER 32 CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 33 LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN 34 ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 35 POSSIBILITY OF SUCH DAMAGE. 36*/ 37 38:- module(socket, 39 [ socket_create/2, % -Socket, +Options 40 tcp_socket/1, % -Socket 41 tcp_close_socket/1, % +Socket 42 tcp_open_socket/3, % +Socket, -Read, -Write 43 tcp_connect/2, % +Socket, +Address 44 tcp_connect/3, % +Address, -StreamPair, +Options 45 tcp_connect/4, % +Socket, +Address, -Read, -Write) 46 tcp_bind/2, % +Socket, +Address 47 tcp_accept/3, % +Master, -Slave, -PeerName 48 tcp_listen/2, % +Socket, +BackLog 49 tcp_fcntl/3, % +Socket, +Command, ?Arg 50 tcp_setopt/2, % +Socket, +Option 51 tcp_getopt/2, % +Socket, ?Option 52 host_address/3, % ?HostName, ?Address, +Options 53 tcp_host_to_address/2, % ?HostName, ?Ip-nr 54 tcp_select/3, % +Inputs, -Ready, +Timeout 55 gethostname/1, % -HostName 56 57 ip_name/2, % ?Ip, ?Name 58 59 tcp_open_socket/2, % +Socket, -StreamPair 60 61 udp_socket/1, % -Socket 62 udp_receive/4, % +Socket, -Data, -Sender, +Options 63 udp_send/4, % +Socket, +Data, +Sender, +Options 64 65 negotiate_socks_connection/2% +DesiredEndpoint, +StreamPair 66 ]). 67:- use_module(library(debug), [assertion/1, debug/3]). 68:- autoload(library(lists), [last/2, member/2, append/3, append/2]). 69:- autoload(library(apply), [maplist/3, maplist/2]). 70:- autoload(library(error), 71 [instantiation_error/1, syntax_error/1, must_be/2, domain_error/2]). 72:- autoload(library(option), [option/2, option/3]). 73 74:- multifile 75 rewrite_host/3. % +HostIn, -Host, +Socket
202:- multifile 203 tcp_connect_hook/3, % +Socket, +Addr, -In, -Out 204 tcp_connect_hook/4, % +Socket, +Addr, -Stream 205 proxy_for_url/3, % +URL, +Host, -ProxyList 206 try_proxy/4. % +Proxy, +Addr, -Socket, -Stream 207 208:- predicate_options(tcp_connect/3, 3, 209 [ bypass_proxy(boolean), 210 nodelay(boolean), 211 domain(oneof([inet,inet6])) 212 ]). 213 214:- use_foreign_library(foreign(socket)). 215:- public tcp_debug/1. % set debugging. 216 217:- if(current_predicate(unix_domain_socket/1)). 218:- export(unix_domain_socket/1). % -Socket 219:- endif.
inet (default), inet6, unix or local (same
as unix)stream (default) to create a TCP connection or
dgram to create a UDP socket.This predicate subsumes tcp_socket/1, udp_socket/1 and unix_domain_socket/1.
socket_create(SocketId, []) or, explicit,
socket_create(SocketId, [domain(inet), type(stream)]).socket_create(SocketId, [domain(unix)]) or,
explicit, socket_create(SocketId, [domain(unix), type(stream)])
Unix domain socket affect tcp_connect/2 (for clients) and
tcp_bind/2 and tcp_accept/3 (for servers). The address is an atom
or string that is handled as a file name. On most systems the
length of this file name is limited to 128 bytes (including null
terminator), but according to the Linux documentation (unix(7)),
portable applications must keep the address below 92 bytes. Note
that these lengths are in bytes. Non-ascii characters may be
represented as multiple bytes. If the length limit is exceeded a
representation_error(af_unix_name) exception is raised.
281tcp_open_socket(Socket, Stream) :-
282 tcp_open_socket(Socket, In, Out),
283 ( var(Out)
284 -> Stream = In
285 ; stream_pair(Stream, In, Out)
286 ).tcp_bind(Socket, localhost:8080)
If Port is unbound, the system picks an arbitrary free port and unifies Port with the selected port number. Port is either an integer or the name of a registered service. See also tcp_connect/4.
af_unix if Socket is an AF_UNIX socket (see
unix_domain_socket/1).
tcp_socket(Socket),
tcp_connect(Socket, Host:Port),
tcp_open_socket(Socket, StreamPair)
Typical client applications should use the high level interface provided by tcp_connect/3 which avoids resource leaking if a step in the process fails, and can be hooked to support proxies. For example:
setup_call_cleanup(
tcp_connect(Host:Port, StreamPair, []),
talk(StreamPair),
close(StreamPair))
If SocketId is an AF_UNIX socket (see unix_domain_socket/1), Address is an atom or string denoting a file name.
362tcp_connect(Socket, Host0:Port) => 363 ( rewrite_host(Host0, Host, Socket) 364 -> true 365 ; Host = Host0 366 ), 367 tcp_connect_(Socket, Host:Port). 368tcp_connect(Socket, Address) => 369 tcp_connect_(Socket, Address).
This hook is currently defined in Windows to map localhost to
ip(127,0,0,1) as resolving localhost on Windows is often very
slow. Note that we do not want to do that in general as a system may
prefer to map localhost to `::1`, i.e., the IPv6 loopback address.
381:- if(current_prolog_flag(windows, true)). 382rewrite_host(localhost, ip(127,0,0,1), _). 383:- endif. 384 385 386 /******************************* 387 * HOOKABLE CONNECT * 388 *******************************/
:- multifile socket:tcp_connect_hook/4.
socket:tcp_connect_hook(Socket, Address, Read, Write) :-
proxy(ProxyAdress),
tcp_connect(Socket, ProxyAdress),
tcp_open_socket(Socket, Read, Write),
proxy_connect(Address, Read, Write).
411tcp_connect(Socket, Address, Read, Write) :- 412 tcp_connect_hook(Socket, Address, Read, Write), 413 !. 414tcp_connect(Socket, Address, Read, Write) :- 415 tcp_connect(Socket, Address), 416 tcp_open_socket(Socket, Read, Write).
false. If true, do not attempt to use any
proxies to obtain the connectionfalse. If true, set nodelay on the
resulting socket using tcp_setopt(Socket, nodelay)inet6. When omitted we use host_address/2
with type(stream) and try the returned addresses in order.The +,+,- mode is deprecated and does not support proxies. It behaves like tcp_connect/4, but creates a stream pair (see stream_pair/3).
457% Main mode: +,-,+ 458tcp_connect(Address, StreamPair, Options) :- 459 var(StreamPair), 460 !, 461 ( memberchk(bypass_proxy(true), Options) 462 -> tcp_connect_direct(Address, Socket, StreamPair, Options) 463 ; findall(Result, 464 try_a_proxy(Address, Result), 465 ResultList), 466 last(ResultList, Status) 467 -> ( Status = true(_Proxy, Socket, StreamPair) 468 -> true 469 ; throw(error(proxy_error(tried(ResultList)), _)) 470 ) 471 ; tcp_connect_direct(Address, Socket, StreamPair, Options) 472 ), 473 ( memberchk(nodelay(true), Options) 474 -> tcp_setopt(Socket, nodelay) 475 ; true 476 ). 477% backward compatibility mode +,+,- 478tcp_connect(Socket, Address, StreamPair) :- 479 tcp_connect_hook(Socket, Address, StreamPair0), 480 !, 481 StreamPair = StreamPair0. 482tcp_connect(Socket, Address, StreamPair) :- 483 connect_stream_pair(Socket, Address, StreamPair). 484 485:- public tcp_connect_direct/3. % used by HTTP proxy code. 486tcp_connect_direct(Address, Socket, StreamPair) :- 487 tcp_connect_direct(Address, Socket, StreamPair, []).
inet, inet6 is
given, perform a getaddrinfo() call to obtain the relevant
addresses.496tcp_connect_direct(Host0:Port, Socket, StreamPair, Options) :- 497 must_be(ground, Host0), 498 \+ option(domain(_), Options), 499 !, 500 ( rewrite_host(Host0, Host, Socket) 501 -> true 502 ; Host = Host0 503 ), 504 State = error(_), 505 ( ( is_ip(Host, Domain) 506 -> IP = Host 507 ; host_address(Host, Address, [type(stream)]), 508 Domain = Address.domain, 509 IP = Address.address 510 ), 511 socket_create(Socket, [domain(Domain)]), 512 E = error(_,_), 513 catch(connect_or_discard_socket(Socket, IP:Port, StreamPair), 514 E, store_error_and_fail(State, E)), 515 debug(socket, '~p: connected to ~p', [Host, IP]) 516 -> true 517 ; arg(1, State, Error), 518 assertion(nonvar(Error)), 519 throw(Error) 520 ). 521tcp_connect_direct(Address, Socket, StreamPair, Options) :- 522 make_socket(Address, Socket, Options), 523 connect_or_discard_socket(Socket, Address, StreamPair). 524 525is_ip(ip(_,_,_,_), inet). 526is_ip(ip(_,_,_,_, _,_,_,_), inet6). 527 528connect_or_discard_socket(Socket, Address, StreamPair) :- 529 setup_call_catcher_cleanup( 530 true, 531 connect_stream_pair(Socket, Address, StreamPair), 532 Catcher, cleanup(Catcher, Socket)). 533 534cleanup(exit, _) :- !. 535cleanup(_, Socket) :- 536 tcp_close_socket(Socket). 537 538connect_stream_pair(Socket, Address, StreamPair) :- 539 tcp_connect(Socket, Address, Read, Write), 540 stream_pair(StreamPair, Read, Write). 541 542store_error_and_fail(State, E) :- 543 arg(1, State, E0), 544 var(E0), 545 nb_setarg(1, State, E), 546 fail. 547 548:- if(current_predicate(unix_domain_socket/1)). 549make_socket(Address, Socket, _Options) :- 550 ( atom(Address) 551 ; string(Address) 552 ), 553 !, 554 unix_domain_socket(Socket). 555:- endif. 556make_socket(_Address, Socket, Options) :- 557 option(domain(Domain), Options, inet), 558 socket_create(Socket, [domain(Domain)]).
select() call
underlying wait_for_input/3. As input multiplexing typically happens
in a background thread anyway we accept the loss of timeouts and
interrupts.
572tcp_select(ListOfStreams, ReadyList, TimeOut) :- 573 wait_for_input(ListOfStreams, ReadyList, TimeOut). 574 575 576 /******************************* 577 * PROXY SUPPORT * 578 *******************************/ 579 580try_a_proxy(Address, Result) :- 581 format(atom(URL), 'socket://~w', [Address]), 582 ( Address = Host:_ 583 -> true 584 ; Host = Address 585 ), 586 proxy_for_url(URL, Host, Proxy), 587 debug(socket(proxy), 'Socket connecting via ~w~n', [Proxy]), 588 ( catch(try_proxy(Proxy, Address, Socket, Stream), E, true) 589 -> ( var(E) 590 -> !, Result = true(Proxy, Socket, Stream) 591 ; Result = error(Proxy, E) 592 ) 593 ; Result = false(Proxy) 594 ), 595 debug(socket(proxy), 'Socket: ~w: ~p', [Proxy, Result]).
The default implementation recognises the values for Proxy
described below. The library(http/http_proxy) adds
proxy(Host,Port) which allows for HTTP proxies using the
CONNECT method.
616:- multifile 617 try_proxy/4. 618 619try_proxy(direct, Address, Socket, StreamPair) :- 620 !, 621 tcp_connect_direct(Address, Socket, StreamPair). 622try_proxy(socks(Host, Port), Address, Socket, StreamPair) :- 623 !, 624 tcp_connect_direct(Host:Port, Socket, StreamPair), 625 catch(negotiate_socks_connection(Address, StreamPair), 626 Error, 627 ( close(StreamPair, [force(true)]), 628 throw(Error) 629 )).
These correspond to the proxy methods defined by PAC Proxy auto-config. Additional methods can be returned if suitable clauses for http:http_connection_over_proxy/6 or try_proxy/4 are defined.
652:- multifile
653 proxy_for_url/3.socket_create(SocketId, [type(dgram)]) or, explicit,
socket_create(SocketId, [domain(inet), type(dgram)]).atom, codes,
string (default) or term (parse as Prolog term).octet. iso_latin_1, text or utf8.For example:
receive(Port) :-
udp_socket(Socket),
tcp_bind(Socket, Port),
repeat,
udp_receive(Socket, Data, From, [as(atom)]),
format('Got ~q from ~q~n', [Data, From]),
fail.
as(Type) option of
udp_receive/4. The are interpreted differently though. No Type
corresponds to CVT_ALL of PL_get_chars(). Using atom
corresponds to CVT_ATOM and any of string or codes is mapped
to CVT_STRING|CVT_LIST, allowing for a SWI-Prolog string
object, list of character codes or list of characters.
Finally, term maps to CVT_WRITE_CANONICAL. This implies that
arbitrary Prolog terms can be sent reliably using the option
list `[as(term),encoding(utf8)])`, using the same option list
for udp_receive/4.For example
send(Host, Port, Message) :-
udp_socket(S),
udp_send(S, Message, Host:Port, []),
tcp_close_socket(S).
A broadcast is achieved by using tcp_setopt(Socket, broadcast)
prior to sending the datagram and using the local network
broadcast address as a ip/4 term.
727 /******************************* 728 * OPTIONS * 729 *******************************/
setsockopt() and the socket interface (e.g.,
socket(7) on Linux) for details.
tcp_socket(Socket), tcp_setopt(Socket, bindtodevice(lo))
true, disable the Nagle optimization on this socket,
which is enabled by default on almost all modern TCP/IP
stacks. The Nagle optimization joins small packages, which is
generally desirable, but sometimes not. Please note that the
underlying TCP_NODELAY setting to setsockopt() is not
available on all platforms and systems may require additional
privileges to change this option. If the option is not
supported, tcp_setopt/2 raises a domain_error exception. See
Wikipedia
for details.setsockopt() with the
corresponding arguments.swipl-win.exe
executable) this flags defines whether or not any events are
dispatched on behalf of the user interface. Default is
true. Only very specific situations require setting
this to false.fcntl() call. Currently only suitable to deal
switch stream to non-blocking mode using:
tcp_fcntl(Stream, setfl, nonblock),
An attempt to read from a non-blocking stream while there is no
data available returns -1 (or end_of_file for read/1), but
at_end_of_stream/1 fails. On actual end-of-input,
at_end_of_stream/1 succeeds.
807tcp_fcntl(Socket, setfl, nonblock) :-
808 !,
809 tcp_setopt(Socket, nonblock).domain_error exception.
inet or inet6 to limit the results to the given
family.stream or dgram.true (default false), return the canonical host name
in the frist answerIn mode (+,-,+) Address is unified to a dict with the following keys:
inet or inet6. The underlying getaddrinfo() calls
this family. We use domain for consistency with
socket_create/2.stream or dgram.canonname(true) is specified on the first
returned address. Holds the official canonical host name.849host_address(HostName, Address, Options), ground(HostName) => 850 '$host_address'(HostName, Addresses, Options), 851 member(Address, Addresses). 852host_address(HostName, Address, Options), is_dict(Address) => 853 '$host_address'(HostName, Address.address, Options). 854host_address(HostName, Address, Options), ground(Address) => 855 '$host_address'(HostName, Address, Options).
getaddrinfo() and the
IP-number is unified to Address using a term of the format
ip(Byte1,Byte2,Byte3,Byte4). Otherwise, if Address is bound to an
ip(Byte1,Byte2,Byte3,Byte4) term, it is resolved by gethostbyaddr()
and the canonical hostname is unified with HostName.
870tcp_host_to_address(Host, Address), ground(Address) => 871 host_address(Host, Address, []). 872tcp_host_to_address(Host, Address), ground(Host) => 873 host_address(Host, [Dict|_], [domain(inet), type(stream)]), 874 Address = Dict.address.
gethostname() and return the canonical name
returned by getaddrinfo().ip(A,B,C,D) and ip6 addresses as ip(A,B,C,D,E,F,H). For example:
?- ip_name(ip(1,2,3,4), Name) Name = '1.2.3.4'. ?- ip_name(IP, '::'). IP = ip(0,0,0,0,0,0,0,0). ?- ip_name(IP, '1:2::3'). IP = ip(1,2,0,0,0,0,0,3).
897ip_name(Ip, Atom), ground(Atom) => 898 name_to_ip(Atom, Ip). 899ip_name(Ip, Atom), ground(Ip) => 900 ip_to_name(Ip, Atom). 901ip_name(Ip, _) => 902 instantiation_error(Ip). 903 904name_to_ip(Atom, Ip4) :- 905 split_string(Atom, '.', '', Parts), 906 length(Parts, 4), 907 maplist(string_byte, Parts, Bytes), 908 !, 909 Ip4 =.. [ip|Bytes]. 910name_to_ip(Atom, Ip6) :- 911 split_string(Atom, ':', '', Parts0), 912 clean_ends(Parts0, Parts1), 913 length(Parts1, Len), 914 ( Len < 8 915 -> append(Pre, [""|Post], Parts1), 916 Zeros is 8-(Len-1), 917 length(ZList, Zeros), 918 maplist(=("0"), ZList), 919 append([Pre, ZList, Post], Parts) 920 ; Len == 8 921 -> Parts = Parts1 922 ), 923 !, 924 maplist(string_short, Parts, Shorts), 925 Ip6 =.. [ip|Shorts]. 926name_to_ip(Atom, _) :- 927 syntax_error(ip_address(Atom)). 928 929clean_ends([""|T0], T) :- 930 !, 931 ( append(T1, [""], T0) 932 -> T = T1 933 ; T = T0 934 ). 935clean_ends(T0, T) :- 936 append(T1, [""], T0), 937 !, 938 T = T1. 939clean_ends(T, T). 940 941string_byte(String, Byte) :- 942 number_string(Byte, String), 943 must_be(between(0, 255), Byte). 944 945string_short(String, Short) :- 946 string_concat('0x', String, String1), 947 number_string(Short, String1), 948 must_be(between(0, 65535), Short). 949 950ip_to_name(ip(A,B,C,D), Atom) :- 951 !, 952 atomic_list_concat([A,B,C,D], '.', Atom). 953ip_to_name(IP, Atom) :- 954 compound(IP), 955 compound_name_arity(IP, ip, 8), 956 !, 957 IP =.. [ip|Parts], 958 ( zero_seq(Parts, Pre, Post, Len), 959 Len > 1, 960 \+ ( zero_seq(Post, _, _, Len2), 961 Len2 > Len 962 ) 963 -> append([Pre, [''], Post], Parts1), 964 ( Pre == [] 965 -> Parts2 = [''|Parts1] 966 ; Parts2 = Parts1 967 ), 968 ( Post == [] 969 -> append(Parts2, [''], Parts3) 970 ; Parts3 = Parts2 971 ) 972 ; Parts3 = Parts 973 ), 974 maplist(to_hex, Parts3, Parts4), 975 atomic_list_concat(Parts4, ':', Atom). 976ip_to_name(IP, _) :- 977 domain_error(ip_address, IP). 978 979zero_seq(List, Pre, Post, Count) :- 980 append(Pre, [0|Post0], List), 981 leading_zeros(Post0, Post, 1, Count). 982 983leading_zeros([0|T0], T, C0, C) => 984 C1 is C0+1, 985 leading_zeros(T0, T, C1, C). 986leading_zeros(L0, L, C0, C) => 987 L = L0, 988 C = C0. 989 990to_hex('', '') :- 991 !. 992to_hex(Num, Hex) :- 993 format(string(Hex), '~16r', [Num]). 994 995 996 997 /******************************* 998 * SOCKS * 999 *******************************/
ip(A,B,C,D) : port1011negotiate_socks_connection(Host:Port, StreamPair):- 1012 format(StreamPair, '~s', [[0x5, % Version 5 1013 0x1, % 1 auth method supported 1014 0x0]]), % which is 'no auth' 1015 flush_output(StreamPair), 1016 get_byte(StreamPair, ServerVersion), 1017 get_byte(StreamPair, AuthenticationMethod), 1018 ( ServerVersion =\= 0x05 1019 -> throw(error(socks_error(invalid_version(5, ServerVersion)), _)) 1020 ; AuthenticationMethod =:= 0xff 1021 -> throw(error(socks_error(invalid_authentication_method( 1022 0xff, 1023 AuthenticationMethod)), _)) 1024 ; true 1025 ), 1026 ( Host = ip(A,B,C,D) 1027 -> AddressType = 0x1, % IPv4 Address 1028 format(atom(Address), '~s', [[A, B, C, D]]) 1029 ; AddressType = 0x3, % Domain 1030 atom_length(Host, Length), 1031 format(atom(Address), '~s~w', [[Length], Host]) 1032 ), 1033 P1 is Port /\ 0xff, 1034 P2 is Port >> 8, 1035 format(StreamPair, '~s~w~s', [[0x5, % Version 5 1036 0x1, % Please establish a connection 1037 0x0, % reserved 1038 AddressType], 1039 Address, 1040 [P2, P1]]), 1041 flush_output(StreamPair), 1042 get_byte(StreamPair, _EchoedServerVersion), 1043 get_byte(StreamPair, Status), 1044 ( Status =:= 0 % Established! 1045 -> get_byte(StreamPair, _Reserved), 1046 get_byte(StreamPair, EchoedAddressType), 1047 ( EchoedAddressType =:= 0x1 1048 -> get_byte(StreamPair, _), % read IP4 1049 get_byte(StreamPair, _), 1050 get_byte(StreamPair, _), 1051 get_byte(StreamPair, _) 1052 ; get_byte(StreamPair, Length), % read host name 1053 forall(between(1, Length, _), 1054 get_byte(StreamPair, _)) 1055 ), 1056 get_byte(StreamPair, _), % read port 1057 get_byte(StreamPair, _) 1058 ; throw(error(socks_error(negotiation_rejected(Status)), _)) 1059 ). 1060 1061 1062 /******************************* 1063 * MESSAGES * 1064 *******************************/ 1065 1066/* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1067The C-layer generates exceptions of the following format, where Message 1068is extracted from the operating system. 1069 1070 error(socket_error(Code, Message), _) 1071- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */ 1072 1073:- multifile 1074 prolog:error_message//1. 1075 1076prologerror_message(socket_error(_Code, Message)) --> 1077 [ 'Socket error: ~w'-[Message] ]. 1078prologerror_message(socks_error(Error)) --> 1079 socks_error(Error). 1080prologerror_message(proxy_error(tried(Tried))) --> 1081 [ 'Failed to connect using a proxy. Tried:'-[], nl], 1082 proxy_tried(Tried). 1083 1084socks_error(invalid_version(Supported, Got)) --> 1085 [ 'SOCKS: unsupported version: ~p (supported: ~p)'- 1086 [ Got, Supported ] ]. 1087socks_error(invalid_authentication_method(Supported, Got)) --> 1088 [ 'SOCKS: unsupported authentication method: ~p (supported: ~p)'- 1089 [ Got, Supported ] ]. 1090socks_error(negotiation_rejected(Status)) --> 1091 [ 'SOCKS: connection failed: ~p'-[Status] ]. 1092 1093proxy_tried([]) --> []. 1094proxy_tried([H|T]) --> 1095 proxy_tried(H), 1096 proxy_tried(T). 1097proxy_tried(error(Proxy, Error)) --> 1098 [ '~w: '-[Proxy] ], 1099 '$messages':translate_message(Error). 1100proxy_tried(false(Proxy)) --> 1101 [ '~w: failed with unspecified error'-[Proxy] ]
Network socket (TCP and UDP) library
The library(socket) provides TCP and UDP inet-domain sockets from SWI-Prolog, both client and server-side communication. The interface of this library is very close to the Unix socket interface, also supported by the MS-Windows winsock API. SWI-Prolog applications that wish to communicate with multiple sources have two options:
Client applications
Using this library to establish a TCP connection to a server is as simple as opening a file. See also http_open/3.
dump_swi_homepage :- setup_call_cleanup( tcp_connect('www.swi-prolog.org':http, Stream, []), ( format(Stream, 'GET / HTTP/1.1~n\c Host: www.swi-prolog.org~n\c Connection: close~n~n', []), flush_output(Stream), copy_stream_data(Stream, current_output) ), close(Stream)).To deal with timeouts and multiple connections, threads, wait_for_input/3 and/or non-blocking streams (see tcp_fcntl/3) can be used.
Server applications
The typical sequence for generating a server application is given below. To close the server, use close/1 on AcceptFd.
create_server(Port) :- tcp_socket(Socket), tcp_bind(Socket, Port), tcp_listen(Socket, 5), tcp_open_socket(Socket, AcceptFd, _), <dispatch>There are various options for <dispatch>. The most commonly used option is to start a Prolog thread to handle the connection. Alternatively, input from multiple clients can be handled in a single thread by listening to these clients using wait_for_input/3. Finally, on Unix systems, we can use fork/1 to handle the connection in a new process. Note that fork/1 and threads do not cooperate well. Combinations can be realised but require good understanding of POSIX thread and fork-semantics.
Below is the typical example using a thread. Note the use of setup_call_cleanup/3 to guarantee that all resources are reclaimed, also in case of failure or exceptions.
dispatch(AcceptFd) :- tcp_accept(AcceptFd, Socket, Peer), thread_create(process_client(Socket, Peer), _, [ detached(true) ]), dispatch(AcceptFd). process_client(Socket, Peer) :- setup_call_cleanup( tcp_open_socket(Socket, StreamPair), handle_service(StreamPair), close(StreamPair)). handle_service(StreamPair) :- ...Socket exceptions
Errors that are trapped by the low-level library are mapped to an exception of the shape below. In this term, Code is a lower case atom that corresponds to the C macro name, e.g.,
epipefor a broken pipe. Message is the human readable string for the error code returned by the OS or the same as Code if the OS does not provide this functionality. Note that Code is derived from a static set of macros that may or may not be defines for the target OS. If the macro name is not known, Code isERROR_nnn, where nnn is an integer.Note that on Windows Code is a
wsa*code which makes it hard to write portable code that handles specific socket errors. Even on POSIX systems the exact set of errors produced by the network stack is not defined.Socket addresses (families)
The library supports both IP4 and IP6 addresses. On Unix systems it also supports Unix domain sockets (
AF_UNIX). The address of a Unix domain sockets is a file name. Unix domain sockets are created using socket_create/2 or unix_domain_socket/1.IP4 or IP6 sockets can be created using socket_create/2 or tcp_connect/3 with the
inet(default, IP3) orinet6domain option. Some of the predicates produce or consume IP addresses as a Prolog term. The format of this term is one of:The predicate ip_name/2 translates between the canonical textual representation and the above defined address terms.
Socket predicate reference
*/