/* Part of SWI-Prolog Author: Jan Wielemaker E-mail: J.Wielemaker@vu.nl WWW: http://www.swi-prolog.org Copyright (c) 2002-2020, University of Amsterdam VU University Amsterdam All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ :- module(http_header, [ http_read_request/2, % +Stream, -Request http_read_reply_header/2, % +Stream, -Reply http_reply/2, % +What, +Stream http_reply/3, % +What, +Stream, +HdrExtra http_reply/4, % +What, +Stream, +HdrExtra, -Code http_reply/5, % +What, +Stream, +HdrExtra, +Context, % -Code http_reply/6, % +What, +Stream, +HdrExtra, +Context, % +Request, -Code http_reply_header/3, % +Stream, +What, +HdrExtra http_status_reply/4, % +Status, +Out, +HdrExtra, -Code http_status_reply/5, % +Status, +Out, +HdrExtra, % +Context, -Code http_timestamp/2, % +Time, -HTTP string http_post_data/3, % +Stream, +Data, +HdrExtra http_read_header/2, % +Fd, -Header http_parse_header/2, % +Codes, -Header http_parse_header_value/3, % +Header, +HeaderValue, -MediaTypes http_join_headers/3, % +Default, +InHdr, -OutHdr http_update_encoding/3, % +HeaderIn, -Encoding, -HeaderOut http_update_connection/4, % +HeaderIn, +Request, -Connection, -HeaderOut http_update_transfer/4 % +HeaderIn, +Request, -Transfer, -HeaderOut ]). :- autoload(html_write, [ print_html/2, print_html/1, page/4, html/3, html_print_length/2 ]). :- autoload(http_exception,[map_exception_to_http_status/4]). :- autoload(mimepack,[mime_pack/3]). :- autoload(mimetype,[file_mime_type/2]). :- autoload(library(apply),[maplist/2]). :- autoload(library(base64),[base64/2]). :- autoload(library(debug),[debug/3,debugging/1]). :- autoload(library(error),[syntax_error/1,domain_error/2]). :- autoload(library(lists),[append/3,member/2,select/3,delete/3]). :- autoload(library(memfile), [ new_memory_file/1, open_memory_file/3, free_memory_file/1, open_memory_file/4, size_memory_file/3 ]). :- autoload(library(option),[option/3,option/2]). :- autoload(library(pairs),[pairs_values/2]). :- autoload(library(readutil), [read_line_to_codes/2,read_line_to_codes/3]). :- autoload(library(sgml_write),[xml_write/3]). :- autoload(library(socket),[gethostname/1]). :- autoload(library(uri), [ uri_components/2, uri_data/3, uri_encoded/3, uri_query_components/2 ]). :- autoload(library(url),[parse_url_search/2]). :- autoload(library(dcg/basics), [ integer/3, atom/3, whites/2, blanks_to_nl/2, string/3, number/3, blanks/2, float/3, nonblanks/3, eos/2 ]). :- use_module(library(settings),[setting/4,setting/2]). :- multifile http:status_page/3, % +Status, +Context, -HTML http:status_reply/3, % +Status, -Reply, +Options http:serialize_reply/2, % +Reply, -Body http:post_data_hook/3, % +Data, +Out, +HdrExtra http:mime_type_encoding/2. % +MimeType, -Encoding % see http_update_transfer/4. :- setting(http:chunked_transfer, oneof([never,on_request,if_possible]), on_request, 'When to use Transfer-Encoding: Chunked'). /** Handling HTTP headers The library library(http/http_header) provides primitives for parsing and composing HTTP headers. Its functionality is normally hidden by the other parts of the HTTP server and client libraries. */ :- discontiguous term_expansion/2. /******************************* * READ REQUEST * *******************************/ %! http_read_request(+FdIn:stream, -Request) is det. % % Read an HTTP request-header from FdIn and return the broken-down % request fields as +Name(+Value) pairs in a list. Request is % unified to =end_of_file= if FdIn is at the end of input. http_read_request(In, Request) :- catch(read_line_to_codes(In, Codes), E, true), ( var(E) -> ( Codes == end_of_file -> debug(http(header), 'end-of-file', []), Request = end_of_file ; debug(http(header), 'First line: ~s', [Codes]), Request = [input(In)|Request1], phrase(request(In, Request1), Codes), ( Request1 = [unknown(Text)|_] -> string_codes(S, Text), syntax_error(http_request(S)) ; true ) ) ; ( debugging(http(request)) -> message_to_string(E, Msg), debug(http(request), "Exception reading 1st line: ~s", [Msg]) ; true ), Request = end_of_file ). %! http_read_reply_header(+FdIn, -Reply) % % Read the HTTP reply header. Throws an exception if the current % input does not contain a valid reply header. http_read_reply_header(In, [input(In)|Reply]) :- read_line_to_codes(In, Codes), ( Codes == end_of_file -> debug(http(header), 'end-of-file', []), throw(error(syntax(http_reply_header, end_of_file), _)) ; debug(http(header), 'First line: ~s~n', [Codes]), ( phrase(reply(In, Reply), Codes) -> true ; atom_codes(Header, Codes), syntax_error(http_reply_header(Header)) ) ). /******************************* * FORMULATE REPLY * *******************************/ %! http_reply(+Data, +Out:stream) is det. %! http_reply(+Data, +Out:stream, +HdrExtra) is det. %! http_reply(+Data, +Out:stream, +HdrExtra, -Code) is det. %! http_reply(+Data, +Out:stream, +HdrExtra, +Context, -Code) is det. %! http_reply(+Data, +Out:stream, +HdrExtra, +Context, +Request, -Code) is det. % % Compose a complete HTTP reply from the term Data using % additional headers from HdrExtra to the output stream Out. % ExtraHeader is a list of Field(Value). Data is one of: % % * html(HTML) % HTML tokens as produced by html//1 from html_write.pl % % * file(+MimeType, +FileName) % Reply content of FileName using MimeType % % * file(+MimeType, +FileName, +Range) % Reply partial content of FileName with given MimeType % % * tmp_file(+MimeType, +FileName) % Same as =file=, but do not include modification time % % * bytes(+MimeType, +Bytes) % Send a sequence of Bytes with the indicated MimeType. % Bytes is either a string of character codes 0..255 or % list of integers in the range 0..255. Out-of-bound codes % result in a representation error exception. % % * stream(+In, +Len) % Reply content of stream. % % * cgi_stream(+In, +Len) % Reply content of stream, which should start with an % HTTP header, followed by a blank line. This is the % typical output from a CGI script. % % * Status % HTTP status report as defined by http_status_reply/4. % % @param HdrExtra provides additional reply-header fields, encoded % as Name(Value). It can also contain a field % content_length(-Len) to _retrieve_ the % value of the Content-length header that is replied. % @param Code is the numeric HTTP status code sent % % @tbd Complete documentation http_reply(What, Out) :- http_reply(What, Out, [connection(close)], _). http_reply(Data, Out, HdrExtra) :- http_reply(Data, Out, HdrExtra, _Code). http_reply(Data, Out, HdrExtra, Code) :- http_reply(Data, Out, HdrExtra, [], Code). http_reply(Data, Out, HdrExtra, Context, Code) :- http_reply(Data, Out, HdrExtra, Context, [method(get)], Code). http_reply(Data, Out, HdrExtra, _Context, Request, Code) :- byte_count(Out, C0), memberchk(method(Method), Request), catch(http_reply_data(Data, Out, HdrExtra, Method, Code), E, true), !, ( var(E) -> true ; ( E = error(io_error(write,_), _) ; E = error(socket_error(_,_), _) ) -> byte_count(Out, C1), Sent is C1 - C0, throw(error(http_write_short(Data, Sent), _)) ; E = error(timeout_error(write, _), _) -> throw(E) ; map_exception_to_http_status(E, Status, NewHdr, NewContext), http_status_reply(Status, Out, NewHdr, NewContext, Request, Code) ). http_reply(Status, Out, HdrExtra, Context, Request, Code) :- http_status_reply(Status, Out, HdrExtra, Context, Request, Code). :- meta_predicate if_no_head(0, +). %! http_reply_data(+Data, +Out, +HdrExtra, +Method, -Code) is semidet. % % Fails if Data is not a defined reply-data format, but a status % term. See http_reply/3 and http_status_reply/6. % % @error Various I/O errors. http_reply_data(Data, Out, HdrExtra, Method, Code) :- http_reply_data_(Data, Out, HdrExtra, Method, Code), flush_output(Out). http_reply_data_(html(HTML), Out, HdrExtra, Method, Code) :- !, phrase(reply_header(html(HTML), HdrExtra, Code), Header), send_reply_header(Out, Header), if_no_head(print_html(Out, HTML), Method). http_reply_data_(file(Type, File), Out, HdrExtra, Method, Code) :- !, phrase(reply_header(file(Type, File), HdrExtra, Code), Header), reply_file(Out, File, Header, Method). http_reply_data_(gzip_file(Type, File), Out, HdrExtra, Method, Code) :- !, phrase(reply_header(gzip_file(Type, File), HdrExtra, Code), Header), reply_file(Out, File, Header, Method). http_reply_data_(file(Type, File, Range), Out, HdrExtra, Method, Code) :- !, phrase(reply_header(file(Type, File, Range), HdrExtra, Code), Header), reply_file_range(Out, File, Header, Range, Method). http_reply_data_(tmp_file(Type, File), Out, HdrExtra, Method, Code) :- !, phrase(reply_header(tmp_file(Type, File), HdrExtra, Code), Header), reply_file(Out, File, Header, Method). http_reply_data_(bytes(Type, Bytes), Out, HdrExtra, Method, Code) :- !, phrase(reply_header(bytes(Type, Bytes), HdrExtra, Code), Header), send_reply_header(Out, Header), if_no_head(format(Out, '~s', [Bytes]), Method). http_reply_data_(stream(In, Len), Out, HdrExtra, Method, Code) :- !, phrase(reply_header(cgi_data(Len), HdrExtra, Code), Header), copy_stream(Out, In, Header, Method, 0, end). http_reply_data_(cgi_stream(In, Len), Out, HdrExtra, Method, Code) :- !, http_read_header(In, CgiHeader), seek(In, 0, current, Pos), Size is Len - Pos, http_join_headers(HdrExtra, CgiHeader, Hdr2), phrase(reply_header(cgi_data(Size), Hdr2, Code), Header), copy_stream(Out, In, Header, Method, 0, end). if_no_head(_, head) :- !. if_no_head(Goal, _) :- call(Goal). reply_file(Out, _File, Header, head) :- !, send_reply_header(Out, Header). reply_file(Out, File, Header, _) :- setup_call_cleanup( open(File, read, In, [type(binary)]), copy_stream(Out, In, Header, 0, end), close(In)). reply_file_range(Out, _File, Header, _Range, head) :- !, send_reply_header(Out, Header). reply_file_range(Out, File, Header, bytes(From, To), _) :- setup_call_cleanup( open(File, read, In, [type(binary)]), copy_stream(Out, In, Header, From, To), close(In)). copy_stream(Out, _, Header, head, _, _) :- !, send_reply_header(Out, Header). copy_stream(Out, In, Header, _, From, To) :- copy_stream(Out, In, Header, From, To). copy_stream(Out, In, Header, From, To) :- ( From == 0 -> true ; seek(In, From, bof, _) ), peek_byte(In, _), send_reply_header(Out, Header), ( To == end -> copy_stream_data(In, Out) ; Len is To - From, copy_stream_data(In, Out, Len) ). %! http_status_reply(+Status, +Out, +HdrExtra, -Code) is det. %! http_status_reply(+Status, +Out, +HdrExtra, +Context, -Code) is det. %! http_status_reply(+Status, +Out, +HdrExtra, +Context, +Request, -Code) is det. % % Emit HTML non-200 status reports. Such requests are always sent % as UTF-8 documents. % % Status can be one of the following: % - authorise(Method) % Challenge authorization. Method is one of % - basic(Realm) % - digest(Digest) % - authorise(basic,Realm) % Same as authorise(basic(Realm)). Deprecated. % - bad_request(ErrorTerm) % - busy % - created(Location) % - forbidden(Url) % - moved(To) % - moved_temporary(To) % - no_content % - not_acceptable(WhyHtml) % - not_found(Path) % - method_not_allowed(Method, Path) % - not_modified % - resource_error(ErrorTerm) % - see_other(To) % - switching_protocols(Goal,Options) % - server_error(ErrorTerm) % - unavailable(WhyHtml) http_status_reply(Status, Out, Options) :- _{header:HdrExtra, context:Context, code:Code, method:Method} :< Options, http_status_reply(Status, Out, HdrExtra, Context, [method(Method)], Code). http_status_reply(Status, Out, HdrExtra, Code) :- http_status_reply(Status, Out, HdrExtra, [], Code). http_status_reply(Status, Out, HdrExtra, Context, Code) :- http_status_reply(Status, Out, HdrExtra, Context, [method(get)], Code). http_status_reply(Status, Out, HdrExtra, Context, Request, Code) :- option(method(Method), Request, get), parsed_accept(Request, Accept), status_reply_flush(Status, Out, _{ context: Context, method: Method, code: Code, accept: Accept, header: HdrExtra }). parsed_accept(Request, Accept) :- memberchk(accept(Accept0), Request), http_parse_header_value(accept, Accept0, Accept1), !, Accept = Accept1. parsed_accept(_, [ media(text/html, [], 0.1, []), media(_, [], 0.01, []) ]). status_reply_flush(Status, Out, Options) :- status_reply(Status, Out, Options), !, flush_output(Out). %! status_reply(+Status, +Out, +Options:dict) % % Formulate a non-200 reply and send it to the stream Out. Options % is a dict containing: % % - header % - context % - method % - code % - accept % Replies without content status_reply(no_content, Out, Options) :- !, phrase(reply_header(status(no_content), Options), Header), send_reply_header(Out, Header). status_reply(switching_protocols(_Goal,SwitchOptions), Out, Options) :- !, ( option(headers(Extra1), SwitchOptions) -> true ; option(header(Extra1), SwitchOptions, []) ), http_join_headers(Options.header, Extra1, HdrExtra), phrase(reply_header(status(switching_protocols), Options.put(header,HdrExtra)), Header), send_reply_header(Out, Header). status_reply(authorise(basic, ''), Out, Options) :- !, status_reply(authorise(basic), Out, Options). status_reply(authorise(basic, Realm), Out, Options) :- !, status_reply(authorise(basic(Realm)), Out, Options). status_reply(not_modified, Out, Options) :- !, phrase(reply_header(status(not_modified), Options), Header), send_reply_header(Out, Header). % aliases (compatibility) status_reply(busy, Out, Options) :- status_reply(service_unavailable(busy), Out, Options). status_reply(unavailable(Why), Out, Options) :- status_reply(service_unavailable(Why), Out, Options). status_reply(resource_error(Why), Out, Options) :- status_reply(service_unavailable(Why), Out, Options). % replies with content status_reply(Status, Out, Options) :- status_has_content(Status), status_page_hook(Status, Reply, Options), serialize_body(Reply, Body), Status =.. List, append(List, [Body], ExList), ExStatus =.. ExList, phrase(reply_header(ExStatus, Options), Header), send_reply_header(Out, Header), reply_status_body(Out, Body, Options). %! status_has_content(+StatusTerm, -HTTPCode) % % True when StatusTerm is a status that usually comes with an % expanatory content message. status_has_content(created(_Location)). status_has_content(moved(_To)). status_has_content(moved_temporary(_To)). status_has_content(gone(_URL)). status_has_content(see_other(_To)). status_has_content(bad_request(_ErrorTerm)). status_has_content(authorise(_Method)). status_has_content(forbidden(_URL)). status_has_content(not_found(_URL)). status_has_content(method_not_allowed(_Method, _URL)). status_has_content(not_acceptable(_Why)). status_has_content(server_error(_ErrorTerm)). status_has_content(service_unavailable(_Why)). %! serialize_body(+Reply, -Body) is det. % % Serialize the reply as returned by status_page_hook/3 into a term: % % - body(Type, Encoding, Content) % In this term, Type is the media type, Encoding is the % required wire encoding and Content a string representing the % content. serialize_body(Reply, Body) :- http:serialize_reply(Reply, Body), !. serialize_body(html_tokens(Tokens), body(text/html, utf8, Content)) :- !, with_output_to(string(Content), print_html(Tokens)). serialize_body(Reply, Reply) :- Reply = body(_,_,_), !. serialize_body(Reply, _) :- domain_error(http_reply_body, Reply). reply_status_body(_, _, Options) :- Options.method == head, !. reply_status_body(Out, body(_Type, Encoding, Content), _Options) :- ( Encoding == octet -> format(Out, '~s', [Content]) ; setup_call_cleanup( set_stream(Out, encoding(Encoding)), format(Out, '~s', [Content]), set_stream(Out, encoding(octet))) ). %! http:serialize_reply(+Reply, -Body) is semidet. % % Multifile hook to serialize the result of http:status_reply/3 % into a term % % - body(Type, Encoding, Content) % In this term, Type is the media type, Encoding is the % required wire encoding and Content a string representing the % content. %! status_page_hook(+Term, -Reply, +Options) is det. % % Calls the following two hooks to generate an HTML page from a % status reply. % % - http:status_reply(+Term, -Reply, +Options) % Provide non-HTML description of the (non-200) reply. % The term Reply is handed to serialize_body/2, calling % the hook http:serialize_reply/2. % - http:status_page(+Term, +Context, -HTML) % - http:status_page(+Code, +Context, -HTML) % % @arg Term is the status term, e.g., not_found(URL) % @see http:status_page/3 status_page_hook(Term, Reply, Options) :- Context = Options.context, functor(Term, Name, _), status_number_fact(Name, Code), ( Options.code = Code, http:status_reply(Term, Reply, Options) ; http:status_page(Term, Context, HTML), Reply = html_tokens(HTML) ; http:status_page(Code, Context, HTML), % deprecated Reply = html_tokens(HTML) ), !. status_page_hook(created(Location), html_tokens(HTML), _Options) :- phrase(page([ title('201 Created') ], [ h1('Created'), p(['The document was created ', a(href(Location), ' Here') ]), \address ]), HTML). status_page_hook(moved(To), html_tokens(HTML), _Options) :- phrase(page([ title('301 Moved Permanently') ], [ h1('Moved Permanently'), p(['The document has moved ', a(href(To), ' Here') ]), \address ]), HTML). status_page_hook(moved_temporary(To), html_tokens(HTML), _Options) :- phrase(page([ title('302 Moved Temporary') ], [ h1('Moved Temporary'), p(['The document is currently ', a(href(To), ' Here') ]), \address ]), HTML). status_page_hook(gone(URL), html_tokens(HTML), _Options) :- phrase(page([ title('410 Resource Gone') ], [ h1('Resource Gone'), p(['The document has been removed ', a(href(URL), ' from here') ]), \address ]), HTML). status_page_hook(see_other(To), html_tokens(HTML), _Options) :- phrase(page([ title('303 See Other') ], [ h1('See Other'), p(['See other document ', a(href(To), ' Here') ]), \address ]), HTML). status_page_hook(bad_request(ErrorTerm), html_tokens(HTML), _Options) :- '$messages':translate_message(ErrorTerm, Lines, []), phrase(page([ title('400 Bad Request') ], [ h1('Bad Request'), p(\html_message_lines(Lines)), \address ]), HTML). status_page_hook(authorise(_Method), html_tokens(HTML), _Options):- phrase(page([ title('401 Authorization Required') ], [ h1('Authorization Required'), p(['This server could not verify that you ', 'are authorized to access the document ', 'requested. Either you supplied the wrong ', 'credentials (e.g., bad password), or your ', 'browser doesn\'t understand how to supply ', 'the credentials required.' ]), \address ]), HTML). status_page_hook(forbidden(URL), html_tokens(HTML), _Options) :- phrase(page([ title('403 Forbidden') ], [ h1('Forbidden'), p(['You don\'t have permission to access ', URL, ' on this server' ]), \address ]), HTML). status_page_hook(not_found(URL), html_tokens(HTML), _Options) :- phrase(page([ title('404 Not Found') ], [ h1('Not Found'), p(['The requested URL ', tt(URL), ' was not found on this server' ]), \address ]), HTML). status_page_hook(method_not_allowed(Method,URL), html_tokens(HTML), _Options) :- upcase_atom(Method, UMethod), phrase(page([ title('405 Method not allowed') ], [ h1('Method not allowed'), p(['The requested URL ', tt(URL), ' does not support method ', tt(UMethod), '.' ]), \address ]), HTML). status_page_hook(not_acceptable(WhyHTML), html_tokens(HTML), _Options) :- phrase(page([ title('406 Not Acceptable') ], [ h1('Not Acceptable'), WhyHTML, \address ]), HTML). status_page_hook(server_error(ErrorTerm), html_tokens(HTML), _Options) :- '$messages':translate_message(ErrorTerm, Lines, []), phrase(page([ title('500 Internal server error') ], [ h1('Internal server error'), p(\html_message_lines(Lines)), \address ]), HTML). status_page_hook(service_unavailable(Why), html_tokens(HTML), _Options) :- phrase(page([ title('503 Service Unavailable') ], [ h1('Service Unavailable'), \unavailable(Why), \address ]), HTML). unavailable(busy) --> html(p(['The server is temporarily out of resources, ', 'please try again later'])). unavailable(error(Formal,Context)) --> { '$messages':translate_message(error(Formal,Context), Lines, []) }, html_message_lines(Lines). unavailable(HTML) --> html(HTML). html_message_lines([]) --> []. html_message_lines([nl|T]) --> !, html([br([])]), html_message_lines(T). html_message_lines([flush]) --> []. html_message_lines([ansi(_Style,Fmt,Args)|T]) --> !, { format(string(S), Fmt, Args) }, html([S]), html_message_lines(T). html_message_lines([url(Pos)|T]) --> !, msg_url(Pos), html_message_lines(T). html_message_lines([url(URL, Label)|T]) --> !, html(a(href(URL), Label)), html_message_lines(T). html_message_lines([Fmt-Args|T]) --> !, { format(string(S), Fmt, Args) }, html([S]), html_message_lines(T). html_message_lines([Fmt|T]) --> !, { format(string(S), Fmt, []) }, html([S]), html_message_lines(T). msg_url(File:Line:Pos) --> !, html([File, :, Line, :, Pos]). msg_url(File:Line) --> !, html([File, :, Line]). msg_url(File) --> html([File]). %! http_join_headers(+Default, +Header, -Out) % % Append headers from Default to Header if they are not % already part of it. http_join_headers([], H, H). http_join_headers([H|T], Hdr0, Hdr) :- functor(H, N, A), functor(H2, N, A), member(H2, Hdr0), !, http_join_headers(T, Hdr0, Hdr). http_join_headers([H|T], Hdr0, [H|Hdr]) :- http_join_headers(T, Hdr0, Hdr). %! http_update_encoding(+HeaderIn, -Encoding, -HeaderOut) % % Allow for rewrite of the header, adjusting the encoding. We % distinguish three options. If the user announces `text', we % always use UTF-8 encoding. If the user announces charset=utf-8 % we use UTF-8 and otherwise we use octet (raw) encoding. % Alternatively we could dynamically choose for ASCII, ISO-Latin-1 % or UTF-8. http_update_encoding(Header0, utf8, [content_type(Type)|Header]) :- select(content_type(Type0), Header0, Header), sub_atom(Type0, 0, _, _, 'text/'), !, ( sub_atom(Type0, S, _, _, ';') -> sub_atom(Type0, 0, S, _, B) ; B = Type0 ), atom_concat(B, '; charset=UTF-8', Type). http_update_encoding(Header, Encoding, Header) :- memberchk(content_type(Type), Header), ( sub_atom_icasechk(Type, _, 'utf-8') -> Encoding = utf8 ; http:mime_type_encoding(Type, Encoding) -> true ; mime_type_encoding(Type, Encoding) ). http_update_encoding(Header, octet, Header). %! mime_type_encoding(+MimeType, -Encoding) is semidet. % % Encoding is the (default) character encoding for MimeType. Hooked by % http:mime_type_encoding/2. mime_type_encoding('application/json', utf8). mime_type_encoding('application/jsonrequest', utf8). mime_type_encoding('application/x-prolog', utf8). mime_type_encoding('application/n-quads', utf8). mime_type_encoding('application/n-triples', utf8). mime_type_encoding('application/sparql-query', utf8). mime_type_encoding('application/trig', utf8). mime_type_encoding('application/sparql-results+json', utf8). mime_type_encoding('application/sparql-results+xml', utf8). %! http:mime_type_encoding(+MimeType, -Encoding) is semidet. % % Encoding is the (default) character encoding for MimeType. This is % used for setting the encoding for HTTP replies after the user calls % format('Content-type: ~n'). This hook is called before % mime_type_encoding/2. This default defines `utf8` for JSON and % Turtle derived =|application/|= MIME types. %! http_update_connection(+CGIHeader, +Request, -Connection, -Header) % % Merge keep-alive information from Request and CGIHeader into % Header. http_update_connection(CgiHeader, Request, Connect, [connection(Connect)|Rest]) :- select(connection(CgiConn), CgiHeader, Rest), !, connection(Request, ReqConnection), join_connection(ReqConnection, CgiConn, Connect). http_update_connection(CgiHeader, Request, Connect, [connection(Connect)|CgiHeader]) :- connection(Request, Connect). join_connection(Keep1, Keep2, Connection) :- ( downcase_atom(Keep1, 'keep-alive'), downcase_atom(Keep2, 'keep-alive') -> Connection = 'Keep-Alive' ; Connection = close ). %! connection(+Header, -Connection) % % Extract the desired connection from a header. connection(Header, Close) :- ( memberchk(connection(Connection), Header) -> Close = Connection ; memberchk(http_version(1-X), Header), X >= 1 -> Close = 'Keep-Alive' ; Close = close ). %! http_update_transfer(+Request, +CGIHeader, -Transfer, -Header) % % Decide on the transfer encoding from the Request and the CGI % header. The behaviour depends on the setting % http:chunked_transfer. If =never=, even explitic requests are % ignored. If =on_request=, chunked encoding is used if requested % through the CGI header and allowed by the client. If % =if_possible=, chunked encoding is used whenever the client % allows for it, which is interpreted as the client supporting % HTTP 1.1 or higher. % % Chunked encoding is more space efficient and allows the client % to start processing partial results. The drawback is that errors % lead to incomplete pages instead of a nicely formatted complete % page. http_update_transfer(Request, CgiHeader, Transfer, Header) :- setting(http:chunked_transfer, When), http_update_transfer(When, Request, CgiHeader, Transfer, Header). http_update_transfer(never, _, CgiHeader, none, Header) :- !, delete(CgiHeader, transfer_encoding(_), Header). http_update_transfer(_, _, CgiHeader, none, Header) :- memberchk(location(_), CgiHeader), !, delete(CgiHeader, transfer_encoding(_), Header). http_update_transfer(_, Request, CgiHeader, Transfer, Header) :- select(transfer_encoding(CgiTransfer), CgiHeader, Rest), !, transfer(Request, ReqConnection), join_transfer(ReqConnection, CgiTransfer, Transfer), ( Transfer == none -> Header = Rest ; Header = [transfer_encoding(Transfer)|Rest] ). http_update_transfer(if_possible, Request, CgiHeader, Transfer, Header) :- transfer(Request, Transfer), Transfer \== none, !, Header = [transfer_encoding(Transfer)|CgiHeader]. http_update_transfer(_, _, CgiHeader, none, CgiHeader). join_transfer(chunked, chunked, chunked) :- !. join_transfer(_, _, none). %! transfer(+Header, -Connection) % % Extract the desired connection from a header. transfer(Header, Transfer) :- ( memberchk(transfer_encoding(Transfer0), Header) -> Transfer = Transfer0 ; memberchk(http_version(1-X), Header), X >= 1 -> Transfer = chunked ; Transfer = none ). %! content_length_in_encoding(+Encoding, +In, -Bytes) % % Determine hom many bytes are required to represent the data from % stream In using the given encoding. Fails if the data cannot be % represented with the given encoding. content_length_in_encoding(Enc, Stream, Bytes) :- stream_property(Stream, position(Here)), setup_call_cleanup( open_null_stream(Out), ( set_stream(Out, encoding(Enc)), catch(copy_stream_data(Stream, Out), _, fail), flush_output(Out), byte_count(Out, Bytes) ), ( close(Out, [force(true)]), set_stream_position(Stream, Here) )). /******************************* * POST SUPPORT * *******************************/ %! http_post_data(+Data, +Out:stream, +HdrExtra) is det. % % Send data on behalf on an HTTP POST request. This predicate is % normally called by http_post/4 from http_client.pl to send the % POST data to the server. Data is one of: % % * html(+Tokens) % Result of html//1 from html_write.pl % % * json(+Term) % Posting a JSON query and processing the JSON reply (or any other % reply understood by http_read_data/3) is simple as % =|http_post(URL, json(Term), Reply, [])|=, where Term is a JSON % term as described in json.pl and reply is of the same format if % the server replies with JSON, when using module =|:- % use_module(library(http/http_json))|=. Note that the module is % used in both http server and http client, see % library(http/http_json). % % * xml(+Term) % Post the result of xml_write/3 using the Mime-type % =|text/xml|= % % * xml(+Type, +Term) % Post the result of xml_write/3 using the given Mime-type % and an empty option list to xml_write/3. % % * xml(+Type, +Term, +Options) % Post the result of xml_write/3 using the given Mime-type % and option list for xml_write/3. % % * file(+File) % Send contents of a file. Mime-type is determined by % file_mime_type/2. % % * file(+Type, +File) % Send file with content of indicated mime-type. % % * memory_file(+Type, +Handle) % Similar to file(+Type, +File), but using a memory file % instead of a real file. See new_memory_file/1. % % * codes(+Codes) % As codes(text/plain, Codes). % % * codes(+Type, +Codes) % Send Codes using the indicated MIME-type. % % * bytes(+Type, +Bytes) % Send Bytes using the indicated MIME-type. Bytes is either a % string of character codes 0..255 or list of integers in the % range 0..255. Out-of-bound codes result in a representation % error exception. % % * atom(+Atom) % As atom(text/plain, Atom). % % * atom(+Type, +Atom) % Send Atom using the indicated MIME-type. % % * cgi_stream(+Stream, +Len) Read the input from Stream which, % like CGI data starts with a partial HTTP header. The fields of % this header are merged with the provided HdrExtra fields. The % first Len characters of Stream are used. % % * form(+ListOfParameter) % Send data of the MIME type application/x-www-form-urlencoded as % produced by browsers issuing a POST request from an HTML form. % ListOfParameter is a list of Name=Value or Name(Value). % % * form_data(+ListOfData) % Send data of the MIME type =|multipart/form-data|= as produced % by browsers issuing a POST request from an HTML form using % enctype =|multipart/form-data|=. ListOfData is the same as for % the List alternative described below. Below is an example. % Repository, etc. are atoms providing the value, while the last % argument provides a value from a file. % % == % ..., % http_post([ protocol(http), % host(Host), % port(Port), % path(ActionPath) % ], % form_data([ repository = Repository, % dataFormat = DataFormat, % baseURI = BaseURI, % verifyData = Verify, % data = file(File) % ]), % _Reply, % []), % ..., % == % % * List % If the argument is a plain list, it is sent using the MIME type % multipart/mixed and packed using mime_pack/3. See mime_pack/3 % for details on the argument format. http_post_data(Data, Out, HdrExtra) :- http:post_data_hook(Data, Out, HdrExtra), !. http_post_data(html(HTML), Out, HdrExtra) :- !, phrase(post_header(html(HTML), HdrExtra), Header), send_request_header(Out, Header), print_html(Out, HTML). http_post_data(xml(XML), Out, HdrExtra) :- !, http_post_data(xml(text/xml, XML, []), Out, HdrExtra). http_post_data(xml(Type, XML), Out, HdrExtra) :- !, http_post_data(xml(Type, XML, []), Out, HdrExtra). http_post_data(xml(Type, XML, Options), Out, HdrExtra) :- !, setup_call_cleanup( new_memory_file(MemFile), ( setup_call_cleanup( open_memory_file(MemFile, write, MemOut), xml_write(MemOut, XML, Options), close(MemOut)), http_post_data(memory_file(Type, MemFile), Out, HdrExtra) ), free_memory_file(MemFile)). http_post_data(file(File), Out, HdrExtra) :- !, ( file_mime_type(File, Type) -> true ; Type = text/plain ), http_post_data(file(Type, File), Out, HdrExtra). http_post_data(file(Type, File), Out, HdrExtra) :- !, phrase(post_header(file(Type, File), HdrExtra), Header), send_request_header(Out, Header), setup_call_cleanup( open(File, read, In, [type(binary)]), copy_stream_data(In, Out), close(In)). http_post_data(memory_file(Type, Handle), Out, HdrExtra) :- !, phrase(post_header(memory_file(Type, Handle), HdrExtra), Header), send_request_header(Out, Header), setup_call_cleanup( open_memory_file(Handle, read, In, [encoding(octet)]), copy_stream_data(In, Out), close(In)). http_post_data(codes(Codes), Out, HdrExtra) :- !, http_post_data(codes(text/plain, Codes), Out, HdrExtra). http_post_data(codes(Type, Codes), Out, HdrExtra) :- !, phrase(post_header(codes(Type, Codes), HdrExtra), Header), send_request_header(Out, Header), setup_call_cleanup( set_stream(Out, encoding(utf8)), format(Out, '~s', [Codes]), set_stream(Out, encoding(octet))). http_post_data(bytes(Type, Bytes), Out, HdrExtra) :- !, phrase(post_header(bytes(Type, Bytes), HdrExtra), Header), send_request_header(Out, Header), format(Out, '~s', [Bytes]). http_post_data(atom(Atom), Out, HdrExtra) :- !, http_post_data(atom(text/plain, Atom), Out, HdrExtra). http_post_data(atom(Type, Atom), Out, HdrExtra) :- !, phrase(post_header(atom(Type, Atom), HdrExtra), Header), send_request_header(Out, Header), setup_call_cleanup( set_stream(Out, encoding(utf8)), write(Out, Atom), set_stream(Out, encoding(octet))). http_post_data(string(String), Out, HdrExtra) :- !, http_post_data(atom(text/plain, String), Out, HdrExtra). http_post_data(string(Type, String), Out, HdrExtra) :- !, phrase(post_header(string(Type, String), HdrExtra), Header), send_request_header(Out, Header), setup_call_cleanup( set_stream(Out, encoding(utf8)), write(Out, String), set_stream(Out, encoding(octet))). http_post_data(cgi_stream(In, _Len), Out, HdrExtra) :- !, debug(obsolete, 'Obsolete 2nd argument in cgi_stream(In,Len)', []), http_post_data(cgi_stream(In), Out, HdrExtra). http_post_data(cgi_stream(In), Out, HdrExtra) :- !, http_read_header(In, Header0), http_update_encoding(Header0, Encoding, Header), content_length_in_encoding(Encoding, In, Size), http_join_headers(HdrExtra, Header, Hdr2), phrase(post_header(cgi_data(Size), Hdr2), HeaderText), send_request_header(Out, HeaderText), setup_call_cleanup( set_stream(Out, encoding(Encoding)), copy_stream_data(In, Out), set_stream(Out, encoding(octet))). http_post_data(form(Fields), Out, HdrExtra) :- !, parse_url_search(Codes, Fields), length(Codes, Size), http_join_headers(HdrExtra, [ content_type('application/x-www-form-urlencoded') ], Header), phrase(post_header(cgi_data(Size), Header), HeaderChars), send_request_header(Out, HeaderChars), format(Out, '~s', [Codes]). http_post_data(form_data(Data), Out, HdrExtra) :- !, setup_call_cleanup( new_memory_file(MemFile), ( setup_call_cleanup( open_memory_file(MemFile, write, MimeOut), mime_pack(Data, MimeOut, Boundary), close(MimeOut)), size_memory_file(MemFile, Size, octet), format(string(ContentType), 'multipart/form-data; boundary=~w', [Boundary]), http_join_headers(HdrExtra, [ mime_version('1.0'), content_type(ContentType) ], Header), phrase(post_header(cgi_data(Size), Header), HeaderChars), send_request_header(Out, HeaderChars), setup_call_cleanup( open_memory_file(MemFile, read, In, [encoding(octet)]), copy_stream_data(In, Out), close(In)) ), free_memory_file(MemFile)). http_post_data(List, Out, HdrExtra) :- % multipart-mixed is_list(List), !, setup_call_cleanup( new_memory_file(MemFile), ( setup_call_cleanup( open_memory_file(MemFile, write, MimeOut), mime_pack(List, MimeOut, Boundary), close(MimeOut)), size_memory_file(MemFile, Size, octet), format(string(ContentType), 'multipart/mixed; boundary=~w', [Boundary]), http_join_headers(HdrExtra, [ mime_version('1.0'), content_type(ContentType) ], Header), phrase(post_header(cgi_data(Size), Header), HeaderChars), send_request_header(Out, HeaderChars), setup_call_cleanup( open_memory_file(MemFile, read, In, [encoding(octet)]), copy_stream_data(In, Out), close(In)) ), free_memory_file(MemFile)). %! post_header(+Data, +HeaderExtra)// % % Generate the POST header, emitting HeaderExtra, followed by the % HTTP Content-length and Content-type fields. post_header(html(Tokens), HdrExtra) --> header_fields(HdrExtra, Len), content_length(html(Tokens), Len), content_type(text/html), "\r\n". post_header(file(Type, File), HdrExtra) --> header_fields(HdrExtra, Len), content_length(file(File), Len), content_type(Type), "\r\n". post_header(memory_file(Type, File), HdrExtra) --> header_fields(HdrExtra, Len), content_length(memory_file(File), Len), content_type(Type), "\r\n". post_header(cgi_data(Size), HdrExtra) --> header_fields(HdrExtra, Len), content_length(Size, Len), "\r\n". post_header(codes(Type, Codes), HdrExtra) --> header_fields(HdrExtra, Len), content_length(codes(Codes, utf8), Len), content_type(Type, utf8), "\r\n". post_header(bytes(Type, Bytes), HdrExtra) --> header_fields(HdrExtra, Len), content_length(bytes(Bytes), Len), content_type(Type), "\r\n". post_header(atom(Type, Atom), HdrExtra) --> header_fields(HdrExtra, Len), content_length(atom(Atom, utf8), Len), content_type(Type, utf8), "\r\n". post_header(string(Type, String), HdrExtra) --> header_fields(HdrExtra, Len), content_length(string(String, utf8), Len), content_type(Type, utf8), "\r\n". /******************************* * OUTPUT HEADER DCG * *******************************/ %! http_reply_header(+Out:stream, +What, +HdrExtra) is det. % % Create a reply header using reply_header//3 and send it to % Stream. http_reply_header(Out, What, HdrExtra) :- phrase(reply_header(What, HdrExtra, _Code), String), !, send_reply_header(Out, String). %! reply_header(+Data, +HdrExtra, -Code)// is det. % % Grammar that realises the HTTP handler for sending Data. Data is % a real data object as described with http_reply/2 or a % not-200-ok HTTP status reply. The following status replies are % defined. % % * created(+URL, +HTMLTokens) % * moved(+URL, +HTMLTokens) % * moved_temporary(+URL, +HTMLTokens) % * see_other(+URL, +HTMLTokens) % * status(+Status) % * status(+Status, +HTMLTokens) % * authorise(+Method, +Realm, +Tokens) % * authorise(+Method, +Tokens) % * not_found(+URL, +HTMLTokens) % * server_error(+Error, +Tokens) % * resource_error(+Error, +Tokens) % * service_unavailable(+Why, +Tokens) % % @see http_status_reply/4 formulates the not-200-ok HTTP replies. reply_header(Data, Dict) --> { _{header:HdrExtra, code:Code} :< Dict }, reply_header(Data, HdrExtra, Code). reply_header(string(String), HdrExtra, Code) --> reply_header(string(text/plain, String), HdrExtra, Code). reply_header(string(Type, String), HdrExtra, Code) --> vstatus(ok, Code, HdrExtra), date(now), header_fields(HdrExtra, CLen), content_length(codes(String, utf8), CLen), content_type(Type, utf8), "\r\n". reply_header(bytes(Type, Bytes), HdrExtra, Code) --> vstatus(ok, Code, HdrExtra), date(now), header_fields(HdrExtra, CLen), content_length(bytes(Bytes), CLen), content_type(Type), "\r\n". reply_header(html(Tokens), HdrExtra, Code) --> vstatus(ok, Code, HdrExtra), date(now), header_fields(HdrExtra, CLen), content_length(html(Tokens), CLen), content_type(text/html), "\r\n". reply_header(file(Type, File), HdrExtra, Code) --> vstatus(ok, Code, HdrExtra), date(now), modified(file(File)), header_fields(HdrExtra, CLen), content_length(file(File), CLen), content_type(Type), "\r\n". reply_header(gzip_file(Type, File), HdrExtra, Code) --> vstatus(ok, Code, HdrExtra), date(now), modified(file(File)), header_fields(HdrExtra, CLen), content_length(file(File), CLen), content_type(Type), content_encoding(gzip), "\r\n". reply_header(file(Type, File, Range), HdrExtra, Code) --> vstatus(partial_content, Code, HdrExtra), date(now), modified(file(File)), header_fields(HdrExtra, CLen), content_length(file(File, Range), CLen), content_type(Type), "\r\n". reply_header(tmp_file(Type, File), HdrExtra, Code) --> vstatus(ok, Code, HdrExtra), date(now), header_fields(HdrExtra, CLen), content_length(file(File), CLen), content_type(Type), "\r\n". reply_header(cgi_data(Size), HdrExtra, Code) --> vstatus(ok, Code, HdrExtra), date(now), header_fields(HdrExtra, CLen), content_length(Size, CLen), "\r\n". reply_header(chunked_data, HdrExtra, Code) --> vstatus(ok, Code, HdrExtra), date(now), header_fields(HdrExtra, _), ( {memberchk(transfer_encoding(_), HdrExtra)} -> "" ; transfer_encoding(chunked) ), "\r\n". % non-200 replies without a body (e.g., 1xx, 204, 304) reply_header(status(Status), HdrExtra, Code) --> vstatus(Status, Code), header_fields(HdrExtra, Clen), { Clen = 0 }, "\r\n". % non-200 replies with a body reply_header(Data, HdrExtra, Code) --> { status_reply_headers(Data, body(Type, Encoding, Content), ReplyHeaders), http_join_headers(ReplyHeaders, HdrExtra, Headers), functor(Data, CodeName, _) }, vstatus(CodeName, Code, Headers), date(now), header_fields(Headers, CLen), content_length(codes(Content, Encoding), CLen), content_type(Type, Encoding), "\r\n". status_reply_headers(created(Location, Body), Body, [ location(Location) ]). status_reply_headers(moved(To, Body), Body, [ location(To) ]). status_reply_headers(moved_temporary(To, Body), Body, [ location(To) ]). status_reply_headers(gone(_URL, Body), Body, []). status_reply_headers(see_other(To, Body), Body, [ location(To) ]). status_reply_headers(authorise(Method, Body), Body, [ www_authenticate(Method) ]). status_reply_headers(not_found(_URL, Body), Body, []). status_reply_headers(forbidden(_URL, Body), Body, []). status_reply_headers(method_not_allowed(_Method, _URL, Body), Body, []). status_reply_headers(server_error(_Error, Body), Body, []). status_reply_headers(service_unavailable(_Why, Body), Body, []). status_reply_headers(not_acceptable(_Why, Body), Body, []). status_reply_headers(bad_request(_Error, Body), Body, []). %! vstatus(+Status, -Code)// is det. %! vstatus(+Status, -Code, +HdrExtra)// is det. % % Emit the HTTP header for Status vstatus(_Status, Code, HdrExtra) --> {memberchk(status(Code), HdrExtra)}, !, vstatus(_NewStatus, Code). vstatus(Status, Code, _) --> vstatus(Status, Code). vstatus(Status, Code) --> "HTTP/1.1 ", status_number(Status, Code), " ", status_comment(Status), "\r\n". %! status_number(?Status, ?Code)// is semidet. % % Parse/generate the HTTP status numbers and map them to the % proper name. % % @see See the source code for supported status names and codes. status_number(Status, Code) --> { var(Status) }, !, integer(Code), { status_number(Status, Code) }, !. status_number(Status, Code) --> { status_number(Status, Code) }, integer(Code). %! status_number(+Status:atom, -Code:nonneg) is det. %! status_number(-Status:atom, +Code:nonneg) is det. % % Relates a symbolic HTTP status names to their integer Code. % Each code also needs a rule for status_comment//1. % % @throws type_error If Code is instantiated with something other than % an integer. % @throws domain_error If Code is instantiated with an integer % outside of the range [100-599] of defined % HTTP status codes. % Unrecognized status codes that are within a defined code class. % RFC 7231 states: % "[...] a client MUST understand the class of any status code, % as indicated by the first digit, and treat an unrecognized status code % as being equivalent to the `x00` status code of that class [...] % " % @see http://tools.ietf.org/html/rfc7231#section-6 status_number(Status, Code) :- nonvar(Status), !, status_number_fact(Status, Code). status_number(Status, Code) :- nonvar(Code), !, ( between(100, 599, Code) -> ( status_number_fact(Status, Code) -> true ; ClassCode is Code // 100 * 100, status_number_fact(Status, ClassCode) ) ; domain_error(http_code, Code) ). status_number_fact(continue, 100). status_number_fact(switching_protocols, 101). status_number_fact(ok, 200). status_number_fact(created, 201). status_number_fact(accepted, 202). status_number_fact(non_authoritative_info, 203). status_number_fact(no_content, 204). status_number_fact(reset_content, 205). status_number_fact(partial_content, 206). status_number_fact(multiple_choices, 300). status_number_fact(moved, 301). status_number_fact(moved_temporary, 302). status_number_fact(see_other, 303). status_number_fact(not_modified, 304). status_number_fact(use_proxy, 305). status_number_fact(unused, 306). status_number_fact(temporary_redirect, 307). status_number_fact(bad_request, 400). status_number_fact(authorise, 401). status_number_fact(payment_required, 402). status_number_fact(forbidden, 403). status_number_fact(not_found, 404). status_number_fact(method_not_allowed, 405). status_number_fact(not_acceptable, 406). status_number_fact(request_timeout, 408). status_number_fact(conflict, 409). status_number_fact(gone, 410). status_number_fact(length_required, 411). status_number_fact(payload_too_large, 413). status_number_fact(uri_too_long, 414). status_number_fact(unsupported_media_type, 415). status_number_fact(expectation_failed, 417). status_number_fact(upgrade_required, 426). status_number_fact(server_error, 500). status_number_fact(not_implemented, 501). status_number_fact(bad_gateway, 502). status_number_fact(service_unavailable, 503). status_number_fact(gateway_timeout, 504). status_number_fact(http_version_not_supported, 505). %! status_comment(+Code:atom)// is det. % % Emit standard HTTP human-readable comment on the reply-status. status_comment(continue) --> "Continue". status_comment(switching_protocols) --> "Switching Protocols". status_comment(ok) --> "OK". status_comment(created) --> "Created". status_comment(accepted) --> "Accepted". status_comment(non_authoritative_info) --> "Non-Authoritative Information". status_comment(no_content) --> "No Content". status_comment(reset_content) --> "Reset Content". status_comment(created) --> "Created". status_comment(partial_content) --> "Partial content". status_comment(multiple_choices) --> "Multiple Choices". status_comment(moved) --> "Moved Permanently". status_comment(moved_temporary) --> "Moved Temporary". status_comment(see_other) --> "See Other". status_comment(not_modified) --> "Not Modified". status_comment(use_proxy) --> "Use Proxy". status_comment(unused) --> "Unused". status_comment(temporary_redirect) --> "Temporary Redirect". status_comment(bad_request) --> "Bad Request". status_comment(authorise) --> "Authorization Required". status_comment(payment_required) --> "Payment Required". status_comment(forbidden) --> "Forbidden". status_comment(not_found) --> "Not Found". status_comment(method_not_allowed) --> "Method Not Allowed". status_comment(not_acceptable) --> "Not Acceptable". status_comment(request_timeout) --> "Request Timeout". status_comment(conflict) --> "Conflict". status_comment(gone) --> "Gone". status_comment(length_required) --> "Length Required". status_comment(payload_too_large) --> "Payload Too Large". status_comment(uri_too_long) --> "URI Too Long". status_comment(unsupported_media_type) --> "Unsupported Media Type". status_comment(expectation_failed) --> "Expectation Failed". status_comment(upgrade_required) --> "Upgrade Required". status_comment(server_error) --> "Internal Server Error". status_comment(not_implemented) --> "Not Implemented". status_comment(bad_gateway) --> "Bad Gateway". status_comment(service_unavailable) --> "Service Unavailable". status_comment(gateway_timeout) --> "Gateway Timeout". status_comment(http_version_not_supported) --> "HTTP Version Not Supported". date(Time) --> "Date: ", ( { Time == now } -> now ; rfc_date(Time) ), "\r\n". modified(file(File)) --> !, { time_file(File, Time) }, modified(Time). modified(Time) --> "Last-modified: ", ( { Time == now } -> now ; rfc_date(Time) ), "\r\n". %! content_length(+Object, ?Len)// is det. % % Emit the content-length field and (optionally) the content-range % field. % % @param Len Number of bytes specified content_length(file(File, bytes(From, To)), Len) --> !, { size_file(File, Size), ( To == end -> Len is Size - From, RangeEnd is Size - 1 ; Len is To+1 - From, % To is index of last byte RangeEnd = To ) }, content_range(bytes, From, RangeEnd, Size), content_length(Len, Len). content_length(Reply, Len) --> { length_of(Reply, Len) }, "Content-Length: ", integer(Len), "\r\n". length_of(_, Len) :- nonvar(Len), !. length_of(string(String, Encoding), Len) :- length_of(codes(String, Encoding), Len). length_of(codes(String, Encoding), Len) :- !, setup_call_cleanup( open_null_stream(Out), ( set_stream(Out, encoding(Encoding)), format(Out, '~s', [String]), byte_count(Out, Len) ), close(Out)). length_of(atom(Atom, Encoding), Len) :- !, setup_call_cleanup( open_null_stream(Out), ( set_stream(Out, encoding(Encoding)), format(Out, '~a', [Atom]), byte_count(Out, Len) ), close(Out)). length_of(file(File), Len) :- !, size_file(File, Len). length_of(memory_file(Handle), Len) :- !, size_memory_file(Handle, Len, octet). length_of(html_tokens(Tokens), Len) :- !, html_print_length(Tokens, Len). length_of(html(Tokens), Len) :- % deprecated !, html_print_length(Tokens, Len). length_of(bytes(Bytes), Len) :- !, ( string(Bytes) -> string_length(Bytes, Len) ; length(Bytes, Len) % assuming a list of 0..255 ). length_of(Len, Len). %! content_range(+Unit:atom, +From:int, +RangeEnd:int, +Size:int)// is det % % Emit the =|Content-Range|= header for partial content (206) % replies. content_range(Unit, From, RangeEnd, Size) --> "Content-Range: ", atom(Unit), " ", integer(From), "-", integer(RangeEnd), "/", integer(Size), "\r\n". content_encoding(Encoding) --> "Content-Encoding: ", atom(Encoding), "\r\n". transfer_encoding(Encoding) --> "Transfer-Encoding: ", atom(Encoding), "\r\n". content_type(Type) --> content_type(Type, _). content_type(Type, Charset) --> ctype(Type), charset(Charset), "\r\n". ctype(Main/Sub) --> !, "Content-Type: ", atom(Main), "/", atom(Sub). ctype(Type) --> !, "Content-Type: ", atom(Type). charset(Var) --> { var(Var) }, !. charset(utf8) --> !, "; charset=UTF-8". charset(CharSet) --> "; charset=", atom(CharSet). %! header_field(-Name, -Value)// is det. %! header_field(+Name, +Value) is det. % % Process an HTTP request property. Request properties appear as a % single line in an HTTP header. header_field(Name, Value) --> { var(Name) }, % parsing !, field_name(Name), ":", whites, read_field_value(ValueChars), blanks_to_nl, !, { field_to_prolog(Name, ValueChars, Value) -> true ; atom_codes(Value, ValueChars), domain_error(Name, Value) }. header_field(Name, Value) --> field_name(Name), ": ", field_value(Name, Value), "\r\n". %! read_field_value(-Codes)// % % Read a field eagerly upto the next whitespace read_field_value([H|T]) --> [H], { \+ code_type(H, space) }, !, read_field_value(T). read_field_value([]) --> "". read_field_value([H|T]) --> [H], read_field_value(T). %! send_reply_header(+Out, +String) is det. %! send_request_header(+Out, +String) is det. % % Low level routines to send a single HTTP request or reply line. send_reply_header(Out, String) :- debug(http(send_reply), "< ~s", [String]), format(Out, '~s', [String]). send_request_header(Out, String) :- debug(http(send_request), "> ~s", [String]), format(Out, '~s', [String]). %! http_parse_header_value(+Field, +Value, -Prolog) is semidet. % % Translate Value in a meaningful Prolog term. Field denotes the % HTTP request field for which we do the translation. Supported % fields are: % % * content_length % Converted into an integer % * status % Converted into an integer % * cookie % Converted into a list with Name=Value by cookies//1. % * set_cookie % Converted into a term set_cookie(Name, Value, Options). % Options is a list consisting of Name=Value or a single % atom (e.g., =secure=) % * host % Converted to HostName:Port if applicable. % * range % Converted into bytes(From, To), where From is an integer % and To is either an integer or the atom =end=. % * accept % Parsed to a list of media descriptions. Each media is a term % media(Type, TypeParams, Quality, AcceptExts). The list is % sorted according to preference. % * content_disposition % Parsed into disposition(Name, Attributes), where Attributes is % a list of Name=Value pairs. % * content_type % Parsed into media(Type/SubType, Attributes), where Attributes % is a list of Name=Value pairs. % % As some fields are already parsed in the `Request`, this predicate % is a no-op when called on an already parsed field. % % @arg Value is either an atom, a list of codes or an already parsed % header value. http_parse_header_value(Field, Value, Prolog) :- known_field(Field, _, Type), ( already_parsed(Type, Value) -> Prolog = Value ; to_codes(Value, Codes), parse_header_value(Field, Codes, Prolog) ). already_parsed(integer, V) :- !, integer(V). already_parsed(list(Type), L) :- !, is_list(L), maplist(already_parsed(Type), L). already_parsed(Term, V) :- subsumes_term(Term, V). %! known_field(?FieldName, ?AutoConvert, -Type) % % True if the value of FieldName is by default translated into a % Prolog data structure. known_field(content_length, true, integer). known_field(status, true, integer). known_field(cookie, true, list(_=_)). known_field(set_cookie, true, list(set_cookie(_Name,_Value,_Options))). known_field(host, true, _Host:_Port). known_field(range, maybe, bytes(_,_)). known_field(accept, maybe, list(media(_Type, _Parms, _Q, _Exts))). known_field(content_disposition, maybe, disposition(_Name, _Attributes)). known_field(content_type, false, media(_Type/_Sub, _Attributes)). to_codes(In, Codes) :- ( is_list(In) -> Codes = In ; atom_codes(In, Codes) ). %! field_to_prolog(+Field, +ValueCodes, -Prolog) is semidet. % % Translate the value string into a sensible Prolog term. For % known_fields(_,true), this must succeed. For =maybe=, we just % return the atom if the translation fails. field_to_prolog(Field, Codes, Prolog) :- known_field(Field, true, _Type), !, ( parse_header_value(Field, Codes, Prolog0) -> Prolog = Prolog0 ). field_to_prolog(Field, Codes, Prolog) :- known_field(Field, maybe, _Type), parse_header_value(Field, Codes, Prolog0), !, Prolog = Prolog0. field_to_prolog(_, Codes, Atom) :- atom_codes(Atom, Codes). %! parse_header_value(+Field, +ValueCodes, -Value) is semidet. % % Parse the value text of an HTTP field into a meaningful Prolog % representation. parse_header_value(content_length, ValueChars, ContentLength) :- number_codes(ContentLength, ValueChars). parse_header_value(status, ValueChars, Code) :- ( phrase(" ", L, _), append(Pre, L, ValueChars) -> number_codes(Code, Pre) ; number_codes(Code, ValueChars) ). parse_header_value(cookie, ValueChars, Cookies) :- debug(cookie, 'Cookie: ~s', [ValueChars]), phrase(cookies(Cookies), ValueChars). parse_header_value(set_cookie, ValueChars, SetCookie) :- debug(cookie, 'SetCookie: ~s', [ValueChars]), phrase(set_cookie(SetCookie), ValueChars). parse_header_value(host, ValueChars, Host) :- ( append(HostChars, [0':|PortChars], ValueChars), catch(number_codes(Port, PortChars), _, fail) -> atom_codes(HostName, HostChars), Host = HostName:Port ; atom_codes(Host, ValueChars) ). parse_header_value(range, ValueChars, Range) :- phrase(range(Range), ValueChars). parse_header_value(accept, ValueChars, Media) :- parse_accept(ValueChars, Media). parse_header_value(content_disposition, ValueChars, Disposition) :- phrase(content_disposition(Disposition), ValueChars). parse_header_value(content_type, ValueChars, Type) :- phrase(parse_content_type(Type), ValueChars). %! field_value(+Name, +Value)// field_value(_, set_cookie(Name, Value, Options)) --> !, atom(Name), "=", atom(Value), value_options(Options, cookie). field_value(_, disposition(Disposition, Options)) --> !, atom(Disposition), value_options(Options, disposition). field_value(www_authenticate, Auth) --> auth_field_value(Auth). field_value(_, Atomic) --> atom(Atomic). %! auth_field_value(+AuthValue)// % % Emit the authentication requirements (WWW-Authenticate field). auth_field_value(negotiate(Data)) --> "Negotiate ", { base64(Data, DataBase64), atom_codes(DataBase64, Codes) }, string(Codes). auth_field_value(negotiate) --> "Negotiate". auth_field_value(basic) --> !, "Basic". auth_field_value(basic(Realm)) --> "Basic Realm=\"", atom(Realm), "\"". auth_field_value(digest) --> !, "Digest". auth_field_value(digest(Details)) --> "Digest ", atom(Details). %! value_options(+List, +Field)// % % Emit field parameters such as =|; charset=UTF-8|=. There % are three versions: a plain _key_ (`secure`), _token_ values % and _quoted string_ values. Seems we cannot deduce that from % the actual value. value_options([], _) --> []. value_options([H|T], Field) --> "; ", value_option(H, Field), value_options(T, Field). value_option(secure=true, cookie) --> !, "secure". value_option(Name=Value, Type) --> { string_option(Name, Type) }, !, atom(Name), "=", qstring(Value). value_option(Name=Value, Type) --> { token_option(Name, Type) }, !, atom(Name), "=", atom(Value). value_option(Name=Value, _Type) --> atom(Name), "=", option_value(Value). string_option(filename, disposition). token_option(path, cookie). option_value(Value) --> { number(Value) }, !, number(Value). option_value(Value) --> { ( atom(Value) -> true ; string(Value) ), forall(string_code(_, Value, C), token_char(C)) }, !, atom(Value). option_value(Atomic) --> qstring(Atomic). qstring(Atomic) --> { string_codes(Atomic, Codes) }, "\"", qstring_codes(Codes), "\"". qstring_codes([]) --> []. qstring_codes([H|T]) --> qstring_code(H), qstring_codes(T). qstring_code(C) --> {qstring_esc(C)}, !, "\\", [C]. qstring_code(C) --> [C]. qstring_esc(0'"). qstring_esc(C) :- ctl(C). /******************************* * ACCEPT HEADERS * *******************************/ :- dynamic accept_cache/2. :- volatile accept_cache/2. parse_accept(Codes, Media) :- atom_codes(Atom, Codes), ( accept_cache(Atom, Media0) -> Media = Media0 ; phrase(accept(Media0), Codes), keysort(Media0, Media1), pairs_values(Media1, Media2), assertz(accept_cache(Atom, Media2)), Media = Media2 ). %! accept(-Media)// is semidet. % % Parse an HTTP Accept: header accept([H|T]) --> blanks, media_range(H), blanks, ( "," -> accept(T) ; {T=[]} ). media_range(s(SortQuality,Spec)-media(Type, TypeParams, Quality, AcceptExts)) --> media_type(Type), blanks, ( ";" -> blanks, parameters_and_quality(TypeParams, Quality, AcceptExts) ; { TypeParams = [], Quality = 1.0, AcceptExts = [] } ), { SortQuality is float(-Quality), rank_specialised(Type, TypeParams, Spec) }. %! content_disposition(-Disposition)// % % Parse Content-Disposition value content_disposition(disposition(Disposition, Options)) --> token(Disposition), blanks, value_parameters(Options). %! parse_content_type(-Type)// % % Parse Content-Type value into a term media(Type/SubType, % Parameters). parse_content_type(media(Type, Parameters)) --> media_type(Type), blanks, value_parameters(Parameters). %! rank_specialised(+Type, +TypeParam, -Key) is det. % % Although the specification linked above is unclear, it seems % that more specialised types must be preferred over less % specialized ones. % % @tbd Is there an official specification of this? rank_specialised(Type/SubType, TypeParams, v(VT, VS, SortVP)) :- var_or_given(Type, VT), var_or_given(SubType, VS), length(TypeParams, VP), SortVP is -VP. var_or_given(V, Val) :- ( var(V) -> Val = 0 ; Val = -1 ). media_type(Type/SubType) --> type(Type), "/", type(SubType). type(_) --> "*", !. type(Type) --> token(Type). parameters_and_quality(Params, Quality, AcceptExts) --> token(Name), blanks, "=", blanks, ( { Name == q } -> float(Quality), blanks, value_parameters(AcceptExts), { Params = [] } ; { Params = [Name=Value|T] }, parameter_value(Value), blanks, ( ";" -> blanks, parameters_and_quality(T, Quality, AcceptExts) ; { T = [], Quality = 1.0, AcceptExts = [] } ) ). %! value_parameters(-Params:list) is det. % % Accept (";" )*, returning a list of Name=Value, where % both Name and Value are atoms. value_parameters([H|T]) --> ";", !, blanks, token(Name), blanks, ( "=" -> blanks, ( token(Value) -> [] ; quoted_string(Value) ), { H = (Name=Value) } ; { H = Name } ), blanks, value_parameters(T). value_parameters([]) --> []. parameter_value(Value) --> token(Value), !. parameter_value(Value) --> quoted_string(Value). %! token(-Name)// is semidet. % % Process an HTTP header token from the input. token(Name) --> token_char(C1), token_chars(Cs), { atom_codes(Name, [C1|Cs]) }. token_chars([H|T]) --> token_char(H), !, token_chars(T). token_chars([]) --> []. token_char(C) :- \+ ctl(C), \+ separator_code(C). ctl(C) :- between(0,31,C), !. ctl(127). separator_code(0'(). separator_code(0')). separator_code(0'<). separator_code(0'>). separator_code(0'@). separator_code(0',). separator_code(0';). separator_code(0':). separator_code(0'\\). separator_code(0'"). separator_code(0'/). separator_code(0'[). separator_code(0']). separator_code(0'?). separator_code(0'=). separator_code(0'{). separator_code(0'}). separator_code(0'\s). separator_code(0'\t). term_expansion(token_char(x) --> [x], Clauses) :- findall((token_char(C)-->[C]), ( between(0, 255, C), token_char(C) ), Clauses). token_char(x) --> [x]. %! quoted_string(-Text)// is semidet. % % True if input starts with a quoted string representing Text. quoted_string(Text) --> "\"", quoted_text(Codes), { atom_codes(Text, Codes) }. quoted_text([]) --> "\"", !. quoted_text([H|T]) --> "\\", !, [H], quoted_text(T). quoted_text([H|T]) --> [H], !, quoted_text(T). %! header_fields(+Fields, ?ContentLength)// is det. % % Process a sequence of [Name(Value), ...] attributes for the % header. A term content_length(Len) is special. If instantiated % it emits the header. If not it just unifies ContentLength with % the argument of the content_length(Len) term. This allows for % both sending and retrieving the content-length. header_fields([], _) --> []. header_fields([content_length(CLen)|T], CLen) --> !, ( { var(CLen) } -> "" ; header_field(content_length, CLen) ), header_fields(T, CLen). % Continue or return first only? header_fields([status(_)|T], CLen) --> % handled by vstatus//3. !, header_fields(T, CLen). header_fields([H|T], CLen) --> { H =.. [Name, Value] }, header_field(Name, Value), header_fields(T, CLen). %! field_name(?PrologName) % % Convert between prolog_name and HttpName. Field names are, % according to RFC 2616, considered tokens and covered by the % following definition: % % == % token = 1* % separators = "(" | ")" | "<" | ">" | "@" % | "," | ";" | ":" | "\" | <"> % | "/" | "[" | "]" | "?" | "=" % | "{" | "}" | SP | HT % == :- public field_name//1. field_name(Name) --> { var(Name) }, !, rd_field_chars(Chars), { atom_codes(Name, Chars) }. field_name(mime_version) --> !, "MIME-Version". field_name(www_authenticate) --> !, "WWW-Authenticate". field_name(Name) --> { atom_codes(Name, Chars) }, wr_field_chars(Chars). rd_field_chars_no_fold([C|T]) --> [C], { rd_field_char(C, _) }, !, rd_field_chars_no_fold(T). rd_field_chars_no_fold([]) --> []. rd_field_chars([C0|T]) --> [C], { rd_field_char(C, C0) }, !, rd_field_chars(T). rd_field_chars([]) --> []. %! separators(-CharCodes) is det. % % CharCodes is a list of separators according to RFC2616 separators("()<>@,;:\\\"/[]?={} \t"). term_expansion(rd_field_char('expand me',_), Clauses) :- Clauses = [ rd_field_char(0'-, 0'_) | Cls ], separators(SepString), string_codes(SepString, Seps), findall(rd_field_char(In, Out), ( between(32, 127, In), \+ memberchk(In, Seps), In \== 0'-, % 0' code_type(Out, to_lower(In))), Cls). rd_field_char('expand me', _). % avoid recursion wr_field_chars([C|T]) --> !, { code_type(C, to_lower(U)) }, [U], wr_field_chars2(T). wr_field_chars([]) --> []. wr_field_chars2([]) --> []. wr_field_chars2([C|T]) --> % 0' ( { C == 0'_ } -> "-", wr_field_chars(T) ; [C], wr_field_chars2(T) ). %! now// % % Current time using rfc_date//1. now --> { get_time(Time) }, rfc_date(Time). %! rfc_date(+Time)// is det. % % Write time according to RFC1123 specification as required by the % RFC2616 HTTP protocol specs. rfc_date(Time, String, Tail) :- stamp_date_time(Time, Date, 'UTC'), format_time(codes(String, Tail), '%a, %d %b %Y %T GMT', Date, posix). %! http_timestamp(+Time:timestamp, -Text:atom) is det. % % Generate a description of a Time in HTTP format (RFC1123) http_timestamp(Time, Atom) :- stamp_date_time(Time, Date, 'UTC'), format_time(atom(Atom), '%a, %d %b %Y %T GMT', Date, posix). /******************************* * REQUEST DCG * *******************************/ request(Fd, [method(Method),request_uri(ReqURI)|Header]) --> method(Method), blanks, nonblanks(Query), { atom_codes(ReqURI, Query), request_uri_parts(ReqURI, Header, Rest) }, request_header(Fd, Rest), !. request(Fd, [unknown(What)|Header]) --> string(What), eos, !, { http_read_header(Fd, Header) -> true ; Header = [] }. method(get) --> "GET", !. method(put) --> "PUT", !. method(head) --> "HEAD", !. method(post) --> "POST", !. method(delete) --> "DELETE", !. method(patch) --> "PATCH", !. method(options) --> "OPTIONS", !. method(trace) --> "TRACE", !. %! request_uri_parts(+RequestURI, -Parts, ?Tail) is det. % % Process the request-uri, producing the following parts: % % * path(-Path) % Decode path information (always present) % * search(-QueryParams) % Present if there is a ?name=value&... part of the request uri. % QueryParams is a Name=Value list. % * fragment(-Fragment) % Present if there is a #Fragment. request_uri_parts(ReqURI, [path(Path)|Parts], Rest) :- uri_components(ReqURI, Components), uri_data(path, Components, PathText), uri_encoded(path, Path, PathText), phrase(uri_parts(Components), Parts, Rest). uri_parts(Components) --> uri_search(Components), uri_fragment(Components). uri_search(Components) --> { uri_data(search, Components, Search), nonvar(Search), catch(uri_query_components(Search, Query), error(syntax_error(_),_), fail) }, !, [ search(Query) ]. uri_search(_) --> []. uri_fragment(Components) --> { uri_data(fragment, Components, String), nonvar(String), !, uri_encoded(fragment, Fragment, String) }, [ fragment(Fragment) ]. uri_fragment(_) --> []. %! request_header(+In:stream, -Header:list) is det. % % Read the remainder (after the request-uri) of the HTTP header % and return it as a Name(Value) list. request_header(_, []) --> % Old-style non-version header blanks, eos, !. request_header(Fd, [http_version(Version)|Header]) --> http_version(Version), blanks, eos, !, { Version = 1-_ -> http_read_header(Fd, Header) ; Header = [] }. http_version(Version) --> blanks, "HTTP/", http_version_number(Version). http_version_number(Major-Minor) --> integer(Major), ".", integer(Minor). /******************************* * COOKIES * *******************************/ %! cookies(-List)// is semidet. % % Translate a cookie description into a list Name=Value. cookies([Name=Value|T]) --> blanks, cookie(Name, Value), !, blanks, ( ";" -> cookies(T) ; { T = [] } ). cookies(List) --> string(Skipped), ";", !, { print_message(warning, http(skipped_cookie(Skipped))) }, cookies(List). cookies([]) --> blanks. cookie(Name, Value) --> cookie_name(Name), blanks, "=", blanks, cookie_value(Value). cookie_name(Name) --> { var(Name) }, !, rd_field_chars_no_fold(Chars), { atom_codes(Name, Chars) }. cookie_value(Value) --> quoted_string(Value), !. cookie_value(Value) --> chars_to_semicolon_or_blank(Chars), { atom_codes(Value, Chars) }. chars_to_semicolon_or_blank([]), ";" --> ";", !. chars_to_semicolon_or_blank([]) --> " ", blanks, eos, !. chars_to_semicolon_or_blank([H|T]) --> [H], !, chars_to_semicolon_or_blank(T). chars_to_semicolon_or_blank([]) --> []. set_cookie(set_cookie(Name, Value, Options)) --> ws, cookie(Name, Value), cookie_options(Options). cookie_options([H|T]) --> ws, ";", ws, cookie_option(H), !, cookie_options(T). cookie_options([]) --> ws. ws --> " ", !, ws. ws --> []. %! cookie_option(-Option)// is semidet. % % True if input represents a valid Cookie option. Officially, all % cookie options use the syntax =, except for % =Secure= and =HttpOnly=. % % @param Option Term of the form Name=Value % @bug Incorrectly accepts options without = for M$ compatibility. cookie_option(Name=Value) --> rd_field_chars(NameChars), ws, { atom_codes(Name, NameChars) }, ( "=" -> ws, chars_to_semicolon(ValueChars), { atom_codes(Value, ValueChars) } ; { Value = true } ). chars_to_semicolon([H|T]) --> [H], { H \== 32, H \== 0'; }, !, chars_to_semicolon(T). chars_to_semicolon([]), ";" --> ws, ";", !. chars_to_semicolon([H|T]) --> [H], chars_to_semicolon(T). chars_to_semicolon([]) --> []. %! range(-Range)// is semidet. % % Process the range header value. Range is currently defined as: % % * bytes(From, To) % Where From is an integer and To is either an integer or % the atom =end=. range(bytes(From, To)) --> "bytes", whites, "=", whites, integer(From), "-", ( integer(To) -> "" ; { To = end } ). /******************************* * REPLY DCG * *******************************/ %! reply(+In, -Reply:list)// is semidet. % % Process the first line of an HTTP reply. After that, read the % remainder of the header and parse it. After successful % completion, Reply contains the following fields, followed by the % fields produced by http_read_header/2. % % * http_version(Major-Minor) % * status(Code, Status, Comment) % `Code` is an integer between 100 and 599. % `Status` is a Prolog internal name. % `Comment` is the comment following the code % as it appears in the reply's HTTP status line. % @see status_number//2. reply(Fd, [http_version(HttpVersion), status(Code, Status, Comment)|Header]) --> http_version(HttpVersion), blanks, ( status_number(Status, Code) -> [] ; integer(Status) ), blanks, string(CommentCodes), blanks_to_nl, !, blanks, { atom_codes(Comment, CommentCodes), http_read_header(Fd, Header) }. /******************************* * READ HEADER * *******************************/ %! http_read_header(+Fd, -Header) is det. % % Read Name: Value lines from FD until an empty line is encountered. % Field-name are converted to Prolog conventions (all lower, _ instead % of -): Content-Type: text/html --> content_type(text/html) http_read_header(Fd, Header) :- read_header_data(Fd, Text), http_parse_header(Text, Header). read_header_data(Fd, Header) :- read_line_to_codes(Fd, Header, Tail), read_header_data(Header, Fd, Tail), debug(http(header), 'Header = ~n~s~n', [Header]). read_header_data([0'\r,0'\n], _, _) :- !. read_header_data([0'\n], _, _) :- !. read_header_data([], _, _) :- !. read_header_data(_, Fd, Tail) :- read_line_to_codes(Fd, Tail, NewTail), read_header_data(Tail, Fd, NewTail). %! http_parse_header(+Text:codes, -Header:list) is det. % % Header is a list of Name(Value)-terms representing the structure % of the HTTP header in Text. % % @error domain_error(http_request_line, Line) http_parse_header(Text, Header) :- phrase(header(Header), Text), debug(http(header), 'Field: ~p', [Header]). header(List) --> header_field(Name, Value), !, { mkfield(Name, Value, List, Tail) }, blanks, header(Tail). header([]) --> blanks, eos, !. header(_) --> string(S), blanks_to_nl, !, { string_codes(Line, S), syntax_error(http_parameter(Line)) }. %! address// % % Emit the HTML for the server address on behalve of error and % status messages (non-200 replies). Default is % % == % SWI-Prolog httpd at % == % % The address can be modified by providing a definition for the % multifile predicate http:http_address//0. :- multifile http:http_address//0. address --> http:http_address, !. address --> { gethostname(Host) }, html(address([ a(href('http://www.swi-prolog.org'), 'SWI-Prolog'), ' httpd at ', Host ])). mkfield(host, Host:Port, [host(Host),port(Port)|Tail], Tail) :- !. mkfield(Name, Value, [Att|Tail], Tail) :- Att =.. [Name, Value]. %! http:http_address// is det. % % HTML-rule that emits the location of the HTTP server. This hook % is called from address//0 to customise the server address. The % server address is emitted on non-200-ok replies. %! http:status_page(+Status, +Context, -HTMLTokens) is semidet. % % Hook called by http_status_reply/4 and http_status_reply/5 that % allows for emitting custom error pages for the following HTTP % page types: % % - 201 - created(Location) % - 301 - moved(To) % - 302 - moved_temporary(To) % - 303 - see_other(To) % - 400 - bad_request(ErrorTerm) % - 401 - authorise(AuthMethod) % - 403 - forbidden(URL) % - 404 - not_found(URL) % - 405 - method_not_allowed(Method,URL) % - 406 - not_acceptable(Why) % - 500 - server_error(ErrorTerm) % - 503 - unavailable(Why) % % The hook is tried twice, first using the status term, e.g., % not_found(URL) and than with the code, e.g. `404`. The second % call is deprecated and only exists for compatibility. % % @arg Context is the 4th argument of http_status_reply/5, which % is invoked after raising an exception of the format % http_reply(Status, HeaderExtra, Context). The default % context is `[]` (the empty list). % @arg HTMLTokens is a list of tokens as produced by html//1. % It is passed to print_html/2. /******************************* * MESSAGES * *******************************/ :- multifile prolog:message//1, prolog:error_message//1. prolog:error_message(http_write_short(Data, Sent)) --> data(Data), [ ': remote hangup after ~D bytes'-[Sent] ]. prolog:error_message(syntax_error(http_request(Request))) --> [ 'Illegal HTTP request: ~s'-[Request] ]. prolog:error_message(syntax_error(http_parameter(Line))) --> [ 'Illegal HTTP parameter: ~s'-[Line] ]. prolog:message(http(skipped_cookie(S))) --> [ 'Skipped illegal cookie: ~s'-[S] ]. data(bytes(MimeType, _Bytes)) --> !, [ 'bytes(~p, ...)'-[MimeType] ]. data(Data) --> [ '~p'-[Data] ].