/* Part of SWI-Prolog Author: Jan Wielemaker E-mail: J.Wielemaker@vu.nl WWW: http://www.swi-prolog.org Copyright (c) 2009-2023, VU University Amsterdam SWI-Prolog Solutions b.v. 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(uri, [ uri_components/2, % ?URI, ?Components uri_data/3, % ?Field, +Components, ?Data uri_data/4, % +Field, +Components, -Data, -New uri_edit/3, % +Actions,+URI0,-URI uri_normalized/2, % +URI, -NormalizedURI iri_normalized/2, % +IRI, -NormalizedIRI uri_normalized_iri/2, % +URI, -NormalizedIRI uri_normalized/3, % +URI, +Base, -NormalizedURI iri_normalized/3, % +IRI, +Base, -NormalizedIRI uri_normalized_iri/3, % +URI, +Base, -NormalizedIRI uri_resolve/3, % +URI, +Base, -AbsURI uri_is_global/1, % +URI uri_query_components/2, % ?QueryString, ?NameValueList uri_authority_components/2, % ?Authority, ?Components uri_authority_data/3, % ?Field, ?Components, ?Data % Encoding uri_encoded/3, % +Component, ?Value, ?Encoded uri_file_name/2, % ?URI, ?Path uri_iri/2 % ?URI, ?IRI ]). :- autoload(library(error), [domain_error/2]). :- use_foreign_library(foreign(uri)). /** Process URIs This library provides high-performance C-based primitives for manipulating URIs. We decided for a C-based implementation for the much better performance on raw character manipulation. Notably, URI handling primitives are used in time-critical parts of RDF processing. This implementation is based on RFC-3986: http://labs.apache.org/webarch/uri/rfc/rfc3986.html The URI processing in this library is rather liberal. That is, we break URIs according to the rules, but we do not validate that the components are valid. Also, percent-decoding for IRIs is liberal. It first tries UTF-8; then ISO-Latin-1 and finally accepts %-characters verbatim. Earlier experience has shown that strict enforcement of the URI syntax results in many errors that are accepted by many other web-document processing tools. */ %! uri_components(+URI, -Components) is det. %! uri_components(-URI, +Components) is det. % % Break a URI into its 5 basic components according to the % RFC-3986 regular expression: % % == % ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))? % 12 3 4 5 6 7 8 9 % == % % @param Components is a term uri_components(Scheme, Authority, % Path, Search, Fragment). If a URI is *parsed*, i.e., using mode % (+,-), components that are not found are left _uninstantiated_ % (variable). See uri_data/3 for accessing this structure. %! uri_data(?Field, +Components, ?Data) is semidet. % % Provide access the uri_component structure. Defined field-names % are: =scheme=, =authority=, =path=, =search= and =fragment= uri_data(scheme, uri_components(S, _, _, _, _), S). uri_data(authority, uri_components(_, A, _, _, _), A). uri_data(path, uri_components(_, _, P, _, _), P). uri_data(search, uri_components(_, _, _, S, _), S). uri_data(fragment, uri_components(_, _, _, _, F), F). %! uri_data(+Field, +Components, +Data, -NewComponents) is semidet. % % NewComponents is the same as Components with Field set to Data. uri_data(scheme, uri_components(_, A, P, Q, F), S, uri_components(S, A, P, Q, F)). uri_data(authority, uri_components(S, _, P, Q, F), A, uri_components(S, A, P, Q, F)). uri_data(path, uri_components(S, A, _, Q, F), P, uri_components(S, A, P, Q, F)). uri_data(search, uri_components(S, A, P, _, F), Q, uri_components(S, A, P, Q, F)). uri_data(fragment, uri_components(S, A, P, Q, _), F, uri_components(S, A, P, Q, F)). %! uri_normalized(+URI, -NormalizedURI) is det. % % NormalizedURI is the normalized form of URI. Normalization is % syntactic and involves the following steps: % % * 6.2.2.1. Case Normalization % * 6.2.2.2. Percent-Encoding Normalization % * 6.2.2.3. Path Segment Normalization %! iri_normalized(+IRI, -NormalizedIRI) is det. % % NormalizedIRI is the normalized form of IRI. Normalization is % syntactic and involves the following steps: % % * 6.2.2.1. Case Normalization % * 6.2.2.3. Path Segment Normalization % % @see This is similar to uri_normalized/2, but does not do % normalization of %-escapes. %! uri_normalized_iri(+URI, -NormalizedIRI) is det. % % As uri_normalized/2, but percent-encoding is translated into IRI % Unicode characters. The translation is liberal: valid UTF-8 % sequences of %-encoded bytes are mapped to the Unicode % character. Other %XX-sequences are mapped to the corresponding % ISO-Latin-1 character and sole % characters are left untouched. % % @see uri_iri/2. %! uri_is_global(+URI) is semidet. % % True if URI has a scheme. The semantics is the same as the code % below, but the implementation is more efficient as it does not need % to parse the other components, nor needs to bind the scheme. The % condition to demand a scheme of more than one character is added to % avoid confusion with DOS path names. % % == % uri_is_global(URI) :- % uri_components(URI, Components), % uri_data(scheme, Components, Scheme), % nonvar(Scheme), % atom_length(Scheme, Len), % Len > 1. % == %! uri_resolve(+URI, +Base, -GlobalURI) is det. % % Resolve a possibly local URI relative to Base. This implements % http://labs.apache.org/webarch/uri/rfc/rfc3986.html#relative-transform %! uri_normalized(+URI, +Base, -NormalizedGlobalURI) is det. % % NormalizedGlobalURI is the normalized global version of URI. % Behaves as if defined by: % % == % uri_normalized(URI, Base, NormalizedGlobalURI) :- % uri_resolve(URI, Base, GlobalURI), % uri_normalized(GlobalURI, NormalizedGlobalURI). % == %! iri_normalized(+IRI, +Base, -NormalizedGlobalIRI) is det. % % NormalizedGlobalIRI is the normalized global version of IRI. % This is similar to uri_normalized/3, but does not do %-escape % normalization. %! uri_normalized_iri(+URI, +Base, -NormalizedGlobalIRI) is det. % % NormalizedGlobalIRI is the normalized global IRI of URI. Behaves % as if defined by: % % == % uri_normalized(URI, Base, NormalizedGlobalIRI) :- % uri_resolve(URI, Base, GlobalURI), % uri_normalized_iri(GlobalURI, NormalizedGlobalIRI). % == %! uri_query_components(+String, -Query) is det. %! uri_query_components(-String, +Query) is det. % % Perform encoding and decoding of an URI query string. Query is a % list of fully decoded (Unicode) Name=Value pairs. In mode (-,+), % query elements of the forms Name(Value) and Name-Value are also % accepted to enhance interoperability with the option and pairs % libraries. E.g. % % == % ?- uri_query_components(QS, [a=b, c('d+w'), n-'VU Amsterdam']). % QS = 'a=b&c=d%2Bw&n=VU%20Amsterdam'. % % ?- uri_query_components('a=b&c=d%2Bw&n=VU%20Amsterdam', Q). % Q = [a=b, c='d+w', n='VU Amsterdam']. % == %! uri_authority_components(+Authority, -Components) is det. %! uri_authority_components(-Authority, +Components) is det. % % Break-down the authority component of a URI. The fields of the % structure Components can be accessed using uri_authority_data/3. % This predicate deals with IPv6 addresses written as ``[ip]``, % returning the _ip_ as `host`, without the enclosing `[]`. When % constructing an authority string and the host contains `:`, the % host is embraced in `[]`. If `[]` is not used correctly, the % behavior should be considered poorly defined. If there is no % balancing `]` or the host part does not end with `]`, these % characters are considered normal characters and part of the % (invalid) host name. %! uri_authority_data(+Field, ?Components, ?Data) is semidet. % % Provide access the uri_authority structure. Defined field-names % are: =user=, =password=, =host= and =port= uri_authority_data(user, uri_authority(U, _, _, _), U). uri_authority_data(password, uri_authority(_, P, _, _), P). uri_authority_data(host, uri_authority(_, _, H, _), H). uri_authority_data(port, uri_authority(_, _, _, P), P). %! uri_encoded(+Component, +Value, -Encoded) is det. %! uri_encoded(+Component, -Value, +Encoded) is det. % % Encoded is the URI encoding for Value. When encoding % (Value->Encoded), Component specifies the URI component where the % value is used. It is one of =query_value=, =fragment=, =path= or % =segment=. Besides alphanumerical characters, the following % characters are passed verbatim (the set is split in logical groups % according to RFC3986). % % $ query_value, fragment : % "-._~" | "!$'()*,;" | "@" | "/?" % $ path : % "-._~" | "!$&'()*,;=" | "@" | "/" % $ segment : % "-._~" | "!$&'()*,;=" | "@" %! uri_iri(+URI, -IRI) is det. %! uri_iri(-URI, +IRI) is det. % % Convert between a URI, encoded in US-ASCII and an IRI. An IRI is % a fully expanded Unicode string. Unicode strings are first % encoded into UTF-8, after which %-encoding takes place. % % @error syntax_error(Culprit) in mode (+,-) if URI is not a % legally percent-encoded UTF-8 string. %! uri_file_name(+URI, -FileName) is semidet. %! uri_file_name(-URI, +FileName) is det. % % Convert between a URI and a local file_name. This protocol is % covered by RFC 1738. Please note that file-URIs use _absolute_ % paths. The mode (-, +) translates a possible relative path into % an absolute one. uri_file_name(URI, FileName) :- nonvar(URI), !, uri_components(URI, Components), uri_data(scheme, Components, File), File == file, ( uri_data(authority, Components, '') -> true ; uri_data(authority, Components, localhost) ), uri_data(path, Components, FileNameEnc), uri_encoded(path, FileName0, FileNameEnc), delete_leading_slash(FileName0, FileName). uri_file_name(URI, FileName) :- nonvar(FileName), !, absolute_file_name(FileName, Path0), ensure_leading_slash(Path0, Path), uri_encoded(path, Path, PathEnc), uri_data(scheme, Components, file), uri_data(authority, Components, ''), uri_data(path, Components, PathEnc), uri_components(URI, Components). %! ensure_leading_slash(+WinPath, -Path). %! delete_leading_slash(+Path, -WinPath). % % Deal with the fact that absolute paths in Windows start with a % drive letter rather than a /. For URIs we need a path that % starts with a /. ensure_leading_slash(Path, SlashPath) :- ( sub_atom(Path, 0, _, _, /) -> SlashPath = Path ; atom_concat(/, Path, SlashPath) ). :- if(current_prolog_flag(windows, true)). delete_leading_slash(Path, WinPath) :- atom_concat(/, WinPath, Path), is_absolute_file_name(WinPath), !. :- endif. delete_leading_slash(Path, Path). /******************************* * MODIFYING * *******************************/ %! uri_edit(+Actions, +URI0, -URI) is det. % % Modify a URI according to Actions. Actions is either a single % action or a (nested) list of actions. Defined primitive actions % are: % % - scheme(+Scheme) % Set the Scheme of the URI (typically `http`, `https`, etc.) % - user(+User) % Add/set the user of the authority component. % - password(+Password) % Add/set the password of the authority component. % - host(+Host) % Add/set the host (or ip address) of the authority component. % - port(+Port) % Add/set the port of the authority component. % - path(+Path) % Set/extend the `path` component. If Path is not absolute it % is taken relative to the path of URI0. % - search(+KeyValues) % Extend the `Key=Value` pairs of the current search (query) % component. New values replace existing values. If KeyValues % is written as =(KeyValues) the current search component is % ignored. KeyValues is a list, whose elements are one of % `Key=Value`, `Key-Value` or `Key(Value)`. % - fragment(+Fragment) % Set the Fragment of the uri. % % Components can be _removed_ by using a variable as value, except % from `path` which can be reset using path(/) and query which can % be dropped using query(=([])). % % @arg URI0 is either a valid uri or a variable to start fresh. uri_edit(Actions, URI0, URI) :- ( var(URI0) -> URI1 = '/' ; URI1 = URI0 ), uri_components(URI1, Comp0), edit_components(Actions, Comp0, Comp), uri_components(URI, Comp). edit_components([], Comp0, Comp) => Comp = Comp0. edit_components([H|T], Comp0, Comp) => edit_components(H, Comp0, Comp1), edit_components(T, Comp1, Comp). edit_components(scheme(Scheme), Comp0, Comp) => uri_data(scheme, Comp0, Scheme, Comp). edit_components(path(Path), Comp0, Comp) => uri_data(path, Comp0, Path0), ( ( var(Path0) ; Path0 == '' ) -> Path1 = '/' ; Path1 = Path0 ), uri_normalized(Path, Path1, Path2), uri_data(path, Comp0, Path2, Comp). edit_components(fragment(Fragment), Comp0, Comp) => uri_data(fragment, Comp0, Fragment, Comp). edit_components(Authority, Comp0, Comp), authority_field(Authority) => uri_data(authority, Comp0, Auth0), ( var(Auth0) -> true ; uri_authority_components(Auth0, AComp0) ), edit_auth_components(Authority, AComp0, AComp), uri_authority_components(Auth, AComp), uri_data(authority, Comp0, Auth, Comp). edit_components(query(Search), Comp0, Comp) => edit_components(search(Search), Comp0, Comp). edit_components(search(=(Search)), Comp0, Comp) => uri_query_components(String, Search), uri_data(search, Comp0, String, Comp). edit_components(search(Search), Comp0, Comp) => uri_data(search, Comp0, SS0), ( var(SS0) -> Search0 = [] ; uri_query_components(SS0, Search0) ), join_search(Search0, Search, Search1), uri_query_components(SS1, Search1), uri_data(search, Comp0, SS1, Comp). edit_components(Other, _, _) => domain_error(uri_edit, Other). authority_field(user(_)). authority_field(password(_)). authority_field(host(_)). authority_field(port(_)). edit_auth_components(user(User), uri_authority(_, Passwd, Host, Port), uri_authority(User, Passwd, Host, Port)). edit_auth_components(password(Passwd), uri_authority(User, _, Host, Port), uri_authority(User, Passwd, Host, Port)). edit_auth_components(host(Host), uri_authority(User, Passwd, _, Port), uri_authority(User, Passwd, Host, Port)). edit_auth_components(port(Port), uri_authority(User, Passwd, Host, _), uri_authority(User, Passwd, Host, Port)). join_search([], Search, Search). join_search([N=_|ST], New, Search) :- ( memberchk(N=_, New) -> true ; functor(T, N, 1), memberchk(T, New) -> true ; memberchk(N-_, New) ), !, join_search(ST, New, Search). join_search([H|ST], New, [H|Search]) :- join_search(ST, New, Search). /******************************* * SANDBOX * *******************************/ :- multifile sandbox:safe_primitive/1. sandbox:safe_primitive(uri:uri_components(_,_)). sandbox:safe_primitive(uri:uri_normalized(_,_)). sandbox:safe_primitive(uri:iri_normalized(_,_)). sandbox:safe_primitive(uri:uri_normalized_iri(_,_)). sandbox:safe_primitive(uri:uri_normalized(_,_,_)). sandbox:safe_primitive(uri:iri_normalized(_,_,_)). sandbox:safe_primitive(uri:uri_normalized_iri(_,_,_)). sandbox:safe_primitive(uri:uri_resolve(_,_,_)). sandbox:safe_primitive(uri:uri_is_global(_)). sandbox:safe_primitive(uri:uri_query_components(_,_)). sandbox:safe_primitive(uri:uri_authority_components(_,_)). sandbox:safe_primitive(uri:uri_encoded(_,_,_)). sandbox:safe_primitive(uri:uri_iri(_,_)).