- Documentation
- Reference manual
- Packages
- Google's Protocol Buffers Library
- SWI-Prolog SSL Interface
- SWI-Prolog HTTP support
- Paxos -- a SWI-Prolog replicating key-value store
- SWI-Prolog Semantic Web Library 3.0
- SWI-Prolog Source Documentation Version 2
- SWI-Prolog Regular Expression library
- SWI-Prolog YAML library
- Managing external tables for SWI-Prolog
- SWI-Prolog ODBC Interface
- A C++ interface to SWI-Prolog
- SWI-Prolog RDF parser
- SWI-Prolog binding to BSD libedit
- SWI-Prolog C-library
- Redis -- a SWI-Prolog client for redis
- SWI-Prolog Natural Language Processing Primitives
- SWI-Prolog binding to GNU readline
- SWI-Prolog binding to zlib
- SWI-Prolog binding to libarchive
- Transparent Inter-Process Communications (TIPC) libraries
- Constraint Query Language A high level interface to SQL databases
- Pengines: Web Logic Programming Made Easy
- SWI-Prolog SGML/XML parser
- Prolog Unit Tests
- SWI-Prolog Unicode library
VU University Amsterdam
University of Amsterdam
The Netherlands
E-mail: J.Wielemaker@vu.nl
Table of Contents
1 Introduction
The HTTP (HyperText Transfer Protocol) is the W3C standard protocol for transferring information between a web-client (e.g., a browser) and a web-server. The protocol is a simple envelope protocol where standard name/value pairs in the header are used to split the stream into messages and communicate about the connection-status. Many languages have client and or server libraries to deal with the HTTP protocol, making it a suitable candidate for general purpose client-server applications.
In this document we describe a modular infra-structure to access web-servers from SWI-Prolog and turn Prolog into a web-server.
Acknowledgements
This work has been carried out under the following projects: GARP, MIA, IBROW, KITS and MultiMediaN The following people have pioneered parts of this library and contributed with bug-report and suggestions for improvements: Anjo Anjewierden, Bert Bredeweg, Wouter Jansweijer, Bob Wielinga, Jacco van Ossenbruggen, Michiel Hildebrandt, Matt Lilley and Keri Harris.
Path wildcarts (see http_handler/3) have been modelled after the‘arouter` package by Raivo Laanemets. Request rewriting has been added after discussion with Raivo Laanemets and Anne Ogborn on the SWI-Prolog mailinglist.
2 The HTTP client libraries
This package provides two client libraries for accessing HTTP
servers. The first, library(http/http_open)
is a library
for opening a HTTP URL address as a Prolog stream. The general skeleton
for using this library is given below, where process/1 processes the
data from the HTTP server.1One may
opt to use cleanup/2
intead of setup_call_cleanup/3
to allow for aborting while http_open/3
is waiting for the connection.
setup_call_cleanup( http_open(URL, In, []), process(In), close(In)).
The second, library(http/http_client)
provides http_get/3
and
http_post/4,
both of which process the reply using plugins to convert the data based
on the Content-Type
of the reply. This library supports a
plugin infrastructure that can register hooks for converting additional
document types.
2.1 library(http/http_open): HTTP client library
- See also
- - load_html/3 and xpath/3
can be used to parse and navigate HTML documents.
- http_get/3 and http_post/4 provide an alternative interface that convert the reply depending on theContent-Type
header.
This library defines http_open/3, which opens a URL as a Prolog stream. The functionality of the library can be extended by loading two additional modules that act as plugins:
- library(http/http_ssl_plugin)
- Loading this library causes http_open/3
to handle HTTPS connections. Relevant options for SSL certificate
handling are handed to
ssl_context/3. This plugin is loaded
automatically if the scheme
https
is requested using a default SSL context. See the plugin for additional information regarding security. - library(zlib)
- Loading this library supports the
gzip
transfer encoding. This plugin is lazily loaded if a connection is opened that claims this transfer encoding. - library(http/http_cookie)
- Loading this library adds tracking cookies to http_open/3. Returned cookies are collected in the Prolog database and supplied for subsequent requests.
- library(http/http_stream)
- This library adds support for chunked encoding and makes the http_open/3 advertise itself as HTTP/1.1 instead of HTTP/1.0.
Here is a simple example to fetch a web-page:
?- http_open('http://www.google.com/search?q=prolog', In, []), copy_stream_data(In, user_output), close(In). <!doctype html><head><title>prolog - Google Search</title><script> ...
The example below fetches the modification time of a web-page. Note that Modified is” (the empty atom) if the web-server does not provide a time-stamp for the resource. See also parse_time/2.
modified(URL, Stamp) :- http_open(URL, In, [ method(head), header(last_modified, Modified) ]), close(In), Modified \== '', parse_time(Modified, Stamp).
Then next example uses Google search. It exploits library(uri)
to manage URIs, library(sgml)
to load an HTML document and library(xpath)
to navigate the parsed HTML. Note that you may need to adjust the XPath
queries if the data returned by Google changes.
:- use_module(library(http/http_open)). :- use_module(library(xpath)). :- use_module(library(sgml)). :- use_module(library(uri)). google(For, Title, HREF) :- uri_encoded(query_value, For, Encoded), atom_concat('http://www.google.com/search?q=', Encoded, URL), http_open(URL, In, []), call_cleanup( load_html(In, DOM, []), close(In)), xpath(DOM, //h3(@class=r), Result), xpath(Result, //a(@href=HREF0, text), Title), uri_components(HREF0, Components), uri_data(search, Components, Query), uri_query_components(Query, Parts), memberchk(q=HREF, Parts).
An example query is below:
?- google(prolog, Title, HREF). Title = 'SWI-Prolog', HREF = 'http://www.swi-prolog.org/' ; Title = 'Prolog - Wikipedia', HREF = 'https://nl.wikipedia.org/wiki/Prolog' ; Title = 'Prolog - Wikipedia, the free encyclopedia', HREF = 'https://en.wikipedia.org/wiki/Prolog' ; Title = 'Pro-Log is logistiek dienstverlener m.b.t. vervoer over water.', HREF = 'http://www.pro-log.nl/' ; Title = 'Learn Prolog Now!', HREF = 'http://www.learnprolognow.org/' ; Title = 'Free Online Version - Learn Prolog ...
- [det]http_open(+URL, -Stream, +Options)
- Open the data at the HTTP server as a Prolog stream. URL is
either an atom specifying a URL or a list representing a
broken-down URL as specified below. After this predicate
succeeds the data can be read from Stream. After completion
this stream must be closed using the built-in Prolog predicate
close/1. Options provides
additional options:
- authenticate(+Boolean)
- If
false
(defaulttrue
), do not try to automatically authenticate the client if a 401 (Unauthorized) status code is received. - authorization(+Term)
- Send authorization. See also http_set_authorization/2.
Supported schemes:
- basic(+User, +Password)
- HTTP Basic authentication.
- bearer(+Token)
- HTTP Bearer authentication.
- digest(+User, +Password)
- HTTP Digest authentication. This option is only provided if the plugin
library(http/http_digest)
is also loaded.
- unix_socket(+Path)
- Connect to the given Unix domain socket. In this scenario the host name
and port or ignored. If the server replies with a redirect
message and the host differs from the original host as normal TCP
connection is used to handle the redirect. This option is inspired by
curl(1)
’s option‘--unix-socket`. - connection(+Connection)
- Specify the
Connection
header. Default isclose
. The alternative isKeep-alive
. This maintains a pool of available connections as determined by keep_connection/1. Thelibrary(http/websockets)
usesKeep-alive, Upgrade
. Keep-alive connections can be closed explicitly using http_close_keep_alive/1. Keep-alive connections may significantly improve repetitive requests on the same server, especially if the IP route is long, HTTPS is used or the connection uses a proxy. - final_url(-FinalURL)
- Unify FinalURL with the final destination. This differs from the original URL if the returned head of the original indicates an HTTP redirect (codes 301, 302 or 303). Without a redirect, FinalURL is the same as URL if URL is an atom, or a URL constructed from the parts.
- header(Name, -AtomValue)
- If provided, AtomValue is unified with the value of the indicated field in the reply header. Name is matched case-insensitive and the underscore (_) matches the hyphen (-). Multiple of these options may be provided to extract multiple header fields. If the header is not available AtomValue is unified to the empty atom ('').
- headers(-List)
- If provided, List is unified with a list of Name(Value) pairs
corresponding to fields in the reply header. Name and Value follow the
same conventions used by the
header(Name,Value)
option. - method(+Method)
- One of
get
(default),head
,delete
,post
,put
orpatch
. Thehead
message can be used in combination with theheader(Name, Value)
option to access information on the resource without actually fetching the resource itself. The returned stream must be closed immediately.If
post(Data)
is provided, the default ispost
. - size(-Size)
- Size is unified with the integer value of
Content-Length
in the reply header. - version(-Version)
- Version is a pair
Major-Minor
, where Major and Minor are integers representing the HTTP version in the reply header. - range(+Range)
- Ask for partial content. Range is a term Unit(From,To),
where From is an integer and To is either an
integer or the atom
end
. HTTP 1.1 only supports Unit =bytes
. E.g., to ask for bytes 1000-1999, use the optionrange(bytes(1000,1999))
- redirect(+Boolean)
- If
false
(defaulttrue
), do not automatically redirect if a 3XX code is received. Must be combined withstatus_code(Code)
and one of the header options to read the redirect reply. In particular, withoutstatus_code(Code)
a redirect is mapped to an exception. - status_code(-Code)
- If this option is present and Code unifies with the HTTP status code, do not translate errors (4xx, 5xx) into an exception. Instead, http_open/3 behaves as if 2xx (success) is returned, providing the application to read the error document from the returned stream.
- output(-Out)
- Unify the output stream with Out and do not close it. This can be used to upgrade a connection.
- timeout(+Timeout)
- If provided, set a timeout on the stream using set_stream/2.
With this option if no new data arrives within Timeout
seconds the stream raises an exception. Default is to wait forever (
infinite
). - post(+Data)
- Issue a
POST
request on the HTTP server. Data is handed to http_post_data/3. - proxy(+Host:Port)
- Use an HTTP proxy to connect to the outside world. See also socket:proxy_for_url/3. This option overrules the proxy specification defined by socket:proxy_for_url/3.
- proxy(+Host, +Port)
- Synonym for
proxy(+Host:Port)
. Deprecated. - proxy_authorization(+Authorization)
- Send authorization to the proxy. Otherwise the same as the
authorization
option. - bypass_proxy(+Boolean)
- If
true
, bypass proxy hooks. Default isfalse
. - request_header(Name=Value)
- Additional name-value parts are added in the order of appearance to the HTTP request header. No interpretation is done.
- max_redirect(+Max)
- Sets the maximum length of a redirection chain. This is needed for some
IRIs that redirect indefinitely to other IRIs without looping (e.g.,
redirecting to IRIs with a random element in them).
Max must be either a non-negative integer or the atom
infinite
. The default value is10
. - user_agent(+Agent)
- Defines the value of the
User-Agent
field of the HTTP header. Default isSWI-Prolog
.
The hook http:open_options/2 can be used to provide default options based on the broken-down URL. The option
status_code(-Code)
is particularly useful to query REST interfaces that commonly return status codes other than200
that need to be be processed by the client code.URL is either an atom or string (url) or a list of parts. When provided, this list may contain the fields
scheme
,user
,password
,host
,port
,path
and eitherquery_string
(whose argument is an atom) orsearch
(whose argument is a list ofName(Value)
orName=Value
compound terms). Onlyhost
is mandatory. The example below opens the URLhttp://www.example.com/my/path?q=Hello%20World&lang=en
. Note that values must not be quoted because the library inserts the required quotes.http_open([ host('www.example.com'), path('/my/path'), search([ q='Hello world', lang=en ]) ])
- throws
error(existence_error(url, Id),Context)
is raised if the HTTP result code is not in the range 200..299. Context has the shapecontext(Message, status(Code, TextCode))
, where Code is the numeric HTTP code and TextCode is the textual description thereof provided by the server. Message may provide additional details or may be unbound.- See also
- ssl_context/3 for SSL related options if
library(http/http_ssl_plugin)
is loaded.
- [multifile]map_method(+MethodID, -Method)
- Support additional
METHOD
keywords. Default are the official HTTP methods as defined by the various RFCs. - [semidet,multifile]http:disable_encoding_filter(+ContentType)
- Do not use the
Content-encoding
asTransfer-encoding
encoding for specific values of ContentType. This predicate is multifile and can thus be extended by the user. - [det]http_set_authorization(+URL, +Authorization)
- Set user/password to supply with URLs that have URL as
prefix. If Authorization is the atom
-
, possibly defined authorization is cleared. For example:?- http_set_authorization('http://www.example.com/private/', basic('John', 'Secret'))
- To be done
- Move to a separate module, so http_get/3, etc. can use this too.
- [semidet,multifile]iostream:open_hook(+Spec, +Mode, -Stream, -Close, +Options0, -Options)
- Hook implementation that makes open_any/5
support
http
andhttps
URLs forMode == read
. - [det]http_close_keep_alive(+Address)
- Close all keep-alive connections matching Address. Address
is of the form Host:Port. In particular,
http_close_keep_alive(_)
closes all currently known keep-alive connections. - [nondet,multifile]http:open_options(+Parts, -Options)
- This hook is used by the HTTP client library to define default options
based on the the broken-down request-URL. The following example
redirects all trafic, except for localhost over a proxy:
:- multifile http:open_options/2. http:open_options(Parts, Options) :- option(host(Host), Parts), Host \== localhost, Options = [proxy('proxy.local', 3128)].
This hook may return multiple solutions. The returned options are combined using merge_options/3 where earlier solutions overrule later solutions.
- [semidet,multifile]http:write_cookies(+Out, +Parts, +Options)
- Emit a
Cookie:
header for the current connection. Out is an open stream to the HTTP server, Parts is the broken-down request (see uri_components/2) and Options is the list of options passed to http_open. The predicate is called as if using ignore/1.- See also
- - complements http:update_cookies/3.
-library(http/http_cookie)
implements cookie handling on top of these hooks.
- [semidet,multifile]http:update_cookies(+CookieData, +Parts, +Options)
- Update the cookie database. CookieData is the value of the
Set-Cookie
field, Parts is the broken-down request (see uri_components/2) and Options is the list of options passed to http_open.- See also
- - complements http:write_cookies
-library(http/http_cookies)
implements cookie handling on top of these hooks.
2.2 library(http/http_client): HTTP client library
This library provides the four basic HTTP client actions: GET
,
DELETE
, POST
and PUT
. In
addition, it provides http_read_data/3,
which is used by library(http/http_parameters)
to decode POST
data in server applications.
This library is based on http_open/3, which opens a URL as a Prolog stream. The reply is processed by http_read_data/3. The following content-types are supported. Options passed to http_get/3 and friends are passed to http_read_data/3, which in turn passes them to the conversion predicates. Support for additional content types can be added by extending the multifile predicate http_client:http_convert_data/4.
- application/x-www-form-urlencoded
- Built in. Converts form-data into a list of
Name=Value
terms. - application/x-prolog
- Built in. Reads a single Prolog term.
- multipart/form-data
- Processed if
library(http/http_multipart_plugin)
is loaded. This format should be used to handle web forms that upload a file. text/html
|
text/xml
- Processed if
library(http/http_sgml_plugin)
is loaded. See load_html/3 for details and load_xml/3 for details. The output is often processed using xpath/3. application/json
|
application/jsonrequest
- Processed if
library(http/http_json)
is loaded. The optionjson_object(As)
can be used to return a termjson(Attributes)
(As isterm
) or a dict (As isdict
).
- [det]http_get(+URL, -Data, +Options)
- Get data from a URL server and convert it to a suitable
Prolog representation based on the
Content-Type
header and plugins. This predicate is the common implementation of the HTTP client operations. The predicates http_delete/3, http_post/4 and http_put/4 call this predicate with an appropriatemethod(+Method)
option and ---for http_post/4 and http_put/4--- apost(+Data)
option.Options are passed to http_open/3 and http_read_data/3. Other options:
- reply_header(-Fields)
- Synonym for
headers(Fields)
from http_open/3. Provided for backward compatibility. Note thathttp_version(Major-Minor)
is missing in the new version.
- [det]http_delete(+URL, -Data, +Options)
- Execute a
DELETE
method on the server. Arguments are the same as for http_get/3. Typically one should pass the optionstatus_code(-Code)
to assess and evaluate the returned status code. Without, codes other than 200 are interpreted as an error.- See also
- Implemented on top of http_get/3.
- To be done
- Properly map the 201, 202 and 204 replies.
- [det]http_post(+URL, +Data, -Reply, +Options)
- Issue an HTTP
POST
request. Data is posted using http_post_data/3. The HTTP server reply is returned in Reply, using the same rules as for http_get/3.- See also
- Implemented on top of http_get/3.
- http_put(+URL, +Data, -Reply, +Options)
- Issue an HTTP
PUT
request. Arguments are the same as for http_post/4.- See also
- Implemented on top of http_post/4.
- http_patch(+URL, +Data, -Reply, +Options)
- Issue an HTTP
PATCH
request. Arguments are the same as for http_post/4.- See also
- Implemented on top of http_post/4.
- [det]http_read_data(+Request, -Data, +Options)
- Read data from an HTTP connection and convert it according to the
supplied
to(Format)
option or based on theContent-type
in the Request. The following options are supported:- to(Format)
- Convert data into Format. Values are:
stream(+WriteStream)
) Append the content of the message to Stream- atom Return the reply as an atom
- string Return the reply as a string
- codes Return the reply as a list of codes
- form_data(AsForm)
- input_encoding(+Encoding)
- on_filename(:CallBack)
- These options are implemented by the plugin
library(http/http_multipart_plugin)
and apply to processingmultipart/form-data
content. - content_type(+Type)
- Overrule the content-type that is part of Request as a work-around for wrongly configured servers.
Without plugins, this predicate handles
- application/x-www-form-urlencoded
- Converts form-data into a list of
Name=Value
terms. - application/x-prolog
- Converts data into a Prolog term.
Request is a parsed HTTP request as returned by http_read_request/2 or available from the HTTP server's request dispatcher. Request must contain a term input(In)
that provides the input stream from the HTTP server. - [semidet,multifile]http_convert_data(+In, +Fields, -Data, +Options)
- Multi-file hook to convert a HTTP payload according to the
Content-Type header. The default implementation deals with
application/x-prolog. The HTTP framework provides implementations for
JSON (
library(http/http_json)
), HTML/XML (library(http/http_sgml_plugin)
) - [det]http_disconnect(+Connections)
- Close down some connections. Currently Connections must have
the value
all
, closing all connections.- deprecated
- New code should use http_close_keep_alive/1
from
library(http/http_open)
.
- [semidet,multifile]http:post_data_hook(+Term, +Out, +Options)
- Hook to extend the datatypes supported by the
post(Data)
option of http_open/3. The default implementation supportsprolog(Term)
, sending a Prolog term asapplication/x-prolog
.
3 The HTTP server libraries
The HTTP server infra structure consists of a number of small modular
libraries that are combined into library(http/http_server)
.
These modules are:
library(http/thread_httpd)
- This library is responsible for accepting and managing connections.2In older versions there were two alternative libraries for managing connections based on XPCE and Unix inetd.
library(http/http_dyn_workers)
- This library dynamically adds and removes workers based on the workload of the server.
library(http/http_wrapper)
- This library takes a connection, parses the HTTP request header and runs a goal that produces a CGI document based on the parsed request. It watches for exceptions and turns these into (error) status pages. The status page generation may be hooked to provide custom pages.
library(http/http_dispatch)
- This library associates the path of the HTTP request with a handler that services this particular path. It also manages timeouts and may pass the execution of a request to a dedicated thread with specified resource limits using http_spawn/2. The module supports plugable request rewrite handlers that may be used to implement identification, authorization, input argument processing, etc.
library(http/http_parameters)
- This library parses HTTP request parameters, both dealing with GET and POST style parameter passing.
library(http/html_write)
- This library translates a Prolog term into an HTML document using Prolog
grammar rules (DCG). It provides a modular infrastructure to
build pages that are guaranteed to be valid HTML. The HTTP server
libraries provide several alternatives for generating HTML ranging from
simple printing to
current_output
to XML-based templates (PWP). library(http/http_json)
- This library parses a POSTed HTTP document into a Prolog dict and formulates an HTTP JSON reply from a Prolog dict and is typically used to implement REST services.
Most server implementation simply load the library(http/http_server)
library, which loads the above modules and reexports all predicates
except for those used for internal communication and older deprecated
predicates. Specific use cases may load a subset of the individual
libraries and may decide to replace one or more of them.
A typical skeleton for building a server is given below. If this file
is loaded as main file (using e.g., swipl server.pl
) it
creates a simple server that listens on port 8080. If the root is
accessed it redirects to the home page and shows Hello world!.
:- use_module(library(http/http_server)). :- initialization http_server([port(8080)]). :- http_handler(root(.), http_redirect(moved, location_by_id(home_page)), []). :- http_handler(root(home), home_page, []). home_page(_Request) :- reply_html_page( title('Demo server'), [ h1('Hello world!') ]).
3.1 Creating an HTTP reply
The handler (e.g., home_page/1 above) is called with the
parsed request (see section 3.13) as
argument and
current_output
set to a temporary buffer. Its task is
closely related to the task of a CGI script; it must write a header
declaring at least the Content-type
field and a body. Below
is a simple body writing the request as an HTML table.3Note
that writing an HTML reply this way is deprecated. In fact, the code is
subject to injection attacks as the HTTP request field values
are literally injected in the output while HTML reserved characters
should be properly escaped.
reply(Request) :- format('Content-type: text/html~n~n', []), format('<html>~n', []), format('<table border=1>~n'), print_request(Request), format('~n</table>~n'), format('</html>~n', []). print_request([]). print_request([H|T]) :- H =.. [Name, Value], format('<tr><td>~w<td>~w~n', [Name, Value]), print_request(T).
The infrastructure recognises the header fields described below.
Other header lines are passed verbatim to the client. Typical examples
are
Set-Cookie
and authentication headers (see section
3.7).
- Content-type: Type
- This field is passed to the client and used by the infrastructure to
determine the encoding to use for the stream. If type
matches
text/*
or the type matches withUTF-8
(case insensitive), the server uses UTF-8 encoding. The user may force UTF-8 encoding for arbitrary content types by adding; charset=UTF-8
to the end of theContent-type
header. - Transfer-encoding: chunked
- Causes the server to use chunked encoding if the client allows
for it. See also section 4 and the
chunked
option in http_handler/3. - Connection: close
- Causes the connection to be closed after the transfer. The default is to keep it open‘Keep-Alive' if possible.
- Location: URL
- This header may be combined with the
Status
header to force a redirect response to the given URL. The message body must be empty. Handling this header is primarily intended for compatibility with the CGI conventions. Prolog code should use http_redirect/3. - Status: Status
- This header can be combined with
Location
, where Status must be one of 301 (moved), 302 (moved temporary, default) or 303 (see other). Using the status field also allows for formulating replies such as 201 (created).
Note that the handler may send any type of document instead of HTML.
After the header has been written, the encoding of the
current_output
stream encoding is established as follows:
- If the content type is
text/*
the stream is switched to UTF-8 encoding. If the content type does not provide attributes,; charset=UTF-8
is added. - The content type contains
UTF-8
the stream is switched to UTF-8 encoding. - http:mime_type_encoding/2 succeeds the returned encoding is used. The returned encoding must be valid for set_stream/2.
- If the content type matches a list of known encodings, this is used.
See mime_type_encoding/2
is
http_header
. The current list deals with JSON, Turtle and SPARQL. - Otherwise the stream uses octed (binary) encoding.
3.1.1 Returning special status codes
Besides returning a page by writing it to the current output stream,
the server goal can raise an exception using throw/1
to generate special pages such as not_found
, moved
,
etc. The defined exceptions are:
- http_reply(+Reply, +HdrExtra, +Context)
- Return a result page using http_reply/3. See http_reply/3 for supported values for Reply and section 3.10 for providing a custom error page.
- http_reply(+Reply, +HdrExtra)
- Return a result page using http_reply/3.
Equivalent to
http_reply(Reply, HdrExtra,[])
. - http_reply(+Reply)
- Equivalent to
http_reply(Reply, [],[])
. - http(not_modified)
- Equivalent to
http_reply(not_modified,[])
. This exception is for backward compatibility and can be used by the server to indicate the referenced resource has not been modified since it was requested last time.
In addition, the normal "200 OK"
reply status may be
overruled by writing a CGI Status
header prior to the
remainder of the message. This is particularly useful for defining REST
APIs. The following handler replies with a "201 Created"
header:
handle_request(Request) :- process_data(Request, Id), % application predicate format('Status: 201~n'), format('Content-type: text/plain~n~n'), format('Created object as ~q~n', [Id]).
3.2 library(http/http_dispatch): Dispatch requests in the HTTP server
Most code doesn't need to use this directly; instead use
library(http/http_server)
, which combines this library with
the typical HTTP libraries that most servers need.
This module can be placed between http_wrapper.pl
and
the application code to associate HTTP locations to predicates
that serve the pages. In addition, it associates parameters with
locations that deal with timeout handling and user authentication. The
typical setup is:
server(Port, Options) :- http_server(http_dispatch, [ port(Port) | Options ]). :- http_handler('/index.html', write_index, []). write_index(Request) :- ...
- [det]http_handler(+Path, :Closure, +Options)
- Register Closure as a handler for HTTP requests. Path
is either an absolute path such as
'/home.html'
or a term Alias(Relative). Where Alias is associated with a concrete path using http:location/3 and resolved using http_absolute_location/3. Relative can be a single atom or a term‘Segment1/Segment2/...`, where each element is either an atom or a variable. If a segment is a variable it matches any segment and the binding may be passed to the closure. If the last segment is a variable it may match multiple segments. This allows registering REST paths, for example::- http_handler(root(user/User), user(Method, User), [ method(Method), methods([get,post,put]) ]). user(get, User, Request) :- ... user(post, User, Request) :- ...
If an HTTP request arrives at the server that matches Path, Closure is called as below, where Request is the parsed HTTP request.
call(Closure, Request)
Options is a list containing the following options:
- authentication(+Type)
- Demand authentication. Authentication methods are pluggable. The library
http_authenticate.pl
provides a plugin for user/password basedBasic
HTTP authentication. - chunked
- Use
Transfer-encoding: chunked
if the client allows for it. - condition(:Goal)
- If present, the handler is ignored if Goal does not succeed.
- content_type(+Term)
- Specifies the content-type of the reply. This value is currently not used by this library. It enhances the reflexive capabilities of this library through http_current_handler/3.
- id(+Atom)
- Identifier of the handler. The default identifier is the predicate name. Used by http_location_by_id/2 and http_link_to_id/3.
- hide_children(+Bool)
- If
true
on a prefix-handler (see prefix), possible children are masked. This can be used to (temporary) overrule part of the tree. - method(+Method)
- Declare that the handler processes Method. This is equivalent
to
methods([Method])
. Usingmethod(*)
allows for all methods. - methods(+ListOfMethods)
- Declare that the handler processes all of the given methods. If this option appears multiple times, the methods are combined.
- prefix
- Call Pred on any location that is a specialisation of Path.
If multiple handlers match, the one with the longest path is used.
Options defined with a prefix handler are the default options
for paths that start with this prefix. Note that the handler acts as a
fallback handler for the tree below it:
:- http_handler(/, http_404([index('index.html')]), [spawn(my_pool),prefix]).
- priority(+Integer)
- If two handlers handle the same path, the one with the highest priority is used. If equal, the last registered is used. Please be aware that the order of clauses in multifile predicates can change due to reloading files. The default priority is 0 (zero).
- spawn(+SpawnOptions)
- Run the handler in a separate thread. If SpawnOptions is an atom, it is interpreted as a thread pool name (see create_thread_pool/3). Otherwise the options are passed to http_spawn/2 and from there to thread_create/3. These options are typically used to set the stack limits.
- time_limit(+Spec)
- One of
infinite
,default
or a positive number (seconds). Ifdefault
, the value from the settinghttp:time_limit
is taken. The default of this setting is 300 (5 minutes). See setting/2.
Note that http_handler/3 is normally invoked as a directive and processed using term-expansion. Using term-expansion ensures proper update through make/0 when the specification is modified.
- Errors
- -
existence_error(http_location, Location)
-permission_error(http_method, Method, Location)
- See also
- http_reply_file/3 and http_redirect/3 are generic handlers to serve files and achieve redirects.
- [det]http_delete_handler(+Spec)
- Delete handler for Spec. Typically, this should only be used
for handlers that are registered dynamically. Spec is one of:
- id(Id)
- Delete a handler with the given id. The default id is the handler-predicate-name.
- path(Path)
- Delete handler that serves the given path.
- [det]http_dispatch(Request)
- Dispatch a Request using http_handler/3
registrations. It performs the following steps:
- Find a matching handler based on the
path
member of Request. If multiple handlers match due to theprefix
option or variables in path segments (see http_handler/3), the longest specification is used. If multiple specifications of equal length match the one with the highest priority is used. - Check that the handler matches the
method
member of the Request or throwpermission_error(http_method, Method, Location)
- Expand the request using expansion hooks registered by
http_request_expansion/3. This may add
fields to the request, such the authenticated user, parsed parameters,
etc. The hooks may also throw exceptions, notably using http_redirect/3
or by throwing
http_reply(Term, ExtraHeader, Context)
exceptions. - Extract possible fields from the Request using e.g.
method(Method)
as one of the options. - Call the registered closure, optionally spawning the request to a new thread or enforcing a time limit.
- Find a matching handler based on the
- http_request_expansion(:Goal, +Rank:number)
- Register Goal for expanding the HTTP request handler. Goal
is called as below. If Goal fail the request is passed to the
next expansion unmodified.
call(Goal, Request0, Request, Options)
If multiple goals are registered they expand the request in a pipeline starting with the expansion hook with the lowest rank.
Besides rewriting the request, for example by validating the user identity based on HTTP authentication or cookies and adding this to the request, the hook may raise HTTP exceptions to indicate a bad request, permission error, etc. See http_status_reply/4.
Initially, auth_expansion/3 is registered with rank
100
to deal with the older http:authenticate/3 hook. - [semidet]http_current_handler(+Location, :Closure)
- [nondet]http_current_handler(-Location, :Closure)
- True if Location is handled by Closure.
- [semidet]http_current_handler(+Location, :Closure, -Options)
- [nondet]http_current_handler(?Location, :Closure, ?Options)
- Resolve the current handler and options to execute it.
- [det]http_location_by_id(+ID, -Location)
- True when Location represents the HTTP path to which the
handler with identifier ID is bound. Handler identifiers are
deduced from the http_handler/3
declaration as follows:
- Explicit id
- If a term
id(ID)
appears in the option list of the handler, ID it is used and takes preference over using the predicate. - Using the handler predicate
- ID matches a handler if the predicate name matches ID.
The
ID may have a module qualification, e.g.,
Module:Pred
If the handler is declared with a pattern, e.g.,
root(user/User)
, the location to access a particular user may be accessed using e.g.,user('Bob')
. The number of arguments to the compound term must match the number of variables in the path pattern.A plain atom ID can be used to find a handler with a pattern. The returned location is the path up to the first variable, e.g.,
/user/
in the example above.User code is adviced to use http_link_to_id/3 which can also add query parameters to the URL. This predicate is a helper for http_link_to_id/3.
- Errors
existence_error(http_handler_id, Id)
.- See also
- http_link_to_id/3 and the
library(http/html_write)
constructlocation_by_id(ID)
or its abbreviation#(ID)
- http_link_to_id(+HandleID, +Parameters, -HREF)
- HREF is a link on the local server to a handler with given
ID, passing the given Parameters. This predicate is typically
used to formulate a HREF that resolves to a handler
implementing a particular predicate. The code below provides a typical
example. The predicate user_details/1
returns a page with details about a user from a given id. This predicate
is registered as a handler. The DCG user_link//1
renders a link to a user, displaying the name and calling user_details/1
when clicked. Note that the location (
root(user_details)
) is irrelevant in this equation and HTTP locations can thus be moved freely without breaking this code fragment.:- http_handler(root(user_details), user_details, []). user_details(Request) :- http_parameters(Request, [ user_id(ID) ]), ... user_link(ID) --> { user_name(ID, Name), http_link_to_id(user_details, [id(ID)], HREF) }, html(a([class(user), href(HREF)], Name)).
HandleID is either an atom, possibly module qualified predicate or a compound term if the hander is defined using a pattern. See http_handler/3 and http_location_by_id/2. Parameters is one of path_postfix(File)
to pass a single value as the last segment of the HTTP location (path). This way of passing a parameter is commonly used in REST APIs.New code should use a path pattern in the handler declaration and a term‘HandleID(Arg, ...)`
- A list of search parameters for a
GET
request.
- See also
- http_location_by_id/2 and http_handler/3 for defining and specifying handler IDs.
- [det]http_reload_with_parameters(+Request, +Parameters, -HREF)
- Create a request on the current handler with replaced search parameters.
- [det]http_reply_file(+FileSpec, +Options, +Request)
- Options is a list of
- cache(+Boolean)
- If
true
(default), handle If-modified-since and send modification time. - mime_type(+Type)
- Overrule mime-type guessing from the filename as provided by file_mime_type/2.
- static_gzip(+Boolean)
- If true (default
false
) and, in addition to the plain file, there is a.gz
file that is not older than the plain file and the client accepsgzip
encoding, send the compressed file withTransfer-encoding: gzip
. - unsafe(+Boolean)
- If
false
(default), validate that FileSpec does not contain references to parent directories. E.g., specifications such aswww('../../etc/passwd')
are not allowed. - headers(+List)
- Provides additional reply-header fields, encoded as a list of Field(Value).
If caching is not disabled, it processes the request headers
If-modified-since
andRange
.- throws
- -
http_reply(not_modified)
-http_reply(file(MimeType, Path))
- [det]http_safe_file(+FileSpec, +Options)
- True if FileSpec is considered safe. If it is an atom,
it cannot be absolute and cannot have references to parent directories.
If it is of the form
alias(Sub)
, than Sub cannot have references to parent directories.- Errors
- - instantiation_error
-permission_error(read, file, FileSpec)
- [det]http_redirect(+How, +To, +Request)
- Redirect to a new location. The argument order, using the
Request as last argument, allows for calling this directly
from the handler declaration:
:- http_handler(root(.), http_redirect(moved, myapp('index.html')), []).
How is one of moved
,moved_temporary
orsee_other
To is an atom, a aliased path as defined by http_absolute_location/3. or a term location_by_id(Id)
or its abbreviations#(Id)
or#(Id)+Parameters
. If To is not absolute, it is resolved relative to the current location. - [det]http_404(+Options, +Request)
- Reply using an "HTTP 404 not found" page. This handler is intended as
fallback handler for prefix handlers. Options
processed are:
- index(Location)
- If there is no path-info, redirect the request to Location using http_redirect/3.
- Errors
http_reply(not_found(Path))
- http_switch_protocol(:Goal, +Options)
- Send an
"HTTP 101 Switching Protocols"
reply. After sending the reply, the HTTP library callscall(Goal, InStream, OutStream)
, where InStream and OutStream are the raw streams to the HTTP client. This allows the communication to continue using an an alternative protocol.If Goal fails or throws an exception, the streams are closed by the server. Otherwise Goal is responsible for closing the streams. Note that Goal runs in the HTTP handler thread. Typically, the handler should be registered using the
spawn
option if http_handler/3 or Goal must call thread_create/3 to allow the HTTP worker to return to the worker pool.The streams use binary (octet) encoding and have their I/O timeout set to the server timeout (default 60 seconds). The predicate set_stream/2 can be used to change the encoding, change or cancel the timeout.
This predicate interacts with the server library by throwing an exception.
The following options are supported:
- header(+Headers)
- Backward compatible. Use
headers(+Headers)
. - headers(+Headers)
- Additional headers send with the reply. Each header takes the form Name(Value).
3.3 library(http/http_dirindex): HTTP directory listings
- To be done
- Provide more options (sorting, selecting columns, hiding files)
This module provides a simple API to generate an index for a physical directory. The index can be customised by overruling the dirindex.css CSS file and by defining additional rules for icons using the hook http:file_extension_icon/2.
- [det]http_reply_dirindex(+DirSpec, :Options, +Request)
- Provide a directory listing for Request, assuming it is an
index for the physical directrory Dir. If the request-path does not end
with /, first return a moved (301 Moved Permanently) reply.
The calling conventions allows for direct calling from http_handler/3.
- [det]directory_index(+Dir,
:Options)
//
- Show index for a directory. Options processed:
- order_by(+Field)
- Sort the files in the directory listing by Field. Field
is one of
name
(default),size
ortime
. - order(+AscentDescent)
- Sorting order. Default is
ascending
. The altenative isdescending
- name(:RenderName)
- DCG used to render a name in the table. The File is passed.
- [nondet,multifile]http:mime_type_icon(+MimeType, -IconName)
- Multi-file hook predicate that can be used to associate icons to files
listed by http_reply_dirindex/3.
The actual icon file is located by
absolute_file_name(icons(IconName), Path, [])
.- See also
- serve_files_in_directory/2 serves the images.
3.4 library(http/http_files): Serve plain files from a hierarchy
- See also
- pwp_handler/2 provides similar facilities, where .pwp files can be used to add dynamic behaviour.
Although the SWI-Prolog Web Server is intended to serve documents
that are computed dynamically, serving plain files is sometimes
necessary. This small module combines the functionality of http_reply_file/3
and
http_reply_dirindex/3
to act as a simple web-server. Such a server can be created using the
following code sample, which starts a server at port 8080 that serves
files from the current directory ('.'). Note that the handler needs a prefix
option to specify that it must handle all paths that begin with the
registed location of the handler.
:- use_module(library(http/http_server)). :- use_module(library(http/http_files)). :- http_handler(root(.), http_reply_from_files('.', []), [prefix]). :- initialization(http_server([port(8080)]), main).
- http_reply_from_files(+Dir, +Options, +Request)
- HTTP handler that serves files from the directory Dir. This
handler uses http_reply_file/3
to reply plain files. If the request resolves to a directory, it uses
the option
indexes
to locate an index file (see below) or uses http_reply_dirindex/3 to create a listing of the directory.Options:
- indexes(+List)
- List of files tried to find an index for a directory. The
default is
['index.html']
.
Note that this handler must be tagged as a
prefix
handler (see http_handler/3 and module introduction). This also implies that it is possible to override more specific locations in the hierarchy using http_handler/3 with a longer path-specifier.Dir is either a directory or an path-specification as used by absolute_file_name/3. This option provides great flexibility in (re-)locating the physical files and allows merging the files of multiple physical locations into one web-hierarchy by using multiple user:file_search_path/2 clauses that define the same alias. - See also
- The hookable predicate file_mime_type/2 is
used to determine the
Content-type
from the file name.
3.5 library(http/http_session): HTTP Session management
This library defines session management based on HTTP cookies.
Session management is enabled simply by loading this module. Details can
be modified using http_set_session_options/1.
By default, this module creates a session whenever a request is
processes that is inside the hierarchy defined for session handling (see
path option in
http_set_session_options/1).
Automatic creation of a session can be stopped using the option create(noauto)
.
The predicate
http_open_session/2 must
be used to create a session if noauto
is enabled. Sessions
can be closed using http_close_session/1.
If a session is active, http_in_session/1 returns the current session and http_session_assert/1 and friends maintain data about the session. If the session is reclaimed, all associated data is reclaimed too.
Begin and end of sessions can be monitored using library(broadcast)
.
The broadcasted messages are:
- http_session(begin(SessionID,Peer))
- Broadcasted if a session is started
- http_session(end(SessionId,Peer))
- Broadcasted if a session is ended. See http_close_session/1.
For example, the following calls end_session(SessionId)
whenever a session terminates. Please note that sessions ends are not
scheduled to happen at the actual timeout moment of the session.
Instead, creating a new session scans the active list for timed-out
sessions. This may change in future versions of this library.
:- listen(http_session(end(SessionId, Peer)), end_session(SessionId)).
- [det]http_set_session_options(+Options)
- Set options for the session library. Provided options are:
- timeout(+Seconds)
- Session timeout in seconds. Default is 600 (10 min). A timeout of
0
(zero) disables timeout. - cookie(+Cookiekname)
- Name to use for the cookie to identify the session. Default
swipl_session
. - path(+Path)
- Path to which the cookie is associated. Default is
/
. Cookies are only sent if the HTTP request path is a refinement of Path. - route(+Route)
- Set the route name. Default is the unqualified hostname. To cancel adding a route, use the empty atom. See route/1.
- enabled(+Boolean)
- Enable/disable session management. Sesion management is enabled by default after loading this file.
- create(+Atom)
- Defines when a session is created. This is one of
auto
(default), which creates a session if there is a request whose path matches the defined session path ornoauto
, in which cases sessions are only created by calling http_open_session/2 explicitely. - proxy_enabled(+Boolean)
- Enable/disable proxy session management. Proxy session management associates the originating IP address of the client to the session rather than the proxy IP address. Default is false.
- gc(+When)
- When is one of
active
, which starts a thread that performs session cleanup at close to the moment of the timeout orpassive
, which runs session GC when a new session is created. - samesite(+Restriction)
- One of
none
,lax
(default), orstrict
- The SameSite attribute prevents the CSRF vulnerability. strict has best security, but prevents links from external sites from operating properly. lax stops most CSRF attacks against REST endpoints but rarely interferes with legitimage operations.none
removes the samesite attribute entirely. Caution: The valuenone
exposes the entire site to CSRF attacks.
In addition, extension libraries can define session_option/2 to make this predicate support more options. In particular,
library(http/http_redis_plugin)
defines the following additional options:- redis_db(+DB)
- Alias name of the redis database to access. See redis_server/2.
- redis_prefix(+Atom)
- Prefix to use for all HTTP session related keys. Default is
'swipl:http:session'
- [nondet]http_session_option(?Option)
- True if Option is a current option of the session system.
- [det]http_set_session(Setting)
- [det]http_set_session(SessionId, Setting)
- Overrule a setting for the current or specified session. Currently, the
only setting that can be overruled is
timeout
.- Errors
permission_error(set, http_session, Setting)
if setting a setting that is not supported on per-session basis.
- [det]http_session_id(-SessionId)
- True if SessionId is an identifier for the current session.
SessionId is an atom. - Errors
existence_error(http_session, _)
- See also
- http_in_session/1 for a version that fails if there is no session.
- [semidet]http_in_session(-SessionId)
- True if SessionId is an identifier for the current session.
The current session is extracted from
session(ID)
from the current HTTP request (see http_current_request/1). The value is cached in a backtrackable global variablehttp_session_id
. Using a backtrackable global variable is safe because continuous worker threads use a failure driven loop and spawned threads start without any global variables. This variable can be set from the commandline to fake running a goal from the commandline in the context of a session.- See also
- http_session_id/1
- [det]http_open_session(-SessionID, +Options)
- Establish a new session. This is normally used if the create option is
set to
noauto
. Options:- renew(+Boolean)
- If
true
(defaultfalse
) and the current request is part of a session, generate a new session-id. By default, this predicate returns the current session as obtained with http_in_session/1.
- Errors
permission_error(open, http_session, CGI)
if this call is used after closing the CGI header.- See also
- - http_set_session_options/1
to control the
create
option.
- http_close_session/1 for closing the session.
- [det]http_session_asserta(+Data)
- [det]http_session_assert(+Data)
- [nondet]http_session_retract(?Data)
- [det]http_session_retractall(?Data)
- Versions of assert/1, retract/1 and retractall/1 that associate data with the current HTTP session.
- [nondet]http_session_data(?Data)
- True if Data is associated using http_session_assert/1
to the current HTTP session.
- Errors
existence_error(http_session,_)
- [det]http_session_asserta(+Data, +SessionID)
- [det]http_session_assert(+Data, +SessionID)
- [nondet]http_session_retract(?Data, +SessionID)
- [det]http_session_retractall(@Data, +SessionID)
- [det]http_session_data(?Data, +SessionID)
- Versions of assert/1, retract/1
and retractall/1 that associate data with
an explicit HTTP session.
- See also
- http_current_session/2.
- [nondet]http_current_session(?SessionID, ?Data)
- Enumerate the current sessions and associated data. There are two pseudo
data elements:
- idle(Seconds)
- Session has been idle for Seconds.
- peer(Peer)
- Peer of the connection.
- [det]http_close_session(+SessionID)
- Closes an HTTP session. This predicate can be called from any thread to
terminate a session. It uses the broadcast/1
service with the message below.
http_session(end(SessionId, Peer))
The broadcast is done before the session data is destroyed and the listen-handlers are executed in context of the session that is being closed. Here is an example that destroys a Prolog thread that is associated to a thread:
:- listen(http_session(end(SessionId, _Peer)), kill_session_thread(SessionID)). kill_session_thread(SessionID) :- http_session_data(thread(ThreadID)), thread_signal(ThreadID, throw(session_closed)).
Succeed without any effect if SessionID does not refer to an active session.
If http_close_session/1 is called from a handler operating in the current session and the CGI stream is still in state
header
, this predicate emits aSet-Cookie
to expire the cookie.- Errors
type_error(atom, SessionID)
- See also
- listen/2 for acting upon closed sessions
- [det]http_session_cookie(-Cookie)
- Generate a random cookie that can be used by a browser to identify the current session. The cookie has the format XXXX-XXXX-XXXX-XXXX[.<route>], where XXXX are random hexadecimal numbers and [.<route>] is the optionally added routing information.
- [semidet,multifile]hooked
- [multifile]hook(+Goal)
- These multifile predicates may be used to hook the data storage of this
library. An example is implemented by
library(http/http_redis_plugin)
, storing all session data in a redis database.
3.6 library(http/http_cors): Enable CORS: Cross-Origin Resource Sharing
- See also
- - http://en.wikipedia.org/wiki/Cross-site_scripting
for understanding Cross-site scripting.
- http://www.w3.org/TR/cors/ for understanding CORS
This small module allows for enabling Cross-Origin Resource Sharing (CORS) for a specific request. Typically, CORS is enabled for API services that you want to have useable from browser client code that is loaded from another domain. An example are the LOD and SPARQL services in ClioPatria.
Because CORS is a security risc (see references), it is disabled by default. It is enabled through the setting http:cors. The value of this setting is a list of domains that are allowed to access the service. Because * is used as a wildcard match, the value [*] allows access from anywhere.
Services for which CORS is relevant must call cors_enable/0
as part of the HTTP response, as shown below. Note that cors_enable/0
is a no-op if the setting http:cors is set to the empty list ([]
).
my_handler(Request) :- ...., cors_enable, reply_json(Response, []).
If a site uses a Preflight OPTIONS
request to
find the server's capabilities and access politics, cors_enable/2
can be used to formulate an appropriate reply. For example:
my_handler(Request) :- option(method(options), Request), !, cors_enable(Request, [ methods([get,post,delete]) ]), format('~n'). % 200 with empty body
- [det]cors_enable
- Emit the HTTP header
Access-Control-Allow-Origin
using domains from the setting http:cors. This this setting is[]
(default), nothing is written. This predicate is typically used for replying to API HTTP-request (e.g., replies to an AJAX request that typically serve JSON or XML). - [det]cors_enable(+Request, +Options)
- CORS reply to a Preflight
OPTIONS
request. Request is the HTTP request. Options provides:- methods(+List)
- List of supported HTTP methods. The default is
GET
, only allowing for read requests. - headers(+List)
- List of headers the client asks for and we allow. The default is to simply echo what has been requested for.
Both methods and headers may use Prolog friendly syntax, e.g.,
get
for a method andcontent_type
for a header.
3.7 library(http/http_authenticate): Authenticate HTTP connections using 401 headers
This module provides the basics to validate an HTTP Authorization
header. User and password information are read from a Unix/Apache
compatible password file.
This library provides, in addition to the HTTP authentication, predicates to read and write password files.
- http_authenticate(+Type, +Request, -Fields)
- True if Request contains the information to continue
according to Type. Type identifies the required
authentication technique:
- basic(+PasswordFile)
- Use HTTP
Basic
authetication and verify the password from PasswordFile. PasswordFile is a file holding usernames and passwords in a format compatible to Unix and Apache. Each line is record with:
separated fields. The first field is the username and the second the password hash. Password hashes are validated using crypt/2.
Successful authorization is cached for 60 seconds to avoid overhead of decoding and lookup of the user and password data.
http_authenticate/3 just validates the header. If authorization is not provided the browser must be challenged, in response to which it normally opens a user-password dialogue. Example code realising this is below. The exception causes the HTTP wrapper code to generate an HTTP 401 reply.
( http_authenticate(basic(passwd), Request, Fields) -> true ; throw(http_reply(authorise(basic, Realm))) ).
Fields is a list of fields from the password-file entry. The first element is the user. The hash is skipped. - To be done
- Should we also cache failures to reduce the risc of DoS attacks?
- [semidet]http_authorization_data(+AuthorizeText, ?Data)
- Decode the HTTP
Authorization
header. Data is a termMethod(User, Password)
where Method is the (downcased) authorization method (typically
basic
), User is an atom holding the user name and Password is a list of codes holding the password - [nondet]http_current_user(+File, ?User, ?Fields)
- True when User is present in the htpasswd file File
and Fields provides the additional fields.
Fields are the fields from the password file File, converted using name/2, which means that numeric values are passed as numbers and other fields as atoms. The password hash is the first element of Fields and is a string. - [det]http_read_passwd_file(+Path, -Data)
- Read a password file. Data is a list of terms of the format
below, where User is an atom identifying the user, Hash is a string
containing the salted password hash and Fields contain additional
fields. The string value of each field is converted using name/2
to either a number or an atom.
passwd(User, Hash, Fields)
- [det]http_write_passwd_file(+File, +Data:list)
- Write password data Data to File. Data
is a list of entries as below. See http_read_passwd_file/2
for details.
passwd(User, Hash, Fields)
- To be done
- Write to a new file and atomically replace the old one.
- [multifile]http:authenticate(+AuthData, +Request, -Fields)
- Plugin for
library(http_dispatch)
to perform basic HTTP authentication.This predicate throws
http_reply(authorise(basic, Realm))
.AuthData must be a term basic(File, Realm)
Request is the HTTP request Fields describes the authenticated user with the option user(User)
and with the optionuser_details(Fields)
if the password file contains additional fields after the user and password.
3.8 library(http/http_digest): HTTP Digest authentication
This library implements HTTP Digest Authentication as per RFC2617. Unlike Basic Authentication, digest authentication is based on challenge-reponse and therefore does not need to send the password over the (insecure) connection. In addition, it provides a count mechanism that ensure that old credentials cannot be reused, which prevents attackers from using old credentials with a new request. Digest authentication have the following advantages and disadvantages:
- Advantages
- Authentication without exchanging the password
- No re-use of authentication data
- Disadvantages
- An extra round trip is needed for the first authentication
- Server-side storage of the password is the MD5 hash of the user, realm and password. As MD5 hashes are quick to compute, one needs strong passwords. This fixed algorithm also allows for rainbow table attacks, although their value is limited because you need to precompute the rainbow table for every server (realm) and user.
- The connection is sensitive to man-in-the-middle attack, where the attacker can both change the request and response.
- Both client and server need to keep an administration of issued nonce values and associated nonce count values.
And, of course, the connection itself remains insecure. Digest based authentication is a viable alternative if HTTPS is not a good option and security of the data itself is not an issue.
This library acts as plugin for library(http/http_dispatch)
,
where the registered handler (http_handler/3)
can be given the option below to initiate digest authentication.
authentication(digest(PasswdFile, Realm))
Above, PasswdFile is a file containing lines of the from
below, where PasswordHash is computed using http_digest_password_hash/4.
See also
library(http/http_authenticate)
, http_read_passwd_file/2
and
http_write_passwd_file/2.
User ":" PasswordHash (":" Extra)*
This library also hooks into library(http/http_open)
if
the option
authorization(digest(User, Password))
is given.
- http_digest_challenge(+Realm,
+Options)
//
- Generate the content for a 401
WWW-Authenticate: Digest
header field. - [det]http_parse_digest_challenge(+Challenge, -Fields)
- Parse the value of an HTTP
WWW-Authenticate
header into a list of Name(Value) terms. - http_digest_response(+Challenge, +User, +Password, -Reply, +Options)
- Formulate a reply to a digest authentication request. Options:
- path(+Path)
- The request URI send along with the authentication. Defaults to
/
- method(+Method)
- The HTTP method. Defaults to
'GET'
- nc(+Integer)
- The nonce-count as an integer. This is formatted as an 8 hex-digit string.
Challenge is a list Name(Value), normally from http_parse_digest_challenge/2. Must contain realm
andnonce
. Optionally containsopaque
.User is the user we want to authenticated Password is the user's password Options provides additional options - [det]http_digest_password_hash(+User, +Realm, +Password, -Hash)
- Compute the password hash for the HTTP password file. Note that the HTTP
digest mechanism does allow us to use a seeded expensive arbitrary hash
function. Instead, the hash is defined as the MD5 of the following
components:
<user>:<realm>:<password>.
The inexpensive MD5 algorithm makes the hash sensitive to brute force attacks while the lack of seeding make the hashes sensitive for rainbow table attacks, although the value is somewhat limited because the realm and user are part of the hash.
- [multifile]http:authenticate(+Digest, +Request, -Fields)
- Plugin for
library(http_dispatch)
to perform basic HTTP authentication. Note that we keep the authentication details cached to avoid a‘nonce-replay' error in the case that the application tries to verify multiple times.This predicate throws
http_reply(authorise(digest(Digest)))
Digest is a term digest(File, Realm, Options)
Request is the HTTP request Fields describes the authenticated user with the option user(User)
and with the optionuser_details(Fields)
if the password file contains additional fields after the user and password. - [semidet,multifile]http:authenticate_client(+URL, +Action)
- This hooks is called by http_open/3
with the following Action value:
- send_auth_header(+AuthData, +Out, +Options)
- Called when sending the initial request. AuthData contains
the value for the http_open/3
option
authorization(AuthData)
and Out is a stream on which to write additional HTTP headers. - auth_reponse(+Headers, +OptionsIn, -Options)
- Called if the server replies with a 401 code, challenging the client.
Our implementation adds a
request_header(authorization=Digest)
header to Options, causing http_open/3 to retry the request with the additional option.
3.9 library(http/http_dyn_workers): Dynamically schedule HTTP workers.
Most code doesn't need to use this directly; instead use
library(http/http_server)
, which combines this library with
the typical HTTP libraries that most servers need.
This module defines hooks into the HTTP framework to dynamically schedule worker threads. Dynamic scheduling relieves us from finding a good value for the size of the HTTP worker pool.
The decision to add a worker follows these rules:
- If the load average caused by the worker threads exceeds http:max_load, no worker is added.
- Wait for some time, depending on how close we are to the
http:max_workers limit.
- If the worker is still needed, add it.
The policy depends on three settings:
http
:
max_workers
- The maximum number of workers that will be created. Default is 100.
http
:
worker_idle_limit
- The number of seconds a dynamic worker waits for a new job. If no job arrives in time it terminates. Default is 10 seconds.
http
:
max_load
- Max load average created by the HTTP server, i.e. the amount of CPU time consumed per second. Default is 10.
- [multifile]http:schedule_workers(+Dict)
- Called if there is no immediately free worker to handle the incomming
request. The request is forwarded to the thread
__http_scheduler
as the hook is called in time critical code.
3.10 Custom Error Pages
It is possible to create arbitrary error pages for responses
generated when a http_reply term is thrown. Currently this is only
supported for status 403 (authentication required). To do this,
instead of throwing http_reply(authorise(Term))
throw
http_reply(authorise(Term), [], Key)
, where Key
is an arbitrary term relating to the page you want to generate. You must
then also define a clause of the multifile predicate http:status_page_hook/3:
- http:status_page_hook(+TermOrCode, +Context, -CustomHTML)
- TermOrCode is either the first argument of the
http_reply
exception or the HTTP status code, i.e., the hook is called twice. New code should using the Term. Context is the third argument of the http_reply exception which was thrown, and CustomHTML is a list of HTML tokens. A page equivalent to the default page for 401 is generated by the example below.:- multifile http:status_page_hook/3. http:status_page_hook(authorise(Term), _Context, HTML) :- 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).
3.11 library(http/http_openid): OpenID consumer and server library
This library implements the OpenID protocol (http://openid.net/). OpenID is a protocol to share identities on the network. The protocol itself uses simple basic HTTP, adding reliability using digitally signed messages.
Steps, as seen from the consumer (or relying partner).
- Show login form, asking for
openid_identifier
- Get HTML page from
openid_identifier
and lookup<link rel="openid.server" href="server">
- Associate to server
- Redirect browser (302) to server using mode
checkid_setup
, asking to validate the given OpenID. - OpenID server redirects back, providing digitally signed conformation of the claimed identity.
- Validate signature and redirect to the target location.
A consumer (an application that allows OpenID login) typically
uses this library through openid_user/3.
In addition, it must implement the hook http_openid:openid_hook(trusted(OpenId, Server))
to define accepted OpenID servers. Typically, this hook is used to
provide a white-list of acceptable servers. Note that accepting any
OpenID server is possible, but anyone on the internet can setup a dummy
OpenID server that simply grants and signs every request. Here is an
example:
:- multifile http_openid:openid_hook/1. http_openid:openid_hook(trusted(_, OpenIdServer)) :- ( trusted_server(OpenIdServer) -> true ; throw(http_reply(moved_temporary('/openid/trustedservers'))) ). trusted_server('http://www.myopenid.com/server').
By default, information who is logged on is maintained with the
session using http_session_assert/1
with the term openid(Identity)
. The hooks
login/logout/logged_in can be used to provide alternative administration
of logged-in users (e.g., based on client-IP, using cookies, etc.).
To create a server, you must do four things: bind the handlers
openid_server/2 and openid_grant/1
to HTTP locations, provide a user-page for registered users and define
the grant(Request, Options)
hook to verify your users. An
example server is provided in in
<plbase>/doc/packages/examples/demo_openid.pl
- [multifile]openid_hook(+Action)
- Call hook on the OpenID management library. Defined hooks are:
- login(+OpenID)
- Consider OpenID logged in.
- logout(+OpenID)
- Logout OpenID
- logged_in(?OpenID)
- True if OpenID is logged in
- grant(+Request, +Options)
- Server: Reply positive on OpenID
- trusted(+OpenID, +Server)
- True if Server is a trusted OpenID server
- ax(Values)
- Called if the server provided AX attributes
- x_parameter(+Server, -Name, -Value)
- Called to find additional HTTP parameters to send with the OpenID verify request.
- [det]openid_login(+OpenID)
- Associate the current HTTP session with OpenID. If another OpenID is already associated, this association is first removed.
- [det]openid_logout(+OpenID)
- Remove the association of the current session with any OpenID
- [semidet]openid_logged_in(-OpenID)
- True if session is associated with OpenID.
- [det]openid_user(+Request:http_request, -OpenID:url, +Options)
- True if OpenID is a validated OpenID associated
with the current session. The scenario for which this predicate is
designed is to allow an HTTP handler that requires a valid login to use
the transparent code below.
handler(Request) :- openid_user(Request, OpenID, []), ...
If the user is not yet logged on a sequence of redirects will follow:
- Show a page for login (default: page /openid/login), predicate reply_openid_login/1)
- By default, the OpenID login page is a form that is
submitted to the
verify
, which calls openid_verify/2. - openid_verify/2 does the
following:
- Find the OpenID claimed identity and server
- Associate to the OpenID server
- redirects to the OpenID server for validation
- The OpenID server will redirect here with the authetication information. This is handled by openid_authenticate/4.
Options:
- login_url(Login)
- (Local) URL of page to enter OpenID information. Default is the handler for openid_login_page/1
- See also
- openid_authenticate/4 produces errors if login is invalid or cancelled.
- [det]openid_login_form(+ReturnTo,
+Options)
//
- Create the OpenID form. This exported as a separate DCG, allowing
applications to redefine /openid/login and reuse this part of the page. Options
processed:
- action(Action)
- URL of action to call. Default is the handler calling openid_verify/1.
- buttons(+Buttons)
- Buttons is a list of
img
structures where thehref
points to an OpenID 2.0 endpoint. These buttons are displayed below the OpenID URL field. Clicking the button sets the URL field and submits the form. Requires Javascript support.If the
href
is relative, clicking it opens the given location after adding’openid.return_to' and‘stay'. - show_stay(+Boolean)
- If
true
, show a checkbox that allows the user to stay logged on.
- openid_verify(+Options, +Request)
- Handle the initial login form presented to the user by the relying party
(consumer). This predicate discovers the OpenID server, associates
itself with this server and redirects the user's browser to the OpenID
server, providing the extra openid.X name-value pairs. Options
is, against the conventions, placed in front of the Request
to allow for smooth cooperation with
http_dispatch.pl
. Options processes:- return_to(+URL)
- Specifies where the OpenID provider should return to. Normally, that is the current location.
- trust_root(+URL)
- Specifies the
openid.trust_root
attribute. Defaults to the root of the current server (i.e.,http://host[.port]/
). - realm(+URL)
- Specifies the
openid.realm
attribute. Default is thetrust_root
. - ax(+Spec)
- Request the exchange of additional attributes from the identity provider. See http_ax_attributes/2 for details.
The OpenId server will redirect to the
openid.return_to
URL.- throws
http_reply(moved_temporary(Redirect))
- [nondet]openid_server(?OpenIDLogin, ?OpenID, ?Server)
- True if OpenIDLogin is the typed id for OpenID
verified by
Server.
OpenIDLogin ID as typed by user (canonized) OpenID ID as verified by server Server URL of the OpenID server - [det]openid_current_url(+Request, -URL)
- Find the public URL for Request that we can make available to our identity provider. This must be an absolute URL where we can be contacted. Before trying a configured version through http_public_url/2, we try to see wether the login message contains a referer parameter or wether the browser provided one.
- openid_current_host(Request, Host, Port)
- Find current location of the server.
- deprecated
- New code should use http_current_host/4
with the option
global(true)
.
- [semidet]openid_authenticate(+Request, -Server:url, -OpenID:url, -ReturnTo:url)
- Succeeds if Request comes from the OpenID server
and confirms that User is a verified OpenID user. ReturnTo
provides the URL to return to.
After openid_verify/2 has redirected the browser to the OpenID server, and the OpenID server did its magic, it redirects the browser back to this address. The work is fairly trivial. If
mode
iscancel
, the OpenId server denied. Ifid_res
, the OpenId server replied positive, but we must verify what the server told us by checking the HMAC-SHA signature.This call fails silently if their is no
openid.mode
field in the request.- throws
- -
openid(cancel)
if request was cancelled by the OpenId server
-openid(signature_mismatch)
if the HMAC signature check failed
- openid_server(+Options, +Request)
- Realise the OpenID server. The protocol demands a POST request here.
- openid_grant(+Request)
- Handle the reply from checkid_setup_server/3.
If the reply is
yes
, check the authority (typically the password) and if all looks good redirect the browser to ReturnTo, adding the OpenID properties needed by the Relying Party to verify the login. - [det]openid_associate(?URL, ?Handle, ?Assoc)
- Calls openid_associate/4
as
openid_associate(URL, Handle, Assoc, []).
- [det]openid_associate(+URL, -Handle, -Assoc, +Options)
- [semidet]openid_associate(?URL, +Handle, -Assoc, +Options)
- Associate with an open-id server. We first check for a still valid old
association. If there is none or it is expired, we esstablish one and
remember it. Options:
- ns(URL)
- One of
http://specs.openid.net/auth/2.0
(default) orhttp://openid.net/signon/1.1
.
- To be done
- Should we store known associations permanently? Where?
3.12 Get parameters from HTML forms
The library library(http/http_parameters)
provides two
predicates to fetch HTTP request parameters as a type-checked list
easily. The library transparently handles both GET and POST requests. It
builds on top of the low-level request representation described in
section 3.13.
- http_parameters(+Request, ?Parameters)
- The predicate is passes the Request as provided to the
handler goal by http_wrapper/5
as well as a partially instantiated lists describing the requested
parameters and their types. Each parameter specification in Parameters
is a term of the format
Name(-Value, +Options) . Options
is a list of option terms describing the type, default, etc. If no
options are specified the parameter must be present and its value is
returned in
Value as an atom.
If a parameter is missing the exception
error(
is thrown which. If the argument cannot be converted to the requested type, aexistence_error(http_parameter, Name)
, _)error(
is raised, where the error context indicates the HTTP parameter. If not caught, the server translates both errors into aexistence_error(Type, Value)
, _)400 Bad request
HTTP message.Options fall into three categories: those that handle presence of the parameter, those that guide conversion and restrict types and those that support automatic generation of documention. First, the presence-options:
- default(Default)
- If the named parameter is missing, Value is unified to Default.
- optional(true)
- If the named parameter is missing, Value is left unbound and no error is generated.
- list(Type)
- The same parameter may not appear or appear multiple times. If this
option is present,
default
andoptional
are ignored and the value is returned as a list. Type checking options are processed on each value. - zero_or_more
- Deprecated. Use
list(Type)
.
The type and conversion options are given below. The type-language can be extended by providing clauses for the multifile hook http:convert_parameter/3.
;
(Type1, Type2)- Succeed if either Type1 or Type2 applies. It
allows for checks such as
(nonneg;oneof([infinite]))
to specify an integer or a symbolic value. - oneof(List)
- Succeeds if the value is member of the given list.
- length > N
- Succeeds if value is an atom of more than N characters.
- length >= N
- Succeeds if value is an atom of more than or equal to N characters.
- length < N
- Succeeds if value is an atom of less than N characters.
- length =< N
- Succeeds if value is an atom of length less than or equal to N characters.
- atom
- No-op. Allowed for consistency.
- string
- Convert value to a string.
- between(+Low, +High)
- Convert value to a number and if either Low or High is a float, force value to be a float. Then check that the value is in the given range, which includes the boundaries.
- boolean
- Translate =true=, =yes=, =on= and’1' into =true=; =false=, =no=, =off= and’0' into =false= and raises an error otherwise.
- float
- Convert value to a float. Integers are transformed into float. Throws a type-error otherwise.
- integer
- Convert value to an integer. Throws a type-error otherwise.
- nonneg
- Convert value to a non-negative integer. Throws a type-error of the value cannot be converted to an integer and a domain-error otherwise.
- number
- Convert value to a number. Throws a type-error otherwise.
The last set of options is to support automatic generation of HTTP API documentation from the sources.4This facility is under development in ClioPatria; see
http_help.pl
.- description(+Atom)
- Description of the parameter in plain text.
- group(+Parameters, +Options)
- Define a logical group of parameters. Parameters are processed as normal. Options may include a description of the group. Groups can be nested.
Below is an example
reply(Request) :- http_parameters(Request, [ title(Title, [ optional(true) ]), name(Name, [ length >= 2 ]), age(Age, [ between(0, 150) ]) ]), ...
Same as
http_parameters(Request, Parameters,[])
- http_parameters(+Request, ?Parameters, +Options)
- In addition to http_parameters/2,
the following options are defined.
- form_data(-Data)
- Return the entire set of provided Name=Value pairs from the GET or POST request. All values are returned as atoms.
- attribute_declarations(:Goal)
- If a parameter specification lacks the parameter options, call
call(Goal, +ParamName, -Options)
to find the options. Intended to share declarations over many calls to http_parameters/3. Using this construct the above can be written as below.reply(Request) :- http_parameters(Request, [ title(Title), name(Name), age(Age) ], [ attribute_declarations(param) ]), ... param(title, [optional(true)]). param(name, [length >= 2 ]). param(age, [integer]).
3.13 Request format
The body-code (see section 3.1) is
driven by a Request. This request is generated from http_read_request/2
defined in
library(http/http_header)
.
- http_read_request(+Stream, -Request)
- Reads an HTTP request from Stream and unify Request
with the parsed request. Request is a list of
Name(Value)
elements. It provides a number of predefined elements for the result of parsing the first line of the request, followed by the additional request parameters. The predefined fields are:- host(Host)
- If the request contains
Host:
Host, Host is unified with the host-name. If Host is of the format <host>:<port> Host only describes <host> and a fieldport(Port)
where Port is an integer is added. - input(Stream)
- The Stream is passed along, allowing to read more data or requests from the same stream. This field is always present.
- method(Method)
- Method is the HTTP method represented as a
lower-case atom (i.e.,
delete
,get
,head
,options
,patch
,post
,put
,trace
). This field is present if the header has been parsed successfully. - path(Path)
- Path associated to the request. This field is always present.
- peer(Peer)
- Peer is a term
ip(A,B,C,D)
containing the IP address of the contacting host. - port(Port)
- Port requested. See
host
for details. - request_uri(RequestURI)
- This is the untranslated string that follows the method in the request header. It is used to construct the path and search fields of the Request. It is provided because reconstructing this string from the path and search fields may yield a different value due to different usage of percent encoding.
- search(ListOfNameValue)
- Search-specification of URI. This is the part after the
, normally used to transfer data from HTML forms that use the HTTP GET method. In the URL it consists of a www-form-encoded list of Name=Value pairs. This is mapped to a list of Prolog Name=Value terms with decoded names and values. This field is only present if the location contains a search-specification.?
The URL specification does not demand the query part to be of the form name=value. If the field is syntactically incorrect, ListOfNameValue is bound the the empty list ([]).
- http_version(Major-Minor)
- If the first line contains the
HTTP/
Major.Minor version indicator this element indicate the HTTP version of the peer. Otherwise this field is not present. - cookie(ListOfNameValue)
- If the header contains a
Cookie
line, the value of the cookie is broken down in Name=Value pairs, where the Name is the lowercase version of the cookie name as used for the HTTP fields. - set_cookie(set_cookie(Name, Value, Options))
- If the header contains a
SetCookie
line, the cookie field is broken down into the Name of the cookie, the Value and a list of Name=Value pairs for additional options such asexpire
,path
,domain
orsecure
.
If the first line of the request is tagged with
HTTP/
Major.Minor, http_read_request/2 reads all input upto the first blank line. This header consists of Name:Value fields. Each such field appears as a termName(Value)
in the Request, where Name is canonicalised for use with Prolog. Canonisation implies that the Name is converted to lower case and all occurrences of the
are replaced by-
_
. The value for theContent-length
fields is translated into an integer.
Here is an example:
?- http_read_request(user_input, X). |: GET /mydb?class=person HTTP/1.0 |: Host: gollem |: X = [ input(user), method(get), search([ class = person ]), path('/mydb'), http_version(1-0), host(gollem) ].
3.13.1 Handling POST requests
Where the HTTP GET
operation is intended to get a
document, using a path and possibly some additional search
information, the POST
operation is intended to hand
potentially large amounts of data to the server for processing.
The Request parameter above contains the term method(post)
.
The data posted is left on the input stream that is available through
the term input(Stream)
from the Request header.
This data can be read using http_read_data/3
from the HTTP client library. Here is a demo implementation simply
returning the parsed posted data as plain text (assuming pp/1
pretty-prints the data).
reply(Request) :- member(method(post), Request), !, http_read_data(Request, Data, []), format('Content-type: text/plain~n~n', []), pp(Data).
If the POST is initiated from a browser, content-type is generally
either application/x-www-form-urlencoded
or
multipart/form-data
.
3.14 Running the server
The functionality of the server should be defined in one Prolog file (of course this file is allowed to load other files). Depending on the wanted server setup this‘body' is wrapped into a small Prolog file combining the body with the appropriate server interface. There are three supported server-setups. For most applications we advice the multi-threaded server. Examples of this server architecture are the PlDoc documentation system and the SeRQL Semantic Web server infrastructure.
All the server setups may be wrapped in a reverse proxy to make them available from the public web-server as described in section 3.14.7.
- Using
library(thread_httpd)
for a multi-threaded server
This server exploits the multi-threaded version of SWI-Prolog, running the users body code parallel from a pool of worker threads. As it avoids the state engine and copying required in the event-driven server it is generally faster and capable to handle multiple requests concurrently.This server is harder to debug due to the involved threading, although the GUI tracer provides reasonable support for multi-threaded applications using the tspy/1 command. It can provide fast communication to multiple clients and can be used for more demanding servers.
- Using
library(inetd_httpd)
for server-per-client
In this setup the Unix inetd user-daemon is used to initialise a server for each connection. This approach is especially suitable for servers that have a limited startup-time. In this setup a crashing client does not influence other requests.This server is very hard to debug as the server is not connected to the user environment. It provides a robust implementation for servers that can be started quickly.
3.14.1 Common server interface options
All the server interfaces provide http_server(:Goal, +Options)
to create the server. The list of options differ, but the servers share
common options:
- port(?Port)
- Specify the port to listen to for stand-alone servers. Port is either an integer or unbound. If unbound, it is unified to the selected free port.
3.14.2 Multi-threaded Prolog
The library(http/thread_httpd.pl)
provides the
infrastructure to manage multiple clients using a pool of worker-threads.
This realises a popular server design, also seen in Java Tomcat and
Microsoft .NET. As a single persistent server process maintains
communication to all clients startup time is not an important issue and
the server can easily maintain state-information for all clients.
In addition to the functionality provided by the inetd server, the
threaded server can also be used to realise an HTTPS server exploiting
the library(ssl)
library. See option ssl(+SSLOptions)
below.
- http_server(:Goal, +Options)
- Create the server. Options must provide the
port(?Port)
option to specify the port the server should listen to. If Port is unbound an arbitrary free port is selected and Port is unified to this port-number. The server consists of a small Prolog thread accepting new connection on Port and dispatching these to a pool of workers. Defined Options are:- port(?Address)
- Address to bind to. Address is either a port (integer) or a term Host:Port. The port may be a variable, causing the system to select a free port and unify the variable with the selected port. See also tcp_bind/2.
- workers(+N)
- Defines the number of worker threads in the pool. Default is to use five workers. Choosing the optimal value for best performance is a difficult task depending on the number of CPUs in your system and how much resources are required for processing a request. Too high numbers makes your system switch too often between threads or even swap if there is not enough memory to keep all threads in memory, while a too low number causes clients to wait unnecessary for other clients to complete. See also http_workers/2.
- timeout(+SecondsOrInfinite)
- Determines the maximum period of inactivity handling a request. If no
data arrives within the specified time since the last data arrived, the
connection raises an exception, and the worker discards the client and
returns to the pool-queue for a new client. If it is
infinite
, a worker may wait forever on a client that doesn't complete its request. Default is 60 seconds. - keep_alive_timeout(+SecondsOrInfinite)
- Maximum time to wait for new activity on Keep-Alive connections. Choosing the correct value for this parameter is hard. Disabling Keep-Alive is bad for performance if the clients request multiple documents for a single page. This may ---for example-- be caused by HTML frames, HTML pages with images, associated CSS files, etc. Keeping a connection open in the threaded model however prevents the thread servicing the client servicing other clients. The default is 2 seconds.
- local(+KBytes)
- Size of the local-stack for the workers. Default is taken from the commandline option.
- global(+KBytes)
- Size of the global-stack for the workers. Default is taken from the commandline option.
- trail(+KBytes)
- Size of the trail-stack for the workers. Default is taken from the commandline option.
- ssl(+SSLOptions)
- Use SSL (Secure Socket Layer) rather than plain TCP/IP. A server created
this way is accessed using the
https://
protocol. SSL allows for encrypted communication to avoid others from tapping the wire as well as improved authentication of client and server. The SSLOptions option list is passed to ssl_context/3. The port option of the main option list is forwarded to the SSL layer. See thelibrary(ssl)
library for details.
- http_server_property(?Port, ?Property)
- True if Property is a property of the HTTP server running at
Port. Defined properties are:
- goal(:Goal)
- Goal used to start the server. This is often http_dispatch/1.
- scheme(-Scheme)
- Scheme is one of
http
orhttps
. - start_time(-Time)
- Time-stamp when the server was created. See format_time/3 for creating a human-readable representation.
- http_workers(+Port, ?Workers)
- Query or manipulate the number of workers of the server identified by
Port. If Workers is unbound it is unified with the
number of running servers. If it is an integer greater than the current
size of the worker pool new workers are created with the same
specification as the running workers. If the number is less than the
current size of the worker pool, this predicate inserts a number of‘quit'
requests in the queue, discarding the excess workers as they finish
their jobs (i.e. no worker is abandoned while serving a client).
This can be used to tune the number of workers for performance. Another possible application is to reduce the pool to one worker to facilitate easier debugging.
- http_add_worker(+Port, +Options)
- Add a new worker to the HTTP server for port Port. Options
overrule the default queue options. The following additional options are
processed:
- max_idle_time(+Seconds)
- The created worker will automatically terminate if there is no new work within Seconds.
- http_stop_server(+Port, +Options)
- Stop the HTTP server at Port. Halting a server is done gracefully, which means that requests being processed are not abandoned. The Options list is for future refinements of this predicate such as a forced immediate abort of the server, but is currently ignored.
- http_current_worker(?Port, ?ThreadID)
- True if ThreadID is the identifier of a Prolog thread serving Port. This predicate is motivated to allow for the use of arbitrary interaction with the worker thread for development and statistics.
- http_spawn(:Goal, +Spec)
- Continue handling this request in a new thread running Goal.
After
http_spawn/2,
the worker returns to the pool to process new requests. In its simplest
form, Spec is the name of a thread pool as defined by
thread_pool_create/3.
Alternatively it is an option list, whose options are passed to thread_create_in_pool/4
if Spec contains
pool(Pool)
or to thread_create/3 of the pool option is not present. If the dispatch module is used (see section 3.2), spawning is normally specified as an option to the http_handler/3 registration.We recomment the use of thread pools. They allow registration of a set of threads using common characteristics, specify how many can be active and what to do if all threads are active. A typical application may define a small pool of threads with large stacks for computation intensive tasks, and a large pool of threads with small stacks to serve media. The declaration could be the one below, allowing for max 3 concurrent solvers and a maximum backlog of 5 and 30 tasks creating image thumbnails.
:- use_module(library(thread_pool)). :- thread_pool_create(compute, 3, [ local(20000), global(100000), trail(50000), backlog(5) ]). :- thread_pool_create(media, 30, [ local(100), global(100), trail(100), backlog(100) ]). :- http_handler('/solve', solve, [spawn(compute)]). :- http_handler('/thumbnail', thumbnail, [spawn(media)]).
3.14.3 library(http/http_unix_daemon): Run SWI-Prolog HTTP server as a Unix system daemon
- See also
- The file <swi-home>/doc/packages/examples/http/linux-init-script provides a /etc/init.d script for controlling a server as a normal Unix service.
- To be done
- Cleanup issues wrt. loading and initialization of xpce.
This module provides the logic that is needed to integrate a process into the Unix service (daemon) architecture. It deals with the following aspects, all of which may be used/ignored and configured using commandline options:
- Select the
port(s)
to be used by the server - Run the startup of the process as root to perform privileged tasks and the server itself as unpriviledged user, for example to open ports below 1000.
- Fork and detach from the controlling terminal
- Handle console and debug output using a file and/or the syslog daemon.
- Manage a pid file
The typical use scenario is to write a file that loads the following components:
- The application code, including http handlers (see http_handler/3).
- This library
In the code below, ?- [load].
loads the remainder of the
webserver code. This is often a sequence of use_module/1
directives.
:- use_module(library(http/http_unix_daemon)). :- [load].
The program entry point is http_daemon/0, declared using initialization/2. This may be overruled using a new declaration after loading this library. The new entry point will typically call http_daemon/1 to start the server in a preconfigured way.
:- use_module(library(http/http_unix_daemon)). :- initialization(run, main). run :- ... http_daemon(Options).
Now, the server may be started using the command below. See http_daemon/0 for supported options.
% [sudo] swipl mainfile.pl [option ...]
Below are some examples. Our first example is completely silent,
running on port 80 as user www
.
% swipl mainfile.pl --user=www --pidfile=/var/run/http.pid
Our second example logs HTTP interaction with the syslog daemon for
debugging purposes. Note that the argument to --debug
= is a
Prolog term and must often be escaped to avoid misinterpretation by the
Unix shell. The debug option can be repeated to log multiple debug
topics.
% swipl mainfile.pl --user=www --pidfile=/var/run/http.pid \ --debug='http(request)' --syslog=http
Broadcasting The library uses broadcast/1 to allow hooking certain events:
- http(pre_server_start)
- Run after fork, just before starting the HTTP server. Can be used to load additional files or perform additional initialisation, such as starting additional threads. Recall that it is not possible to start threads before forking.
- http(post_server_start)
- Run after starting the HTTP server.
- http_daemon
- Start the HTTP server as a daemon process. This predicate processes the
commandline arguments below. Commandline arguments that specify servers
are processed in the order they appear using the following schema:
- Arguments that act as default for all servers.
--http=Spec
or--https=Spec
is followed by arguments for that server until the next--http=Spec
or--https=Spec
or the end of the options.- If no
--http=Spec
or--https=Spec
appears, one HTTP server is created from the specified parameters.Examples:
--workers=10 --http --https --http=8080 --https=8443 --http=localhost:8080 --workers=1 --https=8443 --workers=25
- --port=Port
- Start HTTP server at Port. It requires root permission and the option
--user=User
to open ports below 1000. The default port is 80. If--https
is used, the default port is 443. - --ip=IP
- Only listen to the given IP address. Typically used as
--ip=localhost
to restrict access to connections from localhost if the server itself is behind an (Apache) proxy server running on the same host. - --debug=Topic
- Enable debugging Topic. See debug/3.
- --syslog=Ident
- Write debug messages to the syslog daemon using Ident
- --user=User
- When started as root to open a port below 1000, this option must be
provided to switch to the target user for operating the server. The
following actions are performed as root, i.e.,
before switching to User:
- open the
socket(s)
- write the pidfile
- setup syslog interaction
- Read the certificate, key and password file (
--pwfile=File
)
- open the
- --group=Group
- May be used in addition to
--user
. If omitted, the login group of the target user is used. - --pidfile=File
- Write the PID of the daemon process to File.
- --output=File
- Send output of the process to File. By default, all Prolog console output is discarded.
- --fork[=Bool]
- If given as
--no-fork
or--fork=false
, the process runs in the foreground. - --http[=(Bool
|
Port|
BindTo:Port)] - Create a plain HTTP server. If the argument is missing or
true
, create at the specified or default address. Else use the given port and interface. Thus,--http
creates a server at port 80,--http=8080
creates one at port 8080 and--http=localhost:8080
creates one at port 8080 that is only accessible fromlocalhost
. - --https[=(Bool
|
Port|
BindTo:Port)] - As
--http
, but creates an HTTPS server. Use--certfile
,--keyfile
,-pwfile
,--password
and--cipherlist
to configure SSL for this server. - --certfile=File
- The server certificate for HTTPS.
- --keyfile=File
- The server private key for HTTPS.
- --pwfile=File
- File holding the password for accessing the private key. This is
preferred over using
--password=PW
as it allows using file protection to avoid leaking the password. The file is read before the server drops privileges when started with the--user
option. - --password=PW
- The password for accessing the private key. See also‘--pwfile`.
- --cipherlist=Ciphers
- One or more cipher strings separated by colons. See the OpenSSL documentation for more information. Starting with SWI-Prolog 7.5.11, the default value is always a set of ciphers that was considered secure enough to prevent all critical attacks at the time of the SWI-Prolog release.
- --interactive[=Bool]
- If
true
(defaultfalse
) implies--no-fork
and presents the Prolog toplevel after starting the server. - --gtrace=[Bool]
- Use the debugger to trace http_daemon/1.
- --sighup=Action
- Action to perform on
kill -HUP <pid>
. Default isreload
(running make/0). Alternative isquit
, stopping the server.
Other options are converted by argv_options/3 and passed to http_server/1. For example, this allows for:
- --workers=Count
- Set the number of workers for the multi-threaded server.
http_daemon/0 is defined as below. The start code for a specific server can use this as a starting point, for example for specifying defaults.
http_daemon :- current_prolog_flag(argv, Argv), argv_options(Argv, _RestArgv, Options), http_daemon(Options).
- See also
- http_daemon/1
- http_daemon(+Options)
- Start the HTTP server as a daemon process. This predicate processes a
Prolog option list. It is normally called from http_daemon/0,
which derives the option list from the command line arguments.
Error handling depends on whether or not
interactive(true)
is in effect. If so, the error is printed before entering the toplevel. In non-interactive mode this predicate callshalt(1)
. - [semidet,multifile]http_certificate_hook(+CertFile, +KeyFile, -Password)
- Hook called before starting the server if the --https option is used. This hook may be used to create or refresh the certificate. If the hook binds Password to a string, this string will be used to decrypt the server private key as if the --password=Password option was given.
- [semidet,multifile]http_server_hook(+Options)
- Hook that is called to start the HTTP server. This hook must be
compatible to
http_server(Handler, Options)
. The default is provided by start_server/1. - [multi,multifile]http:sni_options(-HostName, -SSLOptions)
- Hook to provide Server Name Indication (SNI) for TLS servers. When starting an HTTPS server, all solutions of this predicate are collected and a suitable sni_hook/1 is defined for ssl_context/3 to use different contexts depending on the host name of the client request. This hook is executed before privileges are dropped.
3.14.4 From (Unix) inetd
All modern Unix systems handle a large number of the services they
run through the super-server inetd. This program reads
/etc/inetd.conf
and opens server-sockets on all ports
defined in this file. As a request comes in it accepts it and starts the
associated server such that standard I/O refers to the socket. This
approach has several advantages:
- Simplification of servers
Servers don't have to know about sockets and -operations. - Centralised authorisation
Using tcpwrappers simple and effective firewalling of all services is realised. - Automatic start and monitor
The inetd automatically starts the server‘just-in-time' and starts additional servers or restarts a crashed server according to the specifications.
The very small generic script for handling inetd based connections is
in inetd_httpd
, defining http_server/1:
- http_server(:Goal, +Options)
- Initialises and runs http_wrapper/5 in a loop until failure or end-of-file. This server does not support the Port option as the port is specified with the inetd configuration. The only supported option is After.
Here is the example from demo_inetd
#!/usr/bin/pl -t main -q -f :- use_module(demo_body). :- use_module(inetd_httpd). main :- http_server(reply).
With the above file installed in /home/jan/plhttp/demo_inetd
,
the following line in /etc/inetd
enables the server at port
4001 guarded by tcpwrappers. After modifying inetd, send the
daemon the HUP
signal to make it reload its configuration.
For more information, please check inetd.conf(5).
4001 stream tcp nowait nobody /usr/sbin/tcpd /home/jan/plhttp/demo_inetd
3.14.5 MS-Windows
There are rumours that inetd has been ported to Windows.
3.14.6 As CGI script
To be done.
3.14.7 Using a reverse proxy
There are several options for public deployment of a web service. The main decision is whether to run it on a standard port (port 80 for HTTP, port 443 for HTTPS) or a non-standard port such as for example 8000 or 8080. Using a standard port below 1000 requires root access to the machine, and prevents other web services from using the same port. On the other hand, using a non-standard port may cause problems with intermediate proxy- and/or firewall policies that may block the port when you try to access the service from some networks. In both cases, you can either use a physical or a virtual machine running ---for example--- under VMWARE or XEN to host the service. Using a dedicated (physical or virtual) machine to host a service isolates security threats. Isolation can also be achieved using a Unix chroot environment, which is however not a security feature.
To make several different web services reachable on the same (either standard or non-standard) port, you can use a so-called reverse proxy. A reverse proxy uses rules to relay requests to other web services that use their own dedicated ports. This approach has several advantages:
- We can run the service on a non-standard port, but still access it (via the proxy) on a standard port, just as for a dedicated machine. We do not need a separate machine though: We only need to configure the reverse proxy to relay requests to the intended target servers.
- As the main web server is doing the front-line service, the Prolog server is normally protected from malformed HTTP requests that could result in denial of service or otherwise compromise the server. In addition, the main web server can transparently provide encodings such as compression to the outside world.
Proxy technology can be combined with isolation methods such as dedicated machines, virtual machines and chroot jails. The proxy can also provide load balancing.
Setting up an Apache reverse proxy
The Apache reverse proxy setup is really simple. Ensure the modules
proxy
and proxy_http
are loaded. Then add two
simple rules to the server configuration. Below is an example that makes
a PlDoc server on port 4000 available from the main Apache server at
port 80.
ProxyPass /pldoc/ http://localhost:4000/pldoc/ ProxyPassReverse /pldoc/ http://localhost:4000/pldoc/
Apache rewrites the HTTP headers passing by, but using the above
rules it does not examine the content. This implies that URLs embedded
in the (HTML) content must use relative addressing. If the locations on
the public and Prolog server are the same (as in the example above) it
is allowed to use absolute locations. I.e. /pldoc/search
is
ok, but http://myhost.com:4000/pldoc/search
is not.
If the locations on the server differ, locations must be relative (i.e. not
start with
.
/
This problem can also be solved using the contributed Apache module
proxy_html
that can be instructed to rewrite URLs embedded
in HTML documents. In our experience, this is not troublefree as URLs
can appear in many places in generated documents. JavaScript can create
URLs on the fly, which makes rewriting virtually impossible.
3.15 The wrapper library
The body is called by the module library(http/http_wrapper.pl)
.
This module realises the communication between the I/O streams and the
body described in section 3.1. The
interface is realised by
http_wrapper/5:
- http_wrapper(:Goal, +In, +Out, -Connection, +Options)
- Handle an HTTP request where In is an input stream from the
client, Out is an output stream to the client and Goal
defines the goal realising the body. Connection is unified to
’Keep-alive'
if both ends of the connection want to continue the connection orclose
if either side wishes to close the connection.This predicate reads an HTTP request-header from In, redirects current output to a memory file and then runs
call(Goal, Request)
, watching for exceptions and failure. If Goal executes successfully it generates a complete reply from the created output. Otherwise it generates an HTTP server error with additional context information derived from the exception.http_wrapper/5 supports the following options:
- request(-Request)
- Return the executed request to the caller.
- peer(+Peer)
- Add peer(Peer) to the request header handed to Goal. The format of Peer is defined by tcp_accept/3 from the clib package.
- http:request_expansion(+RequestIn, -RequestOut)
- This multifile hook predicate is called just before the goal
that produces the body, while the output is already redirected to
collect the reply. If it succeeds it must return a valid modified
request. It is allowed to throw exceptions as defined in
section 3.1.1. It is intended for
operations such as mapping paths, deny access for certain requests or
manage cookies. If it writes output, these must be HTTP header fields
that are added before header fields written by the body. The
example below is from the session management library (see section
3.5) sets a cookie.
..., format('Set-Cookie: ~w=~w; path=~w~n', [Cookie, SessionID, Path]), ...,
- http_current_request(-Request)
- Get access to the currently executing request. Request is the same as handed to Goal of http_wrapper/5 after applying rewrite rules as defined by http:request_expansion/2. Raises an existence error if there is no request in progress.
- http_relative_path(+AbsPath, -RelPath)
- Convert an absolute path (without host, fragment or search) into a path
relative to the current page, defined as the path component from the
current request (see http_current_request/1).
This call is intended to create reusable components returning relative
paths for easier support of reverse proxies.
If ---for whatever reason--- the conversion is not possible it simply unifies RelPath to AbsPath.
3.16 library(http/http_host): Obtain public server location
This library finds the public address of the running server. This can
be used to construct URLs that are visible from anywhere on the
internet. This module was introduced to deal with OpenID, where a
request is redirected to the OpenID server, which in turn redirects to
our server (see http_openid.pl
).
The address is established from the settings http:public_host
and
http:public_port
if provided. Otherwise it is deduced from
the request.
- [det]http_public_url(+Request, -URL)
- True when URL is an absolute URL for the current request. Typically, the login page should redirect to this URL to avoid losing the session.
- [det]http_public_host_url(+Request, -URL)
- True when URL is the public URL at which this server can be contacted. This value is not easy to obtain. See http_public_host/4 for the hardest part: find the host and port.
- [det]http_public_host(?Request, -Hostname, -Port, +Options)
- Current global host and port of the HTTP server. This is the basis to
form absolute address, which we need for redirection based interaction
such as the OpenID protocol. Options are:
- global(+Bool)
- If
true
(defaultfalse
), try to replace a local hostname by a world-wide accessible name.
This predicate performs the following steps to find the host and port:
- Use the settings
http:public_host
andhttp:public_port
- Use
X-Forwarded-Host
header, which applies if this server runs behind a proxy. - Use the
Host
header, which applies for HTTP 1.1 if we are contacted directly. - Use gethostname/1 to find the host and http_current_server/2 to find the port.
Request is the current request. If it is left unbound, and the request is needed, it is obtained with http_current_request/1. - [det]http_current_host(?Request, -Hostname, -Port, +Options)
-
- deprecated
- Use http_public_host/4 (same semantics)
3.17 library(http/http_log): HTTP Logging module
Simple module for logging HTTP requests to a file. Logging is enabled
by loading this file and ensure the setting http:logfile is not the
empty atom. The default file for writing the log is httpd.log
.
See
library(settings)
for details.
The level of logging can be modified using the multifile predicate
http_log:nolog/1 to hide HTTP request
fields from the logfile and
http_log:password_field/1 to hide
passwords from HTTP search specifications (e.g. /topsecret?password=secret
).
- [semidet]http_log_stream(-Stream)
- True when Stream is a stream to the opened HTTP log file.
Opens the log file in
append
mode if the file is not yet open. The log file is determined from the settinghttp:logfile
. If this setting is set to the empty atom (''), this predicate fails.If a file error is encountered, this is reported using print_message/2, after which this predicate silently fails. Opening is retried every minute when a new message arrives.
Before opening the log file, the message
http_log_open(Term)
is broadcasted. This message allows for creating the directory, renaming, deleting or truncating an existing log file. - [det]http_log_close(+Reason)
- If there is a currently open HTTP logfile, close it after adding a term
server(Reason, Time)
. to the logfile. This call is intended for cooperation with the Unix logrotate facility using the following schema:- Move logfile (the HTTP server keeps writing to the moved file)
- Inform the server using an HTTP request that calls http_log_close/1
- Compress the moved logfile
- author
- Suggested by Jacco van Ossenbruggen
- [det]http_log(+Format, +Args)
- Write message from Format and Args to log-stream. See format/2 for details. Succeed without side effects if logging is not enabled.
- [semidet,multifile]password_field(+Field)
- Multifile predicate that can be defined to hide passwords from the logfile.
- [multifile]nolog(+HTTPField)
- Multifile predicate that can be defined to hide request parameters from the request logfile.
- [semidet,multifile]nolog_post_content_type(+Type)
- Multifile hook called with the
Content-type
header. If the hook succeeds, the POST data is not logged. For example, to stop logging anything but application/json messages::- multifile http_log:nolog_post_content_type/1. http_log:nolog_post_content_type(Type) :- Type \= (application/json).
Type is a term MainType/SubType - [det]post_data_encoded(?Bytes:string, ?Encoded:string)
- Encode the POST body for inclusion into the HTTP log file. The POST data is (in/de)flated using zopen/3 and base64 encoded using base64//1. The encoding makes long text messages shorter and keeps readable logfiles if binary data is posted.
- [det]http_logrotate(+Options)
- Rotate the available log files. Note that there are two ways to deal
with the rotation of log files:
- Use the OS log rotation facility. In that case the OS must (1) move
the logfile and (2) have something calling
http_log_close/1 to close
the (moved) file and make this server create a new one on the next log
message. If
library(http/http_unix_daemon)
is used, closing is achieved by sending SIGHUP or SIGUSR1 to the process. - Call this predicate at scheduled intervals. This can be achieved by
calling http_schedule_logrotate/2
in the context of
library(http/http_unix_daemon)
which schedules the maintenance actions.
Options:
- min_size(+Bytes)
- Do not rotate if the log file is smaller than Bytes. The default is 1Mbytes.
- keep_logs(+Count)
- Number of rotated log files to keep (default 10)
- compress_logs(+Format)
- Compress the log files to the given format.
- background(+Boolean)
- If
true
, rotate the log files in the background.
- Use the OS log rotation facility. In that case the OS must (1) move
the logfile and (2) have something calling
http_log_close/1 to close
the (moved) file and make this server create a new one on the next log
message. If
- http_schedule_logrotate(When, Options)
- Schedule log rotation based on maintenance broadcasts. When
is one of:
- daily(Hour:Min)
- Run each day at Hour:Min. Min is rounded to a multitude of 5.
- weekly(Day, Hour:Min)
- Run at the given Day and Time each week. Day is either a number 1..7 (1 is Monday) or a weekday name or abbreviation.
- monthly(DayOfTheMonth, Hour:Min)
- Run each month at the given Day (1..31). Note that not all months have all days.
This must be used with a timer that broadcasts a
maintenance(_,_)
message (see broadcast/1). Such a timer is part oflibrary(http/http_unix_daemon)
.
3.18 Debugging HTTP servers
The library library(http/http_error)
defines a hook that
decorates uncaught exceptions with a stack-trace. This will generate a 500
internal server error document with a stack-trace. To enable this
feature, simply load this library. Please do note that providing error
information to the user simplifies the job of a hacker trying to
compromise your server. It is therefore not recommended to load this
file by default.
The example program calc.pl
has the error handler loaded
which can be triggered by forcing a divide-by-zero in the calculator.
3.19 library(http/http_header): 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.
- [det]http_read_request(+FdIn:stream, -Request)
- 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_reply_header(+FdIn, -Reply)
- Read the HTTP reply header. Throws an exception if the current input does not contain a valid reply header.
- [det]http_reply(+Data, +Out:stream)
- [det]http_reply(+Data, +Out:stream, +HdrExtra)
- [det]http_reply(+Data, +Out:stream, +HdrExtra, -Code)
- [det]http_reply(+Data, +Out:stream, +HdrExtra, +Context, -Code)
- [det]http_reply(+Data, +Out:stream, +HdrExtra, +Context, +Request, -Code)
- 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.
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.Code is the numeric HTTP status code sent - To be done
- Complete documentation
- [det]http_status_reply(+Status, +Out, +HdrExtra, -Code)
- [det]http_status_reply(+Status, +Out, +HdrExtra, +Context, -Code)
- [det]http_status_reply(+Status, +Out, +HdrExtra, +Context, +Request, -Code)
- 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)
- [semidet,multifile]http:serialize_reply(+Reply, -Body)
- 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.
- http_join_headers(+Default, +Header, -Out)
- Append headers from Default to Header if they are not already part of it.
- 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.
- [semidet,multifile]http:mime_type_encoding(+MimeType, -Encoding)
- 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: <MIME type>~n')
. This hook is called before mime_type_encoding/2. This default definesutf8
for JSON and Turtle derivedapplication/
MIME types. - http_update_connection(+CGIHeader, +Request, -Connection, -Header)
- Merge keep-alive information from Request and CGIHeader into Header.
- 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. Ifon_request
, chunked encoding is used if requested through the CGI header and allowed by the client. Ifif_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.
- [det]http_post_data(+Data, +Out:stream, +HdrExtra)
- 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 fromhtml_write.pl
xml(+Term)
Post the result of xml_write/3 using the Mime-typetext/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 tofile(+Type, +File)
, but using a memory file instead of a real file. See new_memory_file/1.codes(+Codes)
Ascodes(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)
Asatom(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 typemultipart/form-data
as produced by browsers issuing a POST request from an HTML form using enctypemultipart/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.
- [det]http_reply_header(+Out:stream, +What, +HdrExtra)
- Create a reply header using reply_header//3 and send it to Stream.
- [semidet]http_parse_header_value(+Field, +Value, -Prolog)
- 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 atomend
. - 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.
Value is either an atom, a list of codes or an already parsed header value. - [det]http_timestamp(+Time:timestamp, -Text:atom)
- Generate a description of a Time in HTTP format (RFC1123)
- [det]http_read_header(+Fd, -Header)
- 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)
- [det]http_parse_header(+Text:codes, -Header:list)
- Header is a list of Name(Value)-terms representing the
structure of the HTTP header in Text.
- Errors
domain_error(http_request_line, Line)
- [det,multifile]http://(http_address)
- 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.
- [semidet,multifile]http:status_page(+Status, +Context, -HTMLTokens)
- 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.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).HTMLTokens is a list of tokens as produced by html//1. It is passed to print_html/2. - 201 -
3.20 The library(http/html_write)
library
Producing output for the web in the form of an HTML document is a requirement for many Prolog programs. Just using format/2 is not satisfactory as it leads to poorly readable programs generating poor HTML. This library is based on using DCG rules.
The library(http/html_write)
structures the generation
of HTML from a program. It is an extensible library, providing a DCG
framework for generating legal HTML under (Prolog) program control. It
is especially useful for the generation of structured pages (e.g. tables)
from Prolog data structures.
The normal way to use this library is through the DCG html//1. This non-terminal provides the central translation from a structured term with embedded calls to additional translation rules to a list of atoms that can then be printed using print_html/[1,2].
- html(:Spec)
//
- The DCG non-terminal html//1 is the main predicate of this library. It
translates the specification for an HTML page into a list of atoms that
can be written to a stream using print_html/[1,2].
The expansion rules of this predicate may be extended by defining the
multifile DCG html_write:expand//1. Spec is either a single
specification or a list of single specifications. Using nested lists is
not allowed to avoid ambiguity caused by the atom
[]
- Atomic data
Atomic data is quoted using html_quoted//1. - Fmt - Args
Fmt and Args are used as format-specification and argument list to format/3. The result is quoted and added to the output list. \
List
Escape sequence to add atoms directly to the output list. This can be used to embed external HTML code or emit script output. List is a list of the following terms:- Fmt - Args
Fmt and Args are used as format-specification and argument list to format/3. The result is added to the output list. - Atomic
Atomic values are added directly to the output list.
- Fmt - Args
\
Term
Invoke the non-terminal Term in the calling module. This is the common mechanism to realise abstraction and modularisation in generating HTML.- Module:Term
Invoke the non-terminal <Module>:<Term>. This is similar to\
Term but allows for invoking grammar rules in external packages. - &(Entity)
Emit&<Entity>;
or&#<Entity>;
if Entity is an integer. SWI-Prolog atoms and strings are represented as Unicode. Explicit use of this construct is rarely needed because code-points that are not supported by the output encoding are automatically converted into character-entities. Tag(Content)
Emit HTML element Tag using Content and no attributes. Content is handed to html//1. See section 3.20.4 for details on the automatically generated layout.Tag(Attributes, Content)
Emit HTML element Tag using Attributes and Content. Attributes is either a single attribute of a list of attributes. Each attributes is of the formatName(Value)
or Name=Value. Value is the atomic attribute value but allows for a limited functional notation:- A + B
Concatenation of A and B - Format-Arguments
Use format/3 and emit the result as quoted value. encode(Atom)
Use uri_encoded/3 to create a valid URL query component.location_by_id(ID)
HTTP location of the HTTP handler with given ID. See http_location_by_id/2.#
(ID)
Abbreviated for forlocation_by_id(ID)
.- A + List
List is handled as a URL‘search' component. The list members are terms of the format Name = Value orName(Value)
. Values are encoded as in the encode option described above. - List
Emit SGML multi-valued attributes (e.g.,NAMES
). Each value in list is separated by a space. This is particularly useful for setting multipleclass
attributes on an element. For example:... span(class([c1,c2]), ...),
The example below generates a URL that references the predicate set_lang/1 in the application with given parameters. The http_handler/3 declaration binds
/setlang
to the predicate set_lang/1 for which we provide a very simple implementation. The code between...
is part of an HTML page showing the english flag which, when pressed, callsset_lang(Request)
where Request contains the search parameterlang
=en
. Note that the HTTP location (path)/setlang
can be moved without affecting this code.:- http_handler('/setlang', set_lang, []). set_lang(Request) :- http_parameters(Request, [ lang(Lang, []) ]), http_session_retractall(lang(_)), http_session_assert(lang(Lang)), reply_html_page(title('Switched language'), p(['Switch language to ', Lang])). ... html(a(href(location_by_id(set_lang) + [lang(en)]), img(src('/www/images/flags/en.png')))), ...
- A + B
- Atomic data
- page(:HeadContent,
:BodyContent)
//
- The DCG non-terminal page//2 generated a complete page, including the
SGML
DOCTYPE
declaration. HeadContent are elements to be placed in thehead
element and BodyContent are elements to be placed in thebody
element.To achieve common style (background, page header and footer), it is possible to define DCG non-terminals head//1 and/or body//1. Non-terminal page//1 checks for the definition of these non-terminals in the module it is called from as well as in the
user
module. If no definition is found, it creates a head with only the HeadContent (note that thetitle
is obligatory) and abody
withbgcolor
set towhite
and the provided BodyContent.Note that further customisation is easily achieved using html//1 directly as page//2 is (besides handling the hooks) defined as:
page(Head, Body) --> html([ \['<!DOCTYPE HTML PUBLIC "-//IETF//DTD HTML 4.0//EN">\n'], html([ head(Head), body(bgcolor(white), Body) ]) ]).
- page(:Contents)
//
- This version of the page/[1,2]
only gives you the SGML
DOCTYPE
and theHTML
element. Contents is used to generate both the head and body of the page. - html_begin(+Begin)
//
- Just open the given element. Begin is either an atom or a
compound term, In the latter case the arguments are used as arguments to
the begin-tag. Some examples:
html_begin(table) html_begin(table(border(2), align(center)))
This predicate provides an alternative to using the
\
Command syntax in the html//1 specification. The following two fragments are the same. The preferred solution depends on your preferences as well as whether the specification is generated or entered by the programmer.table(Rows) --> html(table([border(1), align(center), width('80%')], [ \table_header, \table_rows(Rows) ])). % or table(Rows) --> html_begin(table(border(1), align(center), width('80%'))), table_header, table_rows, html_end(table).
- html_end(+End)
//
- End an element. See html_begin/1 for details.
3.20.1 Emitting HTML documents
The non-terminal html//1 translates a specification into a list of
atoms and layout instructions. Currently the layout instructions are
terms of the format nl(N)
, requesting at least N
newlines. Multiple consecutive nl(1)
terms are combined to
an atom containing the maximum of the requested number of newline
characters.
To simplify handing the data to a client or storing it into a file, the following predicates are available from this library:
- reply_html_page(:Head, :Body)
- Same as
reply_html_page(default, Head, Body)
. - reply_html_page(+Style, :Head, :Body)
- Writes an HTML page preceded by an HTTP header as required by
library(http_wrapper)
(CGI-style). Here is a simple typical example:reply(Request) :- reply_html_page(title('Welcome'), [ h1('Welcome'), p('Welcome to our ...') ]).
The header and footer of the page can be hooked using the grammar-rules user:head//2 and user:body//2. The first argument passed to these hooks is the Style argument of reply_html_page/3 and the second is the 2nd (for head//2) or 3rd (for body//2) argument of reply_html_page/3. These hooks can be used to restyle the page, typically by embedding the real body content in a
div
. E.g., the following code provides a menu on top of each page of that is identified using the style myapp.:- multifile user:body//2. user:body(myapp, Body) --> html(body([ div(id(top), \application_menu), div(id(content), Body) ])).
Redefining the
head
can be used to pull in scripts, but typically html_requires//1 provides a more modular approach for pulling scripts and CSS-files. - print_html(+List)
- Print the token list to the Prolog current output stream.
- print_html(+Stream, +List)
- Print the token list to the specified output stream
- html_print_length(+List, -Length)
- When calling html_print/[1,2]
on List, Length characters will be produced.
Knowing the length is needed to provide the
Content-length
field of an HTTP reply-header.
3.20.2 Repositioning HTML for CSS and javascript links
Modern HTML commonly uses CSS and Javascript. This requires <link> elements in the HTML <head> element or <script> elements in the <body>. Unfortunately this seriously harms re-using HTML DCG rules as components as each of these components may rely on their own style sheets or JavaScript code. We added a‘mailing' system to reposition and collect fragments of HTML. This is implemented by html_post//2, html_receive//1 and html_receive//2.
- [det]html_post(+Id,
:HTML)
//
- Reposition HTML to the receiving Id. The html_post//2
call processes HTML using html//1.
Embedded
\
-commands are executed by mailman/1 from print_html/1 or html_print_length/2. These commands are called in the calling context of the html_post//2 call.A typical usage scenario is to get required CSS links in the document head in a reusable fashion. First, we define css//1 as:
css(URL) --> html_post(css, link([ type('text/css'), rel('stylesheet'), href(URL) ])).
Next we insert the unique CSS links, in the pagehead using the following call to reply_html_page/2:
reply_html_page([ title(...), \html_receive(css) ], ...)
- [det]html_receive(+Id)
//
- Receive posted HTML tokens. Unique sequences of tokens posted with html_post//2
are inserted at the location where
html_receive//1 appears.
- See also
- - The local predicate sorted_html//1
handles the output of
html_receive//1.
- html_receive//2 allows for post-processing the posted material.
- [det]html_receive(+Id,
:Handler)
//
- This extended version of html_receive//1
causes Handler to be called to process all messages posted to
the channal at the time output is generated. Handler is
called as below, where
PostedTerms is a list of Module:Term created from calls to
html_post//2. Module is the
context module of html_post and Term is the unmodified term. Members in PostedTerms
are in the order posted and may contain duplicates.
phrase(Handler, PostedTerms, HtmlTerms, Rest)
Typically, Handler collects the posted terms, creating a term suitable for html//1 and finally calls html//1.
The library predefines the receiver channel head
at the
end of the
head
element for all pages that write the html head
through this library. The following code can be used anywhere inside an
HTML generating rule to demand a javascript in the header:
js_script(URL) --> html_post(head, script([ src(URL), type('text/javascript') ], [])).
This mechanism is also exploited to add XML namespace (xmlns
)
declarations to the (outer) html
element using xhml_ns//2:
- xhtml_ns(+Id,
+Value)
//
- Demand an xmlns:id=Value in the outer html tag. This uses the
html_post/2 mechanism to post to the
xmlns
channel. Rdfa (http://www.w3.org/2006/07/SWD/RDFa/syntax/), embedding RDF in (x)html provides a typical usage scenario where we want to publish the required namespaces in the header. We can define:rdf_ns(Id) --> { rdf_global_id(Id:'', Value) }, xhtml_ns(Id, Value).
After which we can use rdf_ns//1 as a normal rule in html//1 to publish namespaces from
library(semweb/rdf_db)
. Note that this macro only has effect if the dialect is set toxhtml
. Inhtml
mode it is silently ignored.The required
xmlns
receiver is installed by html_begin//1 using thehtml
tag and thus is present in any document that opens the outerhtml
environment through this library.
3.20.3 Adding rules for html//1
In some cases it is practical to extend the translations imposed by
html//1. We used this technique to define translation rules for the
output of the SWI-Prolog library(sgml)
package.
The html//1 non-terminal first calls the multifile ruleset html_write:expand//1.
- html_write:expand(+Spec)
//
- Hook to add additional translation rules for html//1.
- html_quoted(+Atom)
//
- Emit the text in Atom, inserting entity-references for the
SGML special characters
<&>
. - html_quoted_attribute(+Atom)
//
- Emit the text in Atom suitable for use as an SGML attribute,
inserting entity-references for the SGML special characters
<&>"
.
3.20.4 Generating layout
Though not strictly necessary, the library attempts to generate reasonable layout in SGML output. It does this only by inserting newlines before and after tags. It does this on the basis of the multifile predicate html_write:layout/3
- html_write:layout(+Tag, -Open, -Close)
- Specify the layout conventions for the element Tag, which is
a lowercase atom. Open is a term Pre-Post.
It defines that the element should have at least Pre newline
characters before and Post after the tag. The Close
specification is similar, but in addition allows for the atom
, requesting the output generator to omit the close-tag altogether or-
empty
, telling the library that the element has declared empty content. In this case the close-tag is not emitted either, but in addition html//1 interprets Arg inTag(Arg)
as a list of attributes rather than the content.A tag that does not appear in this table is emitted without additional layout. See also print_html/[1,2]. Please consult the library source for examples.
3.20.5 Examples for using the HTML write library
In the following example we will generate a table of Prolog predicates we find from the SWI-Prolog help system based on a keyword. The primary database is defined by the predicate predicate/5 We will make hyperlinks for the predicates pointing to their documentation.
html_apropos(Kwd) :- findall(Pred, apropos_predicate(Kwd, Pred), Matches), phrase(apropos_page(Kwd, Matches), Tokens), print_html(Tokens). % emit page with title, header and table of matches apropos_page(Kwd, Matches) --> page([ title(['Predicates for ', Kwd]) ], [ h2(align(center), ['Predicates for ', Kwd]), table([ align(center), border(1), width('80%') ], [ tr([ th('Predicate'), th('Summary') ]) | \apropos_rows(Matches) ]) ]). % emit the rows for the body of the table. apropos_rows([]) --> []. apropos_rows([pred(Name, Arity, Summary)|T]) --> html([ tr([ td(\predref(Name/Arity)), td(em(Summary)) ]) ]), apropos_rows(T). % predref(Name/Arity) % % Emit Name/Arity as a hyperlink to % % /cgi-bin/plman?name=Name&arity=Arity % % we must do form-encoding for the name as it may contain illegal % characters. www_form_encode/2 is defined in library(url). predref(Name/Arity) --> { www_form_encode(Name, Encoded), sformat(Href, '/cgi-bin/plman?name=~w&arity=~w', [Encoded, Arity]) }, html(a(href(Href), [Name, /, Arity])). % Find predicates from a keyword. '$apropos_match' is an internal % undocumented predicate. apropos_predicate(Pattern, pred(Name, Arity, Summary)) :- predicate(Name, Arity, Summary, _, _), ( '$apropos_match'(Pattern, Name) -> true ; '$apropos_match'(Pattern, Summary) ).
3.20.6 Remarks
on the library(http/html_write)
library
This library is the result of various attempts to reach at a more satisfactory and Prolog-minded way to produce HTML text from a program. We have been using Prolog for the generation of web pages in a number of projects. Just using format/2 never was not a real option, generating error-prone HTML from clumsy syntax. We started with a layer on top of format/2, keeping track of the current nesting and thus always capable of properly closing the environment.
DCG based translation however, naturally exploits Prolog's term-rewriting primitives. If generation fails for whatever reason it is easy to produce an alternative document (for example holding an error message).
In a future version we will probably define a goal_expansion/2
to do compile-time optimisation of the library. Quotation of known text
and invocation of sub-rules using the \
RuleSet
and
<Module>:<RuleSet> operators are
costly operations in the analysis that can be done at compile-time.
3.21 library(http/js_write): Utilities for including JavaScript
This library is a supplement to library(http/html_write)
for producing JavaScript fragments. Its main role is to be able to call
JavaScript functions with valid arguments constructed from Prolog data.
For example, suppose you want to call a JavaScript functions to process
a list of names represented as Prolog atoms. This can be done using the
call below, while without this library you would have to be careful to
properly escape special characters.
numbers_script(Names) --> html(script(type('text/javascript'), [ \js_call('ProcessNumbers'(Names) ]),
The accepted arguments are described with js_expression//1.
- [det]js_script(+Content)
//
- Generate a JavaScript
script
element with the given content. - [det]javascript(+Content, +Vars, +VarDict, -DOM)
- Quasi quotation parser for JavaScript that allows for embedding Prolog
variables to substitude identifiers in the JavaScript snippet.
Parameterizing a JavaScript string is achieved using the JavaScript
+
operator, which results in concatenation at the client side...., js_script({|javascript(Id, Config)|| $(document).ready(function() { $("#"+Id).tagit(Config); }); |}), ...
The current implementation tokenizes the JavaScript input and yields syntax errors on unterminated comments, strings, etc. No further parsing is implemented, which makes it possible to produce syntactically incorrect and partial JavaScript. Future versions are likely to include a full parser, generating syntax errors.
The parser produces a term
\List
, which is suitable for js_script//1 and html//1. Embedded variables are mapped to\js_expression(Var)
, while the remaining text is mapped to atoms.- To be done
- Implement a full JavaScript parser. Users should not rely on the ability to generate partial JavaScript snippets.
- [det]js_call(+Term)
//
- Emit a call to a Javascript function. The Prolog functor is the name of
the function. The arguments are converted from Prolog to JavaScript
using js_arg_list//1. Please
not that Prolog functors can be quoted atom and thus the following is
legal:
... html(script(type('text/javascript'), [ \js_call('x.y.z'(hello, 42)) ]),
- [det]js_new(+Id,
+Term)
//
- Emit a call to a Javascript object declaration. This is the same as:
['var ', Id, ' = new ', \js_call(Term)]
- [det]js_arg_list(+Expressions:list)
//
- Write javascript (function) arguments. This writes "(", Arg, ..., ")". See js_expression//1 for valid argument values.
- [det]js_expression(+Expression)
//
- Emit a single JSON argument. Expression is one of:
- Variable
- Emitted as Javascript
null
- List
- Produces a Javascript list, where each element is processed by this library.
object(Attributes)
- Where Attributes is a Key-Value list where each pair can be written as
Key-Value, Key=Value or Key(Value), accomodating all common constructs
for this used in Prolog.
$ { K:V, ... } Same as
object(Attributes)
, providing a more JavaScript-like syntax. This may be useful if the object appears literally in the source-code, but is generally less friendlyto produce as a result from a computation. - Dict
- Emit a dict as a JSON object using json_write_dict/3.
json(Term)
- Emits a term using json_write/3.
- @(Atom)
- Emits these constants without quotes. Normally used for the symbols
true
,false
andnull
, but can also be use for emitting JavaScript symbols (i.e. function- or variable names). - Number
- Emited literally
symbol(Atom)
- Synonym for @(Atom). Deprecated.
- Atom or String
- Emitted as quoted JavaScript string.
- [semidet]js_arg(+Expression)
//
- Same as js_expression//1,
but fails if Expression is invalid, where js_expression//1
raises an error.
- deprecated
- New code should use js_expression//1.
3.22 library(http/http_path): Abstract specification of HTTP server locations
This module provides an abstract specification of HTTP server locations that is inspired on absolute_file_name/3. The specification is done by adding rules to the dynamic multifile predicate http:location/3. The speficiation is very similar to user:file_search_path/2, but takes an additional argument with options. Currently only one option is defined:
- priority(+Integer)
- If two rules match, take the one with highest priority. Using priorities
is needed because we want to be able to overrule paths, but we do not
want to become dependent on clause ordering.
The default priority is 0. Note however that notably libraries may decide to provide a fall-back using a negative priority. We suggest -100 for such cases.
This library predefines a single location at priority -100:
- root
- The root of the server. Default is /, but this may be overruled using
the setting (see setting/2)
http:prefix
To serve additional resource files such as CSS, JavaScript and icons,
see library(http/http_server_files)
.
Here is an example that binds /login
to login/1.
The user can reuse this application while moving all locations using a
new rule for the admin location with the option [priority(10)]
.
:- multifile http:location/3. :- dynamic http:location/3. http:location(admin, /, []). :- http_handler(admin(login), login, []). login(Request) :- ...
- [nondet,multifile]http:location(+Alias, -Expansion, -Options)
- Multifile hook used to specify new HTTP locations. Alias is
the name of the abstract path. Expansion is either a term
Alias2(Relative), telling http_absolute_location/3
to translate
Alias by first translating Alias2 and then applying the
relative path Relative or, Expansion is an absolute location,
i.e., one that starts with a
/
. Options currently only supports the priority of the path. If http:location/3 returns multiple solutions the one with the highest priority is selected. The default priority is 0.This library provides a default for the abstract location
root
. This defaults to the setting http:prefix or, when not available to the path/
. It is adviced to define all locations (ultimately) relative toroot
. For example, useroot('home.html')
rather than'/home.html'
. - [det]http_absolute_uri(+Spec, -URI)
- URI is the absolute (i.e., starting with
http://
) URI for the abstract specification Spec. Use http_absolute_location/3 to create references to locations on the same server.- To be done
- Distinguish
http
fromhttps
- [det]http_absolute_location(+Spec, -Path, +Options)
- Path is the HTTP location for the abstract specification Spec.
Options:
- relative_to(Base)
- Path is made relative to Base. Default is to generate absolute URLs.
- See also
- http_absolute_uri/2 to create a reference that can be used on another server.
- http_clean_location_cache
- HTTP locations resolved through http_absolute_location/3 are cached. This predicate wipes the cache. The cache is automatically wiped by make/0 and if the setting http:prefix is changed.
3.23 library(http/html_head): Automatic inclusion of CSS and scripts links
- To be done
- - Possibly we should add img//2 to include
images from symbolic path notation.
- It would be nice if the HTTP file server could use our location declarations.
This library allows for abstract declaration of available CSS and
Javascript resources and their dependencies using html_resource/2.
Based on these declarations, html generating code can declare that it
depends on specific CSS or Javascript functionality, after which this
library ensures that the proper links appear in the HTML head. The
implementation is based on mail system implemented by html_post/2
of library html_write.pl
.
Declarations come in two forms. First of all http locations are
declared using the http_path.pl
library. Second, html_resource/2
specifies HTML resources to be used in the head
and their
dependencies. Resources are currently limited to Javascript files (.js)
and style sheets (.css). It is trivial to add support for other material
in the head. See
html_include//1.
For usage in HTML generation, there is the DCG rule html_requires//1 that demands named resources in the HTML head.
3.23.1 About resource ordering
All calls to html_requires//1 for the page are collected and duplicates are removed. Next, the following steps are taken:
- Add all dependencies to the set
- Replace multiple members by‘aggregate' scripts or css files. see use_agregates/4.
- Order all resources by demanding that their dependencies preceede the resource itself. Note that the ordering of resources in the dependency list is ignored. This implies that if the order matters the dependency list must be split and only the primary dependency must be added.
3.23.2 Debugging dependencies
Use ?-
debug(html(script))
. to see the
requested and final set of resources. All declared resources are in html_resource/3.
The edit/1 command recognises the names of
HTML resources.
3.23.3 Predicates
- [det]html_resource(+About, +Properties)
- Register an HTML head resource. About is either an atom that
specifies an HTTP location or a term Alias(Sub). This works similar to absolute_file_name/2.
See http:location_path/2 for details.
Recognised properties are:
- requires(+Requirements)
- Other required script and css files. If this is a plain file name, it is interpreted relative to the declared resource. Requirements can be a list, which is equivalent to multiple requires properties.
- virtual(+Bool)
- If
true
(defaultfalse
), do not include About itself, but only its dependencies. This allows for defining an alias for one or more resources. - ordered(+Bool)
- Defines that the list of requirements is ordered, which means that each requirement in the list depends on its predecessor.
- aggregate(+List)
- States that About is an aggregate of the resources in List. This means that if both About and one of the elements of List appears in the dependencies, About is kept and the smaller one is dropped. If there are a number of dependencies on the small members, these are replaced with dependency on the big (aggregate) one, for example, to specify that a big javascript is actually the composition of a number of smaller ones.
- mime_type(-Mime)
- May be specified for non-virtual resources to specify the mime-type of the resource. By default, the mime type is derived from the file name using file_mime_type/2.
Registering the same About multiple times extends the properties defined for About. In particular, this allows for adding additional dependencies to a (virtual) resource.
- [nondet]html_current_resource(?About)
- True when About is a currently known resource.
- [det]html_requires(+ResourceOrList)
//
- Include ResourceOrList and all dependencies derived from it
and add them to the HTML
head
using html_post/2. The actual dependencies are computed during the HTML output phase by html_insert_resource//1. - [semidet,multifile]mime_include(+Mime,
+Path)
//
- Hook called to include a link to an HTML resource of type Mime
into the HTML head. The Mime type is computed from Path
using
file_mime_type/2. If the hook fails, two
built-in rules for
text/css
andtext/javascript
are tried. For example, to include a =.pl= files as a Prolog script, use::- multifile html_head:mime_include//2. html_head:mime_include(text/'x-prolog', Path) --> !, html(script([ type('text/x-prolog'), src(Path) ], [])).
3.24 library(http/http_pwp): Serve PWP pages through the HTTP server
- To be done
- - Support elements in the HTML header that allow controlling the page,
such as setting the CGI-header, authorization, etc.
- Allow external styling. Pass through reply_html_page/2? Allow filtering the DOM before/after PWP?
This module provides convience predicates to include PWP (Prolog Well-formed Pages) in a Prolog web-server. It provides the following predicates:
pwp_handler
/
2- This is a complete web-server aimed at serving static pages, some of which include PWP. This API is intended to allow for programming the web-server from a hierarchy of pwp files, prolog files and static web-pages.
reply_pwp_page
/
3- Return a single PWP page that is executed in the context of the calling module. This API is intended for individual pages that include so much text that generating from Prolog is undesirable.
- pwp_handler(+Options, +Request)
- Handle PWP files. This predicate is defined to create a simple HTTP
server from a hierarchy of PWP, HTML and other files. The interface is
kept compatible with the
library(http/http_dispatch)
. In the typical usage scenario, one needs to define an http location and a file-search path that is used as the root of the server. E.g., the following declarations create a self-contained web-server for files in/web/pwp/
.user:file_search_path(pwp, '/web/pwp'). :- http_handler(root(.), pwp_handler([path_alias(pwp)]), [prefix]).
Options include:
- path_alias(+Alias)
- Search for PWP files as Alias(Path). See absolute_file_name/3.
- index(+Index)
- Name of the directory index (pwp) file. This option may appear multiple
times. If no such option is provided,
pwp_handler/2 looks for
index.pwp
. - view(+Boolean)
- If
true
(default isfalse
), allow for ?view=source to serve PWP file as source. - index_hook(:Hook)
- If a directory has no index-file, pwp_handler/2 calls Hook(PhysicalDir, Options, Request). If this semidet predicate succeeds, the request is considered handled.
- hide_extensions(+List)
- Hide files of the given extensions. The default is to hide .pl files.
- dtd(?DTD)
- DTD to parse the input file with. If unbound, the generated DTD is returned
- Errors
permission_error(index, http_location, Location)
is raised if the handler resolves to a directory that has no index.- See also
- reply_pwp_page/3
- reply_pwp_page(:File, +Options, +Request)
- Reply a PWP file. This interface is provided to server individual
locations from PWP files. Using a PWP file rather than generating the
page from Prolog may be desirable because the page contains a lot of
text (which is cumbersome to generate from Prolog) or because the
maintainer is not familiar with Prolog.
Options supported are:
- mime_type(+Type)
- Serve the file using the given mime-type. Default is text/html.
- unsafe(+Boolean)
- Passed to http_safe_file/2 to check for unsafe paths.
- pwp_module(+Boolean)
- If
true
, (defaultfalse
), process the PWP file in a module constructed from its canonical absolute path. Otherwise, the PWP file is processed in the calling module.
Initial context:
- SCRIPT_NAME
- Virtual path of the script.
- SCRIPT_DIRECTORY
- Physical directory where the script lives
- QUERY
- Var=Value list representing the query-parameters
- REMOTE_USER
- If access has been authenticated, this is the authenticated user.
- REQUEST_METHOD
- One of
get
,post
,put
orhead
- CONTENT_TYPE
- Content-type provided with HTTP POST and PUT requests
- CONTENT_LENGTH
- Content-length provided with HTTP POST and PUT requests
While processing the script, the file-search-path pwp includes the current location of the script. I.e., the following will find myprolog in the same directory as where the PWP file resides.
pwp:ask="ensure_loaded(pwp(myprolog))"
- See also
- pwp_handler/2.
- To be done
- complete the initial context, as far as possible from CGI variables. See http://hoohoo.ncsa.illinois.edu/docs/cgi/env.html
4 Transfer encodings
The
HTTP protocol provides for transfer encodings. These define
filters applied to the data described by the Content-type
.
The two most popular transfer encodings are chunked
and
deflate
. The chunked
encoding avoids the need
for a Content-length
header, sending the data in chunks,
each of which is preceded by a length. The deflate
encoding
provides compression.
Transfer-encodings are supported by filters defined as foreign
libraries that realise an encoding/decoding stream on top of another
stream. Currently there are two such libraries: library(http/http_chunked.pl)
and library(zlib.pl)
.
There is an emerging hook interface dealing with transfer encodings.
The
library(http/http_chunked.pl)
provides a hook used by
library(http/http_open.pl)
to support chunked encoding in http_open/3.
Note that both http_open.pl
and http_chunked.pl
must be loaded for http_open/3
to support chunked encoding.
4.1 The library(http/http_chunked)
library
- http_chunked_open(+RawStream, -DataStream, +Options)
- Create a stream to realise HTTP chunked encoding or decoding. The technique is similar to library(zlib), using a Prolog stream as a filter on another stream. See online documentation at http://www.swi-prolog.org/ for details.
5 library(http/websocket): WebSocket support
- See also
- RFC 6455, http://tools.ietf.org/html/rfc6455
- To be done
- Deal with protocol extensions.
WebSocket is a lightweight message oriented protocol on top of TCP/IP streams. It is typically used as an upgrade of an HTTP connection to provide bi-directional communication, but can also be used in isolation over arbitrary (Prolog) streams.
The SWI-Prolog interface is based on streams and provides ws_open/3 to create a websocket stream from any Prolog stream. Typically, both an input and output stream are wrapped and then combined into a single object using stream_pair/3.
The high-level interface provides http_upgrade_to_websocket/3 to realise a websocket inside the HTTP server infrastructure and http_open_websocket/3 as a layer over http_open/3 to realise a client connection. After establishing a connection, ws_send/2 and ws_receive/2 can be used to send and receive messages. The predicate ws_close/3 is provided to perform the closing handshake and dispose of the stream objects.
- [det]http_open_websocket(+URL, -WebSocket, +Options)
- Establish a client websocket connection. This predicate calls
http_open/3 with additional
headers to negotiate a websocket connection. In addition to the options
processed by http_open, the following options are recognised:
- subprotocols(+List)
- List of subprotocols that are acceptable. The selected
protocol is available as ws_property(WebSocket,
subprotocol(Protocol)
.
The following example exchanges a message with the html5rocks.websocket.org echo service:
?- URL = 'ws://html5rocks.websocket.org/echo', http_open_websocket(URL, WS, []), ws_send(WS, text('Hello World!')), ws_receive(WS, Reply), ws_close(WS, 1000, "Goodbye"). URL = 'ws://html5rocks.websocket.org/echo', WS = <stream>(0xe4a440,0xe4a610), Reply = websocket{data:"Hello World!", opcode:text}.
WebSocket is a stream pair (see stream_pair/3) - http_upgrade_to_websocket(:Goal, +Options, +Request)
- Create a websocket connection running
call(Goal, WebSocket)
, where WebSocket is a socket-pair. Options:- guarded(+Boolean)
- If
true
(default), guard the execution of Goal and close the websocket on both normal and abnormal termination of Goal. Iffalse
, Goal itself is responsible for the created websocket. This can be used to create a single thread that manages multiple websockets using I/O multiplexing. - subprotocols(+List)
- List of acceptable subprotocols.
- timeout(+TimeOut)
- Timeout to apply to the input stream. Default is
infinite
.
Note that the Request argument is the last for cooperation with http_handler/3. A simple echo server that can be accessed at =/ws/= can be implemented as:
:- use_module(library(http/websocket)). :- use_module(library(http/thread_httpd)). :- use_module(library(http/http_dispatch)). :- http_handler(root(ws), http_upgrade_to_websocket(echo, []), [spawn([])]). echo(WebSocket) :- ws_receive(WebSocket, Message), ( Message.opcode == close -> true ; ws_send(WebSocket, Message), echo(WebSocket) ).
- throws
switching_protocols(Goal, Options)
. The recovery from this exception causes the HTTP infrastructure to callcall(Goal, WebSocket)
.- See also
- http_switch_protocol/2.
- [det]ws_send(+WebSocket, +Message)
- Send a message over a websocket. The following terms are allowed for Message:
- text(+Text)
- Send a text message. Text is serialized using write/1.
- binary(+Content)
- As
text(+Text)
, but all character codes produced by Content must be in the range [0..255]. Typically, Content will be an atom or string holding binary data. - prolog(+Term)
- Send a Prolog term as a text message. Text is serialized using write_canonical/1.
- json(+JSON)
- Send the Prolog representation of a JSON term using json_write_dict/2.
- string(+Text)
- Same as
text(+Text)
, provided for consistency. - close(+Code, +Text)
- Send a close message. Code is 1000 for normal close. See websocket documentation for other values.
- Dict
- A dict that minimally contains an
opcode
key. Other keys used are:format
:
Format- Serialization format used for Message.data. Format
is one of
string
,prolog
orjson
. See ws_receive/3. data
:
Term- If this key is present, it is serialized according to Message.format. Otherwise it is serialized using write/1, which implies that string and atoms are just sent verbatim.
Note that ws_start_message/3 does not unlock the stream. This is done by ws_send/1. This implies that multiple threads can use ws_send/2 and the messages are properly serialized.
- To be done
- Provide serialization details using options.
- [det]ws_receive(+WebSocket, -Message:dict)
- [det]ws_receive(+WebSocket, -Message:dict, +Options)
- Receive the next message from WebSocket. Message
is a dict containing the following keys:
opcode
:
OpCode- OpCode of the message. This is an atom for known opcodes and
an integer for unknown ones. If the peer closed the stream, OpCode
is bound to
close
and data to the atomend_of_file
. data
:
String- The data, represented as a string. This field is always present. String is the empty string if there is no data in the message.
rsv
:
RSV- Present if the WebSocket RSV header is not 0. RSV is an integer in the range [1..7].
If
ping
message is received and WebSocket is a stream pair, ws_receive/1 replies with apong
and waits for the next message.The predicate ws_receive/3 processes the following options:
- format(+Format)
- Defines how text messages are parsed. Format is one of
- string
- Data is returned as a Prolog string (default)
- json
- Data is parsed using json_read_dict/3, which also receives Options.
- prolog
- Data is parsed using read_term/3, which also receives Options.
- To be done
- Add a hook to allow for more data formats?
- [det]ws_close(+WebSocket:stream_pair, +Code, +Data)
- Close a WebSocket connection by sending a
close
message if this was not already sent and wait for the close reply.Code is the numerical code indicating the close status. This is 16-bit integer. The codes are defined in section 7.4.1. Defined Status Codes of RFC6455. Notably, 1000 indicates a normal closure. Data is currently interpreted as text. - Errors
websocket_error(unexpected_message, Reply)
if the other side did not send a close message in reply.
- [det]ws_open(+Stream, -WSStream, +Options)
- Turn a raw TCP/IP (or any other binary stream) into a websocket stream. Stream
can be an input stream, output stream or a stream pair. Options
includes
- mode(+Mode)
- One of
server
orclient
. Ifclient
, messages are sent as masked. - buffer_size(+Count)
- Send partial messages for each Count bytes or when flushing the output. The default is to buffer the entire message before it is sent.
- close_parent(+Boolean)
- If
true
(default), closing WSStream also closes Stream. - subprotocol(+Protocol)
- Set the subprotocol property of WsStream. This value can be retrieved
using ws_property/2. Protocol
is an atom. See also the
subprotocols
option of http_open_websocket/3 and http_upgrade_to_websocket/3.
A typical sequence to turn a pair of streams into a WebSocket is here:
..., Options = [mode(server), subprotocol(chat)], ws_open(Input, WsInput, Options), ws_open(Output, WsOutput, Options), stream_pair(WebSocket, WsInput, WsOutput).
- [nondet]ws_property(+WebSocket, ?Property)
- True if Property is a property WebSocket. Defined
properties are:
- subprotocol(Protocol)
- Protocol is the negotiated subprotocol. This is typically set as a property of the websocket by ws_open/3.
6 library(http/hub): Manage a hub for websockets
- To be done
- The current design does not use threads to perform tasks for multiple hubs. This implies that the design scales rather poorly for hosting many hubs with few users.
This library manages a hub that consists of clients that are connected using a websocket. Messages arriving at any of the websockets are sent to the event queue of the hub. In addition, the hub provides a broadcast interface. A typical usage scenario for a hub is a chat server A scenario for realizing an chat server is:
- Create a new hub using hub_create/3.
- Create one or more threads that listen to Hub.queues.event from the
created hub. These threads can update the shared view of the world. A
message is a dict as returned by ws_receive/2
or a hub control message. Currently, the following control messages are
defined:
- hub{
error
:Error,left
:ClientId,reason
:Reason} - A client left us because of an I/O error. Reason is
read
orwrite
and Error is the Prolog I/O exception. - hub{
joined
:ClientId} - A new client has joined the chatroom.
The
thread(s)
can talk to clients using two predicates:- hub_send/2 sends a message to a specific client
- hub_broadcast/2 sends a message to all clients of the hub.
- hub{
A hub consists of (currenty) four message queues and a simple dynamic fact. Threads that are needed for the communication tasks are created on demand and die if no more work needs to be done.
- [det]hub_create(+Name, -Hub, +Options)
- Create a new hub. Hub is a dict containing the following
public information:
- Hub
.
name
- The name of the hub (the Name argument)
queues
.
event
- Message queue to which the hub
thread(s)
can listen.
After creating a hub, the application normally creates a thread that listens to Hub.queues.event and exposes some mechanisms to establish websockets and add them to the hub using hub_add/3.
- See also
- http_upgrade_to_websocket/3 establishes a websocket from the SWI-Prolog webserver.
- Hub
- [nondet]current_hub(?Name, ?Hub)
- True when there exists a hub Hub with Name.
- [det]hub_add(+Hub, +WebSocket, ?Id)
- Add a WebSocket to the hub. Id is used to identify this user. It may be provided (as a ground term) or is generated as a UUID.
- [nondet]hub_member(?HubName, ?Id)
- True when Id is a member of the hub HubName.
- [semidet]hub_send(+ClientId, +Message)
- Send message to the indicated ClientId. Fails silently if ClientId
does not exist.
Message is either a single message (as accepted by ws_send/2) or a list of such messages. - [det]hub_broadcast(+Hub, +Message)
- [det]hub_broadcast(+Hub, +Message, :Condition)
- Send Message to all websockets associated with Hub
for which
call(Condition, Id)
succeeds. Note that this process is asynchronous: this predicate returns immediately after putting all requests in a broadcast queue. If a message cannot be delivered due to a network error, the hub is informed through io_error/3.
7 Supporting JSON
From http://json.org, " JSON (JavaScript Object Notation) is a lightweight data-interchange format. It is easy for humans to read and write. It is easy for machines to parse and generate. It is based on a subset of the JavaScript Programming Language, Standard ECMA-262 3rd Edition - December 1999. JSON is a text format that is completely language independent but uses conventions that are familiar to programmers of the C-family of languages, including C, C++, C#, Java, JavaScript, Perl, Python, and many others. These properties make JSON an ideal data-interchange language."
Although JSON is nowadays used a lot outside the context of web
applications, SWI-Prolog's support for JSON started life as part of the
HTTP package. SWI-Prolog supports two Prolog representations for JSON
terms. The first and oldest map JSON objects to a term
json(PropertyList)
and use the @
functor to
disambiguate e.g. null
from the string "null"
,
leading to @(null)
. As of SWI-Prolog version 7, JSON
objects may be represented using dict objects and JSON strings
using Prolog strings. Predicates following this convention are suffixed
with _dict
, e.g. json_read_dict/2.
For example, given the JSON document
{ "name": "Bob", "children": ["Mary", "John"], "age":42, "married": true }
we get either (using json_read/2):
json([name='Bob', children=['Mary', 'John'], age=42, married= @(true)]).
or (using json_read_dict/2):
_{age:42, children:["Mary", "John"], married:true, name:"Bob"}
The SWI-Prolog JSON interface consists of three libraries:
library(http/json)
provides support for the core JSON object serialization and parsing.library(http/json_convert)
converts between the primary representation of JSON terms in Prolog and more application oriented Prolog terms. E.g.point(X,Y)
vs.object([x=X,y=Y])
.library(http/http_json)
hooks the conversion libraries into the HTTP client and server libraries.7.1 library(http/json): Reading and writing JSON serialization
- author
- Jan Wielemaker
- See also
- -
http_json.pl
links JSON to the HTTP client and server modules.
-json_convert.pl
converts JSON Prolog terms to more comfortable terms.
This module supports reading and writing JSON objects. This library supports two Prolog representations (the new representation is only supported in SWI-Prolog version 7 and later):
- The classical representation is provided by json_read/3
and
json_write/3. This represents a
JSON object as
json(NameValueList)
, a JSON string as an atom and the JSON constantsnull
,true
andfalse
as @(null), @(true) and @false. - The new representation is provided by json_read_dict/3
and
json_write_dict/3. This
represents a JSON object as a dict, a JSON string as a Prolog string and
the JSON constants using the Prolog atoms
null
,true
andfalse
.
- [det]atom_json_term(?Atom, ?JSONTerm, +Options)
- Convert between textual representation and a JSON term. In
write mode (JSONTerm to Atom), the option
- as(Type)
- defines the output type, which is one of
atom
(default),string
,codes
orchars
.
- [det]json_read(+Stream, -Term)
- [det]json_read(+Stream, -Term, +Options)
- Read next JSON value from Stream into a Prolog term. The
canonical representation for Term is:
- A JSON object is mapped to a term
json(NameValueList)
, where NameValueList is a list of Name=Value. Name is an atom created from the JSON string. - A JSON array is mapped to a Prolog list of JSON values.
- A JSON string is mapped to a Prolog atom
- A JSON number is mapped to a Prolog number
- The JSON constants
true
andfalse
are mapped -like JPL- to @(true) and @(false). - The JSON constant
null
is mapped to the Prolog term @(null)
Here is a complete example in JSON and its corresponding Prolog term.
{ "name":"Demo term", "created": { "day":null, "month":"December", "year":2007 }, "confirmed":true, "members":[1,2,3] }
json([ name='Demo term', created=json([day= @null, month='December', year=2007]), confirmed= @true, members=[1, 2, 3] ])
The following options are processed:
- null(+NullTerm)
- Term used to represent JSON
null
. Default @(null) - true(+TrueTerm)
- Term used to represent JSON
true
. Default @(true) - false(+FalseTerm)
- Term used to represent JSON
false
. Default @(false) - end_of_file(+ErrorOrTerm)
- If end of file is reached after skipping white space but before any
input is processed take the following action (default
error
):- If ErrorOrTerm
==
error
, throw an unexpected end of file syntax error - Otherwise return ErrorOrTerm.
Returning an status term is required to process Concatenated JSON. Suggested values are
@(eof)
orend_of_file
. - If ErrorOrTerm
- value_string_as(+Type)
- Prolog type used for strings used as value. Default is
atom
. The alternative isstring
, producing a packed string object. Please note thatcodes
orchars
would produce ambiguous output and are therefore not supported.
- See also
- json_read_dict/3 to read a JSON term using the version 7 extended data types.
- A JSON object is mapped to a term
- [det]json_write(+Stream, +Term)
- [det]json_write(+Stream, +Term, +Options)
- Write a JSON term to Stream. The JSON object is of the same
format as produced by json_read/2,
though we allow for some more flexibility with regard to pairs in
objects. All of Name=Value, Name-Value and Name(Value) produce the same
output.
Values can be of the form #(Term), which causes Term to be stringified if it is not an atom or string. Stringification is based on term_string/2.
Rational numbers are emitted as floating point numbers. The hook json_write_hook/4 can be used to realize domain specific alternatives.
The version 7 dict type is supported as well. Optionally, if the dict has a tag, a property "type":"tag" can be added to the object. This behaviour can be controlled using the
tag
option (see below). For example:?- json_write(current_output, point{x:1,y:2}). { "x":1, "y":2 }
?- json_write(current_output, point{x:1,y:2}, [tag(type)]). { "type":"point", "x":1, "y":2 }
In addition to the options recognised by json_read/3, we process the following options are recognised:
- width(+Width)
- Width in which we try to format the result. Too long lines switch from horizontal to vertical layout for better readability. If performance is critical and human readability is not an issue use Width = 0, which causes a single-line output.
- step(+Step)
- Indentation increnment for next level. Default is 2.
- tab(+TabDistance)
- Distance between tab-stops. If equal to Step, layout is generated with one tab per level.
- serialize_unknown(+Boolean)
- If
true
(defaultfalse
), serialize unknown terms and print them as a JSON string. The default raises a type error. Note that this option only makes sense if you can guarantee that the passed value is not an otherwise valid Prolog reporesentation of a Prolog term.
If a string is emitted, the sequence
</
is emitted as<\/
. This is valid JSON syntax which ensures that JSON objects can be safely embedded into an HTML<script>
element. - [semidet,multifile]json_write_hook(+Term, +Stream, +State, +Options)
- Hook that can be used to emit a JSON representation for Term
to
Stream. If the predicate succeeds it must have written
a
valid JSON data element and if it fails it may not have produced
any output. This facility may be used to map arbitrary Prolog terms to
JSON. It was added to manage the precision with which floating point
numbers are emitted.
Note that this hook is shared by all users of this library. It is generally adviced to map a unique compound term to avoid interference with normal output.
State and Options are opaque handles to the current output state and settings. Future versions may provide documented access to these terms. Currently it is adviced to ignore these arguments. - [semidet]is_json_term(@Term)
- [semidet]is_json_term(@Term, +Options)
- True if Term is a json term. Options are the same
as for
json_read/2, defining the Prolog
representation for the JSON
true
,false
andnull
constants. - [det]json_read_dict(+Stream, -Dict)
- [det]json_read_dict(+Stream, -Dict, +Options)
- Read a JSON object, returning objects as a dicts. The representation
depends on the options, where the default is:
- String values are mapped to Prolog strings
- JSON
true
,false
andnull
are represented using these Prolog atoms. - JSON objects are mapped to dicts.
- Optionally, a
type
field in an object assigns a tag for the dict.
The predicate json_read_dict/3 processes the same options as json_read/3, but with different defaults. In addition, it processes the
tag
option. See json_read/3 for details about the shared options.- tag(+Name)
- When converting to/from a dict, map the indicated JSON attribute to the dict tag. No mapping is performed if Name is the empty atom ('', default). See json_read_dict/2 and json_write_dict/2.
- default_tag(+Tag)
- Provide the default tag if the above
tag
option does not apply. - null(+NullTerm)
- Default the atom
null
. - true(+TrueTerm)
- Default the atom
true
. - false(+FalseTerm)
- Default the atom
false
- end_of_file(+ErrorOrTerm)
- Action on reading end-of-file. See json_read/3 for details.
- value_string_as(+Type)
- Prolog type used for strings used as value. Default is
string
. The alternative isatom
, producing a packed string object.
- [det]json_write_dict(+Stream, +Dict)
- [det]json_write_dict(+Stream, +Dict, +Options)
- Write a JSON term, represented using dicts. This is the same as json_write/3, but assuming the default representation of JSON objects as dicts.
- [det]atom_json_dict(+Atom, -JSONDict, +Options)
- [det]atom_json_dict(-Text, +JSONDict, +Options)
- Convert between textual representation and a JSON term represented as a
dict. Options are as for json_read/3.
In write mode, the addtional option
- as(Type)
- defines the output type, which is one of
atom
,string
orcodes
.
7.2 library(http/json_convert): Convert between JSON terms and Prolog application terms
- To be done
- - Ignore extra fields. Using a partial list of extra?
- Consider a sensible default for handling JSONnull
. Conversion to Prolog could translate @null into a variable if the desired type is notany
. Conversion to JSON could map variables tonull
, though this may be unsafe. If the Prolog term is known to be non-ground and JSON @null is a sensible mapping, we can also use this simple snipit to deal with that fact.term_variables(Term, Vars), maplist(=(@null), Vars).
The idea behind this module is to provide a flexible high-level mapping between Prolog terms as you would like to see them in your application and the standard representation of a JSON object as a Prolog term. For example, an X-Y point may be represented in JSON as
{"x":25, "y":50}
. Represented in Prolog this becomesjson([x=25,y=50])
, but this is a pretty non-natural representation from the Prolog point of view.This module allows for defining records (just like
library(record)
) that provide transparent two-way transformation between the two representations.:- json_object point(x:integer, y:integer).
This declaration causes prolog_to_json/2 to translate the native Prolog representation into a JSON Term:
?- prolog_to_json(point(25,50), X). X = json([x=25, y=50])
A json_object/1 declaration can define multiple objects separated by a comma (,), similar to the dynamic/1 directive. Optionally, a declaration can be qualified using a module. The conversion predicates prolog_to_json/2 and json_to_prolog/2 first try a conversion associated with the calling module. If not successful, they try conversions associated with the module
user
.JSON objects have no type. This can be solved by adding an extra field to the JSON object, e.g.
{"type":"point", "x":25, "y":50}
. As Prolog records are typed by their functor we need some notation to handle this gracefully. This is achieved by adding +Fields to the declaration. I.e.:- json_object point(x:integer, y:integer) + [type=point].
Using this declaration, the conversion becomes:
?- prolog_to_json(point(25,50), X). X = json([x=25, y=50, type=point])
The predicate json_to_prolog/2 is often used after http_read_json/2 and prolog_to_json/2 before reply_json/1. For now we consider them separate predicates because the transformation may be too general, too slow or not needed for dedicated applications. Using a separate step also simplifies debugging this rather complicated process.
- [multifile]current_json_object(Term, Module, Fields)
- Multifile predicate computed from the json_object/1
declarations. Term is the most general Prolog term
representing the object. Module is the module in which the
object is defined and Fields is a list of
f(Name, Type, Default, Var)
, ordered by Name. Var is the corresponding variable in Term. - json_object(+Declaration)
- Declare a JSON object. The declaration takes the same format as using in record/1
from
library(record)
. E.g.?- json_object point(x:int, y:int, z:int=0).
The type arguments are either types as know to
library(error)
or functor names of other JSON objects. The constantany
indicates an untyped argument. If this is a JSON term, it becomes subject to json_to_prolog/2. I.e., using the typelist(any)
causes the conversion to be executed on each element of the list.If a field has a default, the default is used if the field is not specified in the JSON object. Extending the record type definition, types can be of the form (Type1
|
Type2). The typenull
means that the field may not be present.Conversion of JSON to Prolog applies if all non-defaulted arguments can be found in the JSON object. If multiple rules match, the term with the highest arity gets preference.
- [det]prolog_to_json(:Term, -JSONObject)
- Translate a Prolog application Term into a JSON object term.
This transformation is based on
:-
json_object/1 declarations. If a json_object/1 declaration declares a field of typeboolean
, commonly used thruth-values in Prolog are converted to JSON booleans. Boolean translation accepts one oftrue
,on
,1
, @true,false
,fail
,off
or0
, @false.- Errors
- -
type_error(json_term, X)
- instantiation_error
- [det]json_to_prolog(+JSON, -Term)
- Translate a JSON term into an application term. This
transformation is based on
:-
json_object/1 declarations. An efficient transformation is non-trivial, but we rely on the assumption that, although the order of fields in JSON terms is irrelevant and can therefore vary a lot, practical applications will normally generate the JSON objects in a consistent order.If a field in a json_object is declared of type
boolean
, @true and @false are translated totrue
orfalse
, the most commonly used Prolog representation for truth-values.
7.3 library(http/http_json): HTTP JSON Plugin module
- See also
- - JSON Requests are discussed in http://json.org/JSONRequest.html
-json.pl
describes how JSON objects are represented in Prolog terms.
-json_convert.pl
converts between more natural Prolog terms and json terms.
Most code doesn't need to use this directly; instead use
library(http/http_server)
, which combines this library with the typical HTTP libraries that most servers need.This module adds hooks to several parts of the HTTP libraries, making them JSON-aware. Notably:
- Make http_read_data/3
convert
application/json
andapplication/jsonrequest
content to a JSON term. - Cause http_open/3 to accept
post(json(Term))
to issue a POST request with JSON content. - Provide HTTP server and client utility predicates for reading and
replying JSON:
- http_read_json/2
- http_read_json/3
- http_read_json_dict/2
- http_read_json_dict/3
- reply_json/1
- reply_json/2
- reply_json_dict/1
- reply_json_dict/2
- Reply to exceptions in the server using an JSON document rather then
HTML if the
Accept
header prefers application/json over text/html.
Typically JSON is used by Prolog HTTP servers. This module supports two JSON representations: the classical representation and the new representation supported by the SWI-Prolog version 7 extended data types. Below is a skeleton for handling a JSON request, answering in JSON using the classical interface.
handle(Request) :- http_read_json(Request, JSONIn), json_to_prolog(JSONIn, PrologIn), <compute>(PrologIn, PrologOut), % application body prolog_to_json(PrologOut, JSONOut), reply_json(JSONOut).
When using dicts, the conversion step is generally not needed and the code becomes:
handle(Request) :- http_read_json_dict(Request, DictIn), <compute>(DictIn, DictOut), reply_json(DictOut).
This module also integrates JSON support into the http client provided by
http_client.pl
. Posting a JSON query and processing the JSON reply (or any other reply understood by http_read_data/3) is as simple as below, where Term is a JSON term as described injson.pl
and reply is of the same format if the server replies with JSON...., http_post(URL, json(Term), Reply, [])
- [multifile]http_client:http_convert_data(+In, +Fields, -Data, +Options)
- Hook implementation that supports reading JSON documents. It processes
the following option:
- json_object(+As)
- Where As is one of
term
ordict
. If the value isdict
, json_read_dict/3 is used.
- [semidet]is_json_content_type(+ContentType)
- True if ContentType is a header value (either parsed or as atom/string) that denotes a JSON value.
- [semidet,multifile]json_type(?MediaType)
- True if MediaType is a JSON media type. http_json:json_type/1
is a multifile predicate and may be extended to facilitate
non-conforming clients.
MediaType is a term Type/SubType, where both Type and SubType are atoms. - [semidet,multifile]http:post_data_hook(+Data, +Out:stream, +HdrExtra)
- Hook implementation that allows http_post_data/3
posting JSON objects using one of the forms below.
http_post(URL, json(Term), Reply, Options) http_post(URL, json(Term, Options), Reply, Options)
If Options are passed, these are handed to json_write/3. In addition, this option is processed:
- json_object(As)
- If As is
dict
, json_write_dict/3 is used to write the output. This is default ifjson(Dict)
is passed.
- To be done
- avoid creation of intermediate data using chunked output.
- [det]http_read_json(+Request, -JSON)
- [det]http_read_json(+Request, -JSON, +Options)
- Extract JSON data posted to this HTTP request. Options
are passed to json_read/3. In
addition, this option is processed:
- json_object(+As)
- One of
term
(default) to generate a classical Prolog term ordict
to exploit the SWI-Prolog version 7 data type extensions. See json_read_dict/3.
- Errors
- -
domain_error(mimetype, Found)
if the mimetype is not known (see json_type/1).
-domain_error(method, Method)
if the request method is not aPOST
,PUT
orPATCH
.
- [det]http_read_json_dict(+Request, -Dict)
- [det]http_read_json_dict(+Request, -Dict, +Options)
- Similar to http_read_json/2,3, but by default uses the version 7 extended datatypes.
- [det]reply_json(+JSONTerm)
- [det]reply_json(+JSONTerm, +Options)
- Formulate a JSON HTTP reply. See json_write/2
for details. The processed options are listed below. Remaining options
are forwarded to json_write/3.
- content_type(+Type)
- The default
Content-type
isapplication/json; charset=UTF8
.charset=UTF8
should not be required because JSON is defined to be UTF-8 encoded, but some clients insist on it. - status(+Code)
- The default status is 200. REST API functions may use other values from the 2XX range, such as 201 (created).
- json_object(+As)
- One of
term
(classical json representation) ordict
to use the new dict representation. If omitted and Term is a dict,dict
is assumed. SWI-Prolog Version 7.
- [det]reply_json_dict(+JSONTerm)
- [det]reply_json_dict(+JSONTerm, +Options)
- As reply_json/1 and reply_json/2, but assumes the new dict based data representation. Note that this is the default if the outer object is a dict. This predicate is needed to serialize a list of objects correctly and provides consistency with http_read_json_dict/2 and friends.
8 MIME support
8.1 library(http/mimepack): Create a MIME message
Simple and partial implementation of MIME encoding. MIME is covered
by RFC 2045. This library is used by e.g., http_post_data/3
when using the
form_data(+ListOfData)
input specification.
MIME decoding is now arranged through library(mime)
from
the clib package, based on the external librfc2045 library. Most likely
the functionality of this package will be moved to the same library
someday. Packing however is a lot simpler then parsing.
- [det]mime_pack(+Inputs, +Out:stream, ?Boundary)
- Pack a number of inputs into a MIME package using a specified or
generated boundary. The generated boundary consists of the current time
in milliseconds since the epoch and 10 random hexadecimal numbers. Inputs
is a list of documents that is added to the mime message. Each
element is one of:
- Name
=
Value - Name the document. This emits a header of the form below. The
filename
is present if Value is of the formfile(File)
. Value may be any of remaining value specifications.Content-Disposition: form-data; name="Name"[; filename="<File>"
- html(Tokens)
- Tokens is a list of HTML tokens as produced by html//1. The token list is emitted using print_html/1.
- file(File)
- Emit the contents of File. The
Content-type
is derived from the File using file_mime_type/2. If the content-type istext/_
, the file data is copied in text mode, which implies that it is read in the default encoding of the system and written using the encoding of the Out stream. Otherwise the file data is copied binary. - stream(In, Len)
- Content is the next Len units from In. Data is copied using copy_stream_data/3. Units is bytes for binary streams and characters codes for text streams.
- stream(In)
- Content of the stream In, copied using copy_stream_data/2. This is often used with memory files (see new_memory_file/1).
- mime(Attributes, Value,[])
- Create a MIME header from Attributes and add Value,
which can be any of remaining values of this list. Attributes
may contain
type(ContentType)
and/orcharacter_set(CharSet)
. This can be used to give a content-type to values that otherwise do not have a content-type. For example:mime([type(text/html)], '<b>Hello World</b>', [])
- mime([], , Parts)
- Creates a nested multipart MIME message. Parts is passed as Inputs to a recursive call to mime_pack/2.
- Atomic
- Atomic values are passed to write/1. This embeds simple atoms and numbers.
Out is a stream opened for writing. Typically, it should be opened in text mode using UTF-8 encoding. - bug
- Does not validate that the boundary does not appear in any of the input documents.
- Name
9 Security
Writing servers is an inherently dangerous job that should be carried out with some considerations. You have basically started a program on a public terminal and invited strangers to use it. When using the interactive server or inetd based server the server runs under your privileges. Using CGI scripted it runs with the privileges of your web-server. Though it should not be possible to fatally compromise a Unix machine using user privileges, getting unconstrained access to the system is highly undesirable.
Symbolic languages have an additional handicap in their inherent possibilities to modify the running program and dynamically create goals (this also applies to the popular Perl and PHP scripting languages). Here are some guidelines.
- Check your input
Hardly anything can go wrong if you check the validity of query-arguments before formulating an answer. - Check filenames
If part of the query consists of filenames or directories, check them. This also applies to files you only read. Passing names as/etc/passwd
, but also../../../../../etc/passwd
are tried by hackers to learn about the system they want to attack. So, expand provided names using absolute_file_name/[2,3] and verify they are inside a folder reserved for the server. Avoid symbolic links from this subtree to the outside world. The example below checks validity of filenames. The first call ensures proper canonisation of the paths to avoid an mismatch due to symbolic links or other filesystem ambiguities.check_file(File) :- absolute_file_name('/path/to/reserved/area', Reserved), absolute_file_name(File, Tried), sub_atom(Tried, 0, _, _, Reserved).
- Check scripts
Should input in any way activate external scripts using shell/1 oropen(pipe(Command), ...)
, verify the argument once more. Use process_create/3 in preference over shell/1 as this function avoids stringification of arguments (Unix) or ensures proper quoting of arguments (Windows). - Check meta-calling
The attractive situation for you and your attacker is below:reply(Query) :- member(search(Args), Query), member(action=Action, Query), member(arg=Arg, Query), call(Action, Arg). % NEVER EVER DO THIS!
All your attacker has to do is specify Action as
shell
and Arg as/bin/sh
and he has an uncontrolled shell!
10 Tips and tricks
- URL Locations
With an application in mind, it is tempting to make all URL locations short and directly connected to the root (
). This is not a good idea. It is adviced to have all locations in a server below a directory with an informative name. Consider to make the root location something that can be changed using a global setting./
- Page generating code can easily be reused. Using locations directly below the root however increases the likelihood of conflicts.
- Multiple servers can be placed behind the same public server as explained in section 3.14.7. Using a common and fairly unique root, redirection is much easier and less likely to lead to conflicts.
- Debugging
Debugging multi-threaded applications is possible using the graphical debugger. This implies requires that the xpce extension package must be installed. Spy-points may be placed using tspy/1.
11 Status
The SWI-Prolog HTTP library is in active use in a large number of projects. It is considered one of the SWI-Prolog core libraries that is actively maintained and regularly extended with new features. This is particularly true for the multi-threaded server. The inetd based server may be applicable for infrequent requests where the startup time is less relevant. The XPCE based server is considered obsolete.
This library is by no means complete and you are free to extend it.
Index
- ?
- absolute_file_name/[2,3]
- 9
- atom_json_dict/3
- atom_json_term/3
- chunked,encoding
- 4
- cleanup/2
- 2
- cors_enable/0
- cors_enable/2
- current_hub/2
- current_json_object/3
- deflate,encoding
- 4
- directory_index//2
- format/2
- 3.20 3.20.6 3.20.6
- format/3
- 3.20 3.20 3.20
- format_time/3
- 3.14.2
- goal_expansion/2
- 3.20.6
- hook/1
- hooked/0
- html//1
- html_begin//1
- html_begin/1
- 3.20
- html_current_resource/1
- html_end//1
- html_post//2
- html_print/[1,2]
- 3.20.1
- html_print_length/2
- html_quoted//1
- html_quoted_attribute//1
- html_receive//1
- html_receive//2
- html_requires//1
- html_resource/2
- html_write:expand//1
- html_write:layout/3
- 3.20.4
- http:///1
- http:authenticate/3
- http:authenticate_client/2
- http:convert_parameter/3
- 3.12
- http:disable_encoding_filter/1
- http:location/3
- http:mime_type_encoding/2
- 3.1
- http:mime_type_icon/2
- http:open_options/2
- http:post_data_hook/3
- http:request_expansion/2
- 3.15
- http:schedule_workers/1
- http:serialize_reply/2
- http:sni_options/2
- http:status_page/3
- http:status_page_hook/3
- 3.10
- http:update_cookies/3
- http:write_cookies/3
- http_404/2
- http_absolute_location/3
- http_absolute_uri/2
- http_add_worker/2
- http_authenticate/3
- http_authorization_data/2
- http_certificate_hook/3
- http_chunked_open/3
- http_clean_location_cache/0
- http_client:http_convert_data/4
- http_close_keep_alive/1
- http_close_session/1
- http_convert_data/4
- http_current_handler/2
- http_current_handler/3
- http_current_host/4
- http_current_request/1
- 3.15
- http_current_session/2
- http_current_user/3
- http_current_worker/2
- http_daemon/0
- http_daemon/1
- http_delete/3
- http_delete_handler/1
- http_digest_challenge//2
- http_digest_password_hash/4
- http_digest_response/5
- http_disconnect/1
- http_dispatch/1
- 3.14.2
- http_get/3
- 2
- http_handler/3
- 1 3.1 3.14.2 3.20
- http_in_session/1
- http_join_headers/3
- http_link_to_id/3
- http_location_by_id/2
- 3.20
- http_log/2
- http_log_close/1
- http_log_stream/1
- http_logrotate/1
- http_open/3
- 2 4 4
- http_open_session/2
- http_open_websocket/3
- http_parameters/2
- 3.12
- http_parameters/3
- 3.12
- http_parse_digest_challenge/2
- http_parse_header/2
- http_parse_header_value/3
- http_patch/4
- http_post/4
- 2
- http_post_data/3
- http_public_host/4
- http_public_host_url/2
- http_public_url/2
- http_put/4
- http_read_data/3
- 3.13.1
- http_read_header/2
- http_read_json/2
- http_read_json/3
- http_read_json_dict/2
- http_read_json_dict/3
- http_read_passwd_file/2
- http_read_reply_header/2
- http_read_request/2
- 3.13 3.13
- http_redirect/3
- 3.1
- http_relative_path/2
- http_reload_with_parameters/3
- http_reply/2
- http_reply/3
- 3.1.1 3.1.1 3.1.1
- http_reply/4
- http_reply/5
- http_reply/6
- http_reply_dirindex/3
- http_reply_file/3
- http_reply_from_files/3
- http_reply_header/3
- http_request_expansion/2
- http_safe_file/2
- http_schedule_logrotate/2
- http_server/1
- 3.14.4
- http_server/2
- http_server/3
- http_server_hook/1
- http_server_property/2
- http_session_assert/1
- http_session_assert/2
- http_session_asserta/1
- http_session_asserta/2
- http_session_cookie/1
- http_session_data/1
- http_session_data/2
- http_session_id/1
- http_session_option/1
- http_session_retract/1
- http_session_retract/2
- http_session_retractall/1
- http_session_retractall/2
- http_set_authorization/2
- http_set_session/1
- http_set_session/2
- http_set_session_options/1
- http_spawn/2
- 3 3.14.2
- http_status_reply/4
- http_status_reply/5
- http_status_reply/6
- http_stop_server/2
- http_switch_protocol/2
- http_timestamp/2
- http_update_connection/4
- http_update_encoding/3
- http_update_transfer/4
- http_upgrade_to_websocket/3
- http_workers/2
- 3.14.2
- http_wrapper/5
- 3.12 3.14.4 3.15 3.15 3.15
- http_write_passwd_file/2
- hub_add/3
- hub_broadcast/2
- hub_broadcast/3
- hub_create/3
- hub_member/2
- hub_send/2
- iostream:open_hook/6
- is_json_content_type/1
- is_json_term/1
- is_json_term/2
- javascript/4
- js_arg//1
- js_arg_list//1
- js_call//1
- js_expression//1
- js_new//2
- js_script//1
- json_object/1
- json_read/2
- json_read/3
- json_read_dict/2
- json_read_dict/3
- json_to_prolog/2
- json_type/1
- json_write/2
- json_write/3
- json_write_dict/2
- json_write_dict/3
- json_write_hook/4
- map_method/2
- mime_include//2
- mime_pack/3
- mime_type_encoding/2
- 3.1
- nolog/1
- nolog_post_content_type/1
- openid_associate/3
- openid_associate/4
- openid_authenticate/4
- openid_current_host/3
- openid_current_url/2
- openid_grant/1
- openid_hook/1
- openid_logged_in/1
- openid_login/1
- openid_login_form//2
- openid_logout/1
- openid_server/2
- openid_server/3
- openid_user/3
- openid_verify/2
- page//1
- page//2
- page/[1,2]
- 3.20
- password_field/1
- post_data_encoded/2
- pp/1
- 3.13.1
- predicate/5
- 3.20.5
- print_html/1
- print_html/2
- print_html/[1,2]
- 3.20 3.20 3.20.4
- process_create/3
- 9
- prolog_to_json/2
- pwp_handler/2
- reply_html_page/2
- reply_html_page/3
- 3.20.1 3.20.1
- reply_json/1
- reply_json/2
- reply_json_dict/1
- reply_json_dict/2
- reply_pwp_page/3
- set_lang/1
- 3.20 3.20
- set_stream/2
- 3.1
- setup_call_cleanup/3
- 2
- shell/1
- 9 9
- ssl_context/3
- 3.14.2
- tcp_accept/3
- 3.15
- tcp_bind/2
- 3.14.2
- thread_create/3
- 3.14.2
- thread_create_in_pool/4
- 3.14.2
- thread_pool_create/3
- 3.14.2
- throw/1
- 3.1.1
- tspy/1
- 3.14 10
- uri_encoded/3
- 3.20
- ws_close/3
- ws_open/3
- ws_property/2
- ws_receive/2
- ws_receive/3
- ws_send/2
- xhtml_ns//2