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yap-6.3/packages/http/http_session.pl

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2010-06-23 11:52:34 +01:00
/* $Id$
Part of SWI-Prolog
Author: Jan Wielemaker
E-mail: wielemak@science.uva.nl
WWW: http://www.swi-prolog.org
Copyright (C): 2006, University of Amsterdam
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
As a special exception, if you link this library with other files,
compiled with a Free Software compiler, to produce an executable, this
library does not by itself cause the resulting executable to be covered
by the GNU General Public License. This exception does not however
invalidate any other reasons why the executable file might be covered by
the GNU General Public License.
*/
:- module(http_session,
[ http_set_session_options/1, % +Options
http_session_id/1, % -SessionId
http_in_session/1, % -SessionId
http_current_session/2, % ?SessionId, ?Data
http_close_session/1, % +SessionId
http_session_asserta/1, % +Data
http_session_assert/1, % +Data
http_session_retract/1, % ?Data
http_session_retractall/1, % +Data
http_session_data/1 % ?Data
]).
:- use_module(http_wrapper).
:- use_module(library(error)).
:- use_module(library(debug)).
:- use_module(library(socket)).
:- use_module(library(broadcast)).
:- use_module(library(lists)).
/** <module> 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. If sessions are enabled,
http_session_id/1 produces 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)).
==
*/
:- dynamic
session_setting/1, % Name(Value)
current_session/2, % SessionId, Peer
last_used/2, % SessionId, Time
session_data/2. % SessionId, Data
session_setting(timeout(600)). % timeout in seconds
session_setting(cookie('swipl_session')).
session_setting(path(/)).
session_setting(enabled(true)).
session_option(timeout, integer).
session_option(cookie, atom).
session_option(path, atom).
session_option(route, atom).
session_option(enabled, boolean).
%% http_set_session_options(+Options) is det.
%
% Set options for the session library. Provided options are:
%
% * timeout(+Seconds)
% Session timeout in seconds. Default is 600 (10 min).
%
% * 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.
http_set_session_options([]).
http_set_session_options([H|T]) :-
http_session_option(H),
http_set_session_options(T).
http_session_option(Option) :-
functor(Option, Name, Arity),
arg(1, Option, Value),
( session_option(Name, Type)
-> must_be(Type, Value)
; domain_error(http_session_option, Option)
),
functor(Free, Name, Arity),
retractall(session_setting(Free)),
assert(session_setting(Option)).
%% http_session_id(-SessionId) is det.
%
% True if SessionId is an identifier for the current session.
%
% @param SessionId is an atom.
% @error existence_error(http_session, _)
% @see http_in_session/1 for a version that fails if there is
% no session.
http_session_id(SessionID) :-
( http_in_session(ID)
-> SessionID = ID
; throw(error(existence_error(http_session, _), _))
).
%% http_in_session(-SessionId) is semidet.
%
% 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 variable =http_session_id=. Using a
% backtrackable global variable is safe because continuous worker
% threads use a failure driven look 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 http_session_id/1
http_in_session(SessionID) :-
( nb_current(http_session_id, ID),
ID \== []
-> true
; http_current_request(Request),
memberchk(session(ID), Request),
b_setval(http_session_id, ID)
; b_setval(http_session_id, no_session),
fail
),
ID \== no_session,
SessionID = ID.
%% http_session(+RequestIn, -RequestOut, -SessionID) is semidet.
%
% Maintain the notion of a session using a client-side cookie.
% This must be called first when handling a request that wishes to
% do session management, after which the possibly modified request
% must be used for further processing.
http_session(Request, Request, SessionID) :-
memberchk(session(SessionID0), Request), !,
SessionID = SessionID0.
http_session(Request0, Request, SessionID) :-
memberchk(cookie(Cookies), Request0),
session_setting(cookie(Cookie)),
memberchk(Cookie=SessionID0, Cookies),
peer(Request0, Peer),
valid_session_id(SessionID0, Peer), !,
SessionID = SessionID0,
Request = [session(SessionID)|Request0],
b_setval(http_session_id, SessionID).
http_session(Request0, Request, SessionID) :-
session_setting(path(Path)),
memberchk(path(ReqPath), Request0),
sub_atom(ReqPath, 0, _, _, Path), !,
http_gc_sessions, % GC dead sessions
gen_cookie(SessionID),
session_setting(cookie(Cookie)),
format('Set-Cookie: ~w=~w; path=~w~n', [Cookie, SessionID, Path]),
Request = [session(SessionID)|Request0],
peer(Request0, Peer),
open_session(SessionID, Peer),
b_setval(http_session_id, SessionID).
:- multifile
http:request_expansion/2.
http:request_expansion(Request0, Request) :-
session_setting(enabled(true)),
http_session(Request0, Request, _SessionID).
%% peer(+Request, -Peer)
%
% Find peer for current request. If unknown we leave it unbound.
% Alternatively we should treat this as an error.
peer(Request, Peer) :-
( memberchk(peer(Peer), Request)
-> true
; true
).
%% open_session(+SessionID, +Peer)
%
% Open a new session. Uses broadcast/1 with the term
% http_session(begin(SessionID, Peer)).
open_session(SessionID, Peer) :-
get_time(Now),
assert(current_session(SessionID, Peer)),
assert(last_used(SessionID, Now)),
broadcast(http_session(begin(SessionID, Peer))).
%% valid_session_id(+SessionID, +Peer)
%
% Check if this sessionID is known. If so, check the idle time and
% update the last_used for this session.
valid_session_id(SessionID, Peer) :-
current_session(SessionID, SessionPeer),
get_time(Now),
( session_setting(timeout(Timeout)),
Timeout > 0
-> get_last_used(SessionID, Last),
Idle is Now - Last,
( Idle =< Timeout
-> true
; http_close_session(SessionID),
fail
)
; Peer \== SessionPeer
-> http_close_session(SessionID),
fail
; true
),
set_last_used(SessionID, Now).
get_last_used(SessionID, Last) :-
atom(SessionID), !,
with_mutex(http_session, last_used(SessionID, Last)).
get_last_used(SessionID, Last) :-
with_mutex(http_session,
findall(SessionID-Last,
last_used(SessionID, Last),
Pairs)),
member(SessionID-Last, Pairs).
set_last_used(SessionID, Now) :-
with_mutex(http_session,
( retractall(last_used(SessionID, _)),
assert(last_used(SessionID, Now)))).
/*******************************
* SESSION DATA *
*******************************/
%% http_session_asserta(+Data) is det.
%% http_session_assert(+Data) is det.
%% http_session_retract(?Data) is nondet.
%% http_session_retractall(?Data) is det.
%
% Versions of assert/1, retract/1 and retractall/1 that associate
% data with the current HTTP session.
http_session_asserta(Data) :-
http_session_id(SessionId),
asserta(session_data(SessionId, Data)).
http_session_assert(Data) :-
http_session_id(SessionId),
assert(session_data(SessionId, Data)).
http_session_retract(Data) :-
http_session_id(SessionId),
retract(session_data(SessionId, Data)).
http_session_retractall(Data) :-
http_session_id(SessionId),
retractall(session_data(SessionId, Data)).
% http_session_data(?Data) is nondet.
%
% True if Data is associated using http_session_assert/1 to the
% current HTTP session.
http_session_data(Data) :-
http_session_id(SessionId),
session_data(SessionId, Data).
/*******************************
* ENUMERATE *
*******************************/
%% http_current_session(?SessionID, ?Data) is nondet.
%
% 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.
http_current_session(SessionID, Data) :-
get_time(Now),
get_last_used(SessionID, Last),
Idle is Now - Last,
( session_setting(timeout(Timeout)),
Timeout > 0
-> Idle =< Timeout
; true
),
( Data = idle(Idle)
; Data = peer(Peer),
current_session(SessionID, Peer)
; session_data(SessionID, Data)
).
/*******************************
* GC SESSIONS *
*******************************/
%% http_close_session(+SessionID) is det.
%
% 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.
%
% @error type_error(atom, SessionID)
% @see listen/2 for acting upon closed sessions
http_close_session(SessionId) :-
must_be(atom, SessionId),
( current_session(SessionId, Peer),
( b_setval(http_session_id, SessionId),
broadcast(http_session(end(SessionId, Peer))),
fail
; true
),
retractall(current_session(SessionId, _)),
retractall(last_used(SessionId, _)),
retractall(session_data(SessionId, _)),
fail
; true
).
% http_gc_sessions/0
%
% Delete dead sessions. When should we be calling this? This
% assumes that updated sessions are at the end of the clause list,
% so we can break as soon as we encounter a no-yet-timedout
% session.
http_gc_sessions :-
session_setting(timeout(Timeout)),
Timeout > 0, !,
get_time(Now),
( last_used(SessionID, Last),
Idle is Now - Last,
( Idle > Timeout
-> http_close_session(SessionID),
fail
; !
)
; true
).
http_gc_sessions.
/*******************************
* UTIL *
*******************************/
%% gen_cookie(-Cookie) is det.
%
% 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.
gen_cookie(Cookie) :-
route(Route), !,
random_4(R1,R2,R3,R4),
format(atom(Cookie),
'~`0t~16r~4|-~`0t~16r~9|-~`0t~16r~14|-~`0t~16r~19|.~w',
[R1,R2,R3,R4,Route]).
gen_cookie(Cookie) :-
random_4(R1,R2,R3,R4),
format(atom(Cookie),
'~`0t~16r~4|-~`0t~16r~9|-~`0t~16r~14|-~`0t~16r~19|',
[R1,R2,R3,R4]).
:- thread_local
route_cache/1.
%% route(-RouteID) is semidet.
%
% Fetch the route identifier. This value is added as .<route> to
% the session cookie and used by -for example- the apache load
% balanching module. The default route is the local name of the
% host. Alternatives may be provided using
% http_set_session_options/1.
route(Route) :-
route_cache(Route), !,
Route \== ''.
route(Route) :-
route_no_cache(Route),
assert(route_cache(Route)),
Route \== ''.
route_no_cache(Route) :-
session_setting(route(Route)), !.
route_no_cache(Route) :-
gethostname(Host),
( sub_atom(Host, Before, _, _, '.')
-> sub_atom(Host, 0, Before, _, Route)
; Route = Host
).
%% random_4(-R1,-R2,-R3,-R4) is det.
%
% Generate 4 2-byte random numbers. Uses =|/dev/urandom|= when
% available to make prediction of the session IDs hard.
random_4(R1,R2,R3,R4) :-
urandom(In), !,
get_pair(In, R1),
get_pair(In, R2),
get_pair(In, R3),
get_pair(In, R4).
random_4(R1,R2,R3,R4) :-
R1 is random(65536),
R2 is random(65536),
R3 is random(65536),
R4 is random(65536).
:- dynamic
urandom_handle/1.
urandom(Handle) :-
urandom_handle(Handle), !,
Handle \== [].
urandom(Handle) :-
catch(open('/dev/urandom', read, In, [type(binary)]), _, fail), !,
assert(urandom_handle(In)),
Handle = In.
urandom(_) :-
assert(urandom_handle([])),
fail.
get_pair(In, Value) :-
get_byte(In, B1),
get_byte(In, B2),
Value is B1<<8+B2.