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psyced/world/net/entity.c
psyc://psyced.org/~lynX b8a290ab46 +
2010-02-21 11:09:52 +01:00

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// vim:foldmethod=marker:syntax=lpc
// $Id: entity.c,v 1.127 2008/08/05 12:24:16 lynx Exp $
//
// entity.c: anything that has a UNI (see http://about.psyc.eu/uniform)
// this file handles some low-level issues with being an entity:
//
// * resolve UNLs and UNRs into UNIs and back, so higher level
// processing knows who they are dealing with, no matter which
// agent operated on this person's behalf
// * state: handle the inter-entity MMP state variables, packet
// ids and message history
// * trust network: figure out who we trust and who we can ask to find
// out if someone is trustworthy etc etc
// local debug messages - turn them on by using psyclpc -DDentity=<level>
#ifdef Dentity
# undef DEBUG
# define DEBUG Dentity
#endif
#include <net.h>
#include <storage.h>
#include <uniform.h>
#ifdef ENTITY_STATE //{{{
# define HEADER_ONLY
# include "state.c"
# undef HEADER_ONLY
#endif //}}}
#ifndef MINIMUM_TRUST
# define MINIMUM_TRUST 5
#endif
#ifndef MAXIMUM_TRUST
# define MAXIMUM_TRUST 10
#endif
#ifdef NEW_QUEUE
inherit NET_PATH "queue2";
#else
inherit NET_PATH "queue";
#endif
inherit NET_PATH "name";
inherit NET_PATH "storage";
#ifdef ENTITY_STATE //{{{
volatile mapping _state, _ostate, _cstate, _icount, _count, _memory;
volatile mapping temp, unused;
#endif //}}}
// this ifdef disables uni2unl, yet it doesn't remove all the queuing
// and async auth requests. should it?
#ifdef UNL_ROUTING //{{{
// while unl2uni in psyc/library is currently only used for local users'
// clients (and by FORK code, which in exchange doesn't use this code here)
// this is the place where general UNI to UNL mapping is made.
//
// each user has its own because a UNI may choose to tell different people
// different things.. in fact, a UNL may have reasons to propose different
// UNIs, too, but right now we're only being half consequent.. also there
// are no known applications making use of this feature anyhow ;)
volatile mapping uni2unl;
# ifdef USE_THE_RESOURCE
volatile string bare;
# endif
#endif //}}}
volatile string identification;
volatile mixed _tag, _source_tag;
#ifdef TAGGING
volatile protected mapping _tags;
/* currently, only net/jabber needs this */
void chain_callback(mixed tag, mixed chain_callback) {
if (_tags[tag])
_tags[tag] = ({ chain_callback }) + _tags[tag];
else
_tags[tag] = ({ chain_callback });
}
mixed execute_callback(mixed tag, mixed cbargs) {
mixed ret, cbchain;
// API: return 0 if there was no callback, callback return value or 1 if successful ?
unless(_tags[tag]) return 0;
ret = cbargs;
cbchain = _tags[tag];
m_delete(_tags, tag);
foreach(mixed cb : cbchain) {
ret = apply(cb, ret);
}
return ret || 1;
}
#endif
#ifdef ENTITY_STATE //{{{
inherit NET_PATH "state";
// lpc really needs an inline modifier!
# define STATE(context) ((context) ? _cstate : _state)
# define OSTATE(target) (member(_ostate, target) \
? _ostate[target] \
: _ostate[target] = ([ ]))
# define OMEMORY(target) (member(_memory, target) \
? _memory[target] \
: _memory[target] = m_allocate(0, 2))
#endif //}}}
#ifndef _flag_disable_module_trust
// first try to implement trust for remote ( means.. not a direct peer
// inside the friendsnet ) objects
volatile mapping _trust;
// returns -1 if there was no information for somebody...
// otherwise the level of trust \elem [0,10]
//
// is supposed to be overloaded by person/place for ignrores/friendships
// and banned people
int get_trust(string who, string by_whom) {
mixed t;
unless (member(_trust, who)) return -1;
if (by_whom) {
if (t = psyc_object(by_whom)) by_whom = t->qName();
unless (member(_trust[who], by_whom)) return -1;
t = get_trust(by_whom, 0);
if (t <= 0)
return 0;
return _trust[who][by_whom]* t / MAXIMUM_TRUST;
}
// should be cache the maximum.. maybe yes.. otherwise we end up
// calculating this stuff over and over again
return max(m_values(_trust[who]));
}
#endif
sendmsg(target, mc, data, vars, source, showingLog, callback) {
string t;
P3(("uni(%O): sendmsg(%O, %O, %O, %O, %O, %O)\n", ME, target, mc, data, vars, source, showingLog))
#ifdef UNL_ROUTING //{{{
if (t = uni2unl[target]) {
// maybe we should keep the _identification of the target somewhere
// in vars. but where? _target_identification ? and who needs that?
//
// great, if I ping xmpp:fippo@amessage.de this makes
// it xmpp:fippo@amessage.de/foo, but I DONT WANT THAT!
//
// also in order to allow for multiple psyc clients we need
// this if here, but i think we should rather ensure these
// candidates are not in uni2unl[].. --lynX
#if 1 //FIXME
if (!objectp(target) || (objectp(target)
&& target->vQuery("scheme") != "psyc"))
#endif
target = t;
}
#endif //}}}
#ifdef FORK //{{{
# if 0
if (vars) { // shouldn't _count be set for msgs with empty vars, too?
// these are overwritten by source, target. maybe we should stop
// objects from reusing vars since that could easily be abused
// to broatcast junk.
m_delete(vars, "_source");
m_delete(vars, "_target");
// <lynX> why are you manually deleting some vars here which are also
// defined in isRouting and do not delete _context or _counter?
} else vars = ([ ]);
# endif
#endif //}}}
if (mappingp(vars)) {
// uhm. better rename simul-efun-sendmsg and let sendmsg be defined in
// each object, doing return real_sendmsg(...); .. agree, but have to
// figure out a name for it.. maybe system_sendmsg? or submitmsg?
if (_tag && target == _source_tag &&! vars["_INTERNAL_tag_skip"]) {
unless (vars) vars = ([]);
vars["_tag_reply"] = _tag;
unless (vars["_INTERNAL_tag_again"]) _tag = 0;
}
#if 1 //DEBUG > 2
} else {
// dump trace w/out error...!?
P1(("uni:sendmsg(%O) called without vars\n", mc))
// vars = ([ ]); -- server works better with debug? no way!
//raise_error("uni:sendmsg called without vars\n");
#endif
}
#ifdef TAGGING
if (callback) {
// if the caller supplies a _tag, it is responsible for
// uniqueness within the user object
if (!vars["_tag"]) {
while(_tags[vars["_tag"] = RANDHEXSTRING]);
}
_tags[vars["_tag"]] = ({ callback });
}
#endif
return library_object()->sendmsg(target, mc, data, vars, source, showingLog);
}
#ifdef EXPERIMENTAL
// it's here, it may be nice or not.. we don't know..
// because nothing is using it
// <fippo> nothing is using it, because commiting code
// without any infrastructure is pointless.
mapping reply(mapping vars) {
mapping rvars = ([]);
if (member(vars, "_tag"))
rvars["_tag_reply"] = vars["_tag"];
if (member(vars, "_INTERNAL_source_resource"))
rvars["_INTERNAL_target_resource"] = vars["_INTERNAL_source_resource"];
if (member(vars, "_INTERNAL_target_resource"))
rvars["_INTERNAL_source_resource"] = vars["_INTERNAL_target_resource"];
rvars["_target"] = vars["_source_identification_reply"] || vars["_source_reply"] || vars["_source"];
return rvars;
}
#endif
msg(source, mc, data, vars) {
string t, sid;
P3(("uni::msg(%O, %O, %O, %O)\n", source, mc, data, vars))
#ifdef _flag_log_flow_messages
log_file("FLOW_MESSAGES", "%s %O ( %O <20> %O )\n", mc, strlen(data),
ME, source);
#endif
#ifdef UNL_ROUTING //{{{
# ifdef USE_THE_RESOURCE
// too expensive to m_delete if this is going to be re-set anytime soon
if (bare) bare = uni2unl[bare] = 0;
# endif
#endif //}}}
#ifdef CAST_STATE
// FIXME: we've got the cast state already made up by the
// cslave, but we need to route it down to the client...
// if there is any!
#endif
// deletes _tag if none is available
if (_tag = vars["_tag"]) {
P2(("tag %O for %O stored in %O\n", _tag, source, ME))
_source_tag = source;
}
#ifdef TAGGING
// allow _tag to trigger this? this is to circumvent some bug
// that doesn't provide us with _tag_reply as it should.. huh?
// but maybe it's okay anyway.. we'll see
//
// <fippo>: it is a bug on psyced.org only. As soon as you fix it,
// I will happily remove the || _tag
// <fippo>: not on psyced.org only. seems to happen if a second remote
// joins
if ((t = vars["_tag_reply"] || vars["_tag"]) && _tags[t]) {
if (execute_callback(t,
({ source, mc, data, vars }))) return 0;
}
#endif
#ifdef FORK //{{{
mixed route = vars["_context"] || source;
unless(member(_icount, route)) _icount[route] = 0;
if (member(vars, "_count")
&& vars["_count"] != to_string(_icount[route]++)) {
sendmsg(route, 0, 0, ([ "_count" : 0 ]));
if (vars["_count"] == "0") {
Reset(route, vars["_context"]);
_icount[route] = 0;
}
}
m_delete(vars, "_count");
m_delete(vars, "_target"); // TODO:: find out if there's a better solution,
// like not having target in the vars at all.
if (member(STATE(vars["_context"]), route)) {
//vars = _state[source] + vars; // overwrite by :
P3(("STATE-VARS: %O\n", STATE(vars["_context"])[route]));
foreach (mixed x, mixed y : STATE(vars["_context"])[route])
unless (member(vars, x)) vars[x] = y;
}
#else //FORK }}}
# ifndef _flag_disable_module_authentication
// person.c only calls this for stringp(source), so why check here again?
// because place/basic.c calls this for all sorts of sources. why this
// inconsistency? and what about local string sources? TODO
unless (objectp(source)) {
if (abbrev("_notice_authentication", mc)) {
string l = vars["_location"];
unless (qExists(l)) return 0;
#ifdef UNL_ROUTING //{{{
uni2unl[source] = l;
#endif //}}}
// i guess this should have been here.. let's try that
register_location(l, source, 1);
while (qSize(l))
apply(#'msg, shift(l));
qDel(l);
return 0;
} else if (abbrev("_error_invalid_authentication", mc)) {
string l = vars["_location"];
P1(("_error_invalid_authentication (%O) for %O (location does "
"%Oexist)\n", ME, l, qExists(l) ? "" : "not"))
if (qExists(l)) qDel(l);
return 0;
} else if (sid = vars["_source_identification"]) {
// && !(abbrev("_status_place_identification", mc)
// || abbrev("_status_description_person", mc))
// && !abbrev("_status", mc))
if (sid == source) {
t = 0;
// redundant _source_identification, pls fix the sender
// <fippo> I like debug code breaking...
//log_file("LUNITAR", "%O in %O (%O)\n", sid, ME, v("agent"));
// return in this case?
}
#ifdef UNL_ROUTING //{{{
else if (uni2unl[sid] == source) t = sid;
# ifdef USE_THE_RESOURCE
// our jabber gateway doesn't lie about identifications.
// just use it instead of the UNR
else if (vars["_INTERNAL_identification"]) {
// this must not get active if _nick_place is set!
if (!vars["_nick_place"]) {
bare = t = sid;
uni2unl[t] = source;
P2(("USE_THE_RESOURCE in %O: use %O instead of %O\n",
ME, t, source))
} else
t = source;
}
# endif
#endif //}}}
else {
// this will not trigger a systemwide _request_authentication
t = lookup_identification(source);
if (t == sid) {
#ifdef UNL_ROUTING //{{{
uni2unl[t] = source;
#endif //}}}
} else unless (objectp(t)) {
// we should intercept when the UNI is claimed to be on the
// same server where the location is - that's always legitimate
// and at the same time plain humbug. so we can either accept
// it or reject it. we shouldn't issue a _request_authentication
// in that case. TODO: FIXME QUICK ;)
P3((">>> qExists %O %O\n", qExists(source), source))
unless (qExists(source)) {
P1(("%O sending _request_authentication to %O for %O\n",
ME, sid, source))
library_object()->sendmsg(sid, "_request_authentication", 0,
([ "_location" : source ]));
qInit(source, 30, 5);
}
enqueue(source, ({ source, mc, data, vars }));
return 0;
}
}
if (t) {
# if 1
// we can either decide to see our own locations as source
// since that's what the code in person.c already does, we'll
// try this option first
if (t == ME) vars["_source_identification"] = ME;
else {
// is there any known reason why this was missing?
vars["_location"] = source;
m_delete(vars, "_source_identification");
source = t;
// don't trust what the client says
if (objectp(t)) vars["_nick"] = t->qName();
// user.c does something very similar - so this
// shouldn't be necessary, yet if i remove that
// line a client can propose its own _nick and
// will be successful. hm!
}
# else //{{{
// or copy them into a var, then compare everywhere
// this requires a rewrite of all of the v("locations") code
vars["_location"] = source;
m_delete(vars, "_source_identification");
source = t;
// don't trust what the client says
if (objectp(t)) vars["_nick"] = t->qName();
# endif //}}}
// do we really want to delete it also in the else case?
} else m_delete(vars, "_source_identification");
}
}
# endif // _flag_disable_module_authentication
#endif // !FORK
#ifndef _flag_disable_module_trust
// this mechanism does not work for objectp(source) because uni::msg is not
// called for objects. TODO
// this stuff works alot like _request_auth.. i still think there might be
// some code to share
if (member(vars, "_trustee") && vars["_trustee"]) {
string snicker = objectp(source) ? vars["_nick"] : source;
string trustee = vars["_trustee"];
int trustiness = get_trust(snicker, trustee);
P4(("trustee: %O -> %O\n", trustee, trustiness))
if (trustiness != -1) {
vars["_trust"] = trustiness;
} else { // do we want to check for get_trust(source) first.. maybe
// he is a friend..
string trustee_nick = trustee;
//
// TODO we dont even need to ask the trustee if we dont
// trust him anyway...
if (is_formal(trustee)) {
mixed *u = parse_uniform(trustee);
unless (u) {
return 1;
// evil, there is no trustiness
}
// an ideal psyc parser would recognize local _trustee
// and have it replaced by object.. but that's not the case
// we _could_ however do that by using _uniform_trustee
// and doing is_localhost on all _uniform's at parsing time
if (is_localhost(u[UHost])) trustee_nick = u[UNick];
}
if (get_trust(trustee_nick, 0) < MINIMUM_TRUST) return 1;
// entweder trustee ist ein local nick, dann kriegen wir den
// get_trust, aber sendmsg failed hier unten.. oder trustee
// ist eine uni, dann kann er zwar senden, findet die person
// aber nicht im ppl[]
unless (qExists("t"+snicker)) {
qInit("t"+snicker, 30, 5);
enqueue("t"+snicker, ({ source, mc, data, vars }));
P4(("%O no trustiness for %O in %O. Queue: %O\n",
ME, snicker, _trust, qDebug()))
// seeing this message is never useful, really
// the question is answered automatically, so a user
// would only get confused..
sendmsg(trustee, "_request_trustiness",
0 && "Do you trust [_identification] also known as [_nick]?",
([ "_identification" : source, "_nick" : MYNICK ]));
// we are lazy here.. but one trust request must be enough..
// for now
} else
enqueue("t"+snicker, ({ source, mc, data, vars }));
return 0;
}
}
if (abbrev("_notice_trustiness", mc)) {
int trustiness = to_int(vars["_trustiness"]);
mixed l = vars["_identification"];
string s = objectp(source) ? vars["_nick"] : source;
if (objectp(l)) l = l->qName();
P4(("%O: %O got a trustiness of %d from %O.\n", ME,
l, trustiness, source))
unless (l) {
P0(("%O got %O without _identification\n", ME, mc))
return 0;
}
if (!member(_trust, l)) {
_trust[l] = ([ s : trustiness ]);
} else {
_trust[l][s] = trustiness;
}
l = "t"+l;
P4(("%O: Queue %O from %O.\n", ME, l, qDebug()))
if (qExists(l)) {
while (qSize(l))
apply(#'msg, shift(l));
qDel(l);
}
// dont drop the packet.. maybe we want to see this information
// return 0;
} else if (abbrev("_request_trustiness", mc)) {
if (get_trust(objectp(source) ? vars["_nick"]
: source, 0) < MINIMUM_TRUST) {
sendmsg(source, "_failure_trustiness",
"I dont know anything about [_identification]!", ([
"_identification" : vars["_identification"]
]));
return 0;
}
int trustiness = get_trust(objectp(vars["_identification"]) ?
vars["_identification"]->qName() : vars["_identification"], 0);
P4(("%O: %O asked me for trustiness (%d) of %O.\n", ME, source,
trustiness, vars["_identification"]))
if (-1 != trustiness) {
sendmsg(source, "_notice_trustiness", "I trust [_identification] like [_trustiness] times bigger than others.",
([ "_identification" : vars["_identification"],
"_nick" : MYNICK,
"_trustiness" : trustiness ]));
}
}
#endif // _flag_disable_module_trust
return 1;
}
create() {
// would be nice to skip this for blueprints, but at this point we have
// no way to distinguish original places from blueprints - we have no
// qName() yet - so all we could do would be to look at our object path.
//unless (clonep() && qName()) return; // do not initialize blueprints
// a different approach would be to rename this into eCreate() and have
// it called in the right places. TODO (cleanup)
#ifdef UNL_ROUTING //{{{
ASSERT("entity::create() !uni2unl", !uni2unl, uni2unl)
uni2unl = ([ ]);
#endif //}}}
#ifndef _flag_disable_module_trust
_trust = ([ ]);
#endif
#ifdef ENTITY_STATE //{{{
// wieso packen wir die counter nicht mit ins state-array. also
// mehrdimensional ?
_state = ([ ]);
_ostate = ([ ]);
_cstate = ([ ]);
_icount = ([ ]);
_count = ([ ]);
_memory = ([ ]);
temp = ([]);
#endif //}}}
#ifdef NEW_QUEUE
qCreate();
#endif
#ifdef TAGGING
_tags = ([ ]);
#endif
}
#ifdef ENTITY_STATE //{{{
// reset the state.. which means: _count == 0
void Reset(mixed source, mixed isContext) {
PT(("Reset(%O) in %O\n", source, ME));
STATE(isContext)[source] = ([ ]);
}
void Assign(mixed source, string key, mixed value, mixed isContext) {
mapping state = STATE(isContext);
PT(("Assign(%O, %O, %O) in %O\n", source, key, value, ME));
unless (member(state, source)) {
state[source] = ([]);
}
if (value) {
state[source][key] = value;
} else m_delete(state[source], key);
}
void Augment(mixed source, string key, mixed value, mixed isContext) {
mapping state = STATE(isContext);
PT(("Augment(%O, %O, %O) in %O\n", source, key, value, ME));
unless (member(state, source)) {
state[source] = ([]);
}
_augment(state[source], key, value);
}
void Diminish(mixed source, string key, mixed value, mixed isContext) {
int i;
mapping state = STATE(isContext);
PT(("Diminish(%O, %O, %O) in %O\n", source, key, value, ME));
if (member(state, source)) {
_diminish(state[source], key, value);
}
}
int outstate(string target, string key, mixed value, int hascontext) {
mapping timemachine = OMEMORY(target);
mapping state = OSTATE(target);
mapping t = temp[target];
int mod;
if (hascontext) {
//PT(("%O sends messages in a context without using group/master.c.", ME))
return 1;
}
if (key[0] == '_') {
mod = ':';
} else {
mod = key[0];
key = key[1..];
}
unless (t) t = temp[target] = ([ ]);
unless (unused) unused = copy(state);
m_delete(unused, key);
switch(mod) {
case ':':
if (timemachine[key, 1] == -1) break;
if (member(timemachine, key)) {
if (timemachine[key] == value) {
if (timemachine[key, 1] == STATE_MAX2) {
break;
}
if (timemachine[key, 1] == STATE_MIN2) {
t["="+key] = value;
state[key] = value;
return 0;
}
timemachine[key, 1]++;
} else if (timemachine[key, 1] - 1 == STATE_MIN2) {
t["="+key] = "";
m_add(timemachine, key, value, 1);
} else if (timemachine[key, 1] <= STATE_MIN2) {
m_add(timemachine, key, value, 1);
} else timemachine[key, 1]--;
} else m_add(timemachine, key, value, 1);
break;
case '=':
if ("" == value) {
m_delete(state, key);
m_delete(timemachine, key);
break;
}
if (member(state, key) && state[key] == value) {
return 0;
}
m_add(timemachine, key, value, -1);
state[key] = value;
break;
case '+':
_augment(state, key, value);
break;
case '-':
_diminish(state, key, value);
break;
default:
raise_error("Illegal variable modifier in '" + key +
"' encountered in entity:outstate.\n");
return 0;
}
return 1;
}
mapping state(string target, int hascontext) {
mapping t, t2 = ([ ]);
mapping timemachine = OMEMORY(target);
if (hascontext) {
PT(("%O sends messages in a context without using group/master.c.", ME))
return ([]);
}
if (unused) {
foreach (string key : unused) {
// variables assigned manually are taken to be permanent.
if (timemachine[key, 1] != -1)
t2[":" + key] = "";
}
unused = 0;
}
t = temp[target] || ([ ]);
m_delete(temp, target);
// rock hard optimization
unless (sizeof(t))
return t2;
unless (sizeof(t2))
return t;
return t2 + t;
}
#endif // ENTITY_STATE }}}