2 #include "acl/FilledChecklist.h"
3 #include "adaptation/AccessCheck.h"
4 #include "adaptation/AccessRule.h"
5 #include "adaptation/Config.h"
6 #include "adaptation/Initiator.h"
7 #include "adaptation/Service.h"
8 #include "adaptation/ServiceGroups.h"
9 #include "base/AsyncJobCalls.h"
10 #include "base/TextException.h"
11 #include "ConfigParser.h"
13 #include "HttpReply.h"
14 #include "HttpRequest.h"
16 /** \cond AUTODOCS-IGNORE */
17 cbdata_type
Adaptation::AccessCheck::CBDATA_AccessCheck
= CBDATA_UNKNOWN
;
21 Adaptation::AccessCheck::Start(Method method
, VectPoint vp
,
22 HttpRequest
*req
, HttpReply
*rep
, Adaptation::Initiator
*initiator
)
25 if (Config::Enabled
) {
26 // the new check will call the callback and delete self, eventually
27 AsyncJob::Start(new AccessCheck( // we do not store so not a CbcPointer
28 ServiceFilter(method
, vp
, req
, rep
), initiator
));
32 debugs(83, 3, HERE
<< "adaptation off, skipping");
36 Adaptation::AccessCheck::AccessCheck(const ServiceFilter
&aFilter
,
37 Adaptation::Initiator
*initiator
):
38 AsyncJob("AccessCheck"), filter(aFilter
),
39 theInitiator(initiator
),
43 Adaptation::Icap::History::Pointer h
= filter
.request
->icapHistory();
48 debugs(93, 5, HERE
<< "AccessCheck constructed for " <<
49 methodStr(filter
.method
) << " " << vectPointStr(filter
.point
));
52 Adaptation::AccessCheck::~AccessCheck()
55 Adaptation::Icap::History::Pointer h
= filter
.request
->icapHistory();
62 Adaptation::AccessCheck::start()
66 if (!usedDynamicRules())
70 /// returns true if previous services configured dynamic chaining "rules"
72 Adaptation::AccessCheck::usedDynamicRules()
74 Adaptation::History::Pointer ah
= filter
.request
->adaptHistory();
76 return false; // dynamic rules not enabled or not triggered
78 DynamicGroupCfg services
;
79 if (!ah
->extractFutureServices(services
)) { // clears history
80 debugs(85,9, HERE
<< "no service-proposed rules stored");
81 return false; // earlier service did not plan for the future
84 debugs(85,3, HERE
<< "using stored service-proposed rules: " << services
);
86 ServiceGroupPointer g
= new DynamicServiceChain(services
, filter
);
92 /// Walk the access rules list to find rules with applicable service groups
94 Adaptation::AccessCheck::check()
96 debugs(93, 4, HERE
<< "start checking");
98 typedef AccessRules::iterator ARI
;
99 for (ARI i
= AllRules().begin(); i
!= AllRules().end(); ++i
) {
101 if (isCandidate(*r
)) {
102 debugs(93, 5, HERE
<< "check: rule '" << r
->id
<< "' is a candidate");
110 // XXX: Here and everywhere we call FindRule(topCandidate()):
111 // Once we identified the candidate, we should not just ignore it
112 // if reconfigure changes rules. We should either lock the rule to
113 // prevent reconfigure from stealing it or restart the check with
114 // new rules. Throwing an exception may also be appropriate.
116 Adaptation::AccessCheck::checkCandidates()
118 debugs(93, 4, HERE
<< "has " << candidates
.size() << " rules");
120 while (!candidates
.empty()) {
121 if (AccessRule
*r
= FindRule(topCandidate())) {
122 /* BUG 2526: what to do when r->acl is empty?? */
123 // XXX: we do not have access to conn->rfc931 here.
124 acl_checklist
= new ACLFilledChecklist(r
->acl
, filter
.request
, dash_str
);
125 acl_checklist
->reply
= filter
.reply
;
126 HTTPMSGLOCK(acl_checklist
->reply
);
127 acl_checklist
->nonBlockingCheck(AccessCheckCallbackWrapper
, this);
131 candidates
.shift(); // the rule apparently went away (reconfigure)
134 debugs(93, 4, HERE
<< "NO candidates left");
140 Adaptation::AccessCheck::AccessCheckCallbackWrapper(allow_t answer
, void *data
)
142 debugs(93, 8, HERE
<< "callback answer=" << answer
);
143 AccessCheck
*ac
= (AccessCheck
*)data
;
145 /** \todo AYJ 2008-06-12: If answer == ACCESS_AUTH_REQUIRED
146 * we should be kicking off an authentication before continuing
147 * with this request. see bug 2400 for details.
150 // convert to async call to get async call protections and features
151 typedef UnaryMemFunT
<AccessCheck
, allow_t
> MyDialer
;
152 AsyncCall::Pointer call
=
153 asyncCall(93,7, "Adaptation::AccessCheck::noteAnswer",
154 MyDialer(ac
, &Adaptation::AccessCheck::noteAnswer
, answer
));
155 ScheduleCallHere(call
);
159 /// process the results of the ACL check
161 Adaptation::AccessCheck::noteAnswer(allow_t answer
)
163 Must(!candidates
.empty()); // the candidate we were checking must be there
164 debugs(93,5, HERE
<< topCandidate() << " answer=" << answer
);
166 if (answer
== ACCESS_ALLOWED
) { // the rule matched
167 ServiceGroupPointer g
= topGroup();
168 if (g
!= NULL
) { // the corresponding group found
175 // no match or the group disappeared during reconfiguration
180 /// call back with a possibly nil group; the job ends here because all failures
181 /// at this point are fatal to the access check process
183 Adaptation::AccessCheck::callBack(const ServiceGroupPointer
&g
)
185 debugs(93,3, HERE
<< g
);
186 CallJobHere1(93, 5, theInitiator
, Adaptation::Initiator
,
187 noteAdaptationAclCheckDone
, g
);
188 mustStop("done"); // called back or will never be able to call back
191 Adaptation::ServiceGroupPointer
192 Adaptation::AccessCheck::topGroup() const
194 ServiceGroupPointer g
;
195 if (candidates
.size()) {
196 if (AccessRule
*r
= FindRule(topCandidate())) {
197 g
= FindGroup(r
->groupId
);
198 debugs(93,5, HERE
<< "top group for " << r
->id
<< " is " << g
);
200 debugs(93,5, HERE
<< "no rule for " << topCandidate());
203 debugs(93,5, HERE
<< "no candidates"); // should not happen
209 /** Returns true iff the rule's service group will be used after ACL matches.
210 Used to detect rules worth ACl-checking. */
212 Adaptation::AccessCheck::isCandidate(AccessRule
&r
)
214 debugs(93,7,HERE
<< "checking candidacy of " << r
.id
<< ", group " <<
217 ServiceGroupPointer g
= FindGroup(r
.groupId
);
220 debugs(93,7,HERE
<< "lost " << r
.groupId
<< " group in rule" << r
.id
);
224 const bool wants
= g
->wants(filter
);
225 debugs(93,7,HERE
<< r
.groupId
<< (wants
? " wants" : " ignores"));