/* * Copyright (C) 1996-2017 The Squid Software Foundation and contributors * * Squid software is distributed under GPLv2+ license and includes * contributions from numerous individuals and organizations. * Please see the COPYING and CONTRIBUTORS files for details. */ /* DEBUG: section 93 Adaptation */ #include "squid.h" #include "adaptation/Answer.h" #include "adaptation/Config.h" #include "adaptation/Iterator.h" #include "adaptation/Service.h" #include "adaptation/ServiceFilter.h" #include "adaptation/ServiceGroups.h" #include "base/TextException.h" #include "HttpMsg.h" #include "HttpReply.h" #include "HttpRequest.h" Adaptation::Iterator::Iterator( HttpMsg *aMsg, HttpRequest *aCause, AccessLogEntry::Pointer &alp, const ServiceGroupPointer &aGroup): AsyncJob("Iterator"), Adaptation::Initiate("Iterator"), theGroup(aGroup), theMsg(aMsg), theCause(aCause), al(alp), theLauncher(0), iterations(0), adapted(false) { if (theCause != NULL) HTTPMSGLOCK(theCause); if (theMsg != NULL) HTTPMSGLOCK(theMsg); } Adaptation::Iterator::~Iterator() { assert(!theLauncher); HTTPMSGUNLOCK(theMsg); HTTPMSGUNLOCK(theCause); } void Adaptation::Iterator::start() { Adaptation::Initiate::start(); thePlan = ServicePlan(theGroup, filter()); // Add adaptation group name once and now, before // dynamic groups change it at step() time. if (Adaptation::Config::needHistory && !thePlan.exhausted() && (dynamic_cast(theGroup.getRaw()) || dynamic_cast(theGroup.getRaw()))) { HttpRequest *request = dynamic_cast(theMsg); if (!request) request = theCause; Must(request); Adaptation::History::Pointer ah = request->adaptHistory(true); SBuf gid(theGroup->id); ah->recordAdaptationService(gid); } step(); } void Adaptation::Iterator::step() { ++iterations; debugs(93,5, HERE << '#' << iterations << " plan: " << thePlan); Must(!theLauncher); if (thePlan.exhausted()) { // nothing more to do sendAnswer(Answer::Forward(theMsg)); Must(done()); return; } HttpRequest *request = dynamic_cast(theMsg); if (!request) request = theCause; assert(request); request->clearError(); if (iterations > Adaptation::Config::service_iteration_limit) { debugs(93,DBG_CRITICAL, "Adaptation iterations limit (" << Adaptation::Config::service_iteration_limit << ") exceeded:\n" << "\tPossible service loop with " << theGroup->kind << " " << theGroup->id << ", plan=" << thePlan); throw TexcHere("too many adaptations"); } ServicePointer service = thePlan.current(); Must(service != NULL); debugs(93,5, HERE << "using adaptation service: " << service->cfg().key); if (Adaptation::Config::needHistory) { Adaptation::History::Pointer ah = request->adaptHistory(true); SBuf uid(thePlan.current()->cfg().key); ah->recordAdaptationService(uid); } theLauncher = initiateAdaptation( service->makeXactLauncher(theMsg, theCause, al)); Must(initiated(theLauncher)); Must(!done()); } void Adaptation::Iterator::noteAdaptationAnswer(const Answer &answer) { switch (answer.kind) { case Answer::akForward: handleAdaptedHeader(const_cast(answer.message.getRaw())); break; case Answer::akBlock: handleAdaptationBlock(answer); break; case Answer::akError: handleAdaptationError(answer.final); break; } } void Adaptation::Iterator::handleAdaptedHeader(HttpMsg *aMsg) { // set theCause if we switched to request satisfaction mode if (!theCause) { // probably sent a request message if (dynamic_cast(aMsg)) { // we got a response message if (HttpRequest *cause = dynamic_cast(theMsg)) { // definately sent request, now use it as the cause theCause = cause; // moving the lock theMsg = 0; debugs(93,3, HERE << "in request satisfaction mode"); } } } Must(aMsg); HTTPMSGUNLOCK(theMsg); theMsg = aMsg; HTTPMSGLOCK(theMsg); adapted = true; clearAdaptation(theLauncher); if (!updatePlan(true)) // do not immediatelly advance the new plan thePlan.next(filter()); step(); } void Adaptation::Iterator::noteInitiatorAborted() { announceInitiatorAbort(theLauncher); // propogate to the transaction clearInitiator(); mustStop("initiator gone"); } void Adaptation::Iterator::handleAdaptationBlock(const Answer &answer) { debugs(93,5, HERE << "blocked by " << answer); clearAdaptation(theLauncher); updatePlan(false); sendAnswer(answer); mustStop("blocked"); } void Adaptation::Iterator::handleAdaptationError(bool final) { debugs(93,5, HERE << "final: " << final << " plan: " << thePlan); clearAdaptation(theLauncher); updatePlan(false); // can we replace the failed service (group-level bypass)? const bool srcIntact = !theMsg->body_pipe || !theMsg->body_pipe->consumedSize(); // can we ignore the failure (compute while thePlan is not exhausted)? Must(!thePlan.exhausted()); const bool canIgnore = thePlan.current()->cfg().bypass; debugs(85,5, HERE << "flags: " << srcIntact << canIgnore << adapted); if (srcIntact) { if (thePlan.replacement(filter()) != NULL) { debugs(93,3, HERE << "trying a replacement service"); step(); return; } } if (canIgnore && srcIntact && adapted) { debugs(85,3, HERE << "responding with older adapted msg"); sendAnswer(Answer::Forward(theMsg)); mustStop("sent older adapted msg"); return; } // caller may recover if we can ignore the error and virgin msg is intact const bool useVirgin = canIgnore && !adapted && srcIntact; tellQueryAborted(!useVirgin); mustStop("group failure"); } bool Adaptation::Iterator::doneAll() const { return Adaptation::Initiate::doneAll() && thePlan.exhausted(); } void Adaptation::Iterator::swanSong() { if (theInitiator.set()) tellQueryAborted(true); // abnormal condition that should not happen if (initiated(theLauncher)) clearAdaptation(theLauncher); Adaptation::Initiate::swanSong(); } bool Adaptation::Iterator::updatePlan(bool adopt) { HttpRequest *r = theCause ? theCause : dynamic_cast(theMsg); Must(r); Adaptation::History::Pointer ah = r->adaptHistory(); if (!ah) { debugs(85,9, HERE << "no history to store a service-proposed plan"); return false; // the feature is not enabled or is not triggered } String services; if (!ah->extractNextServices(services)) { // clears history debugs(85,9, HERE << "no service-proposed plan received"); return false; // the service did not provide a new plan } if (!adopt) { debugs(85,3, HERE << "rejecting service-proposed plan"); return false; } debugs(85,3, HERE << "retiring old plan: " << thePlan); Adaptation::ServiceFilter f = this->filter(); DynamicGroupCfg current, future; DynamicServiceChain::Split(f, services, current, future); if (!future.empty()) { ah->setFutureServices(future); debugs(85,3, HERE << "noted future service-proposed plan: " << future); } // use the current config even if it is empty; we must replace the old plan theGroup = new DynamicServiceChain(current, f); // refcounted thePlan = ServicePlan(theGroup, f); debugs(85,3, HERE << "adopted service-proposed plan: " << thePlan); return true; } Adaptation::ServiceFilter Adaptation::Iterator::filter() const { // the method may differ from theGroup->method due to request satisfaction Method method = methodNone; // temporary variables, no locking needed HttpRequest *req = NULL; HttpReply *rep = NULL; if (HttpRequest *r = dynamic_cast(theMsg)) { method = methodReqmod; req = r; rep = NULL; } else if (HttpReply *theReply = dynamic_cast(theMsg)) { method = methodRespmod; req = theCause; rep = theReply; } else { Must(false); // should not happen } return ServiceFilter(method, theGroup->point, req, rep, al); } CBDATA_NAMESPACED_CLASS_INIT(Adaptation, Iterator);