/* * 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 eCAP Interface */ #include "squid.h" #include #include #include #include #include #include "adaptation/Answer.h" #include "adaptation/ecap/Config.h" #include "adaptation/ecap/XactionRep.h" #include "adaptation/Initiator.h" #include "base/AsyncJobCalls.h" #include "base/TextException.h" #include "format/Format.h" #include "HttpReply.h" #include "HttpRequest.h" #include "SquidTime.h" CBDATA_NAMESPACED_CLASS_INIT(Adaptation::Ecap::XactionRep, XactionRep); /// a libecap Visitor for converting adapter transaction options to HttpHeader class OptionsExtractor: public libecap::NamedValueVisitor { public: typedef libecap::Name Name; typedef libecap::Area Area; OptionsExtractor(HttpHeader &aMeta): meta(aMeta) {} // libecap::NamedValueVisitor API virtual void visit(const Name &name, const Area &value) { meta.putExt(name.image().c_str(), value.toString().c_str()); } HttpHeader &meta; ///< where to put extracted options }; Adaptation::Ecap::XactionRep::XactionRep( HttpMsg *virginHeader, HttpRequest *virginCause, AccessLogEntry::Pointer &alp, const Adaptation::ServicePointer &aService): AsyncJob("Adaptation::Ecap::XactionRep"), Adaptation::Initiate("Adaptation::Ecap::XactionRep"), theService(aService), theVirginRep(virginHeader), theCauseRep(NULL), makingVb(opUndecided), proxyingAb(opUndecided), adaptHistoryId(-1), vbProductionFinished(false), abProductionFinished(false), abProductionAtEnd(false), al(alp) { if (virginCause) theCauseRep = new MessageRep(virginCause); } Adaptation::Ecap::XactionRep::~XactionRep() { assert(!theMaster); delete theCauseRep; theAnswerRep.reset(); } void Adaptation::Ecap::XactionRep::master(const AdapterXaction &x) { Must(!theMaster); Must(x); theMaster = x; } Adaptation::Service & Adaptation::Ecap::XactionRep::service() { Must(theService != NULL); return *theService; } const libecap::Area Adaptation::Ecap::XactionRep::option(const libecap::Name &name) const { if (name == libecap::metaClientIp) return clientIpValue(); if (name == libecap::metaUserName) return usernameValue(); if (Adaptation::Config::masterx_shared_name && name == Adaptation::Config::masterx_shared_name) return masterxSharedValue(name); // TODO: metaServerIp, metaAuthenticatedUser, and metaAuthenticatedGroups // If the name is unknown, metaValue returns an emtpy area return metaValue(name); } void Adaptation::Ecap::XactionRep::visitEachOption(libecap::NamedValueVisitor &visitor) const { if (const libecap::Area value = clientIpValue()) visitor.visit(libecap::metaClientIp, value); if (const libecap::Area value = usernameValue()) visitor.visit(libecap::metaUserName, value); if (Adaptation::Config::masterx_shared_name) { const libecap::Name name(Adaptation::Config::masterx_shared_name); if (const libecap::Area value = masterxSharedValue(name)) visitor.visit(name, value); } visitEachMetaHeader(visitor); // TODO: metaServerIp, metaAuthenticatedUser, and metaAuthenticatedGroups } const libecap::Area Adaptation::Ecap::XactionRep::clientIpValue() const { const HttpRequest *request = dynamic_cast(theCauseRep ? theCauseRep->raw().header : theVirginRep.raw().header); Must(request); // TODO: move this logic into HttpRequest::clientIp(bool) and // HttpRequest::clientIpString(bool) and reuse everywhere if (TheConfig.send_client_ip && request) { Ip::Address client_addr; #if FOLLOW_X_FORWARDED_FOR if (TheConfig.use_indirect_client) { client_addr = request->indirect_client_addr; } else #endif client_addr = request->client_addr; if (!client_addr.isAnyAddr() && !client_addr.isNoAddr()) { char ntoabuf[MAX_IPSTRLEN] = ""; client_addr.toStr(ntoabuf,MAX_IPSTRLEN); return libecap::Area::FromTempBuffer(ntoabuf, strlen(ntoabuf)); } } return libecap::Area(); } const libecap::Area Adaptation::Ecap::XactionRep::usernameValue() const { #if USE_AUTH const HttpRequest *request = dynamic_cast(theCauseRep ? theCauseRep->raw().header : theVirginRep.raw().header); Must(request); if (request->auth_user_request != NULL) { if (char const *name = request->auth_user_request->username()) return libecap::Area::FromTempBuffer(name, strlen(name)); else if (request->extacl_user.size() > 0) return libecap::Area::FromTempBuffer(request->extacl_user.rawBuf(), request->extacl_user.size()); } #endif return libecap::Area(); } const libecap::Area Adaptation::Ecap::XactionRep::masterxSharedValue(const libecap::Name &name) const { const HttpRequest *request = dynamic_cast(theCauseRep ? theCauseRep->raw().header : theVirginRep.raw().header); Must(request); if (name.known()) { // must check to avoid empty names matching unset cfg Adaptation::History::Pointer ah = request->adaptHistory(false); if (ah != NULL) { String name, value; if (ah->getXxRecord(name, value)) return libecap::Area::FromTempBuffer(value.rawBuf(), value.size()); } } return libecap::Area(); } const libecap::Area Adaptation::Ecap::XactionRep::metaValue(const libecap::Name &name) const { HttpRequest *request = dynamic_cast(theCauseRep ? theCauseRep->raw().header : theVirginRep.raw().header); Must(request); HttpReply *reply = dynamic_cast(theVirginRep.raw().header); if (name.known()) { // must check to avoid empty names matching unset cfg typedef Notes::iterator ACAMLI; for (ACAMLI i = Adaptation::Config::metaHeaders.begin(); i != Adaptation::Config::metaHeaders.end(); ++i) { if (name == (*i)->key.termedBuf()) { if (const char *value = (*i)->match(request, reply, al)) return libecap::Area::FromTempString(value); else return libecap::Area(); } } } return libecap::Area(); } void Adaptation::Ecap::XactionRep::visitEachMetaHeader(libecap::NamedValueVisitor &visitor) const { HttpRequest *request = dynamic_cast(theCauseRep ? theCauseRep->raw().header : theVirginRep.raw().header); Must(request); HttpReply *reply = dynamic_cast(theVirginRep.raw().header); typedef Notes::iterator ACAMLI; for (ACAMLI i = Adaptation::Config::metaHeaders.begin(); i != Adaptation::Config::metaHeaders.end(); ++i) { const char *v = (*i)->match(request, reply, al); if (v) { const libecap::Name name((*i)->key.termedBuf()); const libecap::Area value = libecap::Area::FromTempString(v); visitor.visit(name, value); } } } void Adaptation::Ecap::XactionRep::start() { Must(theMaster); if (!theVirginRep.raw().body_pipe) makingVb = opNever; // there is nothing to deliver HttpRequest *request = dynamic_cast (theCauseRep ? theCauseRep->raw().header : theVirginRep.raw().header); Must(request); HttpReply *reply = dynamic_cast(theVirginRep.raw().header); Adaptation::History::Pointer ah = request->adaptLogHistory(); if (ah != NULL) { // retrying=false because ecap never retries transactions adaptHistoryId = ah->recordXactStart(service().cfg().key, current_time, false); typedef Notes::iterator ACAMLI; for (ACAMLI i = Adaptation::Config::metaHeaders.begin(); i != Adaptation::Config::metaHeaders.end(); ++i) { const char *v = (*i)->match(request, reply, al); if (v) { if (ah->metaHeaders == NULL) ah->metaHeaders = new NotePairs(); if (!ah->metaHeaders->hasPair((*i)->key.termedBuf(), v)) ah->metaHeaders->add((*i)->key.termedBuf(), v); } } } theMaster->start(); } void Adaptation::Ecap::XactionRep::swanSong() { // clear body_pipes, if any // this code does not maintain proxying* and canAccessVb states; should it? if (theAnswerRep) { BodyPipe::Pointer body_pipe = answer().body_pipe; if (body_pipe != NULL) { Must(body_pipe->stillProducing(this)); stopProducingFor(body_pipe, false); } } BodyPipe::Pointer &body_pipe = theVirginRep.raw().body_pipe; if (body_pipe != NULL && body_pipe->stillConsuming(this)) stopConsumingFrom(body_pipe); terminateMaster(); const HttpRequest *request = dynamic_cast(theCauseRep ? theCauseRep->raw().header : theVirginRep.raw().header); Must(request); Adaptation::History::Pointer ah = request->adaptLogHistory(); if (ah != NULL && adaptHistoryId >= 0) ah->recordXactFinish(adaptHistoryId); Adaptation::Initiate::swanSong(); } void Adaptation::Ecap::XactionRep::resume() { // go async to gain exception protection and done()-based job destruction typedef NullaryMemFunT Dialer; AsyncCall::Pointer call = asyncCall(93, 5, "Adaptation::Ecap::XactionRep::doResume", Dialer(this, &Adaptation::Ecap::XactionRep::doResume)); ScheduleCallHere(call); } /// the guts of libecap::host::Xaction::resume() API implementation /// which just goes async in Adaptation::Ecap::XactionRep::resume(). void Adaptation::Ecap::XactionRep::doResume() { Must(theMaster); theMaster->resume(); } libecap::Message & Adaptation::Ecap::XactionRep::virgin() { return theVirginRep; } const libecap::Message & Adaptation::Ecap::XactionRep::cause() { Must(theCauseRep != NULL); return *theCauseRep; } libecap::Message & Adaptation::Ecap::XactionRep::adapted() { Must(theAnswerRep); return *theAnswerRep; } Adaptation::Message & Adaptation::Ecap::XactionRep::answer() { MessageRep *rep = dynamic_cast(theAnswerRep.get()); Must(rep); return rep->raw(); } void Adaptation::Ecap::XactionRep::terminateMaster() { if (theMaster) { AdapterXaction x = theMaster; theMaster.reset(); x->stop(); } } bool Adaptation::Ecap::XactionRep::doneAll() const { return makingVb >= opComplete && proxyingAb >= opComplete && Adaptation::Initiate::doneAll(); } // stops receiving virgin and enables auto-consumption, dropping any vb bytes void Adaptation::Ecap::XactionRep::sinkVb(const char *reason) { debugs(93,4, HERE << "sink for " << reason << "; status:" << status()); // we reset raw().body_pipe when we are done, so use this one for checking const BodyPipePointer &permPipe = theVirginRep.raw().header->body_pipe; if (permPipe != NULL) permPipe->enableAutoConsumption(); forgetVb(reason); } // stops receiving virgin but preserves it for others to use void Adaptation::Ecap::XactionRep::preserveVb(const char *reason) { debugs(93,4, HERE << "preserve for " << reason << "; status:" << status()); // we reset raw().body_pipe when we are done, so use this one for checking const BodyPipePointer &permPipe = theVirginRep.raw().header->body_pipe; if (permPipe != NULL) { // if libecap consumed, we cannot preserve Must(!permPipe->consumedSize()); } forgetVb(reason); } // disassociates us from vb; the last step of sinking or preserving vb void Adaptation::Ecap::XactionRep::forgetVb(const char *reason) { debugs(93,9, HERE << "forget vb " << reason << "; status:" << status()); BodyPipePointer &p = theVirginRep.raw().body_pipe; if (p != NULL && p->stillConsuming(this)) stopConsumingFrom(p); if (makingVb == opUndecided) makingVb = opNever; else if (makingVb == opOn) makingVb = opComplete; } void Adaptation::Ecap::XactionRep::useVirgin() { debugs(93,3, HERE << status()); Must(proxyingAb == opUndecided); proxyingAb = opNever; preserveVb("useVirgin"); HttpMsg *clone = theVirginRep.raw().header->clone(); // check that clone() copies the pipe so that we do not have to Must(!theVirginRep.raw().header->body_pipe == !clone->body_pipe); updateHistory(clone); sendAnswer(Answer::Forward(clone)); Must(done()); } void Adaptation::Ecap::XactionRep::useAdapted(const libecap::shared_ptr &m) { debugs(93,3, HERE << status()); Must(m); theAnswerRep = m; Must(proxyingAb == opUndecided); HttpMsg *msg = answer().header; if (!theAnswerRep->body()) { // final, bodyless answer proxyingAb = opNever; updateHistory(msg); sendAnswer(Answer::Forward(msg)); } else { // got answer headers but need to handle body proxyingAb = opOn; Must(!msg->body_pipe); // only host can set body pipes MessageRep *rep = dynamic_cast(theAnswerRep.get()); Must(rep); rep->tieBody(this); // sets us as a producer Must(msg->body_pipe != NULL); // check tieBody updateHistory(msg); sendAnswer(Answer::Forward(msg)); debugs(93,4, HERE << "adapter will produce body" << status()); theMaster->abMake(); // libecap will produce } } void Adaptation::Ecap::XactionRep::blockVirgin() { debugs(93,3, HERE << status()); Must(proxyingAb == opUndecided); proxyingAb = opNever; sinkVb("blockVirgin"); updateHistory(NULL); sendAnswer(Answer::Block(service().cfg().key)); Must(done()); } /// Called just before sendAnswer() to record adapter meta-information /// which may affect answer processing and may be needed for logging. void Adaptation::Ecap::XactionRep::updateHistory(HttpMsg *adapted) { if (!theMaster) // all updates rely on being able to query the adapter return; const HttpRequest *request = dynamic_cast(theCauseRep ? theCauseRep->raw().header : theVirginRep.raw().header); Must(request); // TODO: move common ICAP/eCAP logic to Adaptation::Xaction or similar // TODO: optimize Area-to-String conversion // update the cross-transactional database if needed if (const char *xxNameStr = Adaptation::Config::masterx_shared_name) { Adaptation::History::Pointer ah = request->adaptHistory(true); if (ah != NULL) { libecap::Name xxName(xxNameStr); // TODO: optimize? if (const libecap::Area val = theMaster->option(xxName)) ah->updateXxRecord(xxNameStr, val.toString().c_str()); } } // update the adaptation plan if needed if (service().cfg().routing) { String services; if (const libecap::Area services = theMaster->option(libecap::metaNextServices)) { Adaptation::History::Pointer ah = request->adaptHistory(true); if (ah != NULL) ah->updateNextServices(services.toString().c_str()); } } // TODO: else warn (occasionally!) if we got libecap::metaNextServices // Store received meta headers for adapt::adaptLogHistory(); if (ah != NULL) { HttpHeader meta(hoReply); OptionsExtractor extractor(meta); theMaster->visitEachOption(extractor); ah->recordMeta(&meta); } // Add just-created history to the adapted/cloned request that lacks it. if (HttpRequest *adaptedReq = dynamic_cast(adapted)) adaptedReq->adaptHistoryImport(*request); } void Adaptation::Ecap::XactionRep::vbDiscard() { Must(makingVb == opUndecided); // if adapter does not need vb, we do not need to send it sinkVb("vbDiscard"); Must(makingVb == opNever); } void Adaptation::Ecap::XactionRep::vbMake() { Must(makingVb == opUndecided); BodyPipePointer &p = theVirginRep.raw().body_pipe; Must(p != NULL); Must(p->setConsumerIfNotLate(this)); // to deliver vb, we must receive vb makingVb = opOn; } void Adaptation::Ecap::XactionRep::vbStopMaking() { Must(makingVb == opOn); // if adapter does not need vb, we do not need to receive it sinkVb("vbStopMaking"); Must(makingVb == opComplete); } void Adaptation::Ecap::XactionRep::vbMakeMore() { Must(makingVb == opOn); // cannot make more if done proxying // we cannot guarantee more vb, but we can check that there is a chance const BodyPipePointer &p = theVirginRep.raw().body_pipe; Must(p != NULL && p->stillConsuming(this)); // we are plugged in Must(!p->productionEnded() && p->mayNeedMoreData()); // and may get more } libecap::Area Adaptation::Ecap::XactionRep::vbContent(libecap::size_type o, libecap::size_type s) { // We may not be makingVb yet. It should be OK, but see vbContentShift(). const BodyPipePointer &p = theVirginRep.raw().body_pipe; Must(p != NULL); // TODO: make MemBuf use size_t? const size_t haveSize = static_cast(p->buf().contentSize()); // convert to Squid types; XXX: check for overflow const uint64_t offset = static_cast(o); Must(offset <= haveSize); // equal iff at the end of content // nsize means no size limit: all content starting from offset const size_t size = s == libecap::nsize ? haveSize - offset : static_cast(s); // XXX: optimize by making theBody a shared_ptr (see Area::FromTemp*() src) return libecap::Area::FromTempBuffer(p->buf().content() + offset, min(static_cast(haveSize - offset), size)); } void Adaptation::Ecap::XactionRep::vbContentShift(libecap::size_type n) { // We may not be makingVb yet. It should be OK now, but if BodyPipe // consume() requirements change, we would have to return empty vbContent // until the adapter registers as a consumer BodyPipePointer &p = theVirginRep.raw().body_pipe; Must(p != NULL); const size_t size = static_cast(n); // XXX: check for overflow const size_t haveSize = static_cast(p->buf().contentSize()); // TODO: make MemBuf use size_t? p->consume(min(size, haveSize)); } void Adaptation::Ecap::XactionRep::noteAbContentDone(bool atEnd) { Must(proxyingAb == opOn && !abProductionFinished); abProductionFinished = true; abProductionAtEnd = atEnd; // store until ready to stop producing ourselves debugs(93,5, HERE << "adapted body production ended"); moveAbContent(); } void Adaptation::Ecap::XactionRep::noteAbContentAvailable() { Must(proxyingAb == opOn && !abProductionFinished); moveAbContent(); } #if 0 /* XXX: implement */ void Adaptation::Ecap::XactionRep::setAdaptedBodySize(const libecap::BodySize &size) { Must(answer().body_pipe != NULL); if (size.known()) answer().body_pipe->setBodySize(size.value()); // else the piped body size is unknown by default } #endif void Adaptation::Ecap::XactionRep::adaptationDelayed(const libecap::Delay &d) { debugs(93,3, HERE << "adapter needs time: " << d.state << '/' << d.progress); // XXX: set timeout? } void Adaptation::Ecap::XactionRep::adaptationAborted() { tellQueryAborted(true); // should eCAP support retries? mustStop("adaptationAborted"); } void Adaptation::Ecap::XactionRep::noteMoreBodySpaceAvailable(RefCount bp) { Must(proxyingAb == opOn); moveAbContent(); } void Adaptation::Ecap::XactionRep::noteBodyConsumerAborted(RefCount bp) { Must(proxyingAb == opOn); stopProducingFor(answer().body_pipe, false); Must(theMaster); theMaster->abStopMaking(); proxyingAb = opComplete; } void Adaptation::Ecap::XactionRep::noteMoreBodyDataAvailable(RefCount bp) { Must(makingVb == opOn); // or we would not be registered as a consumer Must(theMaster); theMaster->noteVbContentAvailable(); } void Adaptation::Ecap::XactionRep::noteBodyProductionEnded(RefCount bp) { Must(makingVb == opOn); // or we would not be registered as a consumer Must(theMaster); theMaster->noteVbContentDone(true); vbProductionFinished = true; } void Adaptation::Ecap::XactionRep::noteBodyProducerAborted(RefCount bp) { Must(makingVb == opOn); // or we would not be registered as a consumer Must(theMaster); theMaster->noteVbContentDone(false); vbProductionFinished = true; } void Adaptation::Ecap::XactionRep::noteInitiatorAborted() { mustStop("initiator aborted"); } // get content from the adapter and put it into the adapted pipe void Adaptation::Ecap::XactionRep::moveAbContent() { Must(proxyingAb == opOn); const libecap::Area c = theMaster->abContent(0, libecap::nsize); debugs(93,5, HERE << "up to " << c.size << " bytes"); if (c.size == 0 && abProductionFinished) { // no ab now and in the future stopProducingFor(answer().body_pipe, abProductionAtEnd); proxyingAb = opComplete; debugs(93,5, HERE << "last adapted body data retrieved"); } else if (c.size > 0) { if (const size_t used = answer().body_pipe->putMoreData(c.start, c.size)) theMaster->abContentShift(used); } } const char * Adaptation::Ecap::XactionRep::status() const { static MemBuf buf; buf.reset(); buf.append(" [", 2); if (makingVb) buf.Printf("M%d", static_cast(makingVb)); const BodyPipePointer &vp = theVirginRep.raw().body_pipe; if (!vp) buf.append(" !V", 3); else if (vp->stillConsuming(const_cast(this))) buf.append(" Vc", 3); else buf.append(" V?", 3); if (vbProductionFinished) buf.append(".", 1); buf.Printf(" A%d", static_cast(proxyingAb)); if (proxyingAb == opOn) { MessageRep *rep = dynamic_cast(theAnswerRep.get()); Must(rep); const BodyPipePointer &ap = rep->raw().body_pipe; if (!ap) buf.append(" !A", 3); else if (ap->stillProducing(const_cast(this))) buf.append(" Ap", 3); else buf.append(" A?", 3); } buf.Printf(" %s%u]", id.prefix(), id.value); buf.terminate(); return buf.content(); }