/* * DEBUG: section 93 eCAP Interface */ #include "squid-old.h" #include #include #include #include #include #include "adaptation/ecap/Config.h" #include "adaptation/ecap/Host.h" #include "adaptation/ecap/ServiceRep.h" #include "adaptation/ecap/XactionRep.h" #include "base/TextException.h" // configured eCAP service wrappers static std::list TheServices; namespace Adaptation { namespace Ecap { /// wraps Adaptation::Ecap::ServiceConfig to allow eCAP visitors class ConfigRep: public libecap::Options { public: typedef Adaptation::Ecap::ServiceConfig Master; typedef libecap::Name Name; typedef libecap::Area Area; ConfigRep(const Master &aMaster); // libecap::Options API virtual const libecap::Area option(const libecap::Name &name) const; virtual void visitEachOption(libecap::NamedValueVisitor &visitor) const; const Master &master; ///< the configuration being wrapped }; } // namespace Ecap } // namespace Adaptation Adaptation::Ecap::ConfigRep::ConfigRep(const Master &aMaster): master(aMaster) { } const libecap::Area Adaptation::Ecap::ConfigRep::option(const libecap::Name &name) const { // we may supply the params we know about, but only when names have host ID if (name == metaBypassable) return Area(master.bypass ? "1" : "0", 1); // TODO: We could build a by-name index, but is it worth it? Good adapters // should use visitEachOption() instead, to check for name typos/errors. typedef Master::Extensions::const_iterator MECI; for (MECI i = master.extensions.begin(); i != master.extensions.end(); ++i) { if (name == i->first) return Area(i->second.data(), i->second.size()); } return Area(); } void Adaptation::Ecap::ConfigRep::visitEachOption(libecap::NamedValueVisitor &visitor) const { // we may supply the params we know about too, but only if we set host ID visitor.visit(metaBypassable, Area(master.bypass ? "1" : "0", 1)); // visit adapter-specific options (i.e., those not recognized by Squid) typedef Master::Extensions::const_iterator MECI; for (MECI i = master.extensions.begin(); i != master.extensions.end(); ++i) visitor.visit(Name(i->first), Area::FromTempString(i->second)); } Adaptation::Ecap::ServiceRep::ServiceRep(const ServiceConfigPointer &cfg): /*AsyncJob("Adaptation::Ecap::ServiceRep"),*/ Adaptation::Service(cfg), isDetached(false) { } Adaptation::Ecap::ServiceRep::~ServiceRep() { } void Adaptation::Ecap::ServiceRep::noteFailure() { assert(false); // XXX: should this be ICAP-specific? } void Adaptation::Ecap::ServiceRep::finalize() { Adaptation::Service::finalize(); theService = FindAdapterService(cfg().uri); if (theService) { try { tryConfigureAndStart(); Must(up()); } catch (const std::exception &e) { // standardized exceptions if (!handleFinalizeFailure(e.what())) throw; // rethrow for upper layers to handle } catch (...) { // all other exceptions if (!handleFinalizeFailure("unrecognized exception")) throw; // rethrow for upper layers to handle } return; // success or handled exception } else { debugs(93,DBG_IMPORTANT, "WARNING: configured ecap_service was not loaded: " << cfg().uri); } } /// attempts to configure and start eCAP service; the caller handles exceptions void Adaptation::Ecap::ServiceRep::tryConfigureAndStart() { debugs(93,2, HERE << "configuring eCAP service: " << theService->uri()); const ConfigRep cfgRep(dynamic_cast(cfg())); theService->configure(cfgRep); debugs(93,DBG_IMPORTANT, "Starting eCAP service: " << theService->uri()); theService->start(); } /// handles failures while configuring or starting an eCAP service; /// returns false if the error must be propagated to higher levels bool Adaptation::Ecap::ServiceRep::handleFinalizeFailure(const char *error) { const bool salvage = cfg().bypass; const int level = salvage ? DBG_IMPORTANT :DBG_CRITICAL; const char *kind = salvage ? "optional" : "essential"; debugs(93, level, "ERROR: failed to start " << kind << " eCAP service: " << cfg().uri << ":\n" << error); if (!salvage) return false; // we cannot handle the problem; the caller may escalate // make up() false, preventing new adaptation requests and enabling bypass theService.reset(); debugs(93, level, "WARNING: " << kind << " eCAP service is " << "down after initialization failure: " << cfg().uri); return true; // tell the caller to ignore the problem because we handled it } bool Adaptation::Ecap::ServiceRep::probed() const { return true; // we "probe" the adapter in finalize(). } bool Adaptation::Ecap::ServiceRep::up() const { return theService != NULL; } bool Adaptation::Ecap::ServiceRep::wantsUrl(const String &urlPath) const { Must(up()); return theService->wantsUrl(urlPath.termedBuf()); } Adaptation::Initiate * Adaptation::Ecap::ServiceRep::makeXactLauncher(HttpMsg *virgin, HttpRequest *cause) { Must(up()); XactionRep *rep = new XactionRep(virgin, cause, Pointer(this)); XactionRep::AdapterXaction x(theService->makeXaction(rep)); rep->master(x); return rep; } // returns a temporary string depicting service status, for debugging const char *Adaptation::Ecap::ServiceRep::status() const { // TODO: move generic stuff from eCAP and ICAP to Adaptation static MemBuf buf; buf.reset(); buf.append("[", 1); if (up()) buf.append("up", 2); else buf.append("down", 4); if (detached()) buf.append(",detached", 9); buf.append("]", 1); buf.terminate(); return buf.content(); } void Adaptation::Ecap::ServiceRep::detach() { isDetached = true; } bool Adaptation::Ecap::ServiceRep::detached() const { return isDetached; } Adaptation::Ecap::ServiceRep::AdapterService Adaptation::Ecap::FindAdapterService(const String& serviceUri) { typedef std::list::const_iterator ASCI; for (ASCI s = TheServices.begin(); s != TheServices.end(); ++s) { Must(*s); if (serviceUri == (*s)->uri().c_str()) return *s; } return ServiceRep::AdapterService(); } void Adaptation::Ecap::RegisterAdapterService(const Adaptation::Ecap::ServiceRep::AdapterService& adapterService) { typedef std::list::iterator ASI; for (ASI s = TheServices.begin(); s != TheServices.end(); ++s) { Must(*s); if (adapterService->uri() == (*s)->uri()) { *s = adapterService; debugs(93, 3, "updated eCAP module service: " << adapterService->uri()); return; } } TheServices.push_back(adapterService); debugs(93, 3, "registered eCAP module service: " << adapterService->uri()); } void Adaptation::Ecap::UnregisterAdapterService(const String& serviceUri) { typedef std::list::iterator ASI; for (ASI s = TheServices.begin(); s != TheServices.end(); ++s) { if (serviceUri == (*s)->uri().c_str()) { TheServices.erase(s); debugs(93, 3, "unregistered eCAP module service: " << serviceUri); return; } } debugs(93, 3, "failed to unregister eCAP module service: " << serviceUri); } void Adaptation::Ecap::CheckUnusedAdapterServices(const Adaptation::Services& cfgs) { typedef std::list::const_iterator ASCI; for (ASCI loaded = TheServices.begin(); loaded != TheServices.end(); ++loaded) { bool found = false; for (Services::const_iterator cfged = cfgs.begin(); cfged != cfgs.end() && !found; ++cfged) { found = (*cfged)->cfg().uri == (*loaded)->uri().c_str(); } if (!found) debugs(93, 1, "Warning: loaded eCAP service has no matching " << "ecap_service config option: " << (*loaded)->uri()); } }