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/* * Phusion Passenger - https://www.phusionpassenger.com/ * Copyright (c) 2014-2018 Phusion Holding B.V. * * "Passenger", "Phusion Passenger" and "Union Station" are registered * trademarks of Phusion Holding B.V. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #ifndef _PASSENGER_TURBO_CACHING_H_ #define _PASSENGER_TURBO_CACHING_H_ #include <oxt/backtrace.hpp> #include <ev++.h> #include <ctime> #include <cstddef> #include <cassert> #include <MemoryKit/mbuf.h> #include <ServerKit/Context.h> #include <Constants.h> #include <LoggingKit/LoggingKit.h> #include <StrIntTools/StrIntUtils.h> #include <Core/ResponseCache.h> namespace Passenger { namespace Core { using namespace std; template<typename Request> class TurboCaching { public: /** The interval of the timer while we're in the ENABLED state. */ static const unsigned int ENABLED_TIMEOUT = 2; /** The interval of the timer while we're in the TEMPORARILY_DISABLED state. */ static const unsigned int TEMPORARY_DISABLE_TIMEOUT = 10; /** Only consider temporarily disabling turbocaching if the number of * fetches/stores in the current interval have reached these thresholds. */ static const unsigned int FETCH_THRESHOLD = 20; static const unsigned int STORE_THRESHOLD = 20; OXT_FORCE_INLINE static double MIN_HIT_RATIO() { return 0.5; } OXT_FORCE_INLINE static double MIN_STORE_SUCCESS_RATIO() { return 0.5; } enum State { /** * Turbocaching is permanently disabled. */ DISABLED, /** * Turbocaching is enabled. */ ENABLED, /** * In case turbocaching is enabled, and poor cache hit ratio * is detected, this state will be entered. It will stay * in this state for TEMPORARY_DISABLE_TIMEOUT seconds before * transitioning back to ENABLED. */ TEMPORARILY_DISABLED }; typedef ResponseCache<Request> ResponseCacheType; typedef typename ResponseCache<Request>::Entry ResponseCacheEntryType; private: State state; ev_tstamp lastTimeout, nextTimeout; struct ResponsePreparation { Request *req; const ResponseCacheEntryType *entry; time_t now; time_t age; unsigned int ageValueSize; unsigned int contentLengthStrSize; bool showVersionInHeader; }; template<typename Server> void prepareResponseHeader(ResponsePreparation &prep, Server *server, Request *req, const ResponseCacheEntryType &entry) { prep.req = req; prep.entry = &entry; prep.now = (time_t) ev_now(server->getLoop()); if (prep.now >= entry.header->date) { prep.age = prep.now - entry.header->date; } else { prep.age = 0; } prep.ageValueSize = integerSizeInOtherBase<time_t, 10>(prep.age); prep.contentLengthStrSize = uintSizeAsString(entry.body->httpBodySize); prep.showVersionInHeader = req->config->showVersionInHeader; } template<typename Server> unsigned int buildResponseHeader(const ResponsePreparation &prep, Server *server, char *output, unsigned int outputSize) { #define PUSH_STATIC_STRING(str) \ do { \ result += sizeof(str) - 1; \ if (output != NULL) { \ pos = appendData(pos, end, str, sizeof(str) - 1); \ } \ } while (false) const ResponseCacheEntryType *entry = prep.entry; Request *req = prep.req; unsigned int httpVersion = req->httpMajor * 1000 + req->httpMinor * 10; unsigned int result = 0; char *pos = output; const char *end = output + outputSize; result += entry->body->httpHeaderSize; if (output != NULL) { pos = appendData(pos, end, entry->body->httpHeaderData, entry->body->httpHeaderSize); } PUSH_STATIC_STRING("Content-Length: "); result += prep.contentLengthStrSize; if (output != NULL) { uintToString(entry->body->httpBodySize, pos, end - pos); pos += prep.contentLengthStrSize; } PUSH_STATIC_STRING("\r\n"); PUSH_STATIC_STRING("Age: "); result += prep.ageValueSize; if (output != NULL) { integerToOtherBase<time_t, 10>(prep.age, pos, end - pos); pos += prep.ageValueSize; } PUSH_STATIC_STRING("\r\n"); if (prep.showVersionInHeader) { PUSH_STATIC_STRING("X-Powered-By: " PROGRAM_NAME " " PASSENGER_VERSION "\r\n"); } else { PUSH_STATIC_STRING("X-Powered-By: " PROGRAM_NAME "\r\n"); } if (server->canKeepAlive(req)) { if (httpVersion < 1010) { // HTTP < 1.1 defaults to "Connection: close", but we want keep-alive PUSH_STATIC_STRING("Connection: keep-alive\r\n"); } } else { if (httpVersion >= 1010) { // HTTP 1.1 defaults to "Connection: keep-alive", but we don't want it PUSH_STATIC_STRING("Connection: close\r\n"); } } PUSH_STATIC_STRING("\r\n"); #ifndef NDEBUG if (output != NULL) { assert(size_t(pos - output) == size_t(result)); assert(size_t(pos - output) <= size_t(outputSize)); } #endif return result; #undef PUSH_STATIC_STRING } public: ResponseCache<Request> responseCache; TurboCaching() : state(ENABLED), lastTimeout(0), nextTimeout(0) { } void initialize(bool initiallyEnabled) { state = initiallyEnabled ? ENABLED : DISABLED; lastTimeout = (ev_tstamp) time(NULL); nextTimeout = (ev_tstamp) time(NULL) + ENABLED_TIMEOUT; } bool isEnabled() const { return state == ENABLED; } // Call when the event loop multiplexer returns. void updateState(ev_tstamp now) { if (OXT_UNLIKELY(state == DISABLED)) { return; } if (OXT_LIKELY(now < nextTimeout)) { return; } switch (state) { case ENABLED: if (responseCache.getFetches() >= FETCH_THRESHOLD && responseCache.getHitRatio() < MIN_HIT_RATIO()) { P_INFO("Poor turbocaching hit ratio detected (" << responseCache.getHits() << " hits, " << responseCache.getFetches() << " fetches, " << (int) (responseCache.getHitRatio() * 100) << "%). Temporarily disabling turbocaching " "for " << TEMPORARY_DISABLE_TIMEOUT << " seconds"); state = TEMPORARILY_DISABLED; nextTimeout = now + TEMPORARY_DISABLE_TIMEOUT; } else if (responseCache.getStores() >= STORE_THRESHOLD && responseCache.getStoreSuccessRatio() < MIN_STORE_SUCCESS_RATIO()) { P_INFO("Poor turbocaching store success ratio detected (" << responseCache.getStoreSuccesses() << " store successes, " << responseCache.getStores() << " stores, " << (int) (responseCache.getStoreSuccessRatio() * 100) << "%). Temporarily disabling turbocaching " "for " << TEMPORARY_DISABLE_TIMEOUT << " seconds"); state = TEMPORARILY_DISABLED; nextTimeout = now + TEMPORARY_DISABLE_TIMEOUT; } else { P_DEBUG("Clearing turbocache"); nextTimeout = now + ENABLED_TIMEOUT; } responseCache.resetStatistics(); responseCache.clear(); break; case TEMPORARILY_DISABLED: P_INFO("Re-enabling turbocaching"); state = ENABLED; nextTimeout = now + ENABLED_TIMEOUT; break; default: P_BUG("Unknown state " << (int) state); break; } lastTimeout = now; } template<typename Server, typename Client> void writeResponse(Server *server, Client *client, Request *req, ResponseCacheEntryType &entry) { MemoryKit::mbuf_pool &mbuf_pool = server->getContext()->mbuf_pool; const unsigned int MBUF_MAX_SIZE = mbuf_pool_data_size(&mbuf_pool); ResponsePreparation prep; unsigned int headerSize; prepareResponseHeader(prep, server, req, entry); headerSize = buildResponseHeader(prep, server, NULL, 0); if (headerSize + entry.body->httpBodySize <= MBUF_MAX_SIZE) { // Header and body fit inside a single mbuf MemoryKit::mbuf buffer(MemoryKit::mbuf_get(&mbuf_pool)); buffer = MemoryKit::mbuf(buffer, 0, headerSize + entry.body->httpBodySize); buildResponseHeader(prep, server, buffer.start, buffer.size()); memcpy(buffer.start + headerSize, entry.body->httpBodyData, entry.body->httpBodySize); server->writeResponse(client, buffer); } else { char *buffer = (char *) psg_pnalloc(req->pool, headerSize + entry.body->httpBodySize); buildResponseHeader(prep, server, buffer, headerSize + entry.body->httpBodySize); memcpy(buffer + headerSize, entry.body->httpBodyData, entry.body->httpBodySize); server->writeResponse(client, buffer, headerSize + entry.body->httpBodySize); } } }; } // namespace Core } // namespace Passenger #endif /* _PASSENGER_TURBO_CACHING_H_ */