/* * libretroshare/src/util: rsmemcache.h * * Identity interface for RetroShare. * * Copyright 2012-2012 by Robert Fernie. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License Version 2.1 as published by the Free Software Foundation. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA. * * Please report all bugs and problems to "retroshare@lunamutt.com". * */ #ifndef RS_UTIL_MEM_CACHE #define RS_UTIL_MEM_CACHE #include #include #include #include #include /************************************************************************************/ /************************************************************************************/ /************************************************************************************/ /* Generic Memoory Cache * * This is probably crude and crap to start with. * Want Least Recently Used (LRU) discard policy, without having to search whole cache. * Use two maps: * - mDataMap[key] => data. * - mLruMap[AccessTS] => key (multimap) */ /*** * #define DEBUG_RSMEMCACHE 1 ***/ #define DEFAULT_MEM_CACHE_SIZE 100 template class RsMemCache { public: RsMemCache(uint32_t max_size = DEFAULT_MEM_CACHE_SIZE, std::string name = "UnknownMemCache") :mDataCount(0), mMaxSize(max_size), mName(name) { clearStats(); return; } bool is_cached(const Key &key) const; bool fetch(const Key &key, Value &data); Value &ref(const Key &key); // like map[] installs empty one if non-existent. bool store(const Key &key, const Value &data); bool erase(const Key &key); // clean up cache. bool resize(); // should be called periodically to cleanup old entries. // Apply a method of a given class ClientClass to all cached data. Can be useful... template bool applyToAllCachedEntries(ClientClass& c,bool (ClientClass::*method)(Value&)); private: bool update_lrumap(const Key &key, time_t old_ts, time_t new_ts); bool discard_LRU(int count_to_clear); // internal class. class cache_data { public: cache_data() { return; } cache_data(Key in_key, Value in_data, time_t in_ts) :key(in_key), data(in_data), ts(in_ts) { return; } Key key; Value data; time_t ts; }; std::map mDataMap; std::multimap mLruMap; uint32_t mDataCount; uint32_t mMaxSize; std::string mName; // some statistics. void printStats(std::ostream &out); void clearStats(); mutable uint32_t mStats_inserted; mutable uint32_t mStats_dropped; mutable uint32_t mStats_iscached; mutable uint32_t mStats_cachemiss; mutable uint32_t mStats_access; mutable uint32_t mStats_accessmiss; }; template bool RsMemCache::is_cached(const Key &key) const { typename std::map::const_iterator it; it = mDataMap.find(key); if (it == mDataMap.end()) { #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::is_cached(" << key << ") false"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE mStats_cachemiss++; return false; } #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::is_cached(" << key << ") false"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE mStats_iscached++; return true; } template template bool RsMemCache::applyToAllCachedEntries(ClientClass& c, bool (ClientClass::*method)(Value&)) { bool res = true ; for(typename std::map::iterator it(mDataMap.begin());it!=mDataMap.end();++it) res = res && ((c.*method)(it->second.data)) ; return res ; } template bool RsMemCache::fetch(const Key &key, Value &data) { #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::fetch()"; std::cerr << std::endl; printStats(std::cerr); #endif // DEBUG_RSMEMCACHE typename std::map::iterator it; it = mDataMap.find(key); if (it == mDataMap.end()) { #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::fetch(" << key << ") false"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE mStats_accessmiss++; return false; } #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::fetch(" << key << ") OK"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE data = it->second.data; /* update ts on data */ time_t old_ts = it->second.ts; time_t new_ts = time(NULL); it->second.ts = new_ts; update_lrumap(key, old_ts, new_ts); mStats_access++; return true; } template bool RsMemCache::erase(const Key &key) { #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::erase()"; std::cerr << std::endl; printStats(std::cerr); #endif // DEBUG_RSMEMCACHE typename std::map::iterator it; it = mDataMap.find(key); if (it == mDataMap.end()) { #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::erase(" << key << ") false"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE mStats_accessmiss++; return false; } #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::erase(" << key << ") OK"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE /* get timestamps */ time_t old_ts = it->second.ts; time_t new_ts = 0; // remove from lru. mDataMap.erase(it); update_lrumap(key, old_ts, new_ts); mDataCount--; mStats_access++; return true; } template Value &RsMemCache::ref(const Key &key) { #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::ref()"; std::cerr << std::endl; printStats(std::cerr); #endif // DEBUG_RSMEMCACHE typename std::map::iterator it; it = mDataMap.find(key); if (it == mDataMap.end()) { #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::ref(" << key << ") ERROR missing Key inserting Empty Data in LRU slot"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE // insert operation. time_t new_ts = 0; Value data; mDataMap[key] = cache_data(key, data, new_ts); mDataCount++; update_lrumap(key, 0, new_ts); it = mDataMap.find(key); mStats_accessmiss++; } else { #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::ref(" << key << ") OK"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE /* update ts on data */ time_t old_ts = it->second.ts; time_t new_ts = time(NULL); it->second.ts = new_ts; update_lrumap(key, old_ts, new_ts); mStats_access++; } return it->second.data; } template bool RsMemCache::store(const Key &key, const Value &data) { #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::store()"; std::cerr << std::endl; printStats(std::cerr); #endif // DEBUG_RSMEMCACHE /* update lrumap entry */ time_t old_ts = 0; time_t new_ts = time(NULL); // For consistency typename std::map::const_iterator it; it = mDataMap.find(key); if (it != mDataMap.end()) { // ERROR. #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::store() WARNING overriding existing entry"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE old_ts = it->second.ts; } else { mDataCount++; } mDataMap[key] = cache_data(key, data, new_ts); update_lrumap(key, old_ts, new_ts); mStats_inserted++; return true; } template bool RsMemCache::update_lrumap(const Key &key, time_t old_ts, time_t new_ts) { if (old_ts == 0) { #ifdef DEBUG_RSMEMCACHE std::cerr << "p3IdService::locked_cache_update_lrumap(" << key << ") just insert!"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE /* new insertion */ mLruMap.insert(std::make_pair(new_ts, key)); return true; } /* find old entry */ typename std::multimap::iterator mit; typename std::multimap::iterator sit = mLruMap.lower_bound(old_ts); typename std::multimap::iterator eit = mLruMap.upper_bound(old_ts); for(mit = sit; mit != eit; ++mit) { if (mit->second == key) { mLruMap.erase(mit); #ifdef DEBUG_RSMEMCACHE std::cerr << "p3IdService::locked_cache_update_lrumap(" << key << ") rm old"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE if (new_ts != 0) // == 0, means remove. { #ifdef DEBUG_RSMEMCACHE std::cerr << "p3IdService::locked_cache_update_lrumap(" << key << ") added new_ts"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE mLruMap.insert(std::make_pair(new_ts, key)); } return true; } } #ifdef DEBUG_RSMEMCACHE std::cerr << "p3IdService::locked_cache_update_lrumap(" << key << ") ERROR"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE return false; } template bool RsMemCache::resize() { #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::resize()"; std::cerr << std::endl; printStats(std::cerr); #endif // DEBUG_RSMEMCACHE int count_to_clear = 0; { // consistency check. if ((mDataMap.size() != mDataCount) || (mLruMap.size() != mDataCount)) { // ERROR. std::cerr << "RsMemCache::resize() CONSISTENCY ERROR"; std::cerr << std::endl; std::cerr << "\tmDataMap.size() = " << mDataMap.size(); std::cerr << std::endl; std::cerr << "\tmLruMap.size() = " << mLruMap.size(); std::cerr << std::endl; std::cerr << "\tmDataCount = " << mDataCount; std::cerr << std::endl; } if (mDataCount > mMaxSize) { count_to_clear = mDataCount - mMaxSize; #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::resize() to_clear: " << count_to_clear; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE } } if (count_to_clear > 0) { discard_LRU(count_to_clear); } return true; } template bool RsMemCache::discard_LRU(int count_to_clear) { while(count_to_clear > 0) { typename std::multimap::iterator mit = mLruMap.begin(); if (mit != mLruMap.end()) { Key key = mit->second; mLruMap.erase(mit); /* now clear from real cache */ //std::map >::iterator it; typename std::map::iterator it; it = mDataMap.find(key); if (it == mDataMap.end()) { // ERROR std::cerr << "RsMemCache::discard_LRU(): ERROR Missing key: " << key; std::cerr << std::endl; return false; } else { #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::discard_LRU() removing: " << key; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE mDataMap.erase(it); mDataCount--; mStats_dropped++; } } else { // No More Data, ERROR. #ifdef DEBUG_RSMEMCACHE std::cerr << "RsMemCache::discard_LRU(): INFO more more cache data"; std::cerr << std::endl; #endif // DEBUG_RSMEMCACHE return true; } count_to_clear--; } return true; } // These aren't templated functions. template void RsMemCache::printStats(std::ostream &out) { typename std::multimap::iterator mit = mLruMap.begin(); time_t age = 0; if (mit != mLruMap.end()) { age = time(NULL) - mit->first; } out << "RsMemCache<" << mName << ">::printStats() Size: " << mDataCount << " Size2: " << mDataMap.size() << " Size3: " << mLruMap.size() << " MaxSize: " << mMaxSize << " LRU Age: " << age; out << std::endl; out << "\tInsertions: " << mStats_inserted << " Drops: " << mStats_dropped; out << std::endl; out << "\tCache Hits: " << mStats_iscached << " Misses: " << mStats_cachemiss; out << std::endl; out << "\tAccess Hits: " << mStats_access << " Misses: " << mStats_accessmiss; out << std::endl; } template void RsMemCache::clearStats() { mStats_inserted = 0; mStats_dropped = 0; mStats_iscached = 0; mStats_cachemiss = 0; mStats_access = 0; mStats_accessmiss = 0; } #endif // RS_UTIL_MEM_CACHE