//PerformaceMemory_p.java //----------------------- //part of YaCy //(C) by Michael Peter Christen; mc@anomic.de //first published on http://www.anomic.de //Frankfurt, Germany, 2005 //last major change: 19.09.2005 // //This program is free software; you can redistribute it and/or modify //it under the terms of the GNU General Public License as published by //the Free Software Foundation; either version 2 of the License, or //(at your option) any later version. // //This program 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 General Public License for more details. // //You should have received a copy of the GNU General Public License //along with this program; if not, write to the Free Software //Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // //Using this software in any meaning (reading, learning, copying, compiling, //running) means that you agree that the Author(s) is (are) not responsible //for cost, loss of data or any harm that may be caused directly or indirectly //by usage of this softare or this documentation. The usage of this software //is on your own risk. The installation and usage (starting/running) of this //software may allow other people or application to access your computer and //any attached devices and is highly dependent on the configuration of the //software which must be done by the user of the software; the author(s) is //(are) also not responsible for proper configuration and usage of the //software, even if provoked by documentation provided together with //the software. // //Any changes to this file according to the GPL as documented in the file //gpl.txt aside this file in the shipment you received can be done to the //lines that follows this copyright notice here, but changes must not be //done inside the copyright notive above. A re-distribution must contain //the intact and unchanged copyright notice. //Contributions and changes to the program code must be marked as such. //You must compile this file with //javac -classpath .:../classes PerformanceMemory_p.java //if the shell's current path is HTROOT //import java.util.Iterator; import java.io.File; import java.util.Iterator; import java.util.Map; import de.anomic.http.httpHeader; import de.anomic.kelondro.kelondroCache; import de.anomic.kelondro.kelondroCachedRecords; import de.anomic.kelondro.kelondroEcoTable; import de.anomic.kelondro.kelondroFlexTable; import de.anomic.plasma.plasmaSwitchboard; import de.anomic.server.serverDomains; import de.anomic.server.serverFileUtils; import de.anomic.server.serverMemory; import de.anomic.server.serverObjects; import de.anomic.server.serverSwitch; public class PerformanceMemory_p { private static final long KB = 1024; private static final long MB = 1024 * KB; private static Map defaultSettings = null; public static serverObjects respond(httpHeader header, serverObjects post, serverSwitch env) { // return variable that accumulates replacements serverObjects prop = new serverObjects(); if (defaultSettings == null) { defaultSettings = serverFileUtils.loadHashMap(new File(env.getRootPath(), "yacy.init")); } prop.put("gc", "0"); if (post != null) { int xmx = 96; // default maximum heap size if (post.containsKey("Xmx")) { try { xmx = Integer.valueOf(post.get("Xmx", "64")).intValue(); } catch (NumberFormatException e){} env.setConfig("javastart_Xmx", "Xmx" + xmx + "m"); env.setConfig("javastart_Xms", "Xms" + xmx + "m"); prop.put("setStartupCommit", "1"); } if (post.containsKey("gc")) { System.gc(); prop.put("gc", "1"); } } long memoryFreeNow = Runtime.getRuntime().freeMemory(); long memoryFreeAfterInitBGC = Long.parseLong(env.getConfig("memoryFreeAfterInitBGC", "0")); long memoryFreeAfterInitAGC = Long.parseLong(env.getConfig("memoryFreeAfterInitAGC", "0")); long memoryFreeAfterStartup = Long.parseLong(env.getConfig("memoryFreeAfterStartup", "0")); long memoryTotalNow = Runtime.getRuntime().totalMemory(); long memoryTotalAfterInitBGC = Long.parseLong(env.getConfig("memoryTotalAfterInitBGC", "0")); long memoryTotalAfterInitAGC = Long.parseLong(env.getConfig("memoryTotalAfterInitAGC", "0")); long memoryTotalAfterStartup = Long.parseLong(env.getConfig("memoryTotalAfterStartup", "0")); long memoryMax = Runtime.getRuntime().maxMemory(); prop.putNum("memoryMax", memoryMax / MB); prop.putNum("memoryAvailAfterStartup", (memoryMax - memoryTotalAfterStartup + memoryFreeAfterStartup) / MB); prop.putNum("memoryAvailAfterInitBGC", (memoryMax - memoryTotalAfterInitBGC + memoryFreeAfterInitBGC) / MB); prop.putNum("memoryAvailAfterInitAGC", (memoryMax - memoryTotalAfterInitAGC + memoryFreeAfterInitAGC) / MB); prop.putNum("memoryAvailNow", (memoryMax - memoryTotalNow + memoryFreeNow) / MB); prop.putNum("memoryTotalAfterStartup", memoryTotalAfterStartup / KB); prop.putNum("memoryTotalAfterInitBGC", memoryTotalAfterInitBGC / KB); prop.putNum("memoryTotalAfterInitAGC", memoryTotalAfterInitAGC / KB); prop.putNum("memoryTotalNow", memoryTotalNow / MB); prop.putNum("memoryFreeAfterStartup", memoryFreeAfterStartup / KB); prop.putNum("memoryFreeAfterInitBGC", memoryFreeAfterInitBGC / KB); prop.putNum("memoryFreeAfterInitAGC", memoryFreeAfterInitAGC / KB); prop.putNum("memoryFreeNow", memoryFreeNow / MB); prop.putNum("memoryUsedAfterStartup", (memoryTotalAfterStartup - memoryFreeAfterStartup) / KB); prop.putNum("memoryUsedAfterInitBGC", (memoryTotalAfterInitBGC - memoryFreeAfterInitBGC) / KB); prop.putNum("memoryUsedAfterInitAGC", (memoryTotalAfterInitAGC - memoryFreeAfterInitAGC) / KB); prop.putNum("memoryUsedNow", (memoryTotalNow - memoryFreeNow) / MB); // write table for FlexTable index sizes Iterator i = kelondroFlexTable.filenames(); String filename; Map map; int p, c = 0; long mem, totalmem = 0; while (i.hasNext()) { filename = (String) i.next(); map = kelondroFlexTable.memoryStats(filename); mem = Long.parseLong((String) map.get("tableIndexMem")); totalmem += mem; prop.put("TableList_" + c + "_tableIndexPath", ((p = filename.indexOf("DATA")) < 0) ? filename : filename.substring(p)); prop.put("TableList_" + c + "_tableIndexChunkSize", map.get("tableIndexChunkSize")); prop.putNum("TableList_" + c + "_tableIndexCount", (String)map.get("tableIndexCount")); prop.put("TableList_" + c + "_tableIndexMem", serverMemory.bytesToString(mem)); c++; } prop.put("TableList", c); prop.putNum("TableIndexTotalMem", totalmem / (1024 * 1024d)); // write table for EcoTable index sizes i = kelondroEcoTable.filenames(); c = 0; totalmem = 0; while (i.hasNext()) { filename = (String) i.next(); map = kelondroEcoTable.memoryStats(filename); prop.put("EcoList_" + c + "_tableIndexPath", ((p = filename.indexOf("DATA")) < 0) ? filename : filename.substring(p)); prop.putNum("EcoList_" + c + "_tableSize", (String) map.get("tableSize")); mem = Long.parseLong((String) map.get("tableKeyMem")); totalmem += mem; prop.put("EcoList_" + c + "_tableKeyMem", serverMemory.bytesToString(mem)); prop.put("EcoList_" + c + "_tableKeyChunkSize", map.get("tableKeyChunkSize")); mem = Long.parseLong((String) map.get("tableValueMem")); totalmem += mem; prop.put("EcoList_" + c + "_tableValueMem", serverMemory.bytesToString(mem)); prop.put("EcoList_" + c + "_tableValueChunkSize", map.get("tableValueChunkSize")); c++; } prop.put("EcoList", c); prop.putNum("EcoIndexTotalMem", totalmem / (1024 * 1024d)); // write node cache table i = kelondroCachedRecords.filenames(); c = 0; totalmem = 0; while (i.hasNext()) { filename = (String) i.next(); map = kelondroCachedRecords.memoryStats(filename); mem = Long.parseLong((String) map.get("nodeCacheMem")); totalmem += mem; prop.put("NodeList_" + c + "_nodeCachePath", ((p = filename.indexOf("DATA")) < 0) ? filename : filename.substring(p)); prop.put("NodeList_" + c + "_nodeChunkSize", map.get("nodeChunkSize")); prop.putNum("NodeList_" + c + "_nodeCacheCount", (String)map.get("nodeCacheCount")); prop.put("NodeList_" + c + "_nodeCacheMem", serverMemory.bytesToString(mem)); prop.putNum("NodeList_" + c + "_nodeCacheReadHit", (String)map.get("nodeCacheReadHit")); prop.putNum("NodeList_" + c + "_nodeCacheReadMiss", (String)map.get("nodeCacheReadMiss")); prop.putNum("NodeList_" + c + "_nodeCacheWriteUnique", (String)map.get("nodeCacheWriteUnique")); prop.putNum("NodeList_" + c + "_nodeCacheWriteDouble", (String)map.get("nodeCacheWriteDouble")); prop.putNum("NodeList_" + c + "_nodeCacheDeletes", (String)map.get("nodeCacheDeletes")); prop.putNum("NodeList_" + c + "_nodeCacheFlushes", (String)map.get("nodeCacheFlushes")); c++; } prop.put("NodeList", c); prop.putNum("nodeCacheStopGrow", kelondroCachedRecords.getMemStopGrow() / (1024 * 1024d)); prop.putNum("nodeCacheStartShrink", kelondroCachedRecords.getMemStartShrink() / (1024 * 1024d)); prop.putNum("nodeCacheTotalMem", totalmem / (1024 * 1024d)); // write object cache table i = kelondroCache.filenames(); c = 0; long hitmem, missmem, totalhitmem = 0, totalmissmem = 0; while (i.hasNext()) { filename = (String) i.next(); map = kelondroCache.memoryStats(filename); prop.put("ObjectList_" + c + "_objectCachePath", ((p = filename.indexOf("DATA")) < 0) ? filename : filename.substring(p)); // hit cache hitmem = Long.parseLong((String) map.get("objectHitMem")); totalhitmem += hitmem; prop.put("ObjectList_" + c + "_objectHitChunkSize", map.get("objectHitChunkSize")); prop.putNum("ObjectList_" + c + "_objectHitCacheCount", (String)map.get("objectHitCacheCount")); prop.put("ObjectList_" + c + "_objectHitCacheMem", serverMemory.bytesToString(hitmem)); prop.putNum("ObjectList_" + c + "_objectHitCacheReadHit", (String)map.get("objectHitCacheReadHit")); prop.putNum("ObjectList_" + c + "_objectHitCacheReadMiss", (String)map.get("objectHitCacheReadMiss")); prop.putNum("ObjectList_" + c + "_objectHitCacheWriteUnique", (String)map.get("objectHitCacheWriteUnique")); prop.putNum("ObjectList_" + c + "_objectHitCacheWriteDouble", (String)map.get("objectHitCacheWriteDouble")); prop.putNum("ObjectList_" + c + "_objectHitCacheDeletes", (String)map.get("objectHitCacheDeletes")); prop.putNum("ObjectList_" + c + "_objectHitCacheFlushes", (String)map.get("objectHitCacheFlushes")); // miss cache missmem = Long.parseLong((String) map.get("objectMissMem")); totalmissmem += missmem; prop.put("ObjectList_" + c + "_objectMissChunkSize", map.get("objectMissChunkSize")); prop.putNum("ObjectList_" + c + "_objectMissCacheCount", (String)map.get("objectMissCacheCount")); prop.putHTML("ObjectList_" + c + "_objectMissCacheMem", serverMemory.bytesToString(missmem)); prop.putNum("ObjectList_" + c + "_objectMissCacheReadHit", (String)map.get("objectMissCacheReadHit")); prop.putNum("ObjectList_" + c + "_objectMissCacheReadMiss", (String)map.get("objectMissCacheReadMiss")); prop.putNum("ObjectList_" + c + "_objectMissCacheWriteUnique", (String)map.get("objectMissCacheWriteUnique")); prop.putNum("ObjectList_" + c + "_objectMissCacheWriteDouble", (String)map.get("objectMissCacheWriteDouble")); prop.putNum("ObjectList_" + c + "_objectMissCacheDeletes", (String)map.get("objectMissCacheDeletes")); //prop.put("ObjectList_" + c + "_objectMissCacheFlushes", map.get("objectMissCacheFlushes")); c++; } prop.put("ObjectList", c); prop.putNum("objectCacheStopGrow", kelondroCache.getMemStopGrow() / (1024 * 1024d)); prop.putNum("objectCacheStartShrink", kelondroCache.getMemStartShrink() / (1024 * 1024d)); prop.putNum("objectHitCacheTotalMem", totalhitmem / (1024 * 1024d)); prop.putNum("objectMissCacheTotalMem", totalmissmem / (1024 * 1024d)); // parse initialization memory settings String Xmx = env.getConfig("javastart_Xmx", "Xmx96m").substring(3); prop.put("Xmx", Xmx.substring(0, Xmx.length() - 1)); String Xms = env.getConfig("javastart_Xms", "Xms96m").substring(3); prop.put("Xms", Xms.substring(0, Xms.length() - 1)); // other caching structures long amount = serverDomains.nameCacheHitSize(); prop.putNum("namecache.hit", amount); amount = serverDomains.nameCacheNoCachingListSize(); prop.putNum("namecache.noCache", amount); amount = plasmaSwitchboard.urlBlacklist.blacklistCacheSize(); prop.putNum("blacklistcache.size", amount); // return rewrite values for templates return prop; } }