package market.market_util; import java.io.*; import java.net.*; import java.sql.*; import market.market_util.*; /** * This class creates and control market rw Cache Table. It also creates and start Save Thread * @author: Nikolai Rangelov */ // IMPORTANT : Masivite rabotiat v obhvata na short chislata!!! public class market_rwCacher { private int MarketKey = Constants.No_MarketKey; private int MaxFields = 0; private volatile int FieldsInUse = 0; private byte CleaningFactor = 0; private rwCachTableField rwCachTable[] = null; private short IndexesOf[][] = null; private short Numbers[] = null; private short Others[] = null; private float AllAvrUsedCounts = 0; private long InitTime = 0; // The time when the CTFs are inited private long AllLastCleared = 0; // The time when the CTFs are last cleared. private market_rwSaver SaveThread = null; private Connection dbConnection = null; private boolean Cleaning = false; // Shows if CachTable is clearing at the moment private static LogPrinter market_rwLog = null; public Object SynchroRegistering; public volatile byte State = Constants.NOT_INITED; // private Object SynchroCount = null; private int RemoveMe; /** * market_rwCacher constructor. Here are loaded the global parameters for the market_rwCacher and *
started the save thread that periodically saves the Cache Table. */ public market_rwCacher(int MK, LogPrinter log) { State = Constants.NOT_INITED; SynchroRegistering = null; SynchroRegistering = new Object(); // SynchroCount = null; // SynchroCount = new Object(); AllAvrUsedCounts = 0; FieldsInUse = 0; Cleaning = false; CleaningFactor = 0; dbConnection = null; InitTime = 0; market_rwLog = null; MarketKey = Constants.No_MarketKey; MaxFields = 0; market_rwLog = log; if (market_rwLog == null) { State = Constants.LOG_ERROR; } else { try { MarketKey = MK; MaxFields = market_rwConf.csh_MaxCachFieldsInRW; CleaningFactor = market_rwConf.cb_CleaningFactor; if (MarketKey < 1 || MaxFields < 1 || CleaningFactor < 1) { market_rwLog.log("market_rwCacher (constructor) : Error in sent market key or csh_MaxCachFieldsInRW or cb_CleaningFactor parameter.", LogPrinter.ERROR); market_rwLog.flush(); State = Constants.INIT_ERROR; } else { InitTime = System.currentTimeMillis() / 1000; AllLastCleared = InitTime; rwCachTable = new rwCachTableField[MaxFields + 1]; // ...ds + 1 because CachTable[0] is not used. for (int i = 0; i <= MaxFields; i++) rwCachTable[i] = new rwCachTableField(); IndexesOf = new short[26][MaxFields]; Numbers = new short[MaxFields]; Others = new short[MaxFields]; if (!rwCacherdbConnect()) { market_rwLog.log("market_rwCacher (constructor) : Error in getting db connection.", LogPrinter.ERROR); market_rwLog.flush(); State = Constants.CONN_ERROR; } else { SaveThread = new market_rwSaver(rwCachTable, (short)MaxFields, MarketKey, market_rwLog); SaveThread.start(); if (SaveThread.State == Constants.READY) { market_rwLog.log("market_rwCacher (constructor) : Save Thread ok. Rw Cache is ready to work.", LogPrinter.INFO); market_rwLog.flush(); State = Constants.READY; } else { market_rwLog.log("market_rwCacher (constructor) : Rw Cache is not ready to work. Cannot start Save Thread. State - " + SaveThread.State, LogPrinter.ERROR); market_rwLog.flush(); State = Constants.SAVE_THREAD_ERROR; } } } } catch (Exception e) { market_rwLog.log("market_rwCacher (constructor) : Exception during init. MaxFields - " + MaxFields + ", MarketKey - " + MarketKey + ", ClearingFactor - " + CleaningFactor + ", InitTime - " + InitTime + ", rwCachTable - " + rwCachTable + ", dbConnection - " + dbConnection + ", SaveThread - " + SaveThread, LogPrinter.ERROR); market_rwLog.flush(); State = Constants.INIT_ERROR; } } } /** * The function adds Cache Table indes number to index arrays. * @return boolean * @param rwChar char - the first sign of the rwString * @param Index short - the index in the cache table */ private boolean AddIndex(char rwChar, short Index) { short Count = 0; try { if (rwChar >= 'a' && rwChar <= 'z') { int First = ((short) (rwChar)) - ((short) ('a')); for (Count = 0; Count < MaxFields; Count++) if (IndexesOf[First][Count] == Constants.Zero_Key) { IndexesOf[First][Count] = Index; return true; } } else if (rwChar >= '0' && rwChar <= '9') { for (Count = 0; Count < MaxFields; Count++) if (Numbers[Count] == Constants.Zero_Key) { Numbers[Count] = Index; return true; } } else { for (Count = 0; Count < MaxFields; Count++) if (Others[Count] == Constants.Zero_Key) { Others[Count] = Index; return true; } } } catch (Exception e) { market_rwLog.log("market_rwCacher (AddIndex) : Exception - " + e, LogPrinter.ERROR); market_rwLog.flush(); } return false; } /** * Destroys the Save thread and the Cache. It frees all resources allocated by the cacher */ public void destroy() { try { for (int i = 0; i < 3; i++) { if (!SaveThread.IsSaving) { break; } else Thread.sleep(1000); } SaveThread.suspend(); SaveThread.SaveRwCache(); SaveThread.rwSaverdbDisConnect(); SaveThread.stop(); market_rwLog.log("market_rwCacher (destoy): Save Thread stoped.", LogPrinter.INFO); } catch (Exception t) { market_rwLog.log("market_rwCacher (destoy): Exception on stopping Save Thread - " + t, LogPrinter.ERROR); } market_rwLog.log("\n\n market_rwCacher : Just before destroying rwCachTable it is : \n", LogPrinter.DEBUG); for (int i = 1; i <= MaxFields; i++) { if (rwCachTable[i].cf_rwKey != Constants.No_Key) market_rwLog.log(" Cell : " + i + " | " + rwCachTable[i].cf_rwKey + " | " + rwCachTable[i].cf_rwString + " | " + rwCachTable[i].cf_rwCounts + " | " + rwCachTable[i].cf_langKey + " | " + rwCachTable[i].cf_rwLastCounts + " | | " + rwCachTable[i].cf_NA + " | " + rwCachTable[i].cf_UsedCounts + " | " + rwCachTable[i].cf_AvrUsedCounts + " | " + rwCachTable[i].cf_Loaded + " ||", LogPrinter.DEBUG); } rwCacherdbDisConnect(); rwCachTable = null; market_rwLog.log("market_rwCacher (destoy): market rw Cache Table destroyed.", LogPrinter.INFO); SaveThread = null; System.gc(); Thread.yield(); } /** * The function removes Cache Table indes number from index arrays. * @return boolean * @param rwChar char - the first sign of the rwString * @param Index short - the index in the cache table */ private boolean RemoveIndex(char rwChar, int Index) { short Count = 0; try { if (rwChar >= 'a' && rwChar <= 'z') { int First = ((int) (rwChar)) - ((int) ('a')); for (Count = 0; Count < MaxFields; Count++) if (IndexesOf[First][Count] == Index) { IndexesOf[First][Count] = Constants.Zero_Key; return true; } } else if (rwChar >= '0' && rwChar <= '9') { for (Count = 0; Count < MaxFields; Count++) if (Numbers[Count] == Index) { Numbers[Count] = Constants.Zero_Key; return true; } } else { for (Count = 0; Count < MaxFields; Count++) if (Others[Count] == Index) { Others[Count] = Constants.Zero_Key; return true; } } } catch (Exception e) { market_rwLog.log("market_rwCacher (RemoveIndex) : Exception : " + e, LogPrinter.ERROR); market_rwLog.flush(); } return false; } /** * This method connects the market_rwCacher to Market_rw DB * @return boolean *
true - if the method succeed (we have connection) *
false - if the method failed (we don't have connection) */ private boolean rwCacherdbConnect() { try { Class.forName(market_rwConf.db_Drivers).newInstance(); market_rwLog.log("market_rwCacher (rwCacherdbConnect) : Got a driver to " + dbFields.db_market_rwServerDB + " db.", LogPrinter.INFO); } catch (Exception E) { market_rwLog.log("market_rwCacher (rwCacherdbConnect) : Unable to load a driver to " + dbFields.db_market_rwServerDB + " db. Exception : " + E, LogPrinter.ERROR); market_rwLog.flush(); return false; } dbConnection = null; try { dbConnection = DriverManager.getConnection(market_rwConf.db_host + dbFields.db_market_rwServerDB, market_rwConf.db_user, market_rwConf.db_password); market_rwLog.log("market_rwCacher (rwCacherdbConnect) : Conection to " + dbFields.db_market_rwServerDB + " db Established.", LogPrinter.INFO); if (dbConnection == null || dbConnection.isClosed()) { market_rwLog.flush(); return false; } market_rwLog.flush(); return true; } catch (SQLException E) { market_rwLog.log("market_rwCacher (rwCacherdbConnect) : SQLException in getting Connection to " + dbFields.db_market_rwServerDB + " db : " + E, LogPrinter.ERROR); market_rwLog.log("market_rwCacher (rwCacherdbConnect) : SQLException: " + E.getMessage(), LogPrinter.ERROR); market_rwLog.log("market_rwCacher (rwCacherdbConnect) : SQLState: " + E.getSQLState(), LogPrinter.ERROR); market_rwLog.flush(); return false; } } /** * This method disconnects the market_rwCacher from Market_rw DB softly. If there is error during *
disconneting procedure the connection is disconnected hard way (equals null). */ private void rwCacherdbDisConnect() { try { if (dbConnection != null) { dbConnection.close(); market_rwLog.log("market_rwCacher (rwCacherdbDisConnect) : " + dbFields.db_market_rwServerDB + " db closed.", LogPrinter.INFO); market_rwLog.flush(); dbConnection = null; } return; } catch (Exception e) { market_rwLog.log("market_rwCacher (rwCacherdbDisConnect) : Cannot close the " + dbFields.db_market_rwServerDB + " db \n" + e, LogPrinter.ERROR); market_rwLog.flush(); return; } } /** * Cleans the Cache Table when it is full. The criteria is the average used count for the whole system and
* a percetage average used count for the specified Cache Table field. * @return boolean *
true - if the method succeed *
false - if the method failed */ private boolean rwCleanCachFields() { if (State != Constants.READY) { market_rwLog.log("market_rwCacher (rwCleanCachFields) : Error in Thread State - " + State, LogPrinter.ERROR); market_rwLog.flush(); return false; } int ii = 0; for (int Count = 1; Count <= MaxFields; Count++) { if (rwCachTable[Count].cf_rwKey == Constants.No_Key) ii++; } market_rwLog.log("market_rwCacher (rwCleanCachFields) : Begin Cleaning with filds in use:" + FieldsInUse + " and Real:" + ii, LogPrinter.DEBUG_1); market_rwLog.flush(); AllAvrUsedCounts = 0; String SQLStat = null; rwCachTableField Field = null; long TimeNow = (System.currentTimeMillis() / 1000) + 1; //It is + 1 because it always will be 1 sec. > InitTime or AllLastCleared // int TempFactor = CleaningFactor; market_rwLog.log("\n\nmarket_rwCacher (rwCleanCachFields) : Begin Cleaning ...", LogPrinter.DEBUG); for (int Count = 1; Count <= MaxFields; Count++) { Field = rwCachTable[Count]; do { synchronized (Field) { if (!Field.cf_NA) { Field.cf_NA = true; break; } } // sinchronized try { Thread.sleep(20); } catch (Exception e) { market_rwLog.log("market_rwCacher (rwCleanCachFields) : Error on waiting for calculation of AvrUC in market_rwCleanCache!", LogPrinter.ERROR); market_rwLog.flush(); return false; } } while (true); try { Field.cf_AvrUsedCounts = (((float) (AllLastCleared - Field.cf_Loaded)) * Field.cf_AvrUsedCounts + (float) Field.cf_UsedCounts) / ((float) (TimeNow - Field.cf_Loaded)); Field.cf_UsedCounts = 0; Field.cf_NA = false; AllAvrUsedCounts += Field.cf_AvrUsedCounts; market_rwLog.log("market_rwCacher : Cell (rwCleanCachFields) : " + Count + " | rwKey = " + Field.cf_rwKey + " | UC = " + Field.cf_UsedCounts + " | AvrUC = " + Field.cf_AvrUsedCounts + " | L = " + Field.cf_Loaded, LogPrinter.DEBUG_2); } catch (Exception e) { Field.cf_NA = false; market_rwLog.log("market_rwCacher (rwCleanCachFields) : Error in recouculation of the field - " + Count + " |rwKey=" + Field.cf_rwKey + "|UC=" + Field.cf_UsedCounts + "|AvrUC=" + Field.cf_AvrUsedCounts + "|L=" + Field.cf_Loaded + "|NA=" + Field.cf_NA + "\n" + e, LogPrinter.ERROR); market_rwLog.flush(); return false; } } AllAvrUsedCounts = AllAvrUsedCounts / MaxFields; AllAvrUsedCounts += 0.01; market_rwLog.log("market_rwCacher (rwCleanCachFields) : Befor removing TimeNow " + TimeNow + "\n AllAvrUC = " + AllAvrUsedCounts + " and Factor = " + CleaningFactor, LogPrinter.DEBUG_1); //do { // market_log.log("--------------------- Factor will be " + TempFactor + " -------------------------" ,LogPrinter.DEBUG); for (int Count = 1; Count <= MaxFields; Count++) { Field = rwCachTable[Count]; if (Field.cf_AvrUsedCounts <= AllAvrUsedCounts) { do { synchronized (Field) { if (!Field.cf_NA) { Field.cf_NA = true; break; } } // sinchronized try { Thread.sleep(20); } catch (Exception e) { market_rwLog.log("market_rwCacher (rwCleanCachFields) : Error on waiting for calculation of AvrUC in market_rwCleanCache!\n" + e, LogPrinter.ERROR); market_rwLog.flush(); return false; } } while (true); if (!rwWriteInDB(Field)) { Field.cf_NA = false; return false; } try { if (!RemoveIndex(Field.cf_rwString.toLowerCase().charAt(0), Count)) { Field.cf_NA = false; market_rwLog.log("market_rwCacher (rwCleanCachFields) : Cannot remove index " + Count + " from one of index arrays. rwString-" + Field.cf_rwString, LogPrinter.ERROR); market_rwLog.flush(); return false; } } catch (Exception e1) { Field.cf_NA = false; market_rwLog.log("market_rwCacher (rwCleanCachFields) : Removing cache field error - " + Count + " rwString=" + Field.cf_rwString + " |rwKey=" + Field.cf_rwKey + "|UC=" + Field.cf_UsedCounts + "|AvrUC=" + Field.cf_AvrUsedCounts + "|L=" + Field.cf_Loaded + "|NA=" + Field.cf_NA + "|FieldsInUse=" + FieldsInUse + "|MaxFields=" + MaxFields + "\n" + e1, LogPrinter.ERROR); market_rwLog.flush(); } try { Field.cf_rwKey = Constants.No_Key; Field.cf_rwString = null; Field.cf_langKey = 0; Field.cf_rwCounts = 0; Field.cf_UsedCounts = 0; Field.cf_rwLastCounts = 0; Field.cf_AvrUsedCounts = 0; Field.cf_Loaded = 0; Field.cf_NA = false; // synchronized (SynchroCount) { --FieldsInUse; // } market_rwLog.log("market_rwCacher (rwCleanCachFields) : rwCounts for rwKey | " + Field.cf_rwKey + " | updated and removed from CachTable", LogPrinter.DEBUG_1); } catch (Exception e1) { Field.cf_NA = false; market_rwLog.log("market_rwCacher (rwCleanCachFields) : Error in removing cache field - " + Count + " |rwKey=" + Field.cf_rwKey + "|UC=" + Field.cf_UsedCounts + "|AvrUC=" + Field.cf_AvrUsedCounts + "|L=" + Field.cf_Loaded + "|NA=" + Field.cf_NA + "|FieldsInUse=" + FieldsInUse + "|MaxFields=" + MaxFields + "\n" + e1, LogPrinter.ERROR); market_rwLog.flush(); } } //if() } //for // TempFactor += Constants.cb_IncreasingFactor; //} while (FieldsInUse == MaxFields); AllLastCleared = TimeNow; market_rwLog.log("\n\nmarket_rwCacher (rwCleanCachFields) : After removing InitTime = " + InitTime + " TimeNow " + TimeNow + "\n AllAvrUsedCounts = " + AllAvrUsedCounts + " and Factor = " + CleaningFactor, LogPrinter.DEBUG_1); for (int i = 1; i <= MaxFields; i++) market_rwLog.log("Cell : " + i + " | " + rwCachTable[i].cf_rwKey + " | " + rwCachTable[i].cf_rwCounts + " | " + rwCachTable[i].cf_langKey + " || " + rwCachTable[i].cf_NA + " | " + rwCachTable[i].cf_UsedCounts + " | " + rwCachTable[i].cf_AvrUsedCounts + " ||", LogPrinter.DEBUG_1); market_rwLog.log("\n\n", LogPrinter.DEBUG_1); market_rwLog.log("market_rwCache : market rwCacheTable Cleaned.", LogPrinter.DEBUG); return true; } /** * Registers new Cache Table field in the Cache Table. * @return boolean *
true - if the method succeed *
false - if the method failed */ public synchronized boolean rwRegisterCachField(long RrwKey, String RrwString, short RlangKey, int RrwCounts) { if (State != Constants.READY) { market_rwLog.log("market_rwCacher (rwRegisterCachField) : Error in Cache State - " + State, LogPrinter.ERROR); market_rwLog.flush(); return false; } if (RrwKey < 255 || RrwString == null || RlangKey < 1 || RrwCounts < 1) { market_rwLog.log("market_rwCacher (rwRegisterCachField) : Error in the input param! - " + RrwKey + " , " + RrwString + " , " + RlangKey + " , " + RrwCounts, LogPrinter.ERROR); market_rwLog.flush(); return false; } rwCachTableField Field = null; try { // synchronized (SynchroRegistering) { if (rwSearchForString(RrwString, RlangKey) == Constants.No_Key) { //Here we increase the factor if this don't clear the table at all while (FieldsInUse == MaxFields) { if (Cleaning == true) { try { Thread.sleep(200); } catch (Exception e) { market_rwLog.log("market_rwCacher (rwRegisterCachField) : Exception on sleeping in rwRegisterCachField method!", LogPrinter.ERROR); market_rwLog.flush(); return false; } } else { Cleaning = true; // System.out.println("Begin Cleaning"); //dfdfsadfgasdfgadfgadfga if (!rwCleanCachFields()) { Cleaning = false; market_rwLog.log("market_rwCacher (rwRegisterCachField) : Clean method failure!", LogPrinter.ERROR); market_rwLog.flush(); return false; } Cleaning = false; } // else } int FieldNumber = 0; for (FieldNumber = 1; FieldNumber < (MaxFields + 1); FieldNumber++) { // Here FieldNumber must start from 1 because 0 is not a valid value in Indexes arrays Field = rwCachTable[FieldNumber]; if (Field.cf_rwKey == Constants.No_Key) { // Here we get the field do { synchronized (Field) { if (!Field.cf_NA) { Field.cf_NA = true; break; } } // sinchronized try { Thread.sleep(20); } catch (Exception e) { market_rwLog.log("market_rwCacher (rwRegisterCachField) : Error on waiting for calculation of AvrUC in market_rwRegisterCacheField!", LogPrinter.ERROR); market_rwLog.flush(); return false; } } while (true); // Here we add the field to its index array if (!AddIndex(RrwString.charAt(0), (short) FieldNumber)) { Field.cf_NA = false; market_rwLog.log("market_rwCacher (rwRegisterCachField) : Error - AddIndex() failure!", LogPrinter.ERROR); market_rwLog.flush(); return false; } // WE fill the values Field.cf_rwKey = RrwKey; Field.cf_rwString = RrwString; Field.cf_langKey = RlangKey; Field.cf_rwCounts = RrwCounts; Field.cf_rwLastCounts = System.currentTimeMillis(); Field.cf_Loaded = AllLastCleared; Field.cf_UsedCounts = 1; Field.cf_AvrUsedCounts = 0; Field.cf_NA = false; FieldsInUse = FieldsInUse + 1; market_rwLog.log("market_rwCacher (rwRegisterCachField) registerd in Cell:" + FieldNumber + " - " + Field.cf_rwKey + " , " + Field.cf_rwString + " , " + Field.cf_langKey + " , " + Field.cf_rwCounts, LogPrinter.DEBUG); return true; } //if(... == No_Key) } // for market_rwLog.log("market_rwCacher (rwRegisterCachField) : " + RrwString + " has not entered in CT.", LogPrinter.ERROR); market_rwLog.flush(); return false; } //if(wrSearch ... else { market_rwLog.log("market_rwCacher (rwRegisterCachField) : " + RrwString + " has already been registered.", LogPrinter.DEBUG_1); market_rwLog.flush(); long res = rwResolveString(RrwString, RlangKey, RrwCounts); if (res == Constants.No_Key) { // if (!rwRegisterCachField(RrwKey, RrwString, RlangKey, RrwCounts)) { // If you turn that on you are dead. This is dead lock. market_rwLog.log("market_rwCacher (rwRegisterCachField) : " + RrwString + " is tried to be resolve second time but failed.", LogPrinter.ERROR); market_rwLog.flush(); return false; // } } else { if (res == 0) { market_rwLog.log("market_rwCacher (rwRegisterCachField) : " + RrwString + " can not be resolved. Second Resolve failed.", LogPrinter.ERROR); market_rwLog.flush(); return false; } } market_rwLog.log("market_rwCacher (rwRegisterCachField) reolved : " + RrwKey + " , " + RrwString + " , " + RlangKey + " , " + RrwCounts, LogPrinter.DEBUG); return true; } // } //synchro } catch (Exception e) { market_rwLog.log("market_rwCacher (rwRegisterCachField) : Exception on " + RrwString + " Field :" + Field + ": - " + e, LogPrinter.ERROR); market_rwLog.flush(); return false; } } /** * This method updates the rwCounts Cache Table Fild and returns rwKey on givern rwString and langKey. *
If there is no such returns Constants.No_Key constant. * @return rwKey long - found rwKey or market_util.Constants.No_Key */ public long rwResolveString(String SrwString, short SlangKey, int SrwCounts) { if (State != Constants.READY) { market_rwLog.log("market_rwCacher (rwResolveString) : Error in Cache State - " + State, LogPrinter.ERROR); market_rwLog.flush(); return 0; } int Count = 0; int index = 0; rwCachTableField Field = null; try { char p = SrwString.toLowerCase().charAt(0); // if the rw is a letter if (p >= 'a' && p <= 'z') { int first = ((int) p) - ((int) 'a'); for (Count = 0; Count < MaxFields; Count++) { index = IndexesOf[first][Count]; Field = rwCachTable[index]; if (SrwString.equals(Field.cf_rwString) && Field.cf_langKey == SlangKey) { // here we try to get the field but if it is not available then we start the loop from 0 because it can be get to be cleaned if (Field.cf_NA == true) { try { Thread.sleep(20); Count = 0; } catch (Exception e) { market_rwLog.log("market_rwCacher (rwResolveString) : Error on waiting in Getting NA flag in rwResolveString!", LogPrinter.ERROR); market_rwLog.flush(); return 0; } } else { // Here we get the key synchronized (Field) { if (!Field.cf_NA) { Field.cf_NA = true; } else { Count = 0; } } // sinchronized Field.cf_rwCounts += SrwCounts; Field.cf_rwLastCounts = System.currentTimeMillis(); Field.cf_UsedCounts++; Field.cf_NA = false; market_rwLog.log("market_rwCacher (rwResolveString) : resolved - " + Field.cf_rwKey + " , " + Field.cf_rwString + " , " + Field.cf_langKey + " , " + Field.cf_rwCounts, LogPrinter.DEBUG); return Field.cf_rwKey; } //else } //if(equals } //for } // if(p else if ((p >= '0') && (p <= '9')) { for (Count = 0; Count < MaxFields; Count++) { index = Numbers[Count]; Field = rwCachTable[index]; if (SrwString.equals(Field.cf_rwString) && Field.cf_langKey == SlangKey) { if (Field.cf_NA == true) { try { Thread.sleep(20); Count = 0; } catch (Exception e) { market_rwLog.log("market_rwCacher (rwResolveString) : Error on waiting in Getting NA flag in rwResolveString!", LogPrinter.ERROR); market_rwLog.flush(); return 0; } } else { synchronized (Field) { if (!Field.cf_NA) { Field.cf_NA = true; } else { Count = 0; } } // sinchronized Field.cf_rwCounts += SrwCounts; Field.cf_rwLastCounts = System.currentTimeMillis(); Field.cf_UsedCounts++; Field.cf_NA = false; market_rwLog.log("market_rwCacher (rwResolveString) : resolved - " + Field.cf_rwKey + " , " + Field.cf_rwString + " , " + Field.cf_langKey + " , " + Field.cf_rwCounts, LogPrinter.DEBUG); return Field.cf_rwKey; } // else } // if (equals } //for } else { for (Count = 0; Count < MaxFields; Count++) { index = Others[Count]; Field = rwCachTable[index]; if (SrwString.equals(Field.cf_rwString) && Field.cf_langKey == SlangKey) { if (Field.cf_NA == true) { try { Thread.sleep(20); Count = 0; } catch (Exception e) { market_rwLog.log("market_rwCacher (rwResolveString) : Error on waiting in Getting NA flag in rwResolveString!", LogPrinter.ERROR); market_rwLog.flush(); return 0; } } else { synchronized (Field) { if (!Field.cf_NA) { Field.cf_NA = true; } else { Count = 0; } } // sinchronized Field.cf_rwCounts += SrwCounts; Field.cf_rwLastCounts = System.currentTimeMillis(); Field.cf_UsedCounts++; Field.cf_NA = false; market_rwLog.log("market_rwCacher (rwResolveString) : resolved - " + Field.cf_rwKey + " , " + Field.cf_rwString + " , " + Field.cf_langKey + " , " + Field.cf_rwCounts, LogPrinter.DEBUG); return Field.cf_rwKey; } //else } //if } //for } //else return Constants.No_Key; } catch (Exception e) { market_rwLog.log("market_rwCacher (rwResolveString) : Exception - " + e, LogPrinter.ERROR); market_rwLog.flush(); return 0; } } /** * This method only returns rwKey on givern rwString/langKey. If there is no such returns No_Key Constant. * @return rwKey long */ public long rwSearchForString(String SrwString, int SlangKey) { if (State != Constants.READY) { market_rwLog.log("market_rwCacher (rwResolveString) : Error in Cache State - " + State, LogPrinter.ERROR); market_rwLog.flush(); return Constants.No_Key; } int Count = 0; int index = 0; char p; try { p = SrwString.toLowerCase().charAt(0); if (p >= 'a' && p <= 'z') { int first = ((int) p) - ((int) 'a'); for (Count = 0; Count < MaxFields; Count++) { index = IndexesOf[first][Count]; if (SrwString.equals(rwCachTable[index].cf_rwString) && rwCachTable[index].cf_langKey == SlangKey) return rwCachTable[index].cf_rwKey; } //for } // if(p else if ((p >= '0') && (p <= '9')) { for (Count = 0; Count < MaxFields; Count++) { index = Numbers[Count]; if (SrwString.equals(rwCachTable[index].cf_rwString) && rwCachTable[index].cf_langKey == SlangKey) return rwCachTable[index].cf_rwKey; } //for } else { for (Count = 0; Count < MaxFields; Count++) { index = Others[Count]; if (SrwString.equals(rwCachTable[index].cf_rwString) && rwCachTable[index].cf_langKey == SlangKey) return rwCachTable[index].cf_rwKey; } //for } return Constants.No_Key; } catch (Exception e) { market_rwLog.log("market_rwCacher (rwSearchForString) : Exception - " + e, LogPrinter.ERROR); market_rwLog.flush(); return Constants.No_Key; } } /** * Updates the rwCounts and rwLastCounted properties of rw CacheTableField in the Market_rw DB. * @return boolean *
true - if the method succeed *
false - if the method failed */ private boolean rwWriteInDB(rwCachTableField Field) { String SQLStat = null; try { if (dbConnection == null) throw new SQLException(); if (Field.cf_rwCounts != 0) { SQLStat = "UPDATE " + Constants.market_rwWhichTable(Field.cf_rwString.charAt(0), MarketKey) + " SET " + dbFields.db_rwMarketCounts + " = " + dbFields.db_rwMarketCounts + " + " + String.valueOf(Field.cf_rwCounts) + " , " + dbFields.db_rwMarketLastCount + " = '" + new java.sql.Date(System.currentTimeMillis()) + "' WHERE " + dbFields.db_rwKey + " = " + String.valueOf(Field.cf_rwKey); Statement stmt = dbConnection.createStatement(); int result = stmt.executeUpdate(SQLStat); if (result == 1) { market_rwLog.log("market_rwCacher (rwWriteInDB) : rwString = " + Field.cf_rwString + " updated in the DB.", LogPrinter.DEBUG); } else { market_rwLog.log("market_rwCacher (rwWriteInDB) : Res from updating = " + result + ", rwKey = " + Field.cf_rwKey + ", rwCounts = " + Field.cf_rwCounts + ", rwString :" + Field.cf_rwString + ": unusual result.", LogPrinter.ERROR); } stmt.close(); } return true; } catch (SQLException e) { try { if (dbConnection == null || dbConnection.isClosed()) { if (!rwCacherdbConnect()) { market_rwLog.log("market_rwCacher (rwWriteInDB) : market_rwdbConnect() failure.", LogPrinter.ERROR); market_rwLog.flush(); return false; } market_rwLog.log("market_rwCacher (rwWriteInDB) : Reconnection to db done.", LogPrinter.INFO); market_rwLog.flush(); return rwWriteInDB(Field); } else { market_rwLog.log("market_rwCacher (rwWriteInDB) : SQL Statement error - " + SQLStat + "\n" + e, LogPrinter.ERROR); market_rwLog.flush(); return false; } } catch (Exception ex) { market_rwLog.log("market_rwCacher (rwWriteInDB) : Exception in re-connect: " + ex, LogPrinter.ERROR); market_rwLog.flush(); return false; } } catch (NumberFormatException e) { market_rwLog.log("market_rwCacher (rwWriteInDB) : error format - " + SQLStat + "\n" + e, LogPrinter.ERROR); market_rwLog.flush(); return false; } catch (Exception e) { market_rwLog.log("market_rwCacher (rwWriteInDB) : Exception - " + SQLStat + "\n" + e, LogPrinter.ERROR); market_rwLog.flush(); return false; } } }