Exemplo n.º 1
0
 /**
  * Get the next row from the list.
  *
  * @return the next row
  */
 public Row next() {
   Row r;
   if (file == null) {
     r = list.get(index++);
   } else {
     if (listIndex >= list.size()) {
       list.clear();
       listIndex = 0;
       Data buff = rowBuff;
       buff.reset();
       int min = Constants.FILE_BLOCK_SIZE;
       file.readFully(buff.getBytes(), 0, min);
       int len = buff.readInt() * Constants.FILE_BLOCK_SIZE;
       buff.checkCapacity(len);
       if (len - min > 0) {
         file.readFully(buff.getBytes(), min, len - min);
       }
       while (true) {
         r = readRow(buff);
         if (r == null) {
           break;
         }
         list.add(r);
       }
     }
     index++;
     r = list.get(listIndex++);
   }
   return r;
 }
Exemplo n.º 2
0
 @Override
 public int addRows(ArrayList<Value[]> rows) {
   if (sort != null) {
     sort.sort(rows);
   }
   Data buff = rowBuff;
   long start = file.getFilePointer();
   ByteArrayOutputStream buffer = new ByteArrayOutputStream();
   int bufferLen = 0;
   for (Value[] row : rows) {
     buff.reset();
     buff.writeInt(0);
     for (int j = 0; j < columnCount; j++) {
       Value v = row[j];
       buff.checkCapacity(buff.getValueLen(v));
       buff.writeValue(v);
     }
     buff.fillAligned();
     int len = buff.length();
     buff.setInt(0, len);
     if (maxBufferSize > 0) {
       buffer.write(buff.getBytes(), 0, len);
       bufferLen += len;
       if (bufferLen > maxBufferSize) {
         byte[] data = buffer.toByteArray();
         buffer.reset();
         file.write(data, 0, data.length);
         bufferLen = 0;
       }
     } else {
       file.write(buff.getBytes(), 0, len);
     }
   }
   if (bufferLen > 0) {
     byte[] data = buffer.toByteArray();
     file.write(data, 0, data.length);
   }
   if (sort != null) {
     ResultDiskTape tape = new ResultDiskTape();
     tape.start = start;
     tape.end = file.getFilePointer();
     tapes.add(tape);
   } else {
     mainTape.end = file.getFilePointer();
   }
   rowCount += rows.size();
   return rowCount;
 }
Exemplo n.º 3
0
 private void flushBuffer(Data buff) {
   buff.checkCapacity(1);
   buff.writeByte((byte) 0);
   buff.fillAligned();
   buff.setInt(0, buff.length() / Constants.FILE_BLOCK_SIZE);
   file.write(buff.getBytes(), 0, buff.length());
 }
Exemplo n.º 4
0
 private void readRow(ResultDiskTape tape) {
   int min = Constants.FILE_BLOCK_SIZE;
   Data buff = rowBuff;
   buff.reset();
   file.readFully(buff.getBytes(), 0, min);
   int len = buff.readInt();
   buff.checkCapacity(len);
   if (len - min > 0) {
     file.readFully(buff.getBytes(), min, len - min);
   }
   tape.pos += len;
   Value[] row = new Value[columnCount];
   for (int k = 0; k < columnCount; k++) {
     row[k] = buff.readValue();
   }
   tape.buffer.add(row);
 }
Exemplo n.º 5
0
 /**
  * Set the state of an in-doubt transaction.
  *
  * @param sessionId the session
  * @param pageId the page where the commit was prepared
  * @param commit whether the transaction should be committed
  */
 void setInDoubtTransactionState(int sessionId, int pageId, boolean commit) {
   PageStreamData d = (PageStreamData) store.getPage(pageId);
   d.initWrite();
   Data buff = store.createData();
   buff.writeByte((byte) (commit ? COMMIT : ROLLBACK));
   buff.writeVarInt(sessionId);
   byte[] bytes = buff.getBytes();
   d.write(bytes, 0, bytes.length);
   bytes = new byte[d.getRemaining()];
   d.write(bytes, 0, bytes.length);
   d.write();
 }
Exemplo n.º 6
0
 /**
  * Add an undo entry to the log. The page data is only written once until the next checkpoint.
  *
  * @param pageId the page id
  * @param page the old page data
  */
 void addUndo(int pageId, Data page) {
   if (undo.get(pageId) || freeing) {
     return;
   }
   if (trace.isDebugEnabled()) {
     trace.debug("log undo " + pageId);
   }
   if (SysProperties.CHECK) {
     if (page == null) {
       DbException.throwInternalError("Undo entry not written");
     }
   }
   undo.set(pageId);
   undoAll.set(pageId);
   Data buffer = getBuffer();
   buffer.writeByte((byte) UNDO);
   buffer.writeVarInt(pageId);
   if (page.getBytes()[0] == 0) {
     buffer.writeVarInt(1);
   } else {
     int pageSize = store.getPageSize();
     if (COMPRESS_UNDO) {
       int size = compress.compress(page.getBytes(), pageSize, compressBuffer, 0);
       if (size < pageSize) {
         buffer.writeVarInt(size);
         buffer.checkCapacity(size);
         buffer.write(compressBuffer, 0, size);
       } else {
         buffer.writeVarInt(0);
         buffer.checkCapacity(pageSize);
         buffer.write(page.getBytes(), 0, pageSize);
       }
     } else {
       buffer.writeVarInt(0);
       buffer.checkCapacity(pageSize);
       buffer.write(page.getBytes(), 0, pageSize);
     }
   }
   write(buffer);
 }
Exemplo n.º 7
0
 /**
  * Read a row from an input stream.
  *
  * @param in the input stream
  * @param data a temporary buffer
  * @return the row
  */
 public static Row readRow(DataReader in, Data data) throws IOException {
   long key = in.readVarLong();
   int len = in.readVarInt();
   data.reset();
   data.checkCapacity(len);
   in.readFully(data.getBytes(), len);
   int columnCount = data.readVarInt();
   Value[] values = new Value[columnCount];
   for (int i = 0; i < columnCount; i++) {
     values[i] = data.readValue();
   }
   Row row = new Row(values, Row.MEMORY_CALCULATE);
   row.setKey(key);
   return row;
 }
Exemplo n.º 8
0
 /**
  * A record is added to a table, or removed from a table.
  *
  * @param session the session
  * @param tableId the table id
  * @param row the row to add
  * @param add true if the row is added, false if it is removed
  */
 void logAddOrRemoveRow(Session session, int tableId, Row row, boolean add) {
   if (trace.isDebugEnabled()) {
     trace.debug(
         "log "
             + (add ? "+" : "-")
             + " s: "
             + session.getId()
             + " table: "
             + tableId
             + " row: "
             + row);
   }
   session.addLogPos(logSectionId, logPos);
   logPos++;
   Data data = dataBuffer;
   data.reset();
   int columns = row.getColumnCount();
   data.writeVarInt(columns);
   data.checkCapacity(row.getByteCount(data));
   if (session.isRedoLogBinaryEnabled()) {
     for (int i = 0; i < columns; i++) {
       data.writeValue(row.getValue(i));
     }
   } else {
     for (int i = 0; i < columns; i++) {
       Value v = row.getValue(i);
       if (v.getType() == Value.BYTES) {
         data.writeValue(ValueNull.INSTANCE);
       } else {
         data.writeValue(v);
       }
     }
   }
   Data buffer = getBuffer();
   buffer.writeByte((byte) (add ? ADD : REMOVE));
   buffer.writeVarInt(session.getId());
   buffer.writeVarInt(tableId);
   buffer.writeVarLong(row.getKey());
   if (add) {
     buffer.writeVarInt(data.length());
     buffer.checkCapacity(data.length());
     buffer.write(data.getBytes(), 0, data.length());
   }
   write(buffer);
 }
Exemplo n.º 9
0
 /**
  * Read the next bytes from the buffer.
  *
  * @param startPos the position in the data page
  * @param buff the target buffer
  * @param off the offset in the target buffer
  * @param len the number of bytes to read
  */
 void read(int startPos, byte[] buff, int off, int len) {
   System.arraycopy(data.getBytes(), startPos, buff, off, len);
 }
Exemplo n.º 10
0
 private void write(Data data) {
   pageOut.write(data.getBytes(), 0, data.length());
   data.reset();
 }
Exemplo n.º 11
0
 /**
  * Run one recovery stage. There are three recovery stages: 0: only the undo steps are run
  * (restoring the state before the last checkpoint). 1: the pages that are used by the transaction
  * log are allocated. 2: the committed operations are re-applied.
  *
  * @param stage the recovery stage
  * @return whether the transaction log was empty
  */
 boolean recover(int stage) {
   if (trace.isDebugEnabled()) {
     trace.debug("log recover stage: " + stage);
   }
   if (stage == RECOVERY_STAGE_ALLOCATE) {
     PageInputStream in = new PageInputStream(store, logKey, firstTrunkPage, firstDataPage);
     usedLogPages = in.allocateAllPages();
     in.close();
     return true;
   }
   PageInputStream pageIn = new PageInputStream(store, logKey, firstTrunkPage, firstDataPage);
   DataReader in = new DataReader(pageIn);
   int logId = 0;
   Data data = store.createData();
   boolean isEmpty = true;
   try {
     int pos = 0;
     while (true) {
       int x = in.readByte();
       if (x < 0) {
         break;
       }
       pos++;
       isEmpty = false;
       if (x == UNDO) {
         int pageId = in.readVarInt();
         int size = in.readVarInt();
         if (size == 0) {
           in.readFully(data.getBytes(), store.getPageSize());
         } else if (size == 1) {
           // empty
           Arrays.fill(data.getBytes(), 0, store.getPageSize(), (byte) 0);
         } else {
           in.readFully(compressBuffer, size);
           try {
             compress.expand(compressBuffer, 0, size, data.getBytes(), 0, store.getPageSize());
           } catch (ArrayIndexOutOfBoundsException e) {
             DbException.convertToIOException(e);
           }
         }
         if (stage == RECOVERY_STAGE_UNDO) {
           if (!undo.get(pageId)) {
             if (trace.isDebugEnabled()) {
               trace.debug("log undo {0}", pageId);
             }
             store.writePage(pageId, data);
             undo.set(pageId);
             undoAll.set(pageId);
           } else {
             if (trace.isDebugEnabled()) {
               trace.debug("log undo skip {0}", pageId);
             }
           }
         }
       } else if (x == ADD) {
         int sessionId = in.readVarInt();
         int tableId = in.readVarInt();
         Row row = readRow(in, data);
         if (stage == RECOVERY_STAGE_UNDO) {
           store.allocateIfIndexRoot(pos, tableId, row);
         } else if (stage == RECOVERY_STAGE_REDO) {
           if (isSessionCommitted(sessionId, logId, pos)) {
             if (trace.isDebugEnabled()) {
               trace.debug("log redo + table: " + tableId + " s: " + sessionId + " " + row);
             }
             store.redo(tableId, row, true);
           } else {
             if (trace.isDebugEnabled()) {
               trace.debug("log ignore s: " + sessionId + " + table: " + tableId + " " + row);
             }
           }
         }
       } else if (x == REMOVE) {
         int sessionId = in.readVarInt();
         int tableId = in.readVarInt();
         long key = in.readVarLong();
         if (stage == RECOVERY_STAGE_REDO) {
           if (isSessionCommitted(sessionId, logId, pos)) {
             if (trace.isDebugEnabled()) {
               trace.debug("log redo - table: " + tableId + " s:" + sessionId + " key: " + key);
             }
             store.redoDelete(tableId, key);
           } else {
             if (trace.isDebugEnabled()) {
               trace.debug("log ignore s: " + sessionId + " - table: " + tableId + " " + key);
             }
           }
         }
       } else if (x == TRUNCATE) {
         int sessionId = in.readVarInt();
         int tableId = in.readVarInt();
         if (stage == RECOVERY_STAGE_REDO) {
           if (isSessionCommitted(sessionId, logId, pos)) {
             if (trace.isDebugEnabled()) {
               trace.debug("log redo truncate table: " + tableId);
             }
             store.redoTruncate(tableId);
           } else {
             if (trace.isDebugEnabled()) {
               trace.debug("log ignore s: " + sessionId + " truncate table: " + tableId);
             }
           }
         }
       } else if (x == PREPARE_COMMIT) {
         int sessionId = in.readVarInt();
         String transaction = in.readString();
         if (trace.isDebugEnabled()) {
           trace.debug("log prepare commit " + sessionId + " " + transaction + " pos: " + pos);
         }
         if (stage == RECOVERY_STAGE_UNDO) {
           int page = pageIn.getDataPage();
           setPrepareCommit(sessionId, page, transaction);
         }
       } else if (x == ROLLBACK) {
         int sessionId = in.readVarInt();
         if (trace.isDebugEnabled()) {
           trace.debug("log rollback " + sessionId + " pos: " + pos);
         }
         // ignore - this entry is just informational
       } else if (x == COMMIT) {
         int sessionId = in.readVarInt();
         if (trace.isDebugEnabled()) {
           trace.debug("log commit " + sessionId + " pos: " + pos);
         }
         if (stage == RECOVERY_STAGE_UNDO) {
           setLastCommitForSession(sessionId, logId, pos);
         }
       } else if (x == NOOP) {
         // nothing to do
       } else if (x == CHECKPOINT) {
         logId++;
       } else if (x == FREE_LOG) {
         int count = in.readVarInt();
         for (int i = 0; i < count; i++) {
           int pageId = in.readVarInt();
           if (stage == RECOVERY_STAGE_REDO) {
             if (!usedLogPages.get(pageId)) {
               store.free(pageId, false);
             }
           }
         }
       } else {
         if (trace.isDebugEnabled()) {
           trace.debug("log end");
           break;
         }
       }
     }
   } catch (DbException e) {
     if (e.getErrorCode() == ErrorCode.FILE_CORRUPTED_1) {
       trace.debug("log recovery stopped");
     } else {
       throw e;
     }
   } catch (IOException e) {
     trace.debug("log recovery completed");
   }
   undo = new BitField();
   if (stage == RECOVERY_STAGE_REDO) {
     usedLogPages = null;
   }
   return isEmpty;
 }