Esempio n. 1
0
  /**
   * It convert a keyDataEntry to byte[].
   *
   * @param entry specify the data entry. Input parameter.
   * @return return a byte array with size equal to the size of (key,data).
   * @exception KeyNotMatchException entry.key is neither StringKey nor IntegerKey
   * @exception NodeNotMatchException entry.data is neither LeafData nor IndexData
   * @exception ConvertException error from the lower layer
   */
  protected static final byte[] getBytesFromEntry(KeyDataEntry entry)
      throws KeyNotMatchException, NodeNotMatchException, ConvertException {
    byte[] data;
    int n, m;
    try {
      n = getKeyLength(entry.key);
      m = n;
      if (entry.data instanceof IndexData) n += 4;
      else if (entry.data instanceof LeafData) n += 8;

      data = new byte[n];

      if (entry.key instanceof IntegerKey) {
        Convert.setIntValue(((IntegerKey) entry.key).getKey().intValue(), 0, data);
      } else if (entry.key instanceof StringKey) {
        Convert.setStrValue(((StringKey) entry.key).getKey(), 0, data);
      } else throw new KeyNotMatchException(null, "key types do not match");

      if (entry.data instanceof IndexData) {
        Convert.setIntValue(((IndexData) entry.data).getData().pid, m, data);
      } else if (entry.data instanceof LeafData) {
        Convert.setIntValue(((LeafData) entry.data).getData().slotNo, m, data);
        Convert.setIntValue(((LeafData) entry.data).getData().pageNo.pid, m + 4, data);

      } else throw new NodeNotMatchException(null, "node types do not match");
      return data;
    } catch (IOException e) {
      throw new ConvertException(e, "convert failed");
    }
  }
Esempio n. 2
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  /**
   * It gets an keyDataEntry from bytes array and position
   *
   * @param from It's a bytes array where KeyDataEntry will come from. Input parameter.
   * @param offset the offset in the bytes. Input parameter.
   * @param keyType It specifies the type of key. It can be AttrType.attrString or
   *     AttrType.attrInteger. Input parameter.
   * @param nodeType It specifes NodeType.LEAF or NodeType.INDEX. Input parameter.
   * @param length The length of (key, data) in byte array "from". Input parameter.
   * @return return a KeyDataEntry object
   * @exception KeyNotMatchException key is neither StringKey nor IntegerKey
   * @exception NodeNotMatchException nodeType is neither NodeType.LEAF nor NodeType.INDEX.
   * @exception ConvertException error from the lower layer
   */
  protected static final KeyDataEntry getEntryFromBytes(
      byte[] from, int offset, int length, int keyType, short nodeType)
      throws KeyNotMatchException, NodeNotMatchException, ConvertException {
    KeyClass key;
    DataClass data;
    int n;
    try {

      if (nodeType == NodeType.INDEX) {
        n = 4;
        data = new IndexData(Convert.getIntValue(offset + length - 4, from));
      } else if (nodeType == NodeType.LEAF) {
        n = 8;
        TID genid = new TID();
        genid.slotNo = Convert.getIntValue(offset + length - 8, from);
        genid.pageNo = new PageID();
        genid.pageNo.pid = Convert.getIntValue(offset + length - 4, from);
        data = new LeafData(genid);
      } else throw new NodeNotMatchException(null, "node types do not match");

      if (keyType == AttrType.attrInteger) {
        key = new IntegerKey(new Integer(Convert.getIntValue(offset, from)));
      } else if (keyType == AttrType.attrString) {
        // System.out.println(" offset  "+ offset + "  " + length + "  "+n);
        key = new StringKey(Convert.getStrValue(offset, from, length - n));
      } else throw new KeyNotMatchException(null, "key types do not match");

      return new KeyDataEntry(key, data);

    } catch (IOException e) {
      throw new ConvertException(e, "convert faile");
    }
  }
Esempio n. 3
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  /**
   * overrides the test3 function in TestDriver. It exercises some of the internal of the buffer
   * manager
   *
   * @return whether test3 has passed
   */
  protected boolean test3() {

    System.out.print("\n  Test 3 exercises some of the internals " + "of the buffer manager\n");

    int index;
    int numPages = NUMBUF + 10;
    Page pg = new Page();
    PageId pid = new PageId();
    PageId[] pids = new PageId[numPages];
    boolean status = OK;

    System.out.print(
        "  - Allocate and dirty some new pages, one at " + "a time, and leave some pinned\n");

    for (index = 0; status == OK && index < numPages; ++index) {
      try {
        pid = SystemDefs.JavabaseBM.newPage(pg, 1);
      } catch (Exception e) {
        status = FAIL;
        System.err.print("*** Could not allocate new page number " + index + 1 + "\n");
        e.printStackTrace();
      }

      if (status == OK) pids[index] = pid;

      if (status == OK) {

        // Copy the page number + 99999 onto each page.  It seems
        // unlikely that this bit pattern would show up there by
        // coincidence.
        int data = pid.pid + 99999;

        try {
          Convert.setIntValue(data, 0, pg.getpage());
        } catch (IOException e) {
          System.err.print("*** Convert value failed\n");
          status = FAIL;
          e.printStackTrace();
        }

        // Leave the page pinned if it equals 12 mod 20.  This is a
        // random number based loosely on a bug report.
        if (status == OK) {
          if (pid.pid % 20 != 12) {
            try {
              SystemDefs.JavabaseBM.unpinPage(pid, /*dirty:*/ true);
            } catch (Exception e) {
              status = FAIL;
              System.err.print("*** Could not unpin dirty page " + pid.pid + "\n");
            }
          }
        }
      }
    }

    if (status == OK) {
      System.out.print("  - Read the pages\n");

      for (index = 0; status == OK && index < numPages; ++index) {
        pid = pids[index];
        try {
          SystemDefs.JavabaseBM.pinPage(pid, pg, false);
        } catch (Exception e) {
          status = FAIL;
          System.err.print("*** Could not pin page " + pid.pid + "\n");
          e.printStackTrace();
        }

        if (status == OK) {

          int data = 0;

          try {
            data = Convert.getIntValue(0, pg.getpage());
          } catch (IOException e) {
            System.err.print("*** Convert value failed \n");
            status = FAIL;
          }

          if (data != pid.pid + 99999) {
            status = FAIL;
            System.err.print("*** Read wrong data back from page " + pid.pid + "\n");
          }
        }

        if (status == OK) {
          try {
            SystemDefs.JavabaseBM.unpinPage(pid, true); // might not be dirty
          } catch (Exception e) {
            status = FAIL;
            System.err.print("*** Could not unpin page " + pid.pid + "\n");
            e.printStackTrace();
          }
        }

        if (status == OK && (pid.pid % 20 == 12)) {
          try {
            SystemDefs.JavabaseBM.unpinPage(pid, /*dirty:*/ true);
          } catch (Exception e) {
            status = FAIL;
            System.err.print("*** Could not unpin page " + pid.pid + "\n");
            e.printStackTrace();
          }
        }
      }
    }

    if (status == OK) System.out.print("  Test 3 completed successfully.\n");

    return status;
  }
Esempio n. 4
0
  /**
   * overrides the test4 function in TestDriver
   *
   * @return whether test4 has passed
   */
  protected boolean test4() {
    System.out.print("\n  Test 4 exercises some of the internals " + "of the buffer manager\n");

    int index;
    int numPages = NUMBUF + 10;
    Page pg = new Page();
    PageId pid = new PageId();
    PageId[] pids = new PageId[numPages];
    boolean status = OK;

    System.out.print("  - Allocate bunch of pages together \n");

    for (int i = 0; i < numPages / NUMBUF; i++) {
      for (index = i * NUMBUF; status == OK && index < (i + 1) * NUMBUF; ++index) {
        pg = new Page();
        try {
          pid = SystemDefs.JavabaseBM.newPage(pg, 1);
        } catch (Exception e) {
          status = FAIL;
          System.err.print("*** Could not allocate new page number " + index + 1 + "\n");
          e.printStackTrace();
        }

        if (status == OK) {
          pids[index] = pid;
        }

        if (status == OK) {

          // Copy the page number + 99999 onto each page.  It seems
          // unlikely that this bit pattern would show up there by
          // coincidence.
          int data = pid.pid + 99999;

          try {
            Convert.setIntValue(data, 0, pg.getpage());
          } catch (IOException e) {
            System.err.print("*** Convert value failed\n");
            status = FAIL;
            e.printStackTrace();
          }
        }
      }
      for (index = i * NUMBUF; status == OK && index < (i + 1) * NUMBUF; ++index) {
        try {
          SystemDefs.JavabaseBM.unpinPage(pids[index], true);
        } catch (Exception e) {
          status = FAIL;
          System.err.print("*** Could not unpin page " + pids[index].pid + "\n");
          e.printStackTrace();
        }
      }
    }

    if (status == OK) {
      System.out.print("  - Read the pages\n");

      for (int i = 0; i < numPages / NUMBUF; i++) {
        for (index = i * NUMBUF; status == OK && index < (i + 1) * NUMBUF; ++index) {
          pg = new Page();
          pid = pids[index];
          try {
            SystemDefs.JavabaseBM.pinPage(pid, pg, false);
          } catch (Exception e) {
            status = FAIL;
            System.err.print("*** Could not pin page " + pid.pid + "\n");
            e.printStackTrace();
          }

          if (status == OK) {

            int data = 0;

            try {
              data = Convert.getIntValue(0, pg.getpage());
            } catch (IOException e) {
              System.err.print("*** Convert value failed \n");
              status = FAIL;
            }

            if (data != pid.pid + 99999) {
              status = FAIL;
              System.err.print("*** Read wrong data back from page " + pid.pid + "\n");
            }
          }
        }
        for (index = i * NUMBUF; status == OK && index < (i + 1) * NUMBUF; ++index) {
          try {
            SystemDefs.JavabaseBM.unpinPage(pids[index], true);
          } catch (Exception e) {
            status = FAIL;
            System.err.print("*** Could not unpin page " + pids[index].pid + "\n");
            e.printStackTrace();
          }
        }
      }
    }

    if (status == OK) {
      System.out.print("  Test 4 completed successfully.\n");
    }

    return status;
  }
Esempio n. 5
0
  /**
   * overrides the test1 function in TestDriver. It tests some simple normal buffer manager
   * operations.
   *
   * @return whether test1 has passed
   */
  protected boolean test1() {

    System.out.print("\n  Test 1 does a simple test of normal buffer ");
    System.out.print("manager operations:\n");

    // We choose this number to ensure that at least one page will have to be
    // written during this test.
    boolean status = OK;
    int numPages = SystemDefs.JavabaseBM.getNumUnpinnedBuffers() + 1;
    Page pg = new Page();
    PageId pid;
    PageId lastPid;
    PageId firstPid = new PageId();

    System.out.print("  - Allocate a bunch of new pages\n");

    try {
      firstPid = SystemDefs.JavabaseBM.newPage(pg, numPages);
    } catch (Exception e) {
      System.err.print("*** Could not allocate " + numPages);
      System.err.print(" new pages in the database.\n");
      e.printStackTrace();
      return false;
    }

    // Unpin that first page... to simplify our loop.
    try {
      SystemDefs.JavabaseBM.unpinPage(firstPid, false /*not dirty*/);
    } catch (Exception e) {
      System.err.print("*** Could not unpin the first new page.\n");
      e.printStackTrace();
      status = FAIL;
    }

    System.out.print("  - Write something on each one\n");

    pid = new PageId();
    lastPid = new PageId();

    for (pid.pid = firstPid.pid, lastPid.pid = pid.pid + numPages;
        status == OK && pid.pid < lastPid.pid;
        pid.pid = pid.pid + 1) {

      try {
        SystemDefs.JavabaseBM.pinPage(pid, pg, /*emptyPage:*/ true);
      } catch (Exception e) {
        status = FAIL;
        System.err.print("*** Could not pin new page " + pid.pid + "\n");
        e.printStackTrace();
      }

      if (status == OK) {

        // Copy the page number + 99999 onto each page.  It seems
        // unlikely that this bit pattern would show up there by
        // coincidence.
        int data = pid.pid + 99999;

        try {
          Convert.setIntValue(data, 0, pg.getpage());
        } catch (IOException e) {
          System.err.print("*** Convert value failed\n");
          status = FAIL;
        }

        if (status == OK) {
          try {
            SystemDefs.JavabaseBM.unpinPage(pid, /*dirty:*/ true);
          } catch (Exception e) {
            status = FAIL;
            System.err.print("*** Could not unpin dirty page " + pid.pid + "\n");
            e.printStackTrace();
          }
        }
      }
    }

    if (status == OK)
      System.out.print(
          "  - Read that something back from each one\n"
              + "   (because we're buffering, this is where "
              + "most of the writes happen)\n");

    for (pid.pid = firstPid.pid; status == OK && pid.pid < lastPid.pid; pid.pid = pid.pid + 1) {

      try {
        SystemDefs.JavabaseBM.pinPage(pid, pg, /*emptyPage:*/ false);
      } catch (Exception e) {
        status = FAIL;
        System.err.print("*** Could not pin page " + pid.pid + "\n");
        e.printStackTrace();
      }

      if (status == OK) {

        int data = 0;

        try {
          data = Convert.getIntValue(0, pg.getpage());
        } catch (IOException e) {
          System.err.print("*** Convert value failed \n");
          status = FAIL;
        }

        if (status == OK) {
          if (data != (pid.pid) + 99999) {
            status = FAIL;
            System.err.print("*** Read wrong data back from page " + pid.pid + "\n");
          }
        }

        if (status == OK) {
          try {
            SystemDefs.JavabaseBM.unpinPage(pid, /*dirty:*/ true);
          } catch (Exception e) {
            status = FAIL;
            System.err.print("*** Could not unpin page " + pid.pid + "\n");
            e.printStackTrace();
          }
        }
      }
    }

    if (status == OK) System.out.print("  - Free the pages again\n");

    for (pid.pid = firstPid.pid; pid.pid < lastPid.pid; pid.pid = pid.pid + 1) {

      try {
        SystemDefs.JavabaseBM.freePage(pid);
      } catch (Exception e) {
        status = FAIL;
        System.err.print("*** Error freeing page " + pid.pid + "\n");
        e.printStackTrace();
      }
    }

    if (status == OK) System.out.print("  Test 1 completed successfully.\n");

    return status;
  }