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/*
 * Copyright 2004-2013 H2 Group. Multiple-Licensed under the H2 License,
 * Version 1.0, and under the Eclipse Public License, Version 1.0
 * (http://h2database.com/html/license.html).
 * Initial Developer: H2 Group
 */
package org.glowroot.shaded.h2.index;

import java.util.Arrays;
import org.glowroot.shaded.h2.api.DatabaseEventListener;
import org.glowroot.shaded.h2.api.ErrorCode;
import org.glowroot.shaded.h2.engine.Session;
import org.glowroot.shaded.h2.engine.SysProperties;
import org.glowroot.shaded.h2.message.DbException;
import org.glowroot.shaded.h2.result.Row;
import org.glowroot.shaded.h2.store.Data;
import org.glowroot.shaded.h2.store.Page;
import org.glowroot.shaded.h2.store.PageStore;
import org.glowroot.shaded.h2.util.Utils;

/**
 * A leaf page that contains data of one or multiple rows. Format:
 * 
    *
  • page type: byte (0)
  • *
  • checksum: short (1-2)
  • *
  • parent page id (0 for root): int (3-6)
  • *
  • table id: varInt
  • *
  • count of all children (-1 if not known): int
  • *
  • entry count: short
  • *
  • rightmost child page id: int
  • *
  • entries (child page id: int, key: varLong)
  • *
* The key is the largest key of the respective child, meaning key[0] is the * largest key of child[0]. */ public class PageDataNode extends PageData { /** * The page ids of the children. */ private int[] childPageIds; private int rowCountStored = UNKNOWN_ROWCOUNT; private int rowCount = UNKNOWN_ROWCOUNT; /** * The number of bytes used in the page */ private int length; private PageDataNode(PageDataIndex index, int pageId, Data data) { super(index, pageId, data); } /** * Create a new page. * * @param index the index * @param pageId the page id * @param parentPageId the parent * @return the page */ static PageDataNode create(PageDataIndex index, int pageId, int parentPageId) { PageDataNode p = new PageDataNode(index, pageId, index.getPageStore().createData()); index.getPageStore().logUndo(p, null); p.parentPageId = parentPageId; p.writeHead(); // 4 bytes for the rightmost child page id p.length = p.data.length() + 4; return p; } /** * Read a data node page. * * @param index the index * @param data the data * @param pageId the page id * @return the page */ public static Page read(PageDataIndex index, Data data, int pageId) { PageDataNode p = new PageDataNode(index, pageId, data); p.read(); return p; } private void read() { data.reset(); data.readByte(); data.readShortInt(); this.parentPageId = data.readInt(); int indexId = data.readVarInt(); if (indexId != index.getId()) { throw DbException.get(ErrorCode.FILE_CORRUPTED_1, "page:" + getPos() + " expected index:" + index.getId() + "got:" + indexId); } rowCount = rowCountStored = data.readInt(); entryCount = data.readShortInt(); childPageIds = new int[entryCount + 1]; childPageIds[entryCount] = data.readInt(); keys = Utils.newLongArray(entryCount); for (int i = 0; i < entryCount; i++) { childPageIds[i] = data.readInt(); keys[i] = data.readVarLong(); } length = data.length(); check(); written = true; } private void addChild(int x, int childPageId, long key) { index.getPageStore().logUndo(this, data); written = false; changeCount = index.getPageStore().getChangeCount(); childPageIds = insert(childPageIds, entryCount + 1, x + 1, childPageId); keys = insert(keys, entryCount, x, key); entryCount++; length += 4 + Data.getVarLongLen(key); } @Override int addRowTry(Row row) { index.getPageStore().logUndo(this, data); int keyOffsetPairLen = 4 + Data.getVarLongLen(row.getKey()); while (true) { int x = find(row.getKey()); PageData page = index.getPage(childPageIds[x], getPos()); int splitPoint = page.addRowTry(row); if (splitPoint == -1) { break; } if (length + keyOffsetPairLen > index.getPageStore().getPageSize()) { return entryCount / 2; } long pivot = splitPoint == 0 ? row.getKey() : page.getKey(splitPoint - 1); PageData page2 = page.split(splitPoint); index.getPageStore().update(page); index.getPageStore().update(page2); addChild(x, page2.getPos(), pivot); index.getPageStore().update(this); } updateRowCount(1); return -1; } private void updateRowCount(int offset) { if (rowCount != UNKNOWN_ROWCOUNT) { rowCount += offset; } if (rowCountStored != UNKNOWN_ROWCOUNT) { rowCountStored = UNKNOWN_ROWCOUNT; index.getPageStore().logUndo(this, data); if (written) { writeHead(); } index.getPageStore().update(this); } } @Override Cursor find(Session session, long minKey, long maxKey, boolean multiVersion) { int x = find(minKey); int child = childPageIds[x]; return index.getPage(child, getPos()).find(session, minKey, maxKey, multiVersion); } @Override PageData split(int splitPoint) { int newPageId = index.getPageStore().allocatePage(); PageDataNode p2 = PageDataNode.create(index, newPageId, parentPageId); int firstChild = childPageIds[splitPoint]; for (int i = splitPoint; i < entryCount;) { p2.addChild(p2.entryCount, childPageIds[splitPoint + 1], keys[splitPoint]); removeChild(splitPoint); } int lastChild = childPageIds[splitPoint - 1]; removeChild(splitPoint - 1); childPageIds[splitPoint - 1] = lastChild; p2.childPageIds[0] = firstChild; p2.remapChildren(getPos()); return p2; } @Override protected void remapChildren(int old) { for (int i = 0; i < entryCount + 1; i++) { int child = childPageIds[i]; PageData p = index.getPage(child, old); p.setParentPageId(getPos()); index.getPageStore().update(p); } } /** * Initialize the page. * * @param page1 the first child page * @param pivot the pivot key * @param page2 the last child page */ void init(PageData page1, long pivot, PageData page2) { entryCount = 1; childPageIds = new int[] { page1.getPos(), page2.getPos() }; keys = new long[] { pivot }; length += 4 + Data.getVarLongLen(pivot); check(); } @Override long getLastKey() { return index.getPage(childPageIds[entryCount], getPos()).getLastKey(); } /** * Get the next leaf page. * * @param key the last key of the current page * @return the next leaf page */ PageDataLeaf getNextPage(long key) { int i = find(key) + 1; if (i > entryCount) { if (parentPageId == PageData.ROOT) { return null; } PageDataNode next = (PageDataNode) index.getPage(parentPageId, -1); return next.getNextPage(key); } PageData page = index.getPage(childPageIds[i], getPos()); return page.getFirstLeaf(); } @Override PageDataLeaf getFirstLeaf() { int child = childPageIds[0]; return index.getPage(child, getPos()).getFirstLeaf(); } @Override boolean remove(long key) { int at = find(key); // merge is not implemented to allow concurrent usage // TODO maybe implement merge PageData page = index.getPage(childPageIds[at], getPos()); boolean empty = page.remove(key); index.getPageStore().logUndo(this, data); updateRowCount(-1); if (!empty) { // the first row didn't change - nothing to do return false; } // this child is now empty index.getPageStore().free(page.getPos()); if (entryCount < 1) { // no more children - this page is empty as well return true; } removeChild(at); index.getPageStore().update(this); return false; } @Override void freeRecursive() { index.getPageStore().logUndo(this, data); index.getPageStore().free(getPos()); for (int i = 0; i < entryCount + 1; i++) { int child = childPageIds[i]; index.getPage(child, getPos()).freeRecursive(); } } @Override Row getRowWithKey(long key) { int at = find(key); PageData page = index.getPage(childPageIds[at], getPos()); return page.getRowWithKey(key); } @Override int getRowCount() { if (rowCount == UNKNOWN_ROWCOUNT) { int count = 0; for (int i = 0; i < entryCount + 1; i++) { int child = childPageIds[i]; PageData page = index.getPage(child, getPos()); if (getPos() == page.getPos()) { throw DbException.throwInternalError("Page is its own child: " + getPos()); } count += page.getRowCount(); index.getDatabase().setProgress(DatabaseEventListener.STATE_SCAN_FILE, index.getTable() + "." + index.getName(), count, Integer.MAX_VALUE); } rowCount = count; } return rowCount; } @Override long getDiskSpaceUsed() { long count = 0; for (int i = 0; i < entryCount + 1; i++) { int child = childPageIds[i]; PageData page = index.getPage(child, getPos()); if (getPos() == page.getPos()) { throw DbException.throwInternalError("Page is its own child: " + getPos()); } count += page.getDiskSpaceUsed(); index.getDatabase().setProgress(DatabaseEventListener.STATE_SCAN_FILE, index.getTable() + "." + index.getName(), (int) (count >> 16), Integer.MAX_VALUE); } return count; } @Override void setRowCountStored(int rowCount) { this.rowCount = rowCount; if (rowCountStored != rowCount) { rowCountStored = rowCount; index.getPageStore().logUndo(this, data); if (written) { changeCount = index.getPageStore().getChangeCount(); writeHead(); } index.getPageStore().update(this); } } private void check() { if (SysProperties.CHECK) { for (int i = 0; i < entryCount + 1; i++) { int child = childPageIds[i]; if (child == 0) { DbException.throwInternalError(); } } } } @Override public void write() { writeData(); index.getPageStore().writePage(getPos(), data); } private void writeHead() { data.reset(); data.writeByte((byte) Page.TYPE_DATA_NODE); data.writeShortInt(0); if (SysProperties.CHECK2) { if (data.length() != START_PARENT) { DbException.throwInternalError(); } } data.writeInt(parentPageId); data.writeVarInt(index.getId()); data.writeInt(rowCountStored); data.writeShortInt(entryCount); } private void writeData() { if (written) { return; } check(); writeHead(); data.writeInt(childPageIds[entryCount]); for (int i = 0; i < entryCount; i++) { data.writeInt(childPageIds[i]); data.writeVarLong(keys[i]); } if (length != data.length()) { DbException.throwInternalError("expected pos: " + length + " got: " + data.length()); } written = true; } private void removeChild(int i) { index.getPageStore().logUndo(this, data); written = false; changeCount = index.getPageStore().getChangeCount(); int removedKeyIndex = i < entryCount ? i : i - 1; entryCount--; length -= 4 + Data.getVarLongLen(keys[removedKeyIndex]); if (entryCount < 0) { DbException.throwInternalError(); } keys = remove(keys, entryCount + 1, removedKeyIndex); childPageIds = remove(childPageIds, entryCount + 2, i); } @Override public String toString() { return "page[" + getPos() + "] data node table:" + index.getId() + " entries:" + entryCount + " " + Arrays.toString(childPageIds); } @Override public void moveTo(Session session, int newPos) { PageStore store = index.getPageStore(); // load the pages into the cache, to ensure old pages // are written for (int i = 0; i < entryCount + 1; i++) { int child = childPageIds[i]; store.getPage(child); } if (parentPageId != ROOT) { store.getPage(parentPageId); } store.logUndo(this, data); PageDataNode p2 = PageDataNode.create(index, newPos, parentPageId); p2.rowCountStored = rowCountStored; p2.rowCount = rowCount; p2.childPageIds = childPageIds; p2.keys = keys; p2.entryCount = entryCount; p2.length = length; store.update(p2); if (parentPageId == ROOT) { index.setRootPageId(session, newPos); } else { PageDataNode p = (PageDataNode) store.getPage(parentPageId); p.moveChild(getPos(), newPos); } for (int i = 0; i < entryCount + 1; i++) { int child = childPageIds[i]; PageData p = (PageData) store.getPage(child); p.setParentPageId(newPos); store.update(p); } store.free(getPos()); } /** * One of the children has moved to another page. * * @param oldPos the old position * @param newPos the new position */ void moveChild(int oldPos, int newPos) { for (int i = 0; i < entryCount + 1; i++) { if (childPageIds[i] == oldPos) { index.getPageStore().logUndo(this, data); written = false; changeCount = index.getPageStore().getChangeCount(); childPageIds[i] = newPos; index.getPageStore().update(this); return; } } throw DbException.throwInternalError(); } }




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