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/*
 * Copyright 2012-2016 the original author or authors.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package fish.payara.micro.boot.loader.jar;

import java.io.IOException;
import java.io.InputStream;
import java.util.Arrays;
import java.util.Collections;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.Map;
import java.util.NoSuchElementException;
import java.util.zip.ZipEntry;

import fish.payara.micro.boot.loader.data.RandomAccessData;
import fish.payara.micro.boot.loader.data.RandomAccessData.ResourceAccess;

/**
 * Provides access to entries from a {@link JarFile}. In order to reduce memory
 * consumption entry details are stored using int arrays. The {@code hashCodes} array
 * stores the hash code of the entry name, the {@code centralDirectoryOffsets} provides
 * the offset to the central directory record and {@code positions} provides the original
 * order position of the entry. The arrays are stored in hashCode order so that a binary
 * search can be used to find a name.
 * 

* A typical Spring Boot application will have somewhere in the region of 10,500 entries * which should consume about 122K. * * @author Phillip Webb */ class JarFileEntries implements CentralDirectoryVisitor, Iterable { private static final long LOCAL_FILE_HEADER_SIZE = 30; private static final String SLASH = "/"; private static final String NO_SUFFIX = ""; protected static final int ENTRY_CACHE_SIZE = 25; private final JarFile jarFile; private final JarEntryFilter filter; private RandomAccessData centralDirectoryData; private int size; private int[] hashCodes; private int[] centralDirectoryOffsets; private int[] positions; private final Map entriesCache = Collections .synchronizedMap(new LinkedHashMap(16, 0.75f, true) { @Override protected boolean removeEldestEntry( Map.Entry eldest) { if (JarFileEntries.this.jarFile.isSigned()) { return false; } return size() >= ENTRY_CACHE_SIZE; } }); JarFileEntries(JarFile jarFile, JarEntryFilter filter) { this.jarFile = jarFile; this.filter = filter; } @Override public void visitStart(CentralDirectoryEndRecord endRecord, RandomAccessData centralDirectoryData) { int maxSize = endRecord.getNumberOfRecords(); this.centralDirectoryData = centralDirectoryData; this.hashCodes = new int[maxSize]; this.centralDirectoryOffsets = new int[maxSize]; this.positions = new int[maxSize]; } @Override public void visitFileHeader(CentralDirectoryFileHeader fileHeader, int dataOffset) { AsciiBytes name = applyFilter(fileHeader.getName()); if (name != null) { add(name, fileHeader, dataOffset); } } private void add(AsciiBytes name, CentralDirectoryFileHeader fileHeader, int dataOffset) { this.hashCodes[this.size] = name.hashCode(); this.centralDirectoryOffsets[this.size] = dataOffset; this.positions[this.size] = this.size; this.size++; } @Override public void visitEnd() { sort(0, this.size - 1); int[] positions = this.positions; this.positions = new int[positions.length]; for (int i = 0; i < this.size; i++) { this.positions[positions[i]] = i; } } private void sort(int left, int right) { // Quick sort algorithm, uses hashCodes as the source but sorts all arrays if (left < right) { int pivot = this.hashCodes[left + (right - left) / 2]; int i = left; int j = right; while (i <= j) { while (this.hashCodes[i] < pivot) { i++; } while (this.hashCodes[j] > pivot) { j--; } if (i <= j) { swap(i, j); i++; j--; } } if (left < j) { sort(left, j); } if (right > i) { sort(i, right); } } } private void swap(int i, int j) { swap(this.hashCodes, i, j); swap(this.centralDirectoryOffsets, i, j); swap(this.positions, i, j); } private void swap(int[] array, int i, int j) { int temp = array[i]; array[i] = array[j]; array[j] = temp; } @Override public Iterator iterator() { return new EntryIterator(); } public boolean containsEntry(String name) { return getEntry(name, FileHeader.class, true) != null; } public JarEntry getEntry(String name) { return getEntry(name, JarEntry.class, true); } public InputStream getInputStream(String name, ResourceAccess access) throws IOException { FileHeader entry = getEntry(name, FileHeader.class, false); return getInputStream(entry, access); } public InputStream getInputStream(FileHeader entry, ResourceAccess access) throws IOException { if (entry == null) { return null; } InputStream inputStream = getEntryData(entry).getInputStream(access); if (entry.getMethod() == ZipEntry.DEFLATED) { inputStream = new ZipInflaterInputStream(inputStream, (int) entry.getSize()); } return inputStream; } public RandomAccessData getEntryData(String name) throws IOException { FileHeader entry = getEntry(name, FileHeader.class, false); if (entry == null) { return null; } return getEntryData(entry); } private RandomAccessData getEntryData(FileHeader entry) throws IOException { // aspectjrt-1.7.4.jar has a different ext bytes length in the // local directory to the central directory. We need to re-read // here to skip them RandomAccessData data = this.jarFile.getData(); byte[] localHeader = Bytes.get( data.getSubsection(entry.getLocalHeaderOffset(), LOCAL_FILE_HEADER_SIZE)); long nameLength = Bytes.littleEndianValue(localHeader, 26, 2); long extraLength = Bytes.littleEndianValue(localHeader, 28, 2); return data.getSubsection(entry.getLocalHeaderOffset() + LOCAL_FILE_HEADER_SIZE + nameLength + extraLength, entry.getCompressedSize()); } private T getEntry(String name, Class type, boolean cacheEntry) { int hashCode = AsciiBytes.hashCode(name); T entry = getEntry(hashCode, name, NO_SUFFIX, type, cacheEntry); if (entry == null) { hashCode = AsciiBytes.hashCode(hashCode, SLASH); entry = getEntry(hashCode, name, SLASH, type, cacheEntry); } return entry; } private T getEntry(int hashCode, String name, String suffix, Class type, boolean cacheEntry) { int index = getFirstIndex(hashCode); while (index >= 0 && index < this.size && this.hashCodes[index] == hashCode) { T entry = getEntry(index, type, cacheEntry); if (entry.hasName(name, suffix)) { return entry; } index++; } return null; } @SuppressWarnings("unchecked") private T getEntry(int index, Class type, boolean cacheEntry) { try { FileHeader cached = this.entriesCache.get(index); FileHeader entry = (cached != null ? cached : CentralDirectoryFileHeader.fromRandomAccessData( this.centralDirectoryData, this.centralDirectoryOffsets[index], this.filter)); if (CentralDirectoryFileHeader.class.equals(entry.getClass()) && type.equals(JarEntry.class)) { entry = new JarEntry(this.jarFile, (CentralDirectoryFileHeader) entry); } if (cacheEntry && cached != entry) { this.entriesCache.put(index, entry); } return (T) entry; } catch (IOException ex) { throw new IllegalStateException(ex); } } private int getFirstIndex(int hashCode) { int index = Arrays.binarySearch(this.hashCodes, 0, this.size, hashCode); if (index < 0) { return -1; } while (index > 0 && this.hashCodes[index - 1] == hashCode) { index--; } return index; } public void clearCache() { this.entriesCache.clear(); } private AsciiBytes applyFilter(AsciiBytes name) { return (this.filter == null ? name : this.filter.apply(name)); } /** * Iterator for contained entries. */ private class EntryIterator implements Iterator { private int index = 0; @Override public boolean hasNext() { return this.index < JarFileEntries.this.size; } @Override public JarEntry next() { if (!hasNext()) { throw new NoSuchElementException(); } int entryIndex = JarFileEntries.this.positions[this.index]; this.index++; return getEntry(entryIndex, JarEntry.class, true); } @Override public void remove() { throw new UnsupportedOperationException(); } } }





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