/* * Copyright (c) 2014, 2024, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.IOException; import java.io.OutputStream; import java.lang.reflect.Field; import java.nio.file.Files; import java.nio.file.Paths; import java.util.Arrays; import java.util.Collections; import java.util.List; import java.util.Properties; import java.util.UUID; import java.util.logging.FileHandler; import java.util.logging.Level; import java.util.logging.LogManager; import java.util.logging.LogRecord; /** * @test * @bug 8059767 * @summary tests that FileHandler can accept a long limit. * @modules java.logging/java.util.logging:open * @run main/othervm FileHandlerLongLimit * @author danielfuchs * @key randomness */ public class FileHandlerLongLimit { // We will test handling of limit and overflow of MeteredStream.written public static void run(Properties propertyFile) throws Exception { setUp(propertyFile); test(propertyFile.getProperty("test.name"), propertyFile, Long.parseLong(propertyFile.getProperty(FileHandler.class.getName()+".limit"))); } private static final String PREFIX = "FileHandler-" + UUID.randomUUID() + ".log"; private static final String userDir = System.getProperty("user.dir", "."); private static final boolean userDirWritable = Files.isWritable(Paths.get(userDir)); private static final Field limitField; private static final Field meterField; private static final Field writtenField; private static final Field outField; private static final List properties; static { Properties props1 = new Properties(); Properties props2 = new Properties(); Properties props3 = new Properties(); props1.setProperty("test.name", "with limit=Integer.MAX_VALUE"); props1.setProperty(FileHandler.class.getName() + ".pattern", PREFIX); props1.setProperty(FileHandler.class.getName() + ".limit", String.valueOf(Integer.MAX_VALUE)); props2.setProperty("test.name", "with limit=Integer.MAX_VALUE*4"); props2.setProperty(FileHandler.class.getName() + ".pattern", PREFIX); props2.setProperty(FileHandler.class.getName() + ".limit", String.valueOf(((long)Integer.MAX_VALUE)*4)); props3.setProperty("test.name", "with limit=Long.MAX_VALUE - 1024"); props3.setProperty(FileHandler.class.getName() + ".pattern", PREFIX); props3.setProperty(FileHandler.class.getName() + ".limit", String.valueOf(Long.MAX_VALUE - 1024)); properties = Collections.unmodifiableList(Arrays.asList( props1, props2, props3)); try { Class metteredStreamClass = Class.forName(FileHandler.class.getName()+"$MeteredStream"); limitField = FileHandler.class.getDeclaredField("limit"); limitField.setAccessible(true); meterField = FileHandler.class.getDeclaredField("meter"); meterField.setAccessible(true); writtenField = metteredStreamClass.getDeclaredField("written"); writtenField.setAccessible(true); outField = metteredStreamClass.getDeclaredField("out"); outField.setAccessible(true); } catch (NoSuchFieldException | ClassNotFoundException x) { throw new ExceptionInInitializerError(x); } } private static class TestOutputStream extends OutputStream { final OutputStream delegate; TestOutputStream(OutputStream delegate) { this.delegate = delegate; } @Override public void write(int b) throws IOException { // do nothing - we only pretend to write something... } @Override public void close() throws IOException { delegate.close(); } @Override public void flush() throws IOException { delegate.flush(); } } public static void main(String... args) throws Exception { try { for (Properties propertyFile : properties) { run(propertyFile); } } finally { if (userDirWritable) { // cleanup - delete files that have been created try { Files.list(Paths.get(userDir)) .filter((f) -> f.toString().contains(PREFIX)) .forEach((f) -> { try { System.out.println("deleting " + f); Files.delete(f); } catch(Throwable t) { System.err.println("Failed to delete " + f + ": " + t); } }); } catch(Throwable t) { System.err.println("Cleanup failed to list files: " + t); t.printStackTrace(); } } } } static void setUp(Properties propertyFile) { try { ByteArrayOutputStream bytes = new ByteArrayOutputStream(); propertyFile.store(bytes, propertyFile.getProperty("test.name")); ByteArrayInputStream bais = new ByteArrayInputStream(bytes.toByteArray()); LogManager.getLogManager().readConfiguration(bais); } catch (IOException ex) { throw new RuntimeException(ex); } } @FunctionalInterface public static interface FileHandlerSupplier { public FileHandler test() throws Exception; } private static void checkException(Class type, FileHandlerSupplier test) { Throwable t = null; FileHandler f = null; try { f = test.test(); } catch (Throwable x) { t = x; } try { if (type != null && t == null) { throw new RuntimeException("Expected " + type.getName() + " not thrown"); } else if (type != null && t != null) { if (type.isInstance(t)) { System.out.println("Recieved expected exception: " + t); } else { throw new RuntimeException("Exception type mismatch: " + type.getName() + " expected, " + t.getClass().getName() + " received.", t); } } else if (t != null) { throw new RuntimeException("Unexpected exception received: " + t, t); } } finally { if (f != null) { // f should always be null when an exception is expected, // but in case the test doesn't behave as expected we will // want to close f. try { f.close(); } catch (Throwable x) {}; } } } static final class TestAssertException extends RuntimeException { TestAssertException(String msg) { super(msg); } } private static void assertEquals(long expected, long received, String msg) { if (expected != received) { throw new TestAssertException("Unexpected result for " + msg + ".\n\texpected: " + expected + "\n\tactual: " + received); } else { System.out.println("Got expected " + msg + ": " + received); } } private static long getLimit(FileHandler handler) throws Exception { return limitField.getLong(handler); } private static OutputStream getMeteredOutput(FileHandler handler) throws Exception { final OutputStream metered = OutputStream.class.cast(meterField.get(handler)); return metered; } private static TestOutputStream setTestOutputStream(OutputStream metered) throws Exception { outField.set(metered, new TestOutputStream(OutputStream.class.cast(outField.get(metered)))); return TestOutputStream.class.cast(outField.get(metered)); } private static long getWritten(OutputStream metered) throws Exception { return writtenField.getLong(metered); } private static long setWritten(OutputStream metered, long newValue) throws Exception { writtenField.setLong(metered, newValue); return writtenField.getLong(metered); } public static FileHandler testFileHandlerLimit(FileHandlerSupplier supplier, long limit) throws Exception { try { Files.deleteIfExists(Paths.get(PREFIX)); } catch (IOException x) { throw new RuntimeException(x); } final FileHandler fh = supplier.test(); try { // verify we have the expected limit assertEquals(limit, getLimit(fh), "limit"); // get the metered output stream OutputStream metered = getMeteredOutput(fh); // we don't want to actually write to the file, so let's // redirect the metered to our own TestOutputStream. setTestOutputStream(metered); // check that fh.meter.written is 0 assertEquals(0, getWritten(metered), "written"); // now we're going to publish a series of log records // we're using the same log record over and over to make // sure we get the same amount of bytes. String msg = "this is at least 10 chars long"; LogRecord record = new LogRecord(Level.SEVERE, msg); fh.publish(record); fh.flush(); long w = getWritten(metered); long offset = getWritten(metered); System.out.println("first offset is: " + offset); fh.publish(record); fh.flush(); offset = getWritten(metered) - w; w = getWritten(metered); System.out.println("second offset is: " + offset); fh.publish(record); fh.flush(); offset = getWritten(metered) - w; w = getWritten(metered); System.out.println("third offset is: " + offset); fh.publish(record); fh.flush(); offset = getWritten(metered) - w; System.out.println("fourth offset is: " + offset); // Now set fh.meter.written to something close to the limit, // so that we can trigger log file rotation. assertEquals(limit-2*offset+10, setWritten(metered, limit-2*offset+10), "written"); w = getWritten(metered); // publish one more log record. we should still be just beneath // the limit fh.publish(record); fh.flush(); assertEquals(w+offset, getWritten(metered), "written"); // check that fh still has the same MeteredStream - indicating // that the file hasn't rotated. if (getMeteredOutput(fh) != metered) { throw new RuntimeException("Log should not have rotated"); } // Now publish two log record. The spec is a bit vague about when // exactly the log will be rotated - it could happen just after // writing the first log record or just before writing the next // one. We publich two - so we're sure that the log must have // rotated. fh.publish(record); fh.flush(); fh.publish(record); fh.flush(); // Check that fh.meter is a different instance of MeteredStream. if (getMeteredOutput(fh) == metered) { throw new RuntimeException("Log should have rotated"); } // success! return fh; } catch (Error | Exception x) { // if we get an exception we need to close fh. // if we don't get an exception, fh will be closed by the caller. // (and that's why we dont use try-with-resources/finally here). try { fh.close(); } catch(Throwable t) {t.printStackTrace();} throw x; } } public static void test(String name, Properties props, long limit) throws Exception { System.out.println("Testing: " + name); Class expectedException = null; if (userDirWritable || expectedException != null) { // These calls will create files in user.dir. // The file name contain a random UUID (PREFIX) which identifies them // and allow us to remove them cleanly at the end (see finally block // in main()). checkException(expectedException, () -> new FileHandler()); checkException(expectedException, () -> { final FileHandler fh = new FileHandler(); assertEquals(limit, getLimit(fh), "limit"); return fh; }); checkException(expectedException, () -> testFileHandlerLimit( () -> new FileHandler(), limit)); checkException(expectedException, () -> testFileHandlerLimit( () -> new FileHandler(PREFIX, Long.MAX_VALUE, 1, true), Long.MAX_VALUE)); } System.out.println("Success for: " + name); } }