/* * Copyright (c) 2005, 2021, 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. */ /* @test * @bug 8276806 8278463 * @summary it is a new version of an old test which was * /src/share/test/serialization/piotest.java * Test of serialization/deserialization of * primitives * * @build PrimitivesTest * @run main WritePrimitive */ import java.io.*; import java.util.Arrays; public class WritePrimitive { public static void main (String argv[]) throws IOException { System.err.println("\nRegression test for testing of " + "serialization/deserialization of primitives \n"); int i = 123456; byte b = 12; short s = 45; char c = 'A'; long l = 1234567890000L; float f = 3.14159f; double d = f * 2; boolean z = true; String string = "The String"; PrimitivesTest prim = new PrimitivesTest(); byte[] ba = {1, 2, 3, 4, 5, 6, 7}; // byte array to write byte[] bytes; try (ByteArrayOutputStream ostream = new ByteArrayOutputStream(); ObjectOutputStream p = new ObjectOutputStream(ostream)) { p.writeInt(i); p.writeByte(b); p.writeShort(s); p.writeChar(c); p.writeLong(l); p.writeFloat(f); p.writeDouble(d); p.writeBoolean(z); p.write(ba); // for simple read(byte[]) p.write(ba); // for readFully(byte[]) p.write(ba, 0, ba.length - 2); // for readFully(byte[], 0, 7) p.writeUTF(string); p.writeObject(string); p.writeObject(prim); p.flush(); bytes = ostream.toByteArray(); } ByteArrayInputStream istream = new ByteArrayInputStream(bytes); try (ObjectInputStream q = new ObjectInputStream(istream);) { int i_u = q.readInt(); byte b_u = q.readByte(); short s_u = q.readShort(); char c_u = q.readChar(); long l_u = q.readLong(); float f_u = q.readFloat(); double d_u = q.readDouble(); boolean z_u = q.readBoolean(); byte[] ba_readBuf = new byte[ba.length]; int ba_readLen = q.read(ba_readBuf); byte[] ba_readFullyBuf = new byte[ba.length]; int ba_readFullyLen = q.read(ba_readFullyBuf); byte[] ba_readFullySizedBuf = new byte[ba.length]; int ba_readFullySizedLen = q.read(ba_readFullySizedBuf, 0, ba.length - 2); String string_utf = q.readUTF(); String string_u = (String)q.readObject(); if (i != i_u) { System.err.println("\nint: expected " + i + " actual " +i_u); throw new Error(); } if (b != b_u) { System.err.println("\nbyte: expected " + b + " actual " +b_u); throw new Error(); } if (s != s_u) { System.err.println("\nshort: expected " + s + " actual " + s_u); throw new Error(); } if (c != c_u) { System.err.println("\nchar: expected " + c + " actual " + c_u); throw new Error(); } if (l != l_u) { System.err.println("\nlong: expected " + l + " actual " + l_u); throw new Error(); } if (f != f_u) { System.err.println("\nfloat: expected " + f + " actual " + f_u); throw new Error(); } if (d != d_u) { System.err.println("\ndouble: expected " + d + " actual " + d_u); throw new Error(); } if (z != z_u) { System.err.println("\nboolean: expected " + z + " actual " + z_u); throw new Error(); } checkArray("read(byte[])", ba, ba.length, ba_readBuf, ba_readLen); checkArray("readFully(byte[])", ba, ba.length, ba_readFullyBuf, ba_readFullyLen); checkArray("readFully(byte[], off, len)", ba, ba.length - 2, ba_readFullySizedBuf, ba_readFullySizedLen); if (!string.equals(string_utf)) { System.err.println("\nString: expected " + string + " actual " + string_utf); throw new Error(); } if (!string.equals(string_u)) { System.err.println("\nString: expected " + string + " actual " + string_u); throw new Error(); } PrimitivesTest prim_u = (PrimitivesTest)q.readObject(); if (!prim.equals(prim_u)) { System.err.println("\nTEST FAILED: Read primitive object " + "correctly = " + false); System.err.println("\n " + prim); System.err.println("\n " + prim_u); throw new Error(); } System.err.println("\nTEST PASSED"); } catch (Exception e) { System.err.print("TEST FAILED: "); e.printStackTrace(); System.err.println("\nBytes read: " + (bytes.length - istream.available()) + ", Input remaining: " + istream.available()); int ch; try { while ((ch = istream.read()) != -1) { System.err.print("\n " + Integer.toString(ch, 16)+ " "); } System.out.println("\n "); } catch (Exception fex) { throw new Error(); } throw new Error(); } } static void checkArray(String label, byte[] expected, int expectedLen, byte[] actual, int actualLen) { int mismatch = Arrays.mismatch(expected, 0, expectedLen, actual, 0, actualLen); if (actualLen != expectedLen || mismatch >= 0) { System.err.println("\n" + label + ": expected " + expectedLen + " actual " + actualLen + ", mismatch: " + mismatch); throw new Error(); } } }