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JDK 11 java.base.jmod - Base Module
JDK 11 java.base.jmod is the JMOD file for JDK 11 Base module.
JDK 11 Base module compiled class files are stored in \fyicenter\jdk-11.0.1\jmods\java.base.jmod.
JDK 11 Base module compiled class files are also linked and stored in the \fyicenter\jdk-11.0.1\lib\modules JImage file.
JDK 11 Base module source code files are stored in \fyicenter\jdk-11.0.1\lib\src.zip\java.base.
You can click and view the content of each source code file in the list below.
✍: FYIcenter
⏎ java/security/SignedObject.java
/* * Copyright (c) 1997, 2017, Oracle and/or its affiliates. All rights reserved. * ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. * * * * * * * * * * * * * * * * * * * * */ package java.security; import java.io.*; /** * <p> SignedObject is a class for the purpose of creating authentic * runtime objects whose integrity cannot be compromised without being * detected. * * <p> More specifically, a SignedObject contains another Serializable * object, the (to-be-)signed object and its signature. * * <p> The signed object is a "deep copy" (in serialized form) of an * original object. Once the copy is made, further manipulation of * the original object has no side effect on the copy. * * <p> The underlying signing algorithm is designated by the Signature * object passed to the constructor and the {@code verify} method. * A typical usage for signing is the following: * * <pre>{@code * Signature signingEngine = Signature.getInstance(algorithm, * provider); * SignedObject so = new SignedObject(myobject, signingKey, * signingEngine); * }</pre> * * <p> A typical usage for verification is the following (having * received SignedObject {@code so}): * * <pre>{@code * Signature verificationEngine = * Signature.getInstance(algorithm, provider); * if (so.verify(publickey, verificationEngine)) * try { * Object myobj = so.getObject(); * } catch (java.lang.ClassNotFoundException e) {}; * }</pre> * * <p> Several points are worth noting. First, there is no need to * initialize the signing or verification engine, as it will be * re-initialized inside the constructor and the {@code verify} * method. Secondly, for verification to succeed, the specified * public key must be the public key corresponding to the private key * used to generate the SignedObject. * * <p> More importantly, for flexibility reasons, the * constructor and {@code verify} method allow for * customized signature engines, which can implement signature * algorithms that are not installed formally as part of a crypto * provider. However, it is crucial that the programmer writing the * verifier code be aware what {@code Signature} engine is being * used, as its own implementation of the {@code verify} method * is invoked to verify a signature. In other words, a malicious * {@code Signature} may choose to always return true on * verification in an attempt to bypass a security check. * * <p> The signature algorithm can be, among others, the NIST standard * DSA, using DSA and SHA-256. The algorithm is specified using the * same convention as that for signatures. The DSA algorithm using the * SHA-256 message digest algorithm can be specified, for example, as * "SHA256withDSA". In the case of * RSA the signing algorithm could be specified as, for example, * "SHA256withRSA". The algorithm name must be * specified, as there is no default. * * <p> The name of the Cryptography Package Provider is designated * also by the Signature parameter to the constructor and the * {@code verify} method. If the provider is not * specified, the default provider is used. Each installation can * be configured to use a particular provider as default. * * <p> Potential applications of SignedObject include: * <ul> * <li> It can be used * internally to any Java runtime as an unforgeable authorization * token -- one that can be passed around without the fear that the * token can be maliciously modified without being detected. * <li> It * can be used to sign and serialize data/object for storage outside * the Java runtime (e.g., storing critical access control data on * disk). * <li> Nested SignedObjects can be used to construct a logical * sequence of signatures, resembling a chain of authorization and * delegation. * </ul> * * @see Signature * * @author Li Gong * @since 1.2 */ public final class SignedObject implements Serializable { private static final long serialVersionUID = 720502720485447167L; /* * The original content is "deep copied" in its serialized format * and stored in a byte array. The signature field is also in the * form of byte array. */ private byte[] content; private byte[] signature; private String thealgorithm; /** * Constructs a SignedObject from any Serializable object. * The given object is signed with the given signing key, using the * designated signature engine. * * @param object the object to be signed. * @param signingKey the private key for signing. * @param signingEngine the signature signing engine. * * @exception IOException if an error occurs during serialization * @exception InvalidKeyException if the key is invalid. * @exception SignatureException if signing fails. */ public SignedObject(Serializable object, PrivateKey signingKey, Signature signingEngine) throws IOException, InvalidKeyException, SignatureException { // creating a stream pipe-line, from a to b ByteArrayOutputStream b = new ByteArrayOutputStream(); ObjectOutput a = new ObjectOutputStream(b); // write and flush the object content to byte array a.writeObject(object); a.flush(); a.close(); this.content = b.toByteArray(); b.close(); // now sign the encapsulated object this.sign(signingKey, signingEngine); } /** * Retrieves the encapsulated object. * The encapsulated object is de-serialized before it is returned. * * @return the encapsulated object. * * @exception IOException if an error occurs during de-serialization * @exception ClassNotFoundException if an error occurs during * de-serialization */ public Object getObject() throws IOException, ClassNotFoundException { // creating a stream pipe-line, from b to a ByteArrayInputStream b = new ByteArrayInputStream(this.content); ObjectInput a = new ObjectInputStream(b); Object obj = a.readObject(); b.close(); a.close(); return obj; } /** * Retrieves the signature on the signed object, in the form of a * byte array. * * @return the signature. Returns a new array each time this * method is called. */ public byte[] getSignature() { return this.signature.clone(); } /** * Retrieves the name of the signature algorithm. * * @return the signature algorithm name. */ public String getAlgorithm() { return this.thealgorithm; } /** * Verifies that the signature in this SignedObject is the valid * signature for the object stored inside, with the given * verification key, using the designated verification engine. * * @param verificationKey the public key for verification. * @param verificationEngine the signature verification engine. * * @exception SignatureException if signature verification failed (an * exception prevented the signature verification engine from completing * normally). * @exception InvalidKeyException if the verification key is invalid. * * @return {@code true} if the signature * is valid, {@code false} otherwise */ public boolean verify(PublicKey verificationKey, Signature verificationEngine) throws InvalidKeyException, SignatureException { verificationEngine.initVerify(verificationKey); verificationEngine.update(this.content.clone()); return verificationEngine.verify(this.signature.clone()); } /* * Signs the encapsulated object with the given signing key, using the * designated signature engine. * * @param signingKey the private key for signing. * @param signingEngine the signature signing engine. * * @exception InvalidKeyException if the key is invalid. * @exception SignatureException if signing fails. */ private void sign(PrivateKey signingKey, Signature signingEngine) throws InvalidKeyException, SignatureException { // initialize the signing engine signingEngine.initSign(signingKey); signingEngine.update(this.content.clone()); this.signature = signingEngine.sign().clone(); this.thealgorithm = signingEngine.getAlgorithm(); } /** * readObject is called to restore the state of the SignedObject from * a stream. */ private void readObject(java.io.ObjectInputStream s) throws java.io.IOException, ClassNotFoundException { java.io.ObjectInputStream.GetField fields = s.readFields(); content = ((byte[])fields.get("content", null)).clone(); signature = ((byte[])fields.get("signature", null)).clone(); thealgorithm = (String)fields.get("thealgorithm", null); } }
⏎ java/security/SignedObject.java
Or download all of them as a single archive file:
File name: java.base-11.0.1-src.zip File size: 8740354 bytes Release date: 2018-11-04 Download
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