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package sun.security.ssl;

import javax.net.ssl.*;
import java.security.*;
import java.security.cert.*;
import java.security.cert.Certificate;
import java.util.*;
import java.net.Socket;

import javax.security.auth.x500.X500Principal;


An implementation of X509KeyManager backed by a KeyStore. The backing KeyStore is inspected when this object is constructed. All key entries containing a PrivateKey and a non-empty chain of X509Certificate are then copied into an internal store. This means that subsequent modifications of the KeyStore have no effect on the X509KeyManagerImpl object. Note that this class assumes that all keys are protected by the same password. The JSSE handshake code currently calls into this class via chooseClientAlias() and chooseServerAlias() to find the certificates to use. As implemented here, both always return the first alias returned by getClientAliases() and getServerAliases(). In turn, these methods are implemented by calling getAliases(), which performs the actual lookup. Note that this class currently implements no checking of the local certificates. In particular, it is *not* guaranteed that: . the certificates are within their validity period and not revoked . the signatures verify . they form a PKIX compliant chain. . the certificate extensions allow the certificate to be used for the desired purpose. Chains that fail any of these criteria will probably be rejected by the remote peer.
/** * An implementation of X509KeyManager backed by a KeyStore. * * The backing KeyStore is inspected when this object is constructed. * All key entries containing a PrivateKey and a non-empty chain of * X509Certificate are then copied into an internal store. This means * that subsequent modifications of the KeyStore have no effect on the * X509KeyManagerImpl object. * * Note that this class assumes that all keys are protected by the same * password. * * The JSSE handshake code currently calls into this class via * chooseClientAlias() and chooseServerAlias() to find the certificates to * use. As implemented here, both always return the first alias returned by * getClientAliases() and getServerAliases(). In turn, these methods are * implemented by calling getAliases(), which performs the actual lookup. * * Note that this class currently implements no checking of the local * certificates. In particular, it is *not* guaranteed that: * . the certificates are within their validity period and not revoked * . the signatures verify * . they form a PKIX compliant chain. * . the certificate extensions allow the certificate to be used for * the desired purpose. * * Chains that fail any of these criteria will probably be rejected by * the remote peer. * */
final class SunX509KeyManagerImpl extends X509ExtendedKeyManager { private static final Debug debug = Debug.getInstance("ssl"); private static final String[] STRING0 = new String[0]; /* * The credentials from the KeyStore as * Map: String(alias) -> X509Credentials(credentials) */ private Map<String,X509Credentials> credentialsMap; /* * Cached server aliases for the case issuers == null. * (in the current JSSE implementation, issuers are always null for * server certs). See chooseServerAlias() for details. * * Map: String(keyType) -> String[](alias) */ private Map<String,String[]> serverAliasCache; /* * Basic container for credentials implemented as an inner class. */ private static class X509Credentials { PrivateKey privateKey; X509Certificate[] certificates; private Set<X500Principal> issuerX500Principals; X509Credentials(PrivateKey privateKey, X509Certificate[] certificates) { // assert privateKey and certificates != null this.privateKey = privateKey; this.certificates = certificates; } synchronized Set<X500Principal> getIssuerX500Principals() { // lazy initialization if (issuerX500Principals == null) { issuerX500Principals = new HashSet<X500Principal>(); for (int i = 0; i < certificates.length; i++) { issuerX500Principals.add( certificates[i].getIssuerX500Principal()); } } return issuerX500Principals; } } SunX509KeyManagerImpl(KeyStore ks, char[] password) throws KeyStoreException, NoSuchAlgorithmException, UnrecoverableKeyException { credentialsMap = new HashMap<String,X509Credentials>(); serverAliasCache = new HashMap<String,String[]>(); if (ks == null) { return; } for (Enumeration<String> aliases = ks.aliases(); aliases.hasMoreElements(); ) { String alias = aliases.nextElement(); if (!ks.isKeyEntry(alias)) { continue; } Key key = ks.getKey(alias, password); if (key instanceof PrivateKey == false) { continue; } Certificate[] certs = ks.getCertificateChain(alias); if ((certs == null) || (certs.length == 0) || !(certs[0] instanceof X509Certificate)) { continue; } if (!(certs instanceof X509Certificate[])) { Certificate[] tmp = new X509Certificate[certs.length]; System.arraycopy(certs, 0, tmp, 0, certs.length); certs = tmp; } X509Credentials cred = new X509Credentials((PrivateKey)key, (X509Certificate[])certs); credentialsMap.put(alias, cred); if (debug != null && Debug.isOn("keymanager")) { System.out.println("***"); System.out.println("found key for : " + alias); for (int i = 0; i < certs.length; i++) { System.out.println("chain [" + i + "] = " + certs[i]); } System.out.println("***"); } } } /* * Returns the certificate chain associated with the given alias. * * @return the certificate chain (ordered with the user's certificate first * and the root certificate authority last) */ public X509Certificate[] getCertificateChain(String alias) { if (alias == null) { return null; } X509Credentials cred = credentialsMap.get(alias); if (cred == null) { return null; } else { return cred.certificates.clone(); } } /* * Returns the key associated with the given alias */ public PrivateKey getPrivateKey(String alias) { if (alias == null) { return null; } X509Credentials cred = credentialsMap.get(alias); if (cred == null) { return null; } else { return cred.privateKey; } } /* * Choose an alias to authenticate the client side of a secure * socket given the public key type and the list of * certificate issuer authorities recognized by the peer (if any). */ public String chooseClientAlias(String[] keyTypes, Principal[] issuers, Socket socket) { /* * We currently don't do anything with socket, but * someday we might. It might be a useful hint for * selecting one of the aliases we get back from * getClientAliases(). */ if (keyTypes == null) { return null; } for (int i = 0; i < keyTypes.length; i++) { String[] aliases = getClientAliases(keyTypes[i], issuers); if ((aliases != null) && (aliases.length > 0)) { return aliases[0]; } } return null; } /* * Choose an alias to authenticate the client side of an * <code>SSLEngine</code> connection given the public key type * and the list of certificate issuer authorities recognized by * the peer (if any). * * @since 1.5 */ public String chooseEngineClientAlias(String[] keyType, Principal[] issuers, SSLEngine engine) { /* * If we ever start using socket as a selection criteria, * we'll need to adjust this. */ return chooseClientAlias(keyType, issuers, null); } /* * Choose an alias to authenticate the server side of a secure * socket given the public key type and the list of * certificate issuer authorities recognized by the peer (if any). */ public String chooseServerAlias(String keyType, Principal[] issuers, Socket socket) { /* * We currently don't do anything with socket, but * someday we might. It might be a useful hint for * selecting one of the aliases we get back from * getServerAliases(). */ if (keyType == null) { return null; } String[] aliases; if (issuers == null || issuers.length == 0) { aliases = serverAliasCache.get(keyType); if (aliases == null) { aliases = getServerAliases(keyType, issuers); // Cache the result (positive and negative lookups) if (aliases == null) { aliases = STRING0; } serverAliasCache.put(keyType, aliases); } } else { aliases = getServerAliases(keyType, issuers); } if ((aliases != null) && (aliases.length > 0)) { return aliases[0]; } return null; } /* * Choose an alias to authenticate the server side of an * <code>SSLEngine</code> connection given the public key type * and the list of certificate issuer authorities recognized by * the peer (if any). * * @since 1.5 */ public String chooseEngineServerAlias(String keyType, Principal[] issuers, SSLEngine engine) { /* * If we ever start using socket as a selection criteria, * we'll need to adjust this. */ return chooseServerAlias(keyType, issuers, null); } /* * Get the matching aliases for authenticating the client side of a secure * socket given the public key type and the list of * certificate issuer authorities recognized by the peer (if any). */ public String[] getClientAliases(String keyType, Principal[] issuers) { return getAliases(keyType, issuers); } /* * Get the matching aliases for authenticating the server side of a secure * socket given the public key type and the list of * certificate issuer authorities recognized by the peer (if any). */ public String[] getServerAliases(String keyType, Principal[] issuers) { return getAliases(keyType, issuers); } /* * Get the matching aliases for authenticating the either side of a secure * socket given the public key type and the list of * certificate issuer authorities recognized by the peer (if any). * * Issuers comes to us in the form of X500Principal[]. */ private String[] getAliases(String keyType, Principal[] issuers) { if (keyType == null) { return null; } if (issuers == null) { issuers = new X500Principal[0]; } if (issuers instanceof X500Principal[] == false) { // normally, this will never happen but try to recover if it does issuers = convertPrincipals(issuers); } String sigType; if (keyType.contains("_")) { int k = keyType.indexOf("_"); sigType = keyType.substring(k + 1); keyType = keyType.substring(0, k); } else { sigType = null; } X500Principal[] x500Issuers = (X500Principal[])issuers; // the algorithm below does not produce duplicates, so avoid Set List<String> aliases = new ArrayList<>(); for (Map.Entry<String,X509Credentials> entry : credentialsMap.entrySet()) { String alias = entry.getKey(); X509Credentials credentials = entry.getValue(); X509Certificate[] certs = credentials.certificates; if (!keyType.equals(certs[0].getPublicKey().getAlgorithm())) { continue; } if (sigType != null) { if (certs.length > 1) { // if possible, check the public key in the issuer cert if (!sigType.equals(certs[1].getPublicKey().getAlgorithm())) { continue; } } else { // Check the signature algorithm of the certificate itself. // Look for the "withRSA" in "SHA1withRSA", etc. String sigAlgName = certs[0].getSigAlgName().toUpperCase(Locale.ENGLISH); String pattern = "WITH" + sigType.toUpperCase(Locale.ENGLISH); if (sigAlgName.contains(pattern) == false) { continue; } } } if (issuers.length == 0) { // no issuer specified, match all aliases.add(alias); if (debug != null && Debug.isOn("keymanager")) { System.out.println("matching alias: " + alias); } } else { Set<X500Principal> certIssuers = credentials.getIssuerX500Principals(); for (int i = 0; i < x500Issuers.length; i++) { if (certIssuers.contains(issuers[i])) { aliases.add(alias); if (debug != null && Debug.isOn("keymanager")) { System.out.println("matching alias: " + alias); } break; } } } } String[] aliasStrings = aliases.toArray(STRING0); return ((aliasStrings.length == 0) ? null : aliasStrings); } /* * Convert an array of Principals to an array of X500Principals, if * possible. Principals that cannot be converted are ignored. */ private static X500Principal[] convertPrincipals(Principal[] principals) { List<X500Principal> list = new ArrayList<>(principals.length); for (int i = 0; i < principals.length; i++) { Principal p = principals[i]; if (p instanceof X500Principal) { list.add((X500Principal)p); } else { try { list.add(new X500Principal(p.getName())); } catch (IllegalArgumentException e) { // ignore } } } return list.toArray(new X500Principal[list.size()]); } }