Mercurial > hg > openjdk > bsd-port > jdk
view src/share/classes/sun/security/tools/jarsigner/Main.java @ 8807:b531b441e3c3
8057810: New defaults for DSA keys in jarsigner and keytool
Reviewed-by: coffeys, valeriep
Contributed-by: prasadarao.koppula@oracle.com
| author | rpatil |
|---|---|
| date | Wed, 22 Nov 2017 03:12:34 +0000 |
| parents | 21d88f84ccbe |
| children |
line wrap: on
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/* * Copyright (c) 1997, 2017, 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. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * 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. */ package sun.security.tools.jarsigner; import java.io.*; import java.util.*; import java.util.zip.*; import java.util.jar.*; import java.math.BigInteger; import java.net.URI; import java.net.URISyntaxException; import java.text.Collator; import java.text.MessageFormat; import java.security.cert.Certificate; import java.security.cert.X509Certificate; import java.security.cert.CertificateException; import java.security.*; import java.lang.reflect.Constructor; import com.sun.jarsigner.ContentSigner; import com.sun.jarsigner.ContentSignerParameters; import java.net.SocketTimeoutException; import java.net.URL; import java.net.URLClassLoader; import java.security.cert.CertPath; import java.security.cert.CertPathValidator; import java.security.cert.CertificateExpiredException; import java.security.cert.CertificateFactory; import java.security.cert.CertificateNotYetValidException; import java.security.cert.PKIXParameters; import java.security.cert.TrustAnchor; import java.util.Map.Entry; import sun.security.pkcs.PKCS7; import sun.security.pkcs.SignerInfo; import sun.security.timestamp.TimestampToken; import sun.security.tools.KeyStoreUtil; import sun.security.tools.PathList; import sun.security.x509.*; import sun.security.util.*; import sun.misc.BASE64Encoder; /** * <p>The jarsigner utility. * * The exit codes for the main method are: * * 0: success * 1: any error that the jar cannot be signed or verified, including: * keystore loading error * TSP communication error * jarsigner command line error... * otherwise: error codes from -strict * * @author Roland Schemers * @author Jan Luehe */ public class Main { // for i18n private static final java.util.ResourceBundle rb = java.util.ResourceBundle.getBundle ("sun.security.tools.jarsigner.Resources"); private static final Collator collator = Collator.getInstance(); static { // this is for case insensitive string comparisions collator.setStrength(Collator.PRIMARY); } private static final String META_INF = "META-INF/"; private static final Class[] PARAM_STRING = { String.class }; private static final String NONE = "NONE"; private static final String P11KEYSTORE = "PKCS11"; private static final long SIX_MONTHS = 180*24*60*60*1000L; //milliseconds private static final DisabledAlgorithmConstraints DISABLED_CHECK = new DisabledAlgorithmConstraints( DisabledAlgorithmConstraints.PROPERTY_JAR_DISABLED_ALGS); private static final Set<CryptoPrimitive> DIGEST_PRIMITIVE_SET = Collections .unmodifiableSet(EnumSet.of(CryptoPrimitive.MESSAGE_DIGEST)); private static final Set<CryptoPrimitive> SIG_PRIMITIVE_SET = Collections .unmodifiableSet(EnumSet.of(CryptoPrimitive.SIGNATURE)); // Attention: // This is the entry that get launched by the security tool jarsigner. public static void main(String args[]) throws Exception { Main js = new Main(); js.run(args); } static final String VERSION = "1.0"; static final int IN_KEYSTORE = 0x01; // signer is in keystore static final int IN_SCOPE = 0x02; static final int NOT_ALIAS = 0x04; // alias list is NOT empty and // signer is not in alias list static final int SIGNED_BY_ALIAS = 0x08; // signer is in alias list X509Certificate[] certChain; // signer's cert chain (when composing) PrivateKey privateKey; // private key KeyStore store; // the keystore specified by -keystore // or the default keystore, never null String keystore; // key store file boolean nullStream = false; // null keystore input stream (NONE) boolean token = false; // token-based keystore String jarfile; // jar files to sign or verify String alias; // alias to sign jar with List<String> ckaliases = new ArrayList<>(); // aliases in -verify char[] storepass; // keystore password boolean protectedPath; // protected authentication path String storetype; // keystore type String providerName; // provider name Vector<String> providers = null; // list of providers // arguments for provider constructors HashMap<String,String> providerArgs = new HashMap<>(); char[] keypass; // private key password String sigfile; // name of .SF file String sigalg; // name of signature algorithm String digestalg = "SHA-256"; // name of digest algorithm String signedjar; // output filename String tsaUrl; // location of the Timestamping Authority String tsaAlias; // alias for the Timestamping Authority's certificate String altCertChain; // file to read alternative cert chain from String tSAPolicyID; String tSADigestAlg = "SHA-256"; boolean verify = false; // verify the jar String verbose = null; // verbose output when signing/verifying boolean showcerts = false; // show certs when verifying boolean debug = false; // debug boolean signManifest = true; // "sign" the whole manifest boolean externalSF = true; // leave the .SF out of the PKCS7 block boolean strict = false; // treat warnings as error // read zip entry raw bytes private ByteArrayOutputStream baos = new ByteArrayOutputStream(2048); private byte[] buffer = new byte[8192]; private ContentSigner signingMechanism = null; private String altSignerClass = null; private String altSignerClasspath = null; private ZipFile zipFile = null; // Informational warnings private boolean hasExpiringCert = false; private boolean noTimestamp = false; private Date expireDate = new Date(0L); // used in noTimestamp warning // Severe warnings private boolean hasExpiredCert = false; private boolean notYetValidCert = false; private boolean chainNotValidated = false; private boolean notSignedByAlias = false; private boolean aliasNotInStore = false; private boolean hasUnsignedEntry = false; private boolean badKeyUsage = false; private boolean badExtendedKeyUsage = false; private boolean badNetscapeCertType = false; private boolean seeWeak = false; CertificateFactory certificateFactory; CertPathValidator validator; PKIXParameters pkixParameters; public void run(String args[]) { try { parseArgs(args); // Try to load and install the specified providers if (providers != null) { ClassLoader cl = ClassLoader.getSystemClassLoader(); Enumeration<String> e = providers.elements(); while (e.hasMoreElements()) { String provName = e.nextElement(); Class<?> provClass; if (cl != null) { provClass = cl.loadClass(provName); } else { provClass = Class.forName(provName); } String provArg = providerArgs.get(provName); Object obj; if (provArg == null) { obj = provClass.newInstance(); } else { Constructor<?> c = provClass.getConstructor(PARAM_STRING); obj = c.newInstance(provArg); } if (!(obj instanceof Provider)) { MessageFormat form = new MessageFormat(rb.getString ("provName.not.a.provider")); Object[] source = {provName}; throw new Exception(form.format(source)); } Security.addProvider((Provider)obj); } } if (verify) { try { loadKeyStore(keystore, false); } catch (Exception e) { if ((keystore != null) || (storepass != null)) { System.out.println(rb.getString("jarsigner.error.") + e.getMessage()); System.exit(1); } } /* if (debug) { SignatureFileVerifier.setDebug(true); ManifestEntryVerifier.setDebug(true); } */ verifyJar(jarfile); } else { loadKeyStore(keystore, true); getAliasInfo(alias); // load the alternative signing mechanism if (altSignerClass != null) { signingMechanism = loadSigningMechanism(altSignerClass, altSignerClasspath); } signJar(jarfile, alias, args); } } catch (Exception e) { System.out.println(rb.getString("jarsigner.error.") + e); if (debug) { e.printStackTrace(); } System.exit(1); } finally { // zero-out private key password if (keypass != null) { Arrays.fill(keypass, ' '); keypass = null; } // zero-out keystore password if (storepass != null) { Arrays.fill(storepass, ' '); storepass = null; } } if (strict) { int exitCode = 0; if (chainNotValidated || hasExpiredCert || notYetValidCert) { exitCode |= 4; } if (badKeyUsage || badExtendedKeyUsage || badNetscapeCertType) { exitCode |= 8; } if (hasUnsignedEntry) { exitCode |= 16; } if (notSignedByAlias || aliasNotInStore) { exitCode |= 32; } if (exitCode != 0) { System.exit(exitCode); } } } /* * Parse command line arguments. */ void parseArgs(String args[]) { /* parse flags */ int n = 0; if (args.length == 0) fullusage(); for (n=0; n < args.length; n++) { String flags = args[n]; String modifier = null; if (flags.charAt(0) == '-') { int pos = flags.indexOf(':'); if (pos > 0) { modifier = flags.substring(pos+1); flags = flags.substring(0, pos); } } if (collator.compare(flags, "-keystore") == 0) { if (++n == args.length) usageNoArg(); keystore = args[n]; } else if (collator.compare(flags, "-storepass") ==0) { if (++n == args.length) usageNoArg(); storepass = getPass(modifier, args[n]); } else if (collator.compare(flags, "-storetype") ==0) { if (++n == args.length) usageNoArg(); storetype = args[n]; } else if (collator.compare(flags, "-providerName") ==0) { if (++n == args.length) usageNoArg(); providerName = args[n]; } else if ((collator.compare(flags, "-provider") == 0) || (collator.compare(flags, "-providerClass") == 0)) { if (++n == args.length) usageNoArg(); if (providers == null) { providers = new Vector<String>(3); } providers.add(args[n]); if (args.length > (n+1)) { flags = args[n+1]; if (collator.compare(flags, "-providerArg") == 0) { if (args.length == (n+2)) usageNoArg(); providerArgs.put(args[n], args[n+2]); n += 2; } } } else if (collator.compare(flags, "-protected") ==0) { protectedPath = true; } else if (collator.compare(flags, "-certchain") ==0) { if (++n == args.length) usageNoArg(); altCertChain = args[n]; } else if (collator.compare(flags, "-tsapolicyid") ==0) { if (++n == args.length) usageNoArg(); tSAPolicyID = args[n]; } else if (collator.compare(flags, "-tsadigestalg") ==0) { if (++n == args.length) usageNoArg(); tSADigestAlg = args[n]; } else if (collator.compare(flags, "-debug") ==0) { debug = true; } else if (collator.compare(flags, "-keypass") ==0) { if (++n == args.length) usageNoArg(); keypass = getPass(modifier, args[n]); } else if (collator.compare(flags, "-sigfile") ==0) { if (++n == args.length) usageNoArg(); sigfile = args[n]; } else if (collator.compare(flags, "-signedjar") ==0) { if (++n == args.length) usageNoArg(); signedjar = args[n]; } else if (collator.compare(flags, "-tsa") ==0) { if (++n == args.length) usageNoArg(); tsaUrl = args[n]; } else if (collator.compare(flags, "-tsacert") ==0) { if (++n == args.length) usageNoArg(); tsaAlias = args[n]; } else if (collator.compare(flags, "-altsigner") ==0) { if (++n == args.length) usageNoArg(); altSignerClass = args[n]; } else if (collator.compare(flags, "-altsignerpath") ==0) { if (++n == args.length) usageNoArg(); altSignerClasspath = args[n]; } else if (collator.compare(flags, "-sectionsonly") ==0) { signManifest = false; } else if (collator.compare(flags, "-internalsf") ==0) { externalSF = false; } else if (collator.compare(flags, "-verify") ==0) { verify = true; } else if (collator.compare(flags, "-verbose") ==0) { verbose = (modifier != null) ? modifier : "all"; } else if (collator.compare(flags, "-sigalg") ==0) { if (++n == args.length) usageNoArg(); sigalg = args[n]; } else if (collator.compare(flags, "-digestalg") ==0) { if (++n == args.length) usageNoArg(); digestalg = args[n]; } else if (collator.compare(flags, "-certs") ==0) { showcerts = true; } else if (collator.compare(flags, "-strict") ==0) { strict = true; } else if (collator.compare(flags, "-h") == 0 || collator.compare(flags, "-help") == 0) { fullusage(); } else { if (!flags.startsWith("-")) { if (jarfile == null) { jarfile = flags; } else { alias = flags; ckaliases.add(alias); } } else { System.err.println( rb.getString("Illegal.option.") + flags); usage(); } } } // -certs must always be specified with -verbose if (verbose == null) showcerts = false; if (jarfile == null) { System.err.println(rb.getString("Please.specify.jarfile.name")); usage(); } if (!verify && alias == null) { System.err.println(rb.getString("Please.specify.alias.name")); usage(); } if (!verify && ckaliases.size() > 1) { System.err.println(rb.getString("Only.one.alias.can.be.specified")); usage(); } if (storetype == null) { storetype = KeyStore.getDefaultType(); } storetype = KeyStoreUtil.niceStoreTypeName(storetype); try { if (signedjar != null && new File(signedjar).getCanonicalPath().equals( new File(jarfile).getCanonicalPath())) { signedjar = null; } } catch (IOException ioe) { // File system error? // Just ignore it. } if (P11KEYSTORE.equalsIgnoreCase(storetype) || KeyStoreUtil.isWindowsKeyStore(storetype)) { token = true; if (keystore == null) { keystore = NONE; } } if (NONE.equals(keystore)) { nullStream = true; } if (token && !nullStream) { System.err.println(MessageFormat.format(rb.getString (".keystore.must.be.NONE.if.storetype.is.{0}"), storetype)); usage(); } if (token && keypass != null) { System.err.println(MessageFormat.format(rb.getString (".keypass.can.not.be.specified.if.storetype.is.{0}"), storetype)); usage(); } if (protectedPath) { if (storepass != null || keypass != null) { System.err.println(rb.getString ("If.protected.is.specified.then.storepass.and.keypass.must.not.be.specified")); usage(); } } if (KeyStoreUtil.isWindowsKeyStore(storetype)) { if (storepass != null || keypass != null) { System.err.println(rb.getString ("If.keystore.is.not.password.protected.then.storepass.and.keypass.must.not.be.specified")); usage(); } } } static char[] getPass(String modifier, String arg) { char[] output = KeyStoreUtil.getPassWithModifier(modifier, arg, rb); if (output != null) return output; usage(); return null; // Useless, usage() already exit } static void usageNoArg() { System.out.println(rb.getString("Option.lacks.argument")); usage(); } static void usage() { System.out.println(); System.out.println(rb.getString("Please.type.jarsigner.help.for.usage")); System.exit(1); } static void fullusage() { System.out.println(rb.getString ("Usage.jarsigner.options.jar.file.alias")); System.out.println(rb.getString (".jarsigner.verify.options.jar.file.alias.")); System.out.println(); System.out.println(rb.getString (".keystore.url.keystore.location")); System.out.println(); System.out.println(rb.getString (".storepass.password.password.for.keystore.integrity")); System.out.println(); System.out.println(rb.getString (".storetype.type.keystore.type")); System.out.println(); System.out.println(rb.getString (".keypass.password.password.for.private.key.if.different.")); System.out.println(); System.out.println(rb.getString (".certchain.file.name.of.alternative.certchain.file")); System.out.println(); System.out.println(rb.getString (".sigfile.file.name.of.SF.DSA.file")); System.out.println(); System.out.println(rb.getString (".signedjar.file.name.of.signed.JAR.file")); System.out.println(); System.out.println(rb.getString (".digestalg.algorithm.name.of.digest.algorithm")); System.out.println(); System.out.println(rb.getString (".sigalg.algorithm.name.of.signature.algorithm")); System.out.println(); System.out.println(rb.getString (".verify.verify.a.signed.JAR.file")); System.out.println(); System.out.println(rb.getString (".verbose.suboptions.verbose.output.when.signing.verifying.")); System.out.println(rb.getString (".suboptions.can.be.all.grouped.or.summary")); System.out.println(); System.out.println(rb.getString (".certs.display.certificates.when.verbose.and.verifying")); System.out.println(); System.out.println(rb.getString (".tsa.url.location.of.the.Timestamping.Authority")); System.out.println(); System.out.println(rb.getString (".tsacert.alias.public.key.certificate.for.Timestamping.Authority")); System.out.println(); System.out.println(rb.getString (".tsapolicyid.tsapolicyid.for.Timestamping.Authority")); System.out.println(); System.out.println(rb.getString (".tsadigestalg.algorithm.of.digest.data.in.timestamping.request")); System.out.println(); System.out.println(rb.getString (".altsigner.class.class.name.of.an.alternative.signing.mechanism")); System.out.println(); System.out.println(rb.getString (".altsignerpath.pathlist.location.of.an.alternative.signing.mechanism")); System.out.println(); System.out.println(rb.getString (".internalsf.include.the.SF.file.inside.the.signature.block")); System.out.println(); System.out.println(rb.getString (".sectionsonly.don.t.compute.hash.of.entire.manifest")); System.out.println(); System.out.println(rb.getString (".protected.keystore.has.protected.authentication.path")); System.out.println(); System.out.println(rb.getString (".providerName.name.provider.name")); System.out.println(); System.out.println(rb.getString (".providerClass.class.name.of.cryptographic.service.provider.s")); System.out.println(rb.getString (".providerArg.arg.master.class.file.and.constructor.argument")); System.out.println(); System.out.println(rb.getString (".strict.treat.warnings.as.errors")); System.out.println(); System.exit(0); } void verifyJar(String jarName) throws Exception { boolean anySigned = false; // if there exists entry inside jar signed JarFile jf = null; Map<String,String> digestMap = new HashMap<>(); Map<String,PKCS7> sigMap = new HashMap<>(); Map<String,String> sigNameMap = new HashMap<>(); Map<String,String> unparsableSignatures = new HashMap<>(); try { jf = new JarFile(jarName, true); Vector<JarEntry> entriesVec = new Vector<>(); byte[] buffer = new byte[8192]; Enumeration<JarEntry> entries = jf.entries(); while (entries.hasMoreElements()) { JarEntry je = entries.nextElement(); entriesVec.addElement(je); try (InputStream is = jf.getInputStream(je)) { String name = je.getName(); if (signatureRelated(name) && SignatureFileVerifier.isBlockOrSF(name)) { String alias = name.substring(name.lastIndexOf('/') + 1, name.lastIndexOf('.')); try { if (name.endsWith(".SF")) { Manifest sf = new Manifest(is); boolean found = false; for (Object obj : sf.getMainAttributes().keySet()) { String key = obj.toString(); if (key.endsWith("-Digest-Manifest")) { digestMap.put(alias, key.substring(0, key.length() - 16)); found = true; break; } } if (!found) { if (!unparsableSignatures.containsKey(alias)) { unparsableSignatures.put(alias, String.format( rb.getString("history.unparsable"), name)); } } } else { sigNameMap.put(alias, name); sigMap.put(alias, new PKCS7(is)); } } catch (IOException ioe) { if (!unparsableSignatures.containsKey(alias)) { unparsableSignatures.put(alias, String.format( rb.getString("history.unparsable"), name)); } } } else { while (is.read(buffer, 0, buffer.length) != -1) { // we just read. this will throw a SecurityException // if a signature/digest check fails. } } } } Manifest man = jf.getManifest(); boolean hasSignature = false; // The map to record display info, only used when -verbose provided // key: signer info string // value: the list of files with common key Map<String,List<String>> output = new LinkedHashMap<>(); if (man != null) { if (verbose != null) System.out.println(); Enumeration<JarEntry> e = entriesVec.elements(); String tab = rb.getString("6SPACE"); while (e.hasMoreElements()) { JarEntry je = e.nextElement(); String name = je.getName(); hasSignature = hasSignature || SignatureFileVerifier.isBlockOrSF(name); CodeSigner[] signers = je.getCodeSigners(); boolean isSigned = (signers != null); anySigned |= isSigned; hasUnsignedEntry |= !je.isDirectory() && !isSigned && !signatureRelated(name); int inStoreOrScope = inKeyStore(signers); boolean inStore = (inStoreOrScope & IN_KEYSTORE) != 0; boolean inScope = (inStoreOrScope & IN_SCOPE) != 0; notSignedByAlias |= (inStoreOrScope & NOT_ALIAS) != 0; if (keystore != null) { aliasNotInStore |= isSigned && (!inStore && !inScope); } // Only used when -verbose provided StringBuffer sb = null; if (verbose != null) { sb = new StringBuffer(); boolean inManifest = ((man.getAttributes(name) != null) || (man.getAttributes("./"+name) != null) || (man.getAttributes("/"+name) != null)); sb.append( (isSigned ? rb.getString("s") : rb.getString("SPACE")) + (inManifest ? rb.getString("m") : rb.getString("SPACE")) + (inStore ? rb.getString("k") : rb.getString("SPACE")) + (inScope ? rb.getString("i") : rb.getString("SPACE")) + ((inStoreOrScope & NOT_ALIAS) != 0 ?"X":" ") + rb.getString("SPACE")); sb.append("|"); } // When -certs provided, display info has extra empty // lines at the beginning and end. if (isSigned) { if (showcerts) sb.append('\n'); for (CodeSigner signer: signers) { // signerInfo() must be called even if -verbose // not provided. The method updates various // warning flags. String si = signerInfo(signer, tab); if (showcerts) { sb.append(si); sb.append('\n'); } } } else if (showcerts && !verbose.equals("all")) { // Print no info for unsigned entries when -verbose:all, // to be consistent with old behavior. if (signatureRelated(name)) { sb.append("\n" + tab + rb.getString( ".Signature.related.entries.") + "\n\n"); } else { sb.append("\n" + tab + rb.getString( ".Unsigned.entries.") + "\n\n"); } } if (verbose != null) { String label = sb.toString(); if (signatureRelated(name)) { // Entries inside META-INF and other unsigned // entries are grouped separately. label = "-" + label; } // The label finally contains 2 parts separated by '|': // The legend displayed before the entry names, and // the cert info (if -certs specified). if (!output.containsKey(label)) { output.put(label, new ArrayList<String>()); } StringBuffer fb = new StringBuffer(); String s = Long.toString(je.getSize()); for (int i = 6 - s.length(); i > 0; --i) { fb.append(' '); } fb.append(s).append(' '). append(new Date(je.getTime()).toString()); fb.append(' ').append(name); output.get(label).add(fb.toString()); } } } if (verbose != null) { for (Entry<String,List<String>> s: output.entrySet()) { List<String> files = s.getValue(); String key = s.getKey(); if (key.charAt(0) == '-') { // the signature-related group key = key.substring(1); } int pipe = key.indexOf('|'); if (verbose.equals("all")) { for (String f: files) { System.out.println(key.substring(0, pipe) + f); System.out.printf(key.substring(pipe+1)); } } else { if (verbose.equals("grouped")) { for (String f: files) { System.out.println(key.substring(0, pipe) + f); } } else if (verbose.equals("summary")) { System.out.print(key.substring(0, pipe)); if (files.size() > 1) { System.out.println(files.get(0) + " " + String.format(rb.getString( ".and.d.more."), files.size()-1)); } else { System.out.println(files.get(0)); } } System.out.printf(key.substring(pipe+1)); } } System.out.println(); System.out.println(rb.getString( ".s.signature.was.verified.")); System.out.println(rb.getString( ".m.entry.is.listed.in.manifest")); System.out.println(rb.getString( ".k.at.least.one.certificate.was.found.in.keystore")); System.out.println(rb.getString( ".i.at.least.one.certificate.was.found.in.identity.scope")); if (ckaliases.size() > 0) { System.out.println(rb.getString( ".X.not.signed.by.specified.alias.es.")); } } if (man == null) { System.out.println(); System.out.println(rb.getString("no.manifest.")); } // Even if the verbose option is not specified, all out strings // must be generated so seeWeak can be updated. if (!digestMap.isEmpty() || !sigMap.isEmpty() || !unparsableSignatures.isEmpty()) { if (verbose != null) { System.out.println(); } for (String s : sigMap.keySet()) { if (!digestMap.containsKey(s) && !unparsableSignatures.containsKey(s)) { unparsableSignatures.put(s, String.format( rb.getString("history.nosf"), s)); } } for (String s : digestMap.keySet()) { PKCS7 p7 = sigMap.get(s); if (p7 != null) { String history; try { SignerInfo si = p7.getSignerInfos()[0]; X509Certificate signer = si.getCertificate(p7); String digestAlg = digestMap.get(s); String sigAlg = AlgorithmId.makeSigAlg( si.getDigestAlgorithmId().getName(), si.getDigestEncryptionAlgorithmId().getName()); PublicKey key = signer.getPublicKey(); PKCS7 tsToken = si.getTsToken(); if (tsToken != null) { SignerInfo tsSi = tsToken.getSignerInfos()[0]; X509Certificate tsSigner = tsSi.getCertificate(tsToken); byte[] encTsTokenInfo = tsToken.getContentInfo().getData(); TimestampToken tsTokenInfo = new TimestampToken(encTsTokenInfo); PublicKey tsKey = tsSigner.getPublicKey(); String tsDigestAlg = tsTokenInfo.getHashAlgorithm().getName(); String tsSigAlg = AlgorithmId.makeSigAlg( tsSi.getDigestAlgorithmId().getName(), tsSi.getDigestEncryptionAlgorithmId().getName()); Calendar c = Calendar.getInstance( TimeZone.getTimeZone("UTC"), Locale.getDefault(Locale.Category.FORMAT)); c.setTime(tsTokenInfo.getDate()); history = String.format( rb.getString("history.with.ts"), signer.getSubjectX500Principal(), withWeak(digestAlg, DIGEST_PRIMITIVE_SET), withWeak(sigAlg, SIG_PRIMITIVE_SET), withWeak(key), c, tsSigner.getSubjectX500Principal(), withWeak(tsDigestAlg, DIGEST_PRIMITIVE_SET), withWeak(tsSigAlg, SIG_PRIMITIVE_SET), withWeak(tsKey)); } else { history = String.format( rb.getString("history.without.ts"), signer.getSubjectX500Principal(), withWeak(digestAlg, DIGEST_PRIMITIVE_SET), withWeak(sigAlg, SIG_PRIMITIVE_SET), withWeak(key)); } } catch (Exception e) { // The only usage of sigNameMap, remember the name // of the block file if it's invalid. history = String.format( rb.getString("history.unparsable"), sigNameMap.get(s)); } if (verbose != null) { System.out.println(history); } } else { if (!unparsableSignatures.containsKey(s)) { unparsableSignatures.put(s, String.format( rb.getString("history.nobk"), s)); } } } if (verbose != null) { for (String s : unparsableSignatures.keySet()) { System.out.println(unparsableSignatures.get(s)); } } } System.out.println(); if (!anySigned) { if (seeWeak) { if (verbose != null) { System.out.println(rb.getString("jar.treated.unsigned.see.weak.verbose")); System.out.println("\n " + DisabledAlgorithmConstraints.PROPERTY_JAR_DISABLED_ALGS + "=" + Security.getProperty(DisabledAlgorithmConstraints.PROPERTY_JAR_DISABLED_ALGS)); } else { System.out.println(rb.getString("jar.treated.unsigned.see.weak")); } } else if (hasSignature) { System.out.println(rb.getString("jar.treated.unsigned")); } else { System.out.println(rb.getString("jar.is.unsigned")); } } else { boolean warningAppeared = false; boolean errorAppeared = false; if (badKeyUsage || badExtendedKeyUsage || badNetscapeCertType || notYetValidCert || chainNotValidated || hasExpiredCert || hasUnsignedEntry || aliasNotInStore || notSignedByAlias) { if (strict) { System.out.println(rb.getString("jar.verified.with.signer.errors.")); System.out.println(); System.out.println(rb.getString("Error.")); errorAppeared = true; } else { System.out.println(rb.getString("jar.verified.")); System.out.println(); System.out.println(rb.getString("Warning.")); warningAppeared = true; } if (badKeyUsage) { System.out.println( rb.getString("This.jar.contains.entries.whose.signer.certificate.s.KeyUsage.extension.doesn.t.allow.code.signing.")); } if (badExtendedKeyUsage) { System.out.println( rb.getString("This.jar.contains.entries.whose.signer.certificate.s.ExtendedKeyUsage.extension.doesn.t.allow.code.signing.")); } if (badNetscapeCertType) { System.out.println( rb.getString("This.jar.contains.entries.whose.signer.certificate.s.NetscapeCertType.extension.doesn.t.allow.code.signing.")); } if (hasUnsignedEntry) { System.out.println(rb.getString( "This.jar.contains.unsigned.entries.which.have.not.been.integrity.checked.")); } if (hasExpiredCert) { System.out.println(rb.getString( "This.jar.contains.entries.whose.signer.certificate.has.expired.")); } if (notYetValidCert) { System.out.println(rb.getString( "This.jar.contains.entries.whose.signer.certificate.is.not.yet.valid.")); } if (chainNotValidated) { System.out.println( rb.getString("This.jar.contains.entries.whose.certificate.chain.is.not.validated.")); } if (notSignedByAlias) { System.out.println( rb.getString("This.jar.contains.signed.entries.which.is.not.signed.by.the.specified.alias.es.")); } if (aliasNotInStore) { System.out.println(rb.getString("This.jar.contains.signed.entries.that.s.not.signed.by.alias.in.this.keystore.")); } } else { System.out.println(rb.getString("jar.verified.")); } if (hasExpiringCert || noTimestamp) { if (!warningAppeared) { System.out.println(); System.out.println(rb.getString("Warning.")); warningAppeared = true; } if (hasExpiringCert) { System.out.println(rb.getString( "This.jar.contains.entries.whose.signer.certificate.will.expire.within.six.months.")); } if (noTimestamp) { System.out.println( String.format(rb.getString("no.timestamp.verifying"), expireDate)); } } if (warningAppeared || errorAppeared) { if (! (verbose != null && showcerts)) { System.out.println(); System.out.println(rb.getString( "Re.run.with.the.verbose.and.certs.options.for.more.details.")); } } } return; } catch (Exception e) { System.out.println(rb.getString("jarsigner.") + e); if (debug) { e.printStackTrace(); } } finally { // close the resource if (jf != null) { jf.close(); } } System.exit(1); } private String withWeak(String alg, Set<CryptoPrimitive> primitiveSet) { if (DISABLED_CHECK.permits(primitiveSet, alg, null)) { return alg; } else { seeWeak = true; return String.format(rb.getString("with.weak"), alg); } } private String withWeak(PublicKey key) { if (DISABLED_CHECK.permits(SIG_PRIMITIVE_SET, key)) { return String.format( rb.getString("key.bit"), KeyUtil.getKeySize(key)); } else { seeWeak = true; return String.format( rb.getString("key.bit.weak"), KeyUtil.getKeySize(key)); } } private static MessageFormat validityTimeForm = null; private static MessageFormat notYetTimeForm = null; private static MessageFormat expiredTimeForm = null; private static MessageFormat expiringTimeForm = null; /* * Display some details about a certificate: * * [<tab>] <cert-type> [", " <subject-DN>] [" (" <keystore-entry-alias> ")"] * [<validity-period> | <expiry-warning>] * * Note: no newline character at the end */ String printCert(String tab, Certificate c, boolean checkValidityPeriod, Date timestamp, boolean checkUsage) { StringBuilder certStr = new StringBuilder(); String space = rb.getString("SPACE"); X509Certificate x509Cert = null; if (c instanceof X509Certificate) { x509Cert = (X509Certificate) c; certStr.append(tab).append(x509Cert.getType()) .append(rb.getString("COMMA")) .append(x509Cert.getSubjectDN().getName()); } else { certStr.append(tab).append(c.getType()); } String alias = storeHash.get(c); if (alias != null) { certStr.append(space).append(alias); } if (checkValidityPeriod && x509Cert != null) { certStr.append("\n").append(tab).append("["); Date notAfter = x509Cert.getNotAfter(); try { boolean printValidity = true; if (timestamp == null) { if (expireDate.getTime() == 0 || expireDate.after(notAfter)) { expireDate = notAfter; } x509Cert.checkValidity(); // test if cert will expire within six months if (notAfter.getTime() < System.currentTimeMillis() + SIX_MONTHS) { hasExpiringCert = true; if (expiringTimeForm == null) { expiringTimeForm = new MessageFormat( rb.getString("certificate.will.expire.on")); } Object[] source = { notAfter }; certStr.append(expiringTimeForm.format(source)); printValidity = false; } } else { x509Cert.checkValidity(timestamp); } if (printValidity) { if (validityTimeForm == null) { validityTimeForm = new MessageFormat( rb.getString("certificate.is.valid.from")); } Object[] source = { x509Cert.getNotBefore(), notAfter }; certStr.append(validityTimeForm.format(source)); } } catch (CertificateExpiredException cee) { hasExpiredCert = true; if (expiredTimeForm == null) { expiredTimeForm = new MessageFormat( rb.getString("certificate.expired.on")); } Object[] source = { notAfter }; certStr.append(expiredTimeForm.format(source)); } catch (CertificateNotYetValidException cnyve) { notYetValidCert = true; if (notYetTimeForm == null) { notYetTimeForm = new MessageFormat( rb.getString("certificate.is.not.valid.until")); } Object[] source = { x509Cert.getNotBefore() }; certStr.append(notYetTimeForm.format(source)); } certStr.append("]"); if (checkUsage) { boolean[] bad = new boolean[3]; checkCertUsage(x509Cert, bad); if (bad[0] || bad[1] || bad[2]) { String x = ""; if (bad[0]) { x ="KeyUsage"; } if (bad[1]) { if (x.length() > 0) x = x + ", "; x = x + "ExtendedKeyUsage"; } if (bad[2]) { if (x.length() > 0) x = x + ", "; x = x + "NetscapeCertType"; } certStr.append("\n").append(tab) .append(MessageFormat.format(rb.getString( ".{0}.extension.does.not.support.code.signing."), x)); } } } return certStr.toString(); } private static MessageFormat signTimeForm = null; private String printTimestamp(String tab, Timestamp timestamp) { if (signTimeForm == null) { signTimeForm = new MessageFormat(rb.getString("entry.was.signed.on")); } Object[] source = { timestamp.getTimestamp() }; return new StringBuilder().append(tab).append("[") .append(signTimeForm.format(source)).append("]").toString(); } private Map<CodeSigner,Integer> cacheForInKS = new IdentityHashMap<>(); private int inKeyStoreForOneSigner(CodeSigner signer) { if (cacheForInKS.containsKey(signer)) { return cacheForInKS.get(signer); } boolean found = false; int result = 0; List<? extends Certificate> certs = signer.getSignerCertPath().getCertificates(); for (Certificate c : certs) { String alias = storeHash.get(c); if (alias != null) { if (alias.startsWith("(")) { result |= IN_KEYSTORE; } else if (alias.startsWith("[")) { result |= IN_SCOPE; } if (ckaliases.contains(alias.substring(1, alias.length() - 1))) { result |= SIGNED_BY_ALIAS; } } else { if (store != null) { try { alias = store.getCertificateAlias(c); } catch (KeyStoreException kse) { // never happens, because keystore has been loaded } if (alias != null) { storeHash.put(c, "(" + alias + ")"); found = true; result |= IN_KEYSTORE; } } if (ckaliases.contains(alias)) { result |= SIGNED_BY_ALIAS; } } } cacheForInKS.put(signer, result); return result; } Hashtable<Certificate, String> storeHash = new Hashtable<>(); int inKeyStore(CodeSigner[] signers) { if (signers == null) return 0; int output = 0; for (CodeSigner signer: signers) { int result = inKeyStoreForOneSigner(signer); output |= result; } if (ckaliases.size() > 0 && (output & SIGNED_BY_ALIAS) == 0) { output |= NOT_ALIAS; } return output; } void signJar(String jarName, String alias, String[] args) throws Exception { boolean aliasUsed = false; X509Certificate tsaCert = null; if (sigfile == null) { sigfile = alias; aliasUsed = true; } if (sigfile.length() > 8) { sigfile = sigfile.substring(0, 8).toUpperCase(Locale.ENGLISH); } else { sigfile = sigfile.toUpperCase(Locale.ENGLISH); } StringBuilder tmpSigFile = new StringBuilder(sigfile.length()); for (int j = 0; j < sigfile.length(); j++) { char c = sigfile.charAt(j); if (! ((c>= 'A' && c<= 'Z') || (c>= '0' && c<= '9') || (c == '-') || (c == '_'))) { if (aliasUsed) { // convert illegal characters from the alias to be _'s c = '_'; } else { throw new RuntimeException(rb.getString ("signature.filename.must.consist.of.the.following.characters.A.Z.0.9.or.")); } } tmpSigFile.append(c); } sigfile = tmpSigFile.toString(); String tmpJarName; if (signedjar == null) tmpJarName = jarName+".sig"; else tmpJarName = signedjar; File jarFile = new File(jarName); File signedJarFile = new File(tmpJarName); // Open the jar (zip) file try { zipFile = new ZipFile(jarName); } catch (IOException ioe) { error(rb.getString("unable.to.open.jar.file.")+jarName, ioe); } FileOutputStream fos = null; try { fos = new FileOutputStream(signedJarFile); } catch (IOException ioe) { error(rb.getString("unable.to.create.")+tmpJarName, ioe); } PrintStream ps = new PrintStream(fos); ZipOutputStream zos = new ZipOutputStream(ps); /* First guess at what they might be - we don't xclude RSA ones. */ String sfFilename = (META_INF + sigfile + ".SF").toUpperCase(Locale.ENGLISH); String bkFilename = (META_INF + sigfile + ".DSA").toUpperCase(Locale.ENGLISH); Manifest manifest = new Manifest(); Map<String,Attributes> mfEntries = manifest.getEntries(); // The Attributes of manifest before updating Attributes oldAttr = null; boolean mfModified = false; boolean mfCreated = false; byte[] mfRawBytes = null; try { MessageDigest digests[] = { MessageDigest.getInstance(digestalg) }; // Check if manifest exists ZipEntry mfFile; if ((mfFile = getManifestFile(zipFile)) != null) { // Manifest exists. Read its raw bytes. mfRawBytes = getBytes(zipFile, mfFile); manifest.read(new ByteArrayInputStream(mfRawBytes)); oldAttr = (Attributes)(manifest.getMainAttributes().clone()); } else { // Create new manifest Attributes mattr = manifest.getMainAttributes(); mattr.putValue(Attributes.Name.MANIFEST_VERSION.toString(), "1.0"); String javaVendor = System.getProperty("java.vendor"); String jdkVersion = System.getProperty("java.version"); mattr.putValue("Created-By", jdkVersion + " (" +javaVendor + ")"); mfFile = new ZipEntry(JarFile.MANIFEST_NAME); mfCreated = true; } /* * For each entry in jar * (except for signature-related META-INF entries), * do the following: * * - if entry is not contained in manifest, add it to manifest; * - if entry is contained in manifest, calculate its hash and * compare it with the one in the manifest; if they are * different, replace the hash in the manifest with the newly * generated one. (This may invalidate existing signatures!) */ BASE64Encoder encoder = new JarBASE64Encoder(); Vector<ZipEntry> mfFiles = new Vector<>(); boolean wasSigned = false; for (Enumeration<? extends ZipEntry> enum_=zipFile.entries(); enum_.hasMoreElements();) { ZipEntry ze = enum_.nextElement(); if (ze.getName().startsWith(META_INF)) { // Store META-INF files in vector, so they can be written // out first mfFiles.addElement(ze); if (SignatureFileVerifier.isBlockOrSF( ze.getName().toUpperCase(Locale.ENGLISH))) { wasSigned = true; } if (signatureRelated(ze.getName())) { // ignore signature-related and manifest files continue; } } if (manifest.getAttributes(ze.getName()) != null) { // jar entry is contained in manifest, check and // possibly update its digest attributes if (updateDigests(ze, zipFile, digests, encoder, manifest) == true) { mfModified = true; } } else if (!ze.isDirectory()) { // Add entry to manifest Attributes attrs = getDigestAttributes(ze, zipFile, digests, encoder); mfEntries.put(ze.getName(), attrs); mfModified = true; } } // Recalculate the manifest raw bytes if necessary if (mfModified) { ByteArrayOutputStream baos = new ByteArrayOutputStream(); manifest.write(baos); if (wasSigned) { byte[] newBytes = baos.toByteArray(); if (mfRawBytes != null && oldAttr.equals(manifest.getMainAttributes())) { /* * Note: * * The Attributes object is based on HashMap and can handle * continuation columns. Therefore, even if the contents are * not changed (in a Map view), the bytes that it write() * may be different from the original bytes that it read() * from. Since the signature on the main attributes is based * on raw bytes, we must retain the exact bytes. */ int newPos = findHeaderEnd(newBytes); int oldPos = findHeaderEnd(mfRawBytes); if (newPos == oldPos) { System.arraycopy(mfRawBytes, 0, newBytes, 0, oldPos); } else { // cat oldHead newTail > newBytes byte[] lastBytes = new byte[oldPos + newBytes.length - newPos]; System.arraycopy(mfRawBytes, 0, lastBytes, 0, oldPos); System.arraycopy(newBytes, newPos, lastBytes, oldPos, newBytes.length - newPos); newBytes = lastBytes; } } mfRawBytes = newBytes; } else { mfRawBytes = baos.toByteArray(); } } // Write out the manifest if (mfModified) { // manifest file has new length mfFile = new ZipEntry(JarFile.MANIFEST_NAME); } if (verbose != null) { if (mfCreated) { System.out.println(rb.getString(".adding.") + mfFile.getName()); } else if (mfModified) { System.out.println(rb.getString(".updating.") + mfFile.getName()); } } zos.putNextEntry(mfFile); zos.write(mfRawBytes); // Calculate SignatureFile (".SF") and SignatureBlockFile ManifestDigester manDig = new ManifestDigester(mfRawBytes); SignatureFile sf = new SignatureFile(digests, manifest, manDig, sigfile, signManifest); if (tsaAlias != null) { tsaCert = getTsaCert(tsaAlias); } if (tsaUrl == null && tsaCert == null) { noTimestamp = true; } SignatureFile.Block block = null; try { block = sf.generateBlock(privateKey, sigalg, certChain, externalSF, tsaUrl, tsaCert, tSAPolicyID, tSADigestAlg, signingMechanism, args, zipFile); } catch (SocketTimeoutException e) { // Provide a helpful message when TSA is beyond a firewall error(rb.getString("unable.to.sign.jar.") + rb.getString("no.response.from.the.Timestamping.Authority.") + "\n -J-Dhttp.proxyHost=<hostname>" + "\n -J-Dhttp.proxyPort=<portnumber>\n" + rb.getString("or") + "\n -J-Dhttps.proxyHost=<hostname> " + "\n -J-Dhttps.proxyPort=<portnumber> ", e); } sfFilename = sf.getMetaName(); bkFilename = block.getMetaName(); ZipEntry sfFile = new ZipEntry(sfFilename); ZipEntry bkFile = new ZipEntry(bkFilename); long time = System.currentTimeMillis(); sfFile.setTime(time); bkFile.setTime(time); // signature file zos.putNextEntry(sfFile); sf.write(zos); if (verbose != null) { if (zipFile.getEntry(sfFilename) != null) { System.out.println(rb.getString(".updating.") + sfFilename); } else { System.out.println(rb.getString(".adding.") + sfFilename); } } if (verbose != null) { if (tsaUrl != null || tsaCert != null) { System.out.println( rb.getString("requesting.a.signature.timestamp")); } if (tsaUrl != null) { System.out.println(rb.getString("TSA.location.") + tsaUrl); } if (tsaCert != null) { URI tsaURI = TimestampedSigner.getTimestampingURI(tsaCert); if (tsaURI != null) { System.out.println(rb.getString("TSA.location.") + tsaURI); } System.out.println(rb.getString("TSA.certificate.") + printCert("", tsaCert, false, null, false)); } if (signingMechanism != null) { System.out.println( rb.getString("using.an.alternative.signing.mechanism")); } } // signature block file zos.putNextEntry(bkFile); block.write(zos); if (verbose != null) { if (zipFile.getEntry(bkFilename) != null) { System.out.println(rb.getString(".updating.") + bkFilename); } else { System.out.println(rb.getString(".adding.") + bkFilename); } } // Write out all other META-INF files that we stored in the // vector for (int i=0; i<mfFiles.size(); i++) { ZipEntry ze = mfFiles.elementAt(i); if (!ze.getName().equalsIgnoreCase(JarFile.MANIFEST_NAME) && !ze.getName().equalsIgnoreCase(sfFilename) && !ze.getName().equalsIgnoreCase(bkFilename)) { writeEntry(zipFile, zos, ze); } } // Write out all other files for (Enumeration<? extends ZipEntry> enum_=zipFile.entries(); enum_.hasMoreElements();) { ZipEntry ze = enum_.nextElement(); if (!ze.getName().startsWith(META_INF)) { if (verbose != null) { if (manifest.getAttributes(ze.getName()) != null) System.out.println(rb.getString(".signing.") + ze.getName()); else System.out.println(rb.getString(".adding.") + ze.getName()); } writeEntry(zipFile, zos, ze); } } } catch(IOException ioe) { error(rb.getString("unable.to.sign.jar.")+ioe, ioe); } finally { // close the resouces if (zipFile != null) { zipFile.close(); zipFile = null; } if (zos != null) { zos.close(); } } // no IOException thrown in the follow try clause, so disable // the try clause. // try { if (signedjar == null) { // attempt an atomic rename. If that fails, // rename the original jar file, then the signed // one, then delete the original. if (!signedJarFile.renameTo(jarFile)) { File origJar = new File(jarName+".orig"); if (jarFile.renameTo(origJar)) { if (signedJarFile.renameTo(jarFile)) { origJar.delete(); } else { MessageFormat form = new MessageFormat(rb.getString ("attempt.to.rename.signedJarFile.to.jarFile.failed")); Object[] source = {signedJarFile, jarFile}; error(form.format(source)); } } else { MessageFormat form = new MessageFormat(rb.getString ("attempt.to.rename.jarFile.to.origJar.failed")); Object[] source = {jarFile, origJar}; error(form.format(source)); } } } boolean warningAppeared = false; if (badKeyUsage || badExtendedKeyUsage || badNetscapeCertType || notYetValidCert || chainNotValidated || hasExpiredCert) { if (strict) { System.out.println(rb.getString("jar.signed.with.signer.errors.")); System.out.println(); System.out.println(rb.getString("Error.")); } else { System.out.println(rb.getString("jar.signed.")); System.out.println(); System.out.println(rb.getString("Warning.")); warningAppeared = true; } if (badKeyUsage) { System.out.println( rb.getString("The.signer.certificate.s.KeyUsage.extension.doesn.t.allow.code.signing.")); } if (badExtendedKeyUsage) { System.out.println( rb.getString("The.signer.certificate.s.ExtendedKeyUsage.extension.doesn.t.allow.code.signing.")); } if (badNetscapeCertType) { System.out.println( rb.getString("The.signer.certificate.s.NetscapeCertType.extension.doesn.t.allow.code.signing.")); } if (hasExpiredCert) { System.out.println( rb.getString("The.signer.certificate.has.expired.")); } else if (notYetValidCert) { System.out.println( rb.getString("The.signer.certificate.is.not.yet.valid.")); } if (chainNotValidated) { System.out.println( rb.getString("The.signer.s.certificate.chain.is.not.validated.")); } } else { System.out.println(rb.getString("jar.signed.")); } if (hasExpiringCert || noTimestamp) { if (!warningAppeared) { System.out.println(); System.out.println(rb.getString("Warning.")); } if (hasExpiringCert) { System.out.println( rb.getString("The.signer.certificate.will.expire.within.six.months.")); } if (noTimestamp) { System.out.println( String.format(rb.getString("no.timestamp.signing"), expireDate)); } } // no IOException thrown in the above try clause, so disable // the catch clause. // } catch(IOException ioe) { // error(rb.getString("unable.to.sign.jar.")+ioe, ioe); // } } /** * Find the length of header inside bs. The header is a multiple (>=0) * lines of attributes plus an empty line. The empty line is included * in the header. */ @SuppressWarnings("fallthrough") private int findHeaderEnd(byte[] bs) { // Initial state true to deal with empty header boolean newline = true; // just met a newline int len = bs.length; for (int i=0; i<len; i++) { switch (bs[i]) { case '\r': if (i < len - 1 && bs[i+1] == '\n') i++; // fallthrough case '\n': if (newline) return i+1; //+1 to get length newline = true; break; default: newline = false; } } // If header end is not found, it means the MANIFEST.MF has only // the main attributes section and it does not end with 2 newlines. // Returns the whole length so that it can be completely replaced. return len; } /** * signature-related files include: * . META-INF/MANIFEST.MF * . META-INF/SIG-* * . META-INF/*.SF * . META-INF/*.DSA * . META-INF/*.RSA * . META-INF/*.EC */ private boolean signatureRelated(String name) { return SignatureFileVerifier.isSigningRelated(name); } Map<CodeSigner,String> cacheForSignerInfo = new IdentityHashMap<>(); /** * Returns a string of singer info, with a newline at the end */ private String signerInfo(CodeSigner signer, String tab) { if (cacheForSignerInfo.containsKey(signer)) { return cacheForSignerInfo.get(signer); } StringBuffer s = new StringBuffer(); List<? extends Certificate> certs = signer.getSignerCertPath().getCertificates(); // display the signature timestamp, if present Date timestamp; Timestamp ts = signer.getTimestamp(); if (ts != null) { s.append(printTimestamp(tab, ts)); s.append('\n'); timestamp = ts.getTimestamp(); } else { timestamp = null; noTimestamp = true; } // display the certificate(s). The first one is end-entity cert and // its KeyUsage should be checked. boolean first = true; for (Certificate c : certs) { s.append(printCert(tab, c, true, timestamp, first)); s.append('\n'); first = false; } try { validateCertChain(certs); } catch (Exception e) { if (debug) { e.printStackTrace(); } if (e.getCause() != null && (e.getCause() instanceof CertificateExpiredException || e.getCause() instanceof CertificateNotYetValidException)) { // No more warning, we alreay have hasExpiredCert or notYetValidCert } else { chainNotValidated = true; s.append(tab + rb.getString(".CertPath.not.validated.") + e.getLocalizedMessage() + "]\n"); // TODO } } String result = s.toString(); cacheForSignerInfo.put(signer, result); return result; } private void writeEntry(ZipFile zf, ZipOutputStream os, ZipEntry ze) throws IOException { ZipEntry ze2 = new ZipEntry(ze.getName()); ze2.setMethod(ze.getMethod()); ze2.setTime(ze.getTime()); ze2.setComment(ze.getComment()); ze2.setExtra(ze.getExtra()); if (ze.getMethod() == ZipEntry.STORED) { ze2.setSize(ze.getSize()); ze2.setCrc(ze.getCrc()); } os.putNextEntry(ze2); writeBytes(zf, ze, os); } /** * Writes all the bytes for a given entry to the specified output stream. */ private synchronized void writeBytes (ZipFile zf, ZipEntry ze, ZipOutputStream os) throws IOException { int n; InputStream is = null; try { is = zf.getInputStream(ze); long left = ze.getSize(); while((left > 0) && (n = is.read(buffer, 0, buffer.length)) != -1) { os.write(buffer, 0, n); left -= n; } } finally { if (is != null) { is.close(); } } } void loadKeyStore(String keyStoreName, boolean prompt) { if (!nullStream && keyStoreName == null) { keyStoreName = System.getProperty("user.home") + File.separator + ".keystore"; } try { certificateFactory = CertificateFactory.getInstance("X.509"); validator = CertPathValidator.getInstance("PKIX"); Set<TrustAnchor> tas = new HashSet<>(); try { KeyStore caks = KeyStoreUtil.getCacertsKeyStore(); if (caks != null) { Enumeration<String> aliases = caks.aliases(); while (aliases.hasMoreElements()) { String a = aliases.nextElement(); try { tas.add(new TrustAnchor((X509Certificate)caks.getCertificate(a), null)); } catch (Exception e2) { // ignore, when a SecretkeyEntry does not include a cert } } } } catch (Exception e) { // Ignore, if cacerts cannot be loaded } if (providerName == null) { store = KeyStore.getInstance(storetype); } else { store = KeyStore.getInstance(storetype, providerName); } // Get pass phrase // XXX need to disable echo; on UNIX, call getpass(char *prompt)Z // and on NT call ?? if (token && storepass == null && !protectedPath && !KeyStoreUtil.isWindowsKeyStore(storetype)) { storepass = getPass (rb.getString("Enter.Passphrase.for.keystore.")); } else if (!token && storepass == null && prompt) { storepass = getPass (rb.getString("Enter.Passphrase.for.keystore.")); } try { if (nullStream) { store.load(null, storepass); } else { keyStoreName = keyStoreName.replace(File.separatorChar, '/'); URL url = null; try { url = new URL(keyStoreName); } catch (java.net.MalformedURLException e) { // try as file url = new File(keyStoreName).toURI().toURL(); } InputStream is = null; try { is = url.openStream(); store.load(is, storepass); } finally { if (is != null) { is.close(); } } } Enumeration<String> aliases = store.aliases(); while (aliases.hasMoreElements()) { String a = aliases.nextElement(); try { X509Certificate c = (X509Certificate)store.getCertificate(a); // Only add TrustedCertificateEntry and self-signed // PrivateKeyEntry if (store.isCertificateEntry(a) || c.getSubjectDN().equals(c.getIssuerDN())) { tas.add(new TrustAnchor(c, null)); } } catch (Exception e2) { // ignore, when a SecretkeyEntry does not include a cert } } } finally { try { pkixParameters = new PKIXParameters(tas); pkixParameters.setRevocationEnabled(false); } catch (InvalidAlgorithmParameterException ex) { // Only if tas is empty } } } catch (IOException ioe) { throw new RuntimeException(rb.getString("keystore.load.") + ioe.getMessage()); } catch (java.security.cert.CertificateException ce) { throw new RuntimeException(rb.getString("certificate.exception.") + ce.getMessage()); } catch (NoSuchProviderException pe) { throw new RuntimeException(rb.getString("keystore.load.") + pe.getMessage()); } catch (NoSuchAlgorithmException nsae) { throw new RuntimeException(rb.getString("keystore.load.") + nsae.getMessage()); } catch (KeyStoreException kse) { throw new RuntimeException (rb.getString("unable.to.instantiate.keystore.class.") + kse.getMessage()); } } X509Certificate getTsaCert(String alias) { java.security.cert.Certificate cs = null; try { cs = store.getCertificate(alias); } catch (KeyStoreException kse) { // this never happens, because keystore has been loaded } if (cs == null || (!(cs instanceof X509Certificate))) { MessageFormat form = new MessageFormat(rb.getString ("Certificate.not.found.for.alias.alias.must.reference.a.valid.KeyStore.entry.containing.an.X.509.public.key.certificate.for.the")); Object[] source = {alias, alias}; error(form.format(source)); } return (X509Certificate) cs; } /** * Check if userCert is designed to be a code signer * @param userCert the certificate to be examined * @param bad 3 booleans to show if the KeyUsage, ExtendedKeyUsage, * NetscapeCertType has codeSigning flag turned on. * If null, the class field badKeyUsage, badExtendedKeyUsage, * badNetscapeCertType will be set. */ void checkCertUsage(X509Certificate userCert, boolean[] bad) { // Can act as a signer? // 1. if KeyUsage, then [0:digitalSignature] or // [1:nonRepudiation] should be true // 2. if ExtendedKeyUsage, then should contains ANY or CODE_SIGNING // 3. if NetscapeCertType, then should contains OBJECT_SIGNING // 1,2,3 must be true if (bad != null) { bad[0] = bad[1] = bad[2] = false; } boolean[] keyUsage = userCert.getKeyUsage(); if (keyUsage != null) { keyUsage = Arrays.copyOf(keyUsage, 9); if (!keyUsage[0] && !keyUsage[1]) { if (bad != null) { bad[0] = true; badKeyUsage = true; } } } try { List<String> xKeyUsage = userCert.getExtendedKeyUsage(); if (xKeyUsage != null) { if (!xKeyUsage.contains("2.5.29.37.0") // anyExtendedKeyUsage && !xKeyUsage.contains("1.3.6.1.5.5.7.3.3")) { // codeSigning if (bad != null) { bad[1] = true; badExtendedKeyUsage = true; } } } } catch (java.security.cert.CertificateParsingException e) { // shouldn't happen } try { // OID_NETSCAPE_CERT_TYPE byte[] netscapeEx = userCert.getExtensionValue ("2.16.840.1.113730.1.1"); if (netscapeEx != null) { DerInputStream in = new DerInputStream(netscapeEx); byte[] encoded = in.getOctetString(); encoded = new DerValue(encoded).getUnalignedBitString() .toByteArray(); NetscapeCertTypeExtension extn = new NetscapeCertTypeExtension(encoded); Boolean val = extn.get(NetscapeCertTypeExtension.OBJECT_SIGNING); if (!val) { if (bad != null) { bad[2] = true; badNetscapeCertType = true; } } } } catch (IOException e) { // } } void getAliasInfo(String alias) { Key key = null; try { java.security.cert.Certificate[] cs = null; if (altCertChain != null) { try { cs = CertificateFactory.getInstance("X.509"). generateCertificates(new FileInputStream(altCertChain)). toArray(new Certificate[0]); } catch (CertificateException ex) { error(rb.getString("Cannot.restore.certchain.from.file.specified")); } catch (FileNotFoundException ex) { error(rb.getString("File.specified.by.certchain.does.not.exist")); } } else { try { cs = store.getCertificateChain(alias); } catch (KeyStoreException kse) { // this never happens, because keystore has been loaded } } if (cs == null || cs.length == 0) { if (altCertChain != null) { error(rb.getString ("Certificate.chain.not.found.in.the.file.specified.")); } else { MessageFormat form = new MessageFormat(rb.getString ("Certificate.chain.not.found.for.alias.alias.must.reference.a.valid.KeyStore.key.entry.containing.a.private.key.and")); Object[] source = {alias, alias}; error(form.format(source)); } } certChain = new X509Certificate[cs.length]; for (int i=0; i<cs.length; i++) { if (!(cs[i] instanceof X509Certificate)) { error(rb.getString ("found.non.X.509.certificate.in.signer.s.chain")); } certChain[i] = (X509Certificate)cs[i]; } // We don't meant to print anything, the next call // checks validity and keyUsage etc printCert("", certChain[0], true, null, true); try { validateCertChain(Arrays.asList(certChain)); } catch (Exception e) { if (debug) { e.printStackTrace(); } if (e.getCause() != null && (e.getCause() instanceof CertificateExpiredException || e.getCause() instanceof CertificateNotYetValidException)) { // No more warning, we alreay have hasExpiredCert or notYetValidCert } else { chainNotValidated = true; } } try { if (!token && keypass == null) key = store.getKey(alias, storepass); else key = store.getKey(alias, keypass); } catch (UnrecoverableKeyException e) { if (token) { throw e; } else if (keypass == null) { // Did not work out, so prompt user for key password MessageFormat form = new MessageFormat(rb.getString ("Enter.key.password.for.alias.")); Object[] source = {alias}; keypass = getPass(form.format(source)); key = store.getKey(alias, keypass); } } } catch (NoSuchAlgorithmException e) { error(e.getMessage()); } catch (UnrecoverableKeyException e) { error(rb.getString("unable.to.recover.key.from.keystore")); } catch (KeyStoreException kse) { // this never happens, because keystore has been loaded } if (!(key instanceof PrivateKey)) { MessageFormat form = new MessageFormat(rb.getString ("key.associated.with.alias.not.a.private.key")); Object[] source = {alias}; error(form.format(source)); } else { privateKey = (PrivateKey)key; } } void error(String message) { System.out.println(rb.getString("jarsigner.")+message); System.exit(1); } void error(String message, Exception e) { System.out.println(rb.getString("jarsigner.")+message); if (debug) { e.printStackTrace(); } System.exit(1); } void validateCertChain(List<? extends Certificate> certs) throws Exception { int cpLen = 0; out: for (; cpLen<certs.size(); cpLen++) { for (TrustAnchor ta: pkixParameters.getTrustAnchors()) { if (ta.getTrustedCert().equals(certs.get(cpLen))) { break out; } } } if (cpLen > 0) { CertPath cp = certificateFactory.generateCertPath( (cpLen == certs.size())? certs: certs.subList(0, cpLen)); validator.validate(cp, pkixParameters); } } char[] getPass(String prompt) { System.err.print(prompt); System.err.flush(); try { char[] pass = Password.readPassword(System.in); if (pass == null) { error(rb.getString("you.must.enter.key.password")); } else { return pass; } } catch (IOException ioe) { error(rb.getString("unable.to.read.password.")+ioe.getMessage()); } // this shouldn't happen return null; } /* * Reads all the bytes for a given zip entry. */ private synchronized byte[] getBytes(ZipFile zf, ZipEntry ze) throws IOException { int n; InputStream is = null; try { is = zf.getInputStream(ze); baos.reset(); long left = ze.getSize(); while((left > 0) && (n = is.read(buffer, 0, buffer.length)) != -1) { baos.write(buffer, 0, n); left -= n; } } finally { if (is != null) { is.close(); } } return baos.toByteArray(); } /* * Returns manifest entry from given jar file, or null if given jar file * does not have a manifest entry. */ private ZipEntry getManifestFile(ZipFile zf) { ZipEntry ze = zf.getEntry(JarFile.MANIFEST_NAME); if (ze == null) { // Check all entries for matching name Enumeration<? extends ZipEntry> enum_ = zf.entries(); while (enum_.hasMoreElements() && ze == null) { ze = enum_.nextElement(); if (!JarFile.MANIFEST_NAME.equalsIgnoreCase (ze.getName())) { ze = null; } } } return ze; } /* * Computes the digests of a zip entry, and returns them as an array * of base64-encoded strings. */ private synchronized String[] getDigests(ZipEntry ze, ZipFile zf, MessageDigest[] digests, BASE64Encoder encoder) throws IOException { int n, i; InputStream is = null; try { is = zf.getInputStream(ze); long left = ze.getSize(); while((left > 0) && (n = is.read(buffer, 0, buffer.length)) != -1) { for (i=0; i<digests.length; i++) { digests[i].update(buffer, 0, n); } left -= n; } } finally { if (is != null) { is.close(); } } // complete the digests String[] base64Digests = new String[digests.length]; for (i=0; i<digests.length; i++) { base64Digests[i] = encoder.encode(digests[i].digest()); } return base64Digests; } /* * Computes the digests of a zip entry, and returns them as a list of * attributes */ private Attributes getDigestAttributes(ZipEntry ze, ZipFile zf, MessageDigest[] digests, BASE64Encoder encoder) throws IOException { String[] base64Digests = getDigests(ze, zf, digests, encoder); Attributes attrs = new Attributes(); for (int i=0; i<digests.length; i++) { attrs.putValue(digests[i].getAlgorithm()+"-Digest", base64Digests[i]); } return attrs; } /* * Updates the digest attributes of a manifest entry, by adding or * replacing digest values. * A digest value is added if the manifest entry does not contain a digest * for that particular algorithm. * A digest value is replaced if it is obsolete. * * Returns true if the manifest entry has been changed, and false * otherwise. */ private boolean updateDigests(ZipEntry ze, ZipFile zf, MessageDigest[] digests, BASE64Encoder encoder, Manifest mf) throws IOException { boolean update = false; Attributes attrs = mf.getAttributes(ze.getName()); String[] base64Digests = getDigests(ze, zf, digests, encoder); for (int i=0; i<digests.length; i++) { // The entry name to be written into attrs String name = null; try { // Find if the digest already exists AlgorithmId aid = AlgorithmId.get(digests[i].getAlgorithm()); for (Object key: attrs.keySet()) { if (key instanceof Attributes.Name) { String n = ((Attributes.Name)key).toString(); if (n.toUpperCase(Locale.ENGLISH).endsWith("-DIGEST")) { String tmp = n.substring(0, n.length() - 7); if (AlgorithmId.get(tmp).equals(aid)) { name = n; break; } } } } } catch (NoSuchAlgorithmException nsae) { // Ignored. Writing new digest entry. } if (name == null) { name = digests[i].getAlgorithm()+"-Digest"; attrs.putValue(name, base64Digests[i]); update=true; } else { // compare digests, and replace the one in the manifest // if they are different String mfDigest = attrs.getValue(name); if (!mfDigest.equalsIgnoreCase(base64Digests[i])) { attrs.putValue(name, base64Digests[i]); update=true; } } } return update; } /* * Try to load the specified signing mechanism. * The URL class loader is used. */ private ContentSigner loadSigningMechanism(String signerClassName, String signerClassPath) throws Exception { // construct class loader String cpString = null; // make sure env.class.path defaults to dot // do prepends to get correct ordering cpString = PathList.appendPath(System.getProperty("env.class.path"), cpString); cpString = PathList.appendPath(System.getProperty("java.class.path"), cpString); cpString = PathList.appendPath(signerClassPath, cpString); URL[] urls = PathList.pathToURLs(cpString); ClassLoader appClassLoader = new URLClassLoader(urls); // attempt to find signer Class<?> signerClass = appClassLoader.loadClass(signerClassName); // Check that it implements ContentSigner Object signer = signerClass.newInstance(); if (!(signer instanceof ContentSigner)) { MessageFormat form = new MessageFormat( rb.getString("signerClass.is.not.a.signing.mechanism")); Object[] source = {signerClass.getName()}; throw new IllegalArgumentException(form.format(source)); } return (ContentSigner)signer; } } /** * This is a BASE64Encoder that does not insert a default newline at the end of * every output line. This is necessary because java.util.jar does its own * line management (see Manifest.make72Safe()). Inserting additional new lines * can cause line-wrapping problems (see CR 6219522). */ class JarBASE64Encoder extends BASE64Encoder { /** * Encode the suffix that ends every output line. */ protected void encodeLineSuffix(OutputStream aStream) throws IOException { } } class SignatureFile { /** SignatureFile */ Manifest sf; /** .SF base name */ String baseName; public SignatureFile(MessageDigest digests[], Manifest mf, ManifestDigester md, String baseName, boolean signManifest) { this.baseName = baseName; String version = System.getProperty("java.version"); String javaVendor = System.getProperty("java.vendor"); sf = new Manifest(); Attributes mattr = sf.getMainAttributes(); BASE64Encoder encoder = new JarBASE64Encoder(); mattr.putValue(Attributes.Name.SIGNATURE_VERSION.toString(), "1.0"); mattr.putValue("Created-By", version + " (" + javaVendor + ")"); if (signManifest) { // sign the whole manifest for (int i=0; i < digests.length; i++) { mattr.putValue(digests[i].getAlgorithm()+"-Digest-Manifest", encoder.encode(md.manifestDigest(digests[i]))); } } // create digest of the manifest main attributes ManifestDigester.Entry mde = md.get(ManifestDigester.MF_MAIN_ATTRS, false); if (mde != null) { for (int i=0; i < digests.length; i++) { mattr.putValue(digests[i].getAlgorithm() + "-Digest-" + ManifestDigester.MF_MAIN_ATTRS, encoder.encode(mde.digest(digests[i]))); } } else { throw new IllegalStateException ("ManifestDigester failed to create " + "Manifest-Main-Attribute entry"); } /* go through the manifest entries and create the digests */ Map<String,Attributes> entries = sf.getEntries(); Iterator<Map.Entry<String,Attributes>> mit = mf.getEntries().entrySet().iterator(); while(mit.hasNext()) { Map.Entry<String,Attributes> e = mit.next(); String name = e.getKey(); mde = md.get(name, false); if (mde != null) { Attributes attr = new Attributes(); for (int i=0; i < digests.length; i++) { attr.putValue(digests[i].getAlgorithm()+"-Digest", encoder.encode(mde.digest(digests[i]))); } entries.put(name, attr); } } } /** * Writes the SignatureFile to the specified OutputStream. * * @param out the output stream * @exception IOException if an I/O error has occurred */ public void write(OutputStream out) throws IOException { sf.write(out); } /** * get .SF file name */ public String getMetaName() { return "META-INF/"+ baseName + ".SF"; } /** * get base file name */ public String getBaseName() { return baseName; } /* * Generate a signed data block. * If a URL or a certificate (containing a URL) for a Timestamping * Authority is supplied then a signature timestamp is generated and * inserted into the signed data block. * * @param sigalg signature algorithm to use, or null to use default * @param tsaUrl The location of the Timestamping Authority. If null * then no timestamp is requested. * @param tsaCert The certificate for the Timestamping Authority. If null * then no timestamp is requested. * @param signingMechanism The signing mechanism to use. * @param args The command-line arguments to jarsigner. * @param zipFile The original source Zip file. */ public Block generateBlock(PrivateKey privateKey, String sigalg, X509Certificate[] certChain, boolean externalSF, String tsaUrl, X509Certificate tsaCert, String tSAPolicyID, String tSADigestAlg, ContentSigner signingMechanism, String[] args, ZipFile zipFile) throws NoSuchAlgorithmException, InvalidKeyException, IOException, SignatureException, CertificateException { return new Block(this, privateKey, sigalg, certChain, externalSF, tsaUrl, tsaCert, tSAPolicyID, tSADigestAlg, signingMechanism, args, zipFile); } public static class Block { private byte[] block; private String blockFileName; /* * Construct a new signature block. */ Block(SignatureFile sfg, PrivateKey privateKey, String sigalg, X509Certificate[] certChain, boolean externalSF, String tsaUrl, X509Certificate tsaCert, String tSAPolicyID, String tSADigestAlg, ContentSigner signingMechanism, String[] args, ZipFile zipFile) throws NoSuchAlgorithmException, InvalidKeyException, IOException, SignatureException, CertificateException { Principal issuerName = certChain[0].getIssuerDN(); if (!(issuerName instanceof X500Name)) { // must extract the original encoded form of DN for subsequent // name comparison checks (converting to a String and back to // an encoded DN could cause the types of String attribute // values to be changed) X509CertInfo tbsCert = new X509CertInfo(certChain[0].getTBSCertificate()); issuerName = (Principal) tbsCert.get(CertificateIssuerName.NAME + "." + CertificateIssuerName.DN_NAME); } BigInteger serial = certChain[0].getSerialNumber(); String signatureAlgorithm; String keyAlgorithm = privateKey.getAlgorithm(); /* * If no signature algorithm was specified, we choose a * default that is compatible with the private key algorithm. */ if (sigalg == null) { if (keyAlgorithm.equalsIgnoreCase("DSA")) signatureAlgorithm = "SHA256withDSA"; else if (keyAlgorithm.equalsIgnoreCase("RSA")) signatureAlgorithm = "SHA256withRSA"; else if (keyAlgorithm.equalsIgnoreCase("EC")) signatureAlgorithm = "SHA256withECDSA"; else throw new RuntimeException("private key is not a DSA or " + "RSA key"); } else { signatureAlgorithm = sigalg; } // check common invalid key/signature algorithm combinations String sigAlgUpperCase = signatureAlgorithm.toUpperCase(Locale.ENGLISH); if ((sigAlgUpperCase.endsWith("WITHRSA") && !keyAlgorithm.equalsIgnoreCase("RSA")) || (sigAlgUpperCase.endsWith("WITHECDSA") && !keyAlgorithm.equalsIgnoreCase("EC")) || (sigAlgUpperCase.endsWith("WITHDSA") && !keyAlgorithm.equalsIgnoreCase("DSA"))) { throw new SignatureException ("private key algorithm is not compatible with signature algorithm"); } blockFileName = "META-INF/"+sfg.getBaseName()+"."+keyAlgorithm; AlgorithmId sigAlg = AlgorithmId.get(signatureAlgorithm); AlgorithmId digEncrAlg = AlgorithmId.get(keyAlgorithm); Signature sig = Signature.getInstance(signatureAlgorithm); sig.initSign(privateKey); ByteArrayOutputStream baos = new ByteArrayOutputStream(); sfg.write(baos); byte[] content = baos.toByteArray(); sig.update(content); byte[] signature = sig.sign(); // Timestamp the signature and generate the signature block file if (signingMechanism == null) { signingMechanism = new TimestampedSigner(); } URI tsaUri = null; try { if (tsaUrl != null) { tsaUri = new URI(tsaUrl); } } catch (URISyntaxException e) { throw new IOException(e); } // Assemble parameters for the signing mechanism ContentSignerParameters params = new JarSignerParameters(args, tsaUri, tsaCert, tSAPolicyID, tSADigestAlg, signature, signatureAlgorithm, certChain, content, zipFile); // Generate the signature block block = signingMechanism.generateSignedData( params, externalSF, (tsaUrl != null || tsaCert != null)); } /* * get block file name. */ public String getMetaName() { return blockFileName; } /** * Writes the block file to the specified OutputStream. * * @param out the output stream * @exception IOException if an I/O error has occurred */ public void write(OutputStream out) throws IOException { out.write(block); } } }