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https://github.com/moparisthebest/open-keychain
synced 2024-11-27 19:22:14 -05:00
Use higher s2k count
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@ -25,7 +25,6 @@ import org.spongycastle.bcpg.SymmetricKeyAlgorithmTags;
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import org.spongycastle.bcpg.sig.Features;
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import org.spongycastle.bcpg.sig.KeyFlags;
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import org.spongycastle.jce.spec.ElGamalParameterSpec;
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import org.spongycastle.openpgp.PGPEncryptedData;
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import org.spongycastle.openpgp.PGPException;
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import org.spongycastle.openpgp.PGPKeyPair;
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import org.spongycastle.openpgp.PGPPrivateKey;
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@ -104,6 +103,26 @@ public class PgpKeyOperation {
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CompressionAlgorithmTags.ZIP
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};
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/*
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* Note: s2kcount is a number between 0 and 0xff that controls the
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* number of times to iterate the password hash before use. More
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* iterations are useful against offline attacks, as it takes more
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* time to check each password. The actual number of iterations is
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* rather complex, and also depends on the hash function in use.
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* Refer to Section 3.7.1.3 in rfc4880.txt. Bigger numbers give
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* you more iterations. As a rough rule of thumb, when using
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* SHA256 as the hashing function, 0x10 gives you about 64
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* iterations, 0x20 about 128, 0x30 about 256 and so on till 0xf0,
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* or about 1 million iterations. The maximum you can go to is
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* 0xff, or about 2 million iterations. I'll use 0xc0 as a
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* default -- about 130,000 iterations.
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*
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* http://kbsriram.com/2013/01/generating-rsa-keys-with-bouncycastle.html
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*/
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private static final int SECRET_KEY_ENCRYPTOR_HASH_ALGO = HashAlgorithmTags.SHA512;
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private static final int SECRET_KEY_ENCRYPTOR_SYMMETRIC_ALGO = SymmetricKeyAlgorithmTags.AES_256;
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private static final int SECRET_KEY_ENCRYPTOR_S2K_COUNT = 0xc0;
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public PgpKeyOperation(Progressable progress) {
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super();
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if (progress != null) {
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@ -250,10 +269,10 @@ public class PgpKeyOperation {
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progress(R.string.progress_building_master_key, 40);
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// Build key encrypter and decrypter based on passphrase
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PGPDigestCalculator sha512Calc = new JcaPGPDigestCalculatorProviderBuilder()
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.build().get(HashAlgorithmTags.SHA512);
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PGPDigestCalculator encryptorHashCalc = new JcaPGPDigestCalculatorProviderBuilder()
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.build().get(SECRET_KEY_ENCRYPTOR_HASH_ALGO);
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PBESecretKeyEncryptor keyEncryptor = new JcePBESecretKeyEncryptorBuilder(
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PGPEncryptedData.AES_256, sha512Calc)
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SECRET_KEY_ENCRYPTOR_SYMMETRIC_ALGO, encryptorHashCalc, SECRET_KEY_ENCRYPTOR_S2K_COUNT)
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.setProvider(Constants.BOUNCY_CASTLE_PROVIDER_NAME).build("".toCharArray());
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// NOTE: only SHA1 is supported for key checksum calculations.
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@ -705,10 +724,10 @@ public class PgpKeyOperation {
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PGPSecretKey sKey; {
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// Build key encrypter and decrypter based on passphrase
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PGPDigestCalculator sha512Calc = new JcaPGPDigestCalculatorProviderBuilder()
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.build().get(HashAlgorithmTags.SHA512);
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PGPDigestCalculator encryptorHashCalc = new JcaPGPDigestCalculatorProviderBuilder()
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.build().get(SECRET_KEY_ENCRYPTOR_HASH_ALGO);
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PBESecretKeyEncryptor keyEncryptor = new JcePBESecretKeyEncryptorBuilder(
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PGPEncryptedData.AES_256, sha512Calc)
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SECRET_KEY_ENCRYPTOR_SYMMETRIC_ALGO, encryptorHashCalc, SECRET_KEY_ENCRYPTOR_S2K_COUNT)
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.setProvider(Constants.BOUNCY_CASTLE_PROVIDER_NAME).build(passphrase.toCharArray());
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// NOTE: only SHA1 is supported for key checksum calculations.
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@ -731,13 +750,13 @@ public class PgpKeyOperation {
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log.add(LogLevel.INFO, LogType.MSG_MF_PASSPHRASE, indent);
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indent += 1;
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PGPDigestCalculator sha512Calc = new JcaPGPDigestCalculatorProviderBuilder().build()
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.get(HashAlgorithmTags.SHA512);
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PGPDigestCalculator encryptorHashCalc = new JcaPGPDigestCalculatorProviderBuilder().build()
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.get(SECRET_KEY_ENCRYPTOR_HASH_ALGO);
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PBESecretKeyDecryptor keyDecryptor = new JcePBESecretKeyDecryptorBuilder().setProvider(
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Constants.BOUNCY_CASTLE_PROVIDER_NAME).build(passphrase.toCharArray());
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// Build key encryptor based on new passphrase
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PBESecretKeyEncryptor keyEncryptorNew = new JcePBESecretKeyEncryptorBuilder(
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PGPEncryptedData.AES_256, sha512Calc)
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SECRET_KEY_ENCRYPTOR_SYMMETRIC_ALGO, encryptorHashCalc, SECRET_KEY_ENCRYPTOR_S2K_COUNT)
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.setProvider(Constants.BOUNCY_CASTLE_PROVIDER_NAME).build(
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saveParcel.mNewPassphrase.toCharArray());
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