bitwarden-android/src/App/Services/CryptoService.cs

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using System;
using System.Diagnostics;
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using System.Text;
using Bit.App.Abstractions;
using Bit.App.Models;
using PCLCrypto;
using System.Linq;
using Bit.App.Enums;
using System.Collections.Generic;
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using Newtonsoft.Json;
using Plugin.Settings.Abstractions;
using Bit.App.Models.Api;
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namespace Bit.App.Services
{
public class CryptoService : ICryptoService
{
private const string KeyKey = "key";
private const string PreviousKeyKey = "previousKey";
private const string PrivateKeyKey = "encPrivateKey";
private const string OrgKeysKey = "encOrgKeys";
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private const int InitializationVectorSize = 16;
private readonly ISettings _settings;
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private readonly ISecureStorageService _secureStorage;
private readonly IKeyDerivationService _keyDerivationService;
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private SymmetricCryptoKey _key;
private SymmetricCryptoKey _legacyEtmKey;
private SymmetricCryptoKey _previousKey;
private IDictionary<string, SymmetricCryptoKey> _orgKeys;
private byte[] _privateKey;
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public CryptoService(
ISettings settings,
ISecureStorageService secureStorage,
IKeyDerivationService keyDerivationService)
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{
_settings = settings;
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_secureStorage = secureStorage;
_keyDerivationService = keyDerivationService;
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}
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public SymmetricCryptoKey Key
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{
get
{
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if(_key == null && _secureStorage.Contains(KeyKey))
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{
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var keyBytes = _secureStorage.Retrieve(KeyKey);
if(keyBytes != null)
{
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_key = new SymmetricCryptoKey(keyBytes);
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}
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}
return _key;
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}
set
{
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if(value != null)
{
_secureStorage.Store(KeyKey, value.Key);
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}
else
{
PreviousKey = _key;
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_secureStorage.Delete(KeyKey);
_key = null;
_legacyEtmKey = null;
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}
}
}
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public SymmetricCryptoKey PreviousKey
{
get
{
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if(_previousKey == null && _secureStorage.Contains(PreviousKeyKey))
{
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var keyBytes = _secureStorage.Retrieve(PreviousKeyKey);
if(keyBytes != null)
{
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_previousKey = new SymmetricCryptoKey(keyBytes);
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}
}
return _previousKey;
}
private set
{
if(value != null)
{
_secureStorage.Store(PreviousKeyKey, value.Key);
_previousKey = value;
}
}
}
public bool KeyChanged
{
get
{
if(Key == null)
{
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return false;
}
if(PreviousKey == null)
{
return Key != null;
}
return !PreviousKey.Key.SequenceEqual(Key.Key);
}
}
public byte[] PrivateKey
{
get
{
if(_privateKey == null && _settings.Contains(PrivateKeyKey))
{
var encPrivateKey = _settings.GetValueOrDefault<string>(PrivateKeyKey);
var encPrivateKeyCs = new CipherString(encPrivateKey);
try
{
_privateKey = DecryptToBytes(encPrivateKeyCs);
}
catch
{
_privateKey = null;
Debug.WriteLine($"Cannot set private key. Decryption failed.");
}
}
return _privateKey;
}
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}
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public IDictionary<string, SymmetricCryptoKey> OrgKeys
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{
get
{
if((!_orgKeys?.Any() ?? true) && _settings.Contains(OrgKeysKey))
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{
var orgKeysEncDictJson = _settings.GetValueOrDefault<string>(OrgKeysKey);
if(!string.IsNullOrWhiteSpace(orgKeysEncDictJson))
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{
_orgKeys = new Dictionary<string, SymmetricCryptoKey>();
var orgKeysDict = JsonConvert.DeserializeObject<IDictionary<string, string>>(orgKeysEncDictJson);
foreach(var item in orgKeysDict)
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{
try
{
var orgKeyCs = new CipherString(item.Value);
var decOrgKeyBytes = RsaDecryptToBytes(orgKeyCs, PrivateKey);
_orgKeys.Add(item.Key, new SymmetricCryptoKey(decOrgKeyBytes));
}
catch
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{
Debug.WriteLine($"Cannot set org key {item.Key}. Decryption failed.");
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}
}
}
}
return _orgKeys;
}
}
public void SetPrivateKey(CipherString privateKeyEnc)
{
if(privateKeyEnc != null)
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{
_settings.AddOrUpdateValue(PrivateKeyKey, privateKeyEnc.EncryptedString);
}
else if(_settings.Contains(PrivateKeyKey))
{
_settings.Remove(PrivateKeyKey);
_privateKey = null;
}
else
{
_privateKey = null;
}
}
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public void SetOrgKeys(ProfileResponse profile)
{
var orgKeysEncDict = new Dictionary<string, string>();
if(profile?.Organizations?.Any() ?? false)
{
foreach(var org in profile.Organizations)
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{
orgKeysEncDict.Add(org.Id, org.Key);
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}
}
SetOrgKeys(orgKeysEncDict);
}
public void SetOrgKeys(Dictionary<string, string> orgKeysEncDict)
{
if(orgKeysEncDict?.Any() ?? false)
{
var dictJson = JsonConvert.SerializeObject(orgKeysEncDict);
_settings.AddOrUpdateValue(OrgKeysKey, dictJson);
}
else if(_settings.Contains(OrgKeysKey))
{
_settings.Remove(OrgKeysKey);
_orgKeys = null;
}
else
{
_orgKeys = null;
}
}
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public SymmetricCryptoKey GetOrgKey(string orgId)
{
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if(OrgKeys == null || !OrgKeys.ContainsKey(orgId))
{
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return null;
}
return OrgKeys[orgId];
}
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public void ClearKeys()
{
SetOrgKeys((Dictionary<string, string>)null);
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Key = null;
SetPrivateKey(null);
}
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public CipherString Encrypt(string plaintextValue, SymmetricCryptoKey key = null)
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{
if(key == null)
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{
key = Key;
}
if(key == null)
{
throw new ArgumentNullException(nameof(key));
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}
if(plaintextValue == null)
{
throw new ArgumentNullException(nameof(plaintextValue));
}
var plaintextBytes = Encoding.UTF8.GetBytes(plaintextValue);
var provider = WinRTCrypto.SymmetricKeyAlgorithmProvider.OpenAlgorithm(SymmetricAlgorithm.AesCbcPkcs7);
var cryptoKey = provider.CreateSymmetricKey(key.EncKey);
var iv = WinRTCrypto.CryptographicBuffer.GenerateRandom(provider.BlockLength);
var encryptedBytes = WinRTCrypto.CryptographicEngine.Encrypt(cryptoKey, plaintextBytes, iv);
var mac = key.MacKey != null ? ComputeMac(encryptedBytes, iv, key.MacKey) : null;
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return new CipherString(key.EncryptionType, Convert.ToBase64String(iv),
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Convert.ToBase64String(encryptedBytes), mac);
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}
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public string Decrypt(CipherString encyptedValue, SymmetricCryptoKey key = null)
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{
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try
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{
var bytes = DecryptToBytes(encyptedValue, key);
return Encoding.UTF8.GetString(bytes, 0, bytes.Length).TrimEnd('\0');
}
catch(Exception e)
{
Debug.WriteLine("Could not decrypt '{0}'. {1}", encyptedValue, e.Message);
return "[error: cannot decrypt]";
}
}
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public byte[] DecryptToBytes(CipherString encyptedValue, SymmetricCryptoKey key = null)
{
if(key == null)
{
key = Key;
}
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if(key == null)
{
throw new ArgumentNullException(nameof(key));
}
if(encyptedValue == null)
{
throw new ArgumentNullException(nameof(encyptedValue));
}
if(encyptedValue.EncryptionType == Enums.EncryptionType.AesCbc128_HmacSha256_B64 &&
key.EncryptionType == Enums.EncryptionType.AesCbc256_B64)
{
// Old encrypt-then-mac scheme, swap out the key
if(_legacyEtmKey == null)
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{
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_legacyEtmKey = new SymmetricCryptoKey(key.Key, Enums.EncryptionType.AesCbc128_HmacSha256_B64);
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}
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key = _legacyEtmKey;
}
if(encyptedValue.EncryptionType != key.EncryptionType)
{
throw new ArgumentException("encType unavailable.");
}
if(key.MacKey != null && !string.IsNullOrWhiteSpace(encyptedValue.Mac))
{
var computedMac = ComputeMac(encyptedValue.CipherTextBytes,
encyptedValue.InitializationVectorBytes, key.MacKey);
if(computedMac != encyptedValue.Mac)
{
throw new InvalidOperationException("MAC failed.");
}
}
var provider = WinRTCrypto.SymmetricKeyAlgorithmProvider.OpenAlgorithm(SymmetricAlgorithm.AesCbcPkcs7);
var cryptoKey = provider.CreateSymmetricKey(key.EncKey);
var decryptedBytes = WinRTCrypto.CryptographicEngine.Decrypt(cryptoKey, encyptedValue.CipherTextBytes,
encyptedValue.InitializationVectorBytes);
return decryptedBytes;
}
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public byte[] RsaDecryptToBytes(CipherString encyptedValue, byte[] privateKey)
{
if(privateKey == null)
{
privateKey = PrivateKey;
}
if(privateKey == null)
{
throw new ArgumentNullException(nameof(privateKey));
}
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IAsymmetricKeyAlgorithmProvider provider = null;
switch(encyptedValue.EncryptionType)
{
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case EncryptionType.Rsa2048_OaepSha256_B64:
provider = WinRTCrypto.AsymmetricKeyAlgorithmProvider.OpenAlgorithm(AsymmetricAlgorithm.RsaOaepSha256);
break;
case EncryptionType.Rsa2048_OaepSha1_B64:
provider = WinRTCrypto.AsymmetricKeyAlgorithmProvider.OpenAlgorithm(AsymmetricAlgorithm.RsaOaepSha1);
break;
default:
throw new ArgumentException("EncryptionType unavailable.");
}
var cryptoKey = provider.ImportKeyPair(privateKey, CryptographicPrivateKeyBlobType.Pkcs8RawPrivateKeyInfo);
var decryptedBytes = WinRTCrypto.CryptographicEngine.Decrypt(cryptoKey, encyptedValue.CipherTextBytes);
return decryptedBytes;
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}
private string ComputeMac(byte[] ctBytes, byte[] ivBytes, byte[] macKey)
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{
if(macKey == null)
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{
throw new ArgumentNullException(nameof(macKey));
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}
if(ctBytes == null)
{
throw new ArgumentNullException(nameof(ctBytes));
}
if(ivBytes == null)
{
throw new ArgumentNullException(nameof(ivBytes));
}
var algorithm = WinRTCrypto.MacAlgorithmProvider.OpenAlgorithm(MacAlgorithm.HmacSha256);
var hasher = algorithm.CreateHash(macKey);
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hasher.Append(ivBytes.Concat(ctBytes).ToArray());
var mac = hasher.GetValueAndReset();
return Convert.ToBase64String(mac);
}
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public SymmetricCryptoKey MakeKeyFromPassword(string password, string salt)
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{
if(password == null)
{
throw new ArgumentNullException(nameof(password));
}
if(salt == null)
{
throw new ArgumentNullException(nameof(salt));
}
var passwordBytes = Encoding.UTF8.GetBytes(password);
var saltBytes = Encoding.UTF8.GetBytes(salt);
var keyBytes = _keyDerivationService.DeriveKey(passwordBytes, saltBytes, 5000);
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return new SymmetricCryptoKey(keyBytes);
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}
public string MakeKeyFromPasswordBase64(string password, string salt)
{
var key = MakeKeyFromPassword(password, salt);
return Convert.ToBase64String(key.Key);
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}
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public byte[] HashPassword(SymmetricCryptoKey key, string password)
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{
if(key == null)
{
throw new ArgumentNullException(nameof(Key));
}
if(password == null)
{
throw new ArgumentNullException(nameof(password));
}
var passwordBytes = Encoding.UTF8.GetBytes(password);
var hash = _keyDerivationService.DeriveKey(key.Key, passwordBytes, 1);
return hash;
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}
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public string HashPasswordBase64(SymmetricCryptoKey key, string password)
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{
var hash = HashPassword(key, password);
return Convert.ToBase64String(hash);
}
}
}