Fix layout of the Connection Tab of the Origin Info Bubble.
[chromium-blink-merge.git] / sync / util / nigori.cc
blob7a9702de08cbf989a76522081a57e6767012f4a3
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "sync/util/nigori.h"
7 #include <sstream>
8 #include <vector>
10 #include "base/base64.h"
11 #include "base/logging.h"
12 #include "base/strings/string_util.h"
13 #include "base/sys_byteorder.h"
14 #include "crypto/encryptor.h"
15 #include "crypto/hmac.h"
16 #include "crypto/random.h"
17 #include "crypto/symmetric_key.h"
19 using base::Base64Encode;
20 using base::Base64Decode;
21 using crypto::Encryptor;
22 using crypto::HMAC;
23 using crypto::SymmetricKey;
25 namespace syncer {
27 // NigoriStream simplifies the concatenation operation of the Nigori protocol.
28 class NigoriStream {
29 public:
30 // Append the big-endian representation of the length of |value| with 32 bits,
31 // followed by |value| itself to the stream.
32 NigoriStream& operator<<(const std::string& value) {
33 uint32 size = base::HostToNet32(value.size());
34 stream_.write((char *) &size, sizeof(uint32));
35 stream_ << value;
36 return *this;
39 // Append the big-endian representation of the length of |type| with 32 bits,
40 // followed by the big-endian representation of the value of |type|, with 32
41 // bits, to the stream.
42 NigoriStream& operator<<(const Nigori::Type type) {
43 uint32 size = base::HostToNet32(sizeof(uint32));
44 stream_.write((char *) &size, sizeof(uint32));
45 uint32 value = base::HostToNet32(type);
46 stream_.write((char *) &value, sizeof(uint32));
47 return *this;
50 std::string str() {
51 return stream_.str();
54 private:
55 std::ostringstream stream_;
58 // static
59 const char Nigori::kSaltSalt[] = "saltsalt";
61 Nigori::Nigori() {
64 Nigori::~Nigori() {
67 bool Nigori::InitByDerivation(const std::string& hostname,
68 const std::string& username,
69 const std::string& password) {
70 NigoriStream salt_password;
71 salt_password << username << hostname;
73 // Suser = PBKDF2(Username || Servername, "saltsalt", Nsalt, 8)
74 scoped_ptr<SymmetricKey> user_salt(SymmetricKey::DeriveKeyFromPassword(
75 SymmetricKey::HMAC_SHA1, salt_password.str(),
76 kSaltSalt,
77 kSaltIterations,
78 kSaltKeySizeInBits));
79 DCHECK(user_salt.get());
81 std::string raw_user_salt;
82 if (!user_salt->GetRawKey(&raw_user_salt))
83 return false;
85 // Kuser = PBKDF2(P, Suser, Nuser, 16)
86 user_key_.reset(SymmetricKey::DeriveKeyFromPassword(SymmetricKey::AES,
87 password, raw_user_salt, kUserIterations, kDerivedKeySizeInBits));
88 DCHECK(user_key_.get());
90 // Kenc = PBKDF2(P, Suser, Nenc, 16)
91 encryption_key_.reset(SymmetricKey::DeriveKeyFromPassword(SymmetricKey::AES,
92 password, raw_user_salt, kEncryptionIterations, kDerivedKeySizeInBits));
93 DCHECK(encryption_key_.get());
95 // Kmac = PBKDF2(P, Suser, Nmac, 16)
96 mac_key_.reset(SymmetricKey::DeriveKeyFromPassword(
97 SymmetricKey::HMAC_SHA1, password, raw_user_salt, kSigningIterations,
98 kDerivedKeySizeInBits));
99 DCHECK(mac_key_.get());
101 return user_key_.get() && encryption_key_.get() && mac_key_.get();
104 bool Nigori::InitByImport(const std::string& user_key,
105 const std::string& encryption_key,
106 const std::string& mac_key) {
107 user_key_.reset(SymmetricKey::Import(SymmetricKey::AES, user_key));
108 DCHECK(user_key_.get());
110 encryption_key_.reset(SymmetricKey::Import(SymmetricKey::AES,
111 encryption_key));
112 DCHECK(encryption_key_.get());
114 mac_key_.reset(SymmetricKey::Import(SymmetricKey::HMAC_SHA1, mac_key));
115 DCHECK(mac_key_.get());
117 return user_key_.get() && encryption_key_.get() && mac_key_.get();
120 // Permute[Kenc,Kmac](type || name)
121 bool Nigori::Permute(Type type, const std::string& name,
122 std::string* permuted) const {
123 DCHECK_LT(0U, name.size());
125 NigoriStream plaintext;
126 plaintext << type << name;
128 Encryptor encryptor;
129 if (!encryptor.Init(encryption_key_.get(), Encryptor::CBC,
130 std::string(kIvSize, 0)))
131 return false;
133 std::string ciphertext;
134 if (!encryptor.Encrypt(plaintext.str(), &ciphertext))
135 return false;
137 std::string raw_mac_key;
138 if (!mac_key_->GetRawKey(&raw_mac_key))
139 return false;
141 HMAC hmac(HMAC::SHA256);
142 if (!hmac.Init(raw_mac_key))
143 return false;
145 std::vector<unsigned char> hash(kHashSize);
146 if (!hmac.Sign(ciphertext, &hash[0], hash.size()))
147 return false;
149 std::string output;
150 output.assign(ciphertext);
151 output.append(hash.begin(), hash.end());
153 Base64Encode(output, permuted);
154 return true;
157 // Enc[Kenc,Kmac](value)
158 bool Nigori::Encrypt(const std::string& value, std::string* encrypted) const {
159 if (0U >= value.size())
160 return false;
162 std::string iv;
163 crypto::RandBytes(base::WriteInto(&iv, kIvSize + 1), kIvSize);
165 Encryptor encryptor;
166 if (!encryptor.Init(encryption_key_.get(), Encryptor::CBC, iv))
167 return false;
169 std::string ciphertext;
170 if (!encryptor.Encrypt(value, &ciphertext))
171 return false;
173 std::string raw_mac_key;
174 if (!mac_key_->GetRawKey(&raw_mac_key))
175 return false;
177 HMAC hmac(HMAC::SHA256);
178 if (!hmac.Init(raw_mac_key))
179 return false;
181 std::vector<unsigned char> hash(kHashSize);
182 if (!hmac.Sign(ciphertext, &hash[0], hash.size()))
183 return false;
185 std::string output;
186 output.assign(iv);
187 output.append(ciphertext);
188 output.append(hash.begin(), hash.end());
190 Base64Encode(output, encrypted);
191 return true;
194 bool Nigori::Decrypt(const std::string& encrypted, std::string* value) const {
195 std::string input;
196 if (!Base64Decode(encrypted, &input))
197 return false;
199 if (input.size() < kIvSize * 2 + kHashSize)
200 return false;
202 // The input is:
203 // * iv (16 bytes)
204 // * ciphertext (multiple of 16 bytes)
205 // * hash (32 bytes)
206 std::string iv(input.substr(0, kIvSize));
207 std::string ciphertext(input.substr(kIvSize,
208 input.size() - (kIvSize + kHashSize)));
209 std::string hash(input.substr(input.size() - kHashSize, kHashSize));
211 std::string raw_mac_key;
212 if (!mac_key_->GetRawKey(&raw_mac_key))
213 return false;
215 HMAC hmac(HMAC::SHA256);
216 if (!hmac.Init(raw_mac_key))
217 return false;
219 std::vector<unsigned char> expected(kHashSize);
220 if (!hmac.Sign(ciphertext, &expected[0], expected.size()))
221 return false;
223 if (hash.compare(0, hash.size(),
224 reinterpret_cast<char *>(&expected[0]),
225 expected.size()))
226 return false;
228 Encryptor encryptor;
229 if (!encryptor.Init(encryption_key_.get(), Encryptor::CBC, iv))
230 return false;
232 if (!encryptor.Decrypt(ciphertext, value))
233 return false;
235 return true;
238 bool Nigori::ExportKeys(std::string* user_key,
239 std::string* encryption_key,
240 std::string* mac_key) const {
241 DCHECK(user_key);
242 DCHECK(encryption_key);
243 DCHECK(mac_key);
245 return user_key_->GetRawKey(user_key) &&
246 encryption_key_->GetRawKey(encryption_key) &&
247 mac_key_->GetRawKey(mac_key);
250 } // namespace syncer