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1 /*
2  * Copyright 2015 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #include <keymaster/km_openssl/ecies_kem.h>
18 
19 #include <keymaster/km_openssl/nist_curve_key_exchange.h>
20 #include <keymaster/km_openssl/openssl_err.h>
21 
22 namespace keymaster {
23 
EciesKem(const AuthorizationSet & kem_description,keymaster_error_t * error)24 EciesKem::EciesKem(const AuthorizationSet& kem_description, keymaster_error_t* error) {
25     const AuthorizationSet& authorizations(kem_description);
26 
27     if (!authorizations.GetTagValue(TAG_EC_CURVE, &curve_)) {
28         LOG_E("%s", "EciesKem: no curve specified");
29         *error = KM_ERROR_INVALID_ARGUMENT;
30         return;
31     }
32 
33     switch (curve_) {
34     case KM_EC_CURVE_P_224:
35     case KM_EC_CURVE_P_256:
36     case KM_EC_CURVE_P_384:
37     case KM_EC_CURVE_P_521:
38         break;
39     default:
40         LOG_E("EciesKem: curve %d is unsupported", curve_);
41         *error = KM_ERROR_UNSUPPORTED_EC_CURVE;
42         return;
43     }
44 
45     keymaster_kdf_t kdf;
46     if (!authorizations.GetTagValue(TAG_KDF, &kdf)) {
47         LOG_E("EciesKem: No KDF specified", 0);
48         *error = KM_ERROR_UNSUPPORTED_KDF;
49         return;
50     }
51     switch (kdf) {
52     case KM_KDF_RFC5869_SHA256:
53         kdf_.reset(new (std::nothrow) Rfc5869Sha256Kdf());
54         break;
55     default:
56         LOG_E("Kdf %d is unsupported", kdf);
57         *error = KM_ERROR_UNSUPPORTED_KDF;
58         return;
59     }
60     if (!kdf_.get()) {
61         *error = KM_ERROR_MEMORY_ALLOCATION_FAILED;
62         return;
63     }
64 
65     if (!authorizations.GetTagValue(TAG_KEY_SIZE, &key_bytes_to_generate_)) {
66         LOG_E("%s", "EciesKem: no key length specified");
67         *error = KM_ERROR_UNSUPPORTED_KEY_SIZE;
68         return;
69     }
70 
71     single_hash_mode_ = authorizations.GetTagValue(TAG_ECIES_SINGLE_HASH_MODE);
72     *error = KM_ERROR_OK;
73 }
74 
Encrypt(const Buffer & peer_public_value,Buffer * output_clear_key,Buffer * output_encrypted_key)75 bool EciesKem::Encrypt(const Buffer& peer_public_value, Buffer* output_clear_key,
76                        Buffer* output_encrypted_key) {
77     return Encrypt(peer_public_value.peek_read(), peer_public_value.available_read(),
78                    output_clear_key, output_encrypted_key);
79 }
80 
81 // http://www.shoup.net/iso/std6.pdf, section 10.2.3.
Encrypt(const uint8_t * peer_public_value,size_t peer_public_value_len,Buffer * output_clear_key,Buffer * output_encrypted_key)82 bool EciesKem::Encrypt(const uint8_t* peer_public_value, size_t peer_public_value_len,
83                        Buffer* output_clear_key, Buffer* output_encrypted_key) {
84 
85     key_exchange_.reset(NistCurveKeyExchange::GenerateKeyExchange(curve_));
86     if (!key_exchange_.get()) {
87         return false;
88     }
89 
90     Buffer shared_secret;
91     if (!key_exchange_->CalculateSharedKey(peer_public_value, peer_public_value_len,
92                                            &shared_secret)) {
93         LOG_E("EciesKem: ECDH failed, can't obtain shared secret", 0);
94         return false;
95     }
96     if (!key_exchange_->public_value(output_encrypted_key)) {
97         LOG_E("EciesKem: Can't obtain public value", 0);
98         return false;
99     }
100 
101     Buffer z;
102     if (single_hash_mode_) {
103         // z is empty.
104     } else {
105         // z = C0
106         z.Reinitialize(output_encrypted_key->peek_read(), output_encrypted_key->available_read());
107     }
108 
109     Buffer actual_secret(z.available_read() + shared_secret.available_read());
110     actual_secret.write(z.peek_read(), z.available_read());
111     actual_secret.write(shared_secret.peek_read(), shared_secret.available_read());
112 
113     if (!kdf_->Init(actual_secret.peek_read(), actual_secret.available_read(), nullptr /* salt */,
114                     0 /* salt_len */)) {
115         LOG_E("EciesKem: KDF failed, can't derived keys", 0);
116         return false;
117     }
118     output_clear_key->Reinitialize(key_bytes_to_generate_);
119     if (!kdf_->GenerateKey(nullptr /* info */, 0 /* info length */, output_clear_key->peek_write(),
120                            key_bytes_to_generate_)) {
121         LOG_E("EciesKem: KDF failed, can't derived keys", 0);
122         return false;
123     }
124     output_clear_key->advance_write(key_bytes_to_generate_);
125 
126     return true;
127 }
128 
Decrypt(EC_KEY * private_key,const Buffer & encrypted_key,Buffer * output_key)129 bool EciesKem::Decrypt(EC_KEY* private_key, const Buffer& encrypted_key, Buffer* output_key) {
130     return Decrypt(private_key, encrypted_key.peek_read(), encrypted_key.available_read(),
131                    output_key);
132 }
133 
134 // http://www.shoup.net/iso/std6.pdf, section 10.2.4.
Decrypt(EC_KEY * private_key,const uint8_t * encrypted_key,size_t encrypted_key_len,Buffer * output_key)135 bool EciesKem::Decrypt(EC_KEY* private_key, const uint8_t* encrypted_key, size_t encrypted_key_len,
136                        Buffer* output_key) {
137 
138     keymaster_error_t error;
139     key_exchange_.reset(new (std::nothrow) NistCurveKeyExchange(private_key, &error));
140     if (!key_exchange_.get() || error != KM_ERROR_OK) {
141         return false;
142     }
143 
144     Buffer shared_secret;
145     if (!key_exchange_->CalculateSharedKey(encrypted_key, encrypted_key_len, &shared_secret)) {
146         LOG_E("EciesKem: ECDH failed, can't obtain shared secret", 0);
147         return false;
148     }
149 
150     Buffer public_value;
151     if (!key_exchange_->public_value(&public_value)) {
152         LOG_E("%s", "EciesKem: Can't obtain public value");
153         return false;
154     }
155 
156     Buffer z;
157     if (single_hash_mode_) {
158         // z is empty.
159     } else {
160         // z = C0
161         z.Reinitialize(public_value.peek_read(), public_value.available_read());
162     }
163 
164     Buffer actual_secret(z.available_read() + shared_secret.available_read());
165     actual_secret.write(z.peek_read(), z.available_read());
166     actual_secret.write(shared_secret.peek_read(), shared_secret.available_read());
167 
168     if (!kdf_->Init(actual_secret.peek_read(), actual_secret.available_read(), nullptr /* salt */,
169                     0 /* salt_len */)) {
170         LOG_E("%s", "EciesKem: KDF failed, can't derived keys");
171         return false;
172     }
173 
174     output_key->Reinitialize(key_bytes_to_generate_);
175     if (!kdf_->GenerateKey(nullptr /* info */, 0 /* info_len */, output_key->peek_write(),
176                            key_bytes_to_generate_)) {
177         LOG_E("%s", "EciesKem: KDF failed, can't derived keys");
178         return false;
179     }
180     output_key->advance_write(key_bytes_to_generate_);
181 
182     return true;
183 }
184 
185 }  // namespace keymaster
186