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      1 /*
      2  * Copyright 2014 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 "android_keymaster_test_utils.h"
     18 
     19 #include <algorithm>
     20 
     21 #include <openssl/rand.h>
     22 
     23 #include <keymaster/android_keymaster_messages.h>
     24 #include <keymaster/android_keymaster_utils.h>
     25 
     26 using std::copy_if;
     27 using std::find_if;
     28 using std::is_permutation;
     29 using std::ostream;
     30 using std::string;
     31 using std::vector;
     32 
     33 #ifndef KEYMASTER_NAME_TAGS
     34 #error Keymaster test code requires that KEYMASTER_NAME_TAGS is defined
     35 #endif
     36 
     37 std::ostream& operator<<(std::ostream& os, const keymaster_key_param_t& param) {
     38     os << "Tag: " << keymaster::StringifyTag(param.tag);
     39     switch (keymaster_tag_get_type(param.tag)) {
     40     case KM_INVALID:
     41         os << " Invalid";
     42         break;
     43     case KM_UINT_REP:
     44         os << " (Rep)";
     45     /* Falls through */
     46     case KM_UINT:
     47         os << " Int: " << param.integer;
     48         break;
     49     case KM_ENUM_REP:
     50         os << " (Rep)";
     51     /* Falls through */
     52     case KM_ENUM:
     53         os << " Enum: " << param.enumerated;
     54         break;
     55     case KM_ULONG_REP:
     56         os << " (Rep)";
     57     /* Falls through */
     58     case KM_ULONG:
     59         os << " Long: " << param.long_integer;
     60         break;
     61     case KM_DATE:
     62         os << " Date: " << param.date_time;
     63         break;
     64     case KM_BOOL:
     65         os << " Bool: " << param.boolean;
     66         break;
     67     case KM_BIGNUM:
     68         os << " Bignum: ";
     69         if (!param.blob.data)
     70             os << "(null)";
     71         else
     72             for (size_t i = 0; i < param.blob.data_length; ++i)
     73                 os << std::hex << std::setw(2) << static_cast<int>(param.blob.data[i]) << std::dec;
     74         break;
     75     case KM_BYTES:
     76         os << " Bytes: ";
     77         if (!param.blob.data)
     78             os << "(null)";
     79         else
     80             for (size_t i = 0; i < param.blob.data_length; ++i)
     81                 os << std::hex << std::setw(2) << static_cast<int>(param.blob.data[i]) << std::dec;
     82         break;
     83     }
     84     return os;
     85 }
     86 
     87 bool operator==(const keymaster_key_param_t& a, const keymaster_key_param_t& b) {
     88     if (a.tag != b.tag) {
     89         return false;
     90     }
     91 
     92     switch (keymaster_tag_get_type(a.tag)) {
     93     case KM_INVALID:
     94         return true;
     95     case KM_UINT_REP:
     96     case KM_UINT:
     97         return a.integer == b.integer;
     98     case KM_ENUM_REP:
     99     case KM_ENUM:
    100         return a.enumerated == b.enumerated;
    101     case KM_ULONG:
    102     case KM_ULONG_REP:
    103         return a.long_integer == b.long_integer;
    104     case KM_DATE:
    105         return a.date_time == b.date_time;
    106     case KM_BOOL:
    107         return a.boolean == b.boolean;
    108     case KM_BIGNUM:
    109     case KM_BYTES:
    110         if ((a.blob.data == NULL || b.blob.data == NULL) && a.blob.data != b.blob.data)
    111             return false;
    112         return a.blob.data_length == b.blob.data_length &&
    113                (memcmp(a.blob.data, b.blob.data, a.blob.data_length) == 0);
    114     }
    115 
    116     return false;
    117 }
    118 
    119 static char hex_value[256] = {
    120     0, 0,  0,  0,  0,  0,  0,  0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  0,  0,  0,  0,  0,  0,
    121     0, 0,  0,  0,  0,  0,  0,  0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  0,  0,  0,  0,  0,  0,
    122     0, 1,  2,  3,  4,  5,  6,  7, 8, 9, 0, 0, 0, 0, 0, 0,  // '0'..'9'
    123     0, 10, 11, 12, 13, 14, 15, 0, 0, 0, 0, 0, 0, 0, 0, 0,  // 'A'..'F'
    124     0, 0,  0,  0,  0,  0,  0,  0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 10, 11, 12, 13, 14, 15, 0,
    125     0, 0,  0,  0,  0,  0,  0,  0,  // 'a'..'f'
    126     0, 0,  0,  0,  0,  0,  0,  0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  0,  0,  0,  0,  0,  0,
    127     0, 0,  0,  0,  0,  0,  0,  0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  0,  0,  0,  0,  0,  0,
    128     0, 0,  0,  0,  0,  0,  0,  0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  0,  0,  0,  0,  0,  0,
    129     0, 0,  0,  0,  0,  0,  0,  0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  0,  0,  0,  0,  0,  0,
    130     0, 0,  0,  0,  0,  0,  0,  0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  0,  0,  0,  0,  0,  0,
    131     0, 0,  0,  0,  0,  0,  0,  0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  0,  0,  0,  0,  0,  0};
    132 
    133 string hex2str(string a) {
    134     string b;
    135     size_t num = a.size() / 2;
    136     b.resize(num);
    137     for (size_t i = 0; i < num; i++) {
    138         b[i] = (hex_value[a[i * 2] & 0xFF] << 4) + (hex_value[a[i * 2 + 1] & 0xFF]);
    139     }
    140     return b;
    141 }
    142 
    143 namespace keymaster {
    144 
    145 bool operator==(const AuthorizationSet& a, const AuthorizationSet& b) {
    146     if (a.size() != b.size())
    147         return false;
    148 
    149     for (size_t i = 0; i < a.size(); ++i)
    150         if (!(a[i] == b[i]))
    151             return false;
    152     return true;
    153 }
    154 
    155 bool operator!=(const AuthorizationSet& a, const AuthorizationSet& b) {
    156     return !(a == b);
    157 }
    158 
    159 std::ostream& operator<<(std::ostream& os, const AuthorizationSet& set) {
    160     if (set.size() == 0)
    161         os << "(Empty)" << std::endl;
    162     else {
    163         os << "\n";
    164         for (size_t i = 0; i < set.size(); ++i)
    165             os << set[i] << std::endl;
    166     }
    167     return os;
    168 }
    169 
    170 namespace test {
    171 
    172 Keymaster2Test::Keymaster2Test() : op_handle_(OP_HANDLE_SENTINEL) {
    173     memset(&characteristics_, 0, sizeof(characteristics_));
    174     blob_.key_material = nullptr;
    175     RAND_seed("foobar", 6);
    176     blob_.key_material = 0;
    177     device_ = GetParam()->CreateDevice();
    178 }
    179 
    180 Keymaster2Test::~Keymaster2Test() {
    181     FreeCharacteristics();
    182     FreeKeyBlob();
    183     device_->common.close(reinterpret_cast<hw_device_t*>(device_));
    184 }
    185 
    186 keymaster2_device_t* Keymaster2Test::device() {
    187     return device_;
    188 }
    189 
    190 keymaster_error_t Keymaster2Test::GenerateKey(const AuthorizationSetBuilder& builder) {
    191     AuthorizationSet params(builder.build());
    192     params.push_back(UserAuthParams());
    193     params.push_back(ClientParams());
    194 
    195     FreeKeyBlob();
    196     FreeCharacteristics();
    197     return device()->generate_key(device(), &params, &blob_, &characteristics_);
    198 }
    199 
    200 keymaster_error_t Keymaster2Test::DeleteKey() {
    201     return device()->delete_key(device(), &blob_);
    202 }
    203 
    204 keymaster_error_t Keymaster2Test::ImportKey(const AuthorizationSetBuilder& builder,
    205                                             keymaster_key_format_t format,
    206                                             const string& key_material) {
    207     AuthorizationSet params(builder.build());
    208     params.push_back(UserAuthParams());
    209     params.push_back(ClientParams());
    210 
    211     FreeKeyBlob();
    212     FreeCharacteristics();
    213     keymaster_blob_t key = {reinterpret_cast<const uint8_t*>(key_material.c_str()),
    214                             key_material.length()};
    215     return device()->import_key(device(), &params, format, &key, &blob_, &characteristics_);
    216 }
    217 
    218 AuthorizationSet Keymaster2Test::UserAuthParams() {
    219     AuthorizationSet set;
    220     set.push_back(TAG_USER_ID, 7);
    221     set.push_back(TAG_USER_AUTH_TYPE, HW_AUTH_PASSWORD);
    222     set.push_back(TAG_AUTH_TIMEOUT, 300);
    223     return set;
    224 }
    225 
    226 AuthorizationSet Keymaster2Test::ClientParams() {
    227     AuthorizationSet set;
    228     set.push_back(TAG_APPLICATION_ID, "app_id", 6);
    229     return set;
    230 }
    231 
    232 keymaster_error_t Keymaster2Test::BeginOperation(keymaster_purpose_t purpose) {
    233     AuthorizationSet in_params(client_params());
    234     keymaster_key_param_set_t out_params;
    235     keymaster_error_t error =
    236         device()->begin(device(), purpose, &blob_, &in_params, &out_params, &op_handle_);
    237     EXPECT_EQ(0U, out_params.length);
    238     EXPECT_TRUE(out_params.params == nullptr);
    239     return error;
    240 }
    241 
    242 keymaster_error_t Keymaster2Test::BeginOperation(keymaster_purpose_t purpose,
    243                                                  const AuthorizationSet& input_set,
    244                                                  AuthorizationSet* output_set) {
    245     keymaster_key_param_set_t out_params;
    246     keymaster_error_t error =
    247         device()->begin(device(), purpose, &blob_, &input_set, &out_params, &op_handle_);
    248     if (error == KM_ERROR_OK) {
    249         if (output_set) {
    250             output_set->Reinitialize(out_params);
    251         } else {
    252             EXPECT_EQ(0U, out_params.length);
    253             EXPECT_TRUE(out_params.params == nullptr);
    254         }
    255         keymaster_free_param_set(&out_params);
    256     }
    257     return error;
    258 }
    259 
    260 keymaster_error_t Keymaster2Test::UpdateOperation(const string& message, string* output,
    261                                                   size_t* input_consumed) {
    262     EXPECT_NE(op_handle_, OP_HANDLE_SENTINEL);
    263     keymaster_blob_t input = {reinterpret_cast<const uint8_t*>(message.c_str()), message.length()};
    264     keymaster_blob_t out_tmp;
    265     keymaster_key_param_set_t out_params;
    266     keymaster_error_t error = device()->update(device(), op_handle_, nullptr /* params */, &input,
    267                                                input_consumed, &out_params, &out_tmp);
    268     if (error == KM_ERROR_OK && out_tmp.data)
    269         output->append(reinterpret_cast<const char*>(out_tmp.data), out_tmp.data_length);
    270     free(const_cast<uint8_t*>(out_tmp.data));
    271     return error;
    272 }
    273 
    274 keymaster_error_t Keymaster2Test::UpdateOperation(const AuthorizationSet& additional_params,
    275                                                   const string& message,
    276                                                   AuthorizationSet* output_params, string* output,
    277                                                   size_t* input_consumed) {
    278     EXPECT_NE(op_handle_, OP_HANDLE_SENTINEL);
    279     keymaster_blob_t input = {reinterpret_cast<const uint8_t*>(message.c_str()), message.length()};
    280     keymaster_blob_t out_tmp;
    281     keymaster_key_param_set_t out_params;
    282     keymaster_error_t error = device()->update(device(), op_handle_, &additional_params, &input,
    283                                                input_consumed, &out_params, &out_tmp);
    284     if (error == KM_ERROR_OK && out_tmp.data)
    285         output->append(reinterpret_cast<const char*>(out_tmp.data), out_tmp.data_length);
    286     free((void*)out_tmp.data);
    287     if (output_params)
    288         output_params->Reinitialize(out_params);
    289     keymaster_free_param_set(&out_params);
    290     return error;
    291 }
    292 
    293 keymaster_error_t Keymaster2Test::FinishOperation(string* output) {
    294     return FinishOperation("", output);
    295 }
    296 
    297 keymaster_error_t Keymaster2Test::FinishOperation(const string& signature, string* output) {
    298     AuthorizationSet additional_params;
    299     AuthorizationSet output_params;
    300     return FinishOperation(additional_params, signature, &output_params, output);
    301 }
    302 
    303 keymaster_error_t Keymaster2Test::FinishOperation(const AuthorizationSet& additional_params,
    304                                                   const string& signature,
    305                                                   AuthorizationSet* output_params, string* output) {
    306     keymaster_blob_t sig = {reinterpret_cast<const uint8_t*>(signature.c_str()),
    307                             signature.length()};
    308     keymaster_blob_t out_tmp;
    309     keymaster_key_param_set_t out_params;
    310     keymaster_error_t error = device()->finish(device(), op_handle_, &additional_params,
    311                                                nullptr /* input */, &sig, &out_params, &out_tmp);
    312     if (error != KM_ERROR_OK) {
    313         EXPECT_TRUE(out_tmp.data == nullptr);
    314         EXPECT_TRUE(out_params.params == nullptr);
    315         return error;
    316     }
    317 
    318     if (out_tmp.data)
    319         output->append(reinterpret_cast<const char*>(out_tmp.data), out_tmp.data_length);
    320     free((void*)out_tmp.data);
    321     if (output_params)
    322         output_params->Reinitialize(out_params);
    323     keymaster_free_param_set(&out_params);
    324     return error;
    325 }
    326 
    327 keymaster_error_t Keymaster2Test::AbortOperation() {
    328     return device()->abort(device(), op_handle_);
    329 }
    330 
    331 keymaster_error_t Keymaster2Test::AttestKey(const string& attest_challenge,
    332                                             keymaster_cert_chain_t* cert_chain) {
    333     AuthorizationSet attest_params;
    334     attest_params.push_back(UserAuthParams());
    335     attest_params.push_back(ClientParams());
    336     attest_params.push_back(TAG_ATTESTATION_CHALLENGE, attest_challenge.data(),
    337                             attest_challenge.length());
    338     return device()->attest_key(device(), &blob_, &attest_params, cert_chain);
    339 }
    340 
    341 keymaster_error_t Keymaster2Test::UpgradeKey(const AuthorizationSet& upgrade_params) {
    342     keymaster_key_blob_t upgraded_blob;
    343     keymaster_error_t error =
    344         device()->upgrade_key(device(), &blob_, &upgrade_params, &upgraded_blob);
    345     if (error == KM_ERROR_OK) {
    346         FreeKeyBlob();
    347         blob_ = upgraded_blob;
    348     }
    349     return error;
    350 }
    351 
    352 string Keymaster2Test::ProcessMessage(keymaster_purpose_t purpose, const string& message) {
    353     EXPECT_EQ(KM_ERROR_OK, BeginOperation(purpose, client_params(), NULL /* output_params */));
    354 
    355     string result;
    356     size_t input_consumed;
    357     EXPECT_EQ(KM_ERROR_OK, UpdateOperation(message, &result, &input_consumed));
    358     EXPECT_EQ(message.size(), input_consumed);
    359     EXPECT_EQ(KM_ERROR_OK, FinishOperation(&result));
    360     return result;
    361 }
    362 
    363 string Keymaster2Test::ProcessMessage(keymaster_purpose_t purpose, const string& message,
    364                                       const AuthorizationSet& begin_params,
    365                                       const AuthorizationSet& update_params,
    366                                       AuthorizationSet* begin_out_params) {
    367     EXPECT_EQ(KM_ERROR_OK, BeginOperation(purpose, begin_params, begin_out_params));
    368 
    369     string result;
    370     size_t input_consumed;
    371     EXPECT_EQ(KM_ERROR_OK, UpdateOperation(update_params, message, nullptr /* output_params */,
    372                                            &result, &input_consumed));
    373     EXPECT_EQ(message.size(), input_consumed);
    374     EXPECT_EQ(KM_ERROR_OK, FinishOperation(update_params, "", &result));
    375     return result;
    376 }
    377 
    378 string Keymaster2Test::ProcessMessage(keymaster_purpose_t purpose, const string& message,
    379                                       const string& signature, const AuthorizationSet& begin_params,
    380                                       const AuthorizationSet& update_params,
    381                                       AuthorizationSet* output_params) {
    382     EXPECT_EQ(KM_ERROR_OK, BeginOperation(purpose, begin_params, output_params));
    383 
    384     string result;
    385     size_t input_consumed;
    386     EXPECT_EQ(KM_ERROR_OK, UpdateOperation(update_params, message, nullptr /* output_params */,
    387                                            &result, &input_consumed));
    388     EXPECT_EQ(message.size(), input_consumed);
    389     EXPECT_EQ(KM_ERROR_OK, FinishOperation(update_params, signature, &result));
    390     return result;
    391 }
    392 
    393 string Keymaster2Test::ProcessMessage(keymaster_purpose_t purpose, const string& message,
    394                                       const string& signature) {
    395     EXPECT_EQ(KM_ERROR_OK, BeginOperation(purpose, client_params(), NULL /* output_params */));
    396 
    397     string result;
    398     size_t input_consumed;
    399     EXPECT_EQ(KM_ERROR_OK, UpdateOperation(message, &result, &input_consumed));
    400     EXPECT_EQ(message.size(), input_consumed);
    401     EXPECT_EQ(KM_ERROR_OK, FinishOperation(signature, &result));
    402     return result;
    403 }
    404 
    405 void Keymaster2Test::SignMessage(const string& message, string* signature,
    406                                  keymaster_digest_t digest) {
    407     SCOPED_TRACE("SignMessage");
    408     AuthorizationSet input_params(AuthorizationSet(client_params_, array_length(client_params_)));
    409     input_params.push_back(TAG_DIGEST, digest);
    410     AuthorizationSet update_params;
    411     AuthorizationSet output_params;
    412     *signature =
    413         ProcessMessage(KM_PURPOSE_SIGN, message, input_params, update_params, &output_params);
    414     EXPECT_GT(signature->size(), 0U);
    415 }
    416 
    417 void Keymaster2Test::SignMessage(const string& message, string* signature,
    418                                  keymaster_digest_t digest, keymaster_padding_t padding) {
    419     SCOPED_TRACE("SignMessage");
    420     AuthorizationSet input_params(AuthorizationSet(client_params_, array_length(client_params_)));
    421     input_params.push_back(TAG_DIGEST, digest);
    422     input_params.push_back(TAG_PADDING, padding);
    423     AuthorizationSet update_params;
    424     AuthorizationSet output_params;
    425     *signature =
    426         ProcessMessage(KM_PURPOSE_SIGN, message, input_params, update_params, &output_params);
    427     EXPECT_GT(signature->size(), 0U);
    428 }
    429 
    430 void Keymaster2Test::MacMessage(const string& message, string* signature, size_t mac_length) {
    431     SCOPED_TRACE("SignMessage");
    432     AuthorizationSet input_params(AuthorizationSet(client_params_, array_length(client_params_)));
    433     input_params.push_back(TAG_MAC_LENGTH, mac_length);
    434     AuthorizationSet update_params;
    435     AuthorizationSet output_params;
    436     *signature =
    437         ProcessMessage(KM_PURPOSE_SIGN, message, input_params, update_params, &output_params);
    438     EXPECT_GT(signature->size(), 0U);
    439 }
    440 
    441 void Keymaster2Test::VerifyMessage(const string& message, const string& signature,
    442                                    keymaster_digest_t digest) {
    443     SCOPED_TRACE("VerifyMessage");
    444     AuthorizationSet input_params(client_params());
    445     input_params.push_back(TAG_DIGEST, digest);
    446     AuthorizationSet update_params;
    447     AuthorizationSet output_params;
    448     ProcessMessage(KM_PURPOSE_VERIFY, message, signature, input_params, update_params,
    449                    &output_params);
    450 }
    451 
    452 void Keymaster2Test::VerifyMessage(const string& message, const string& signature,
    453                                    keymaster_digest_t digest, keymaster_padding_t padding) {
    454     SCOPED_TRACE("VerifyMessage");
    455     AuthorizationSet input_params(client_params());
    456     input_params.push_back(TAG_DIGEST, digest);
    457     input_params.push_back(TAG_PADDING, padding);
    458     AuthorizationSet update_params;
    459     AuthorizationSet output_params;
    460     ProcessMessage(KM_PURPOSE_VERIFY, message, signature, input_params, update_params,
    461                    &output_params);
    462 }
    463 
    464 void Keymaster2Test::VerifyMac(const string& message, const string& signature) {
    465     SCOPED_TRACE("VerifyMac");
    466     ProcessMessage(KM_PURPOSE_VERIFY, message, signature);
    467 }
    468 
    469 string Keymaster2Test::EncryptMessage(const string& message, keymaster_padding_t padding,
    470                                       string* generated_nonce) {
    471     SCOPED_TRACE("EncryptMessage");
    472     AuthorizationSet begin_params(client_params()), output_params;
    473     begin_params.push_back(TAG_PADDING, padding);
    474     AuthorizationSet update_params;
    475     string ciphertext =
    476         ProcessMessage(KM_PURPOSE_ENCRYPT, message, begin_params, update_params, &output_params);
    477     if (generated_nonce) {
    478         keymaster_blob_t nonce_blob;
    479         EXPECT_TRUE(output_params.GetTagValue(TAG_NONCE, &nonce_blob));
    480         *generated_nonce = make_string(nonce_blob.data, nonce_blob.data_length);
    481     } else {
    482         EXPECT_EQ(-1, output_params.find(TAG_NONCE));
    483     }
    484     return ciphertext;
    485 }
    486 
    487 string Keymaster2Test::EncryptMessage(const string& message, keymaster_digest_t digest,
    488                                       keymaster_padding_t padding, string* generated_nonce) {
    489     AuthorizationSet update_params;
    490     return EncryptMessage(update_params, message, digest, padding, generated_nonce);
    491 }
    492 
    493 string Keymaster2Test::EncryptMessage(const string& message, keymaster_block_mode_t block_mode,
    494                                       keymaster_padding_t padding, string* generated_nonce) {
    495     AuthorizationSet update_params;
    496     return EncryptMessage(update_params, message, block_mode, padding, generated_nonce);
    497 }
    498 
    499 string Keymaster2Test::EncryptMessage(const AuthorizationSet& update_params, const string& message,
    500                                       keymaster_digest_t digest, keymaster_padding_t padding,
    501                                       string* generated_nonce) {
    502     SCOPED_TRACE("EncryptMessage");
    503     AuthorizationSet begin_params(client_params()), output_params;
    504     begin_params.push_back(TAG_PADDING, padding);
    505     begin_params.push_back(TAG_DIGEST, digest);
    506     string ciphertext =
    507         ProcessMessage(KM_PURPOSE_ENCRYPT, message, begin_params, update_params, &output_params);
    508     if (generated_nonce) {
    509         keymaster_blob_t nonce_blob;
    510         EXPECT_TRUE(output_params.GetTagValue(TAG_NONCE, &nonce_blob));
    511         *generated_nonce = make_string(nonce_blob.data, nonce_blob.data_length);
    512     } else {
    513         EXPECT_EQ(-1, output_params.find(TAG_NONCE));
    514     }
    515     return ciphertext;
    516 }
    517 
    518 string Keymaster2Test::EncryptMessage(const AuthorizationSet& update_params, const string& message,
    519                                       keymaster_block_mode_t block_mode,
    520                                       keymaster_padding_t padding, string* generated_nonce) {
    521     SCOPED_TRACE("EncryptMessage");
    522     AuthorizationSet begin_params(client_params()), output_params;
    523     begin_params.push_back(TAG_PADDING, padding);
    524     begin_params.push_back(TAG_BLOCK_MODE, block_mode);
    525     string ciphertext =
    526         ProcessMessage(KM_PURPOSE_ENCRYPT, message, begin_params, update_params, &output_params);
    527     if (generated_nonce) {
    528         keymaster_blob_t nonce_blob;
    529         EXPECT_TRUE(output_params.GetTagValue(TAG_NONCE, &nonce_blob));
    530         *generated_nonce = make_string(nonce_blob.data, nonce_blob.data_length);
    531     } else {
    532         EXPECT_EQ(-1, output_params.find(TAG_NONCE));
    533     }
    534     return ciphertext;
    535 }
    536 
    537 string Keymaster2Test::EncryptMessageWithParams(const string& message,
    538                                                 const AuthorizationSet& begin_params,
    539                                                 const AuthorizationSet& update_params,
    540                                                 AuthorizationSet* output_params) {
    541     SCOPED_TRACE("EncryptMessageWithParams");
    542     return ProcessMessage(KM_PURPOSE_ENCRYPT, message, begin_params, update_params, output_params);
    543 }
    544 
    545 string Keymaster2Test::DecryptMessage(const string& ciphertext, keymaster_padding_t padding) {
    546     SCOPED_TRACE("DecryptMessage");
    547     AuthorizationSet begin_params(client_params());
    548     begin_params.push_back(TAG_PADDING, padding);
    549     AuthorizationSet update_params;
    550     return ProcessMessage(KM_PURPOSE_DECRYPT, ciphertext, begin_params, update_params);
    551 }
    552 
    553 string Keymaster2Test::DecryptMessage(const string& ciphertext, keymaster_digest_t digest,
    554                                       keymaster_padding_t padding) {
    555     SCOPED_TRACE("DecryptMessage");
    556     AuthorizationSet begin_params(client_params());
    557     begin_params.push_back(TAG_PADDING, padding);
    558     begin_params.push_back(TAG_DIGEST, digest);
    559     AuthorizationSet update_params;
    560     return ProcessMessage(KM_PURPOSE_DECRYPT, ciphertext, begin_params, update_params);
    561 }
    562 
    563 string Keymaster2Test::DecryptMessage(const string& ciphertext, keymaster_block_mode_t block_mode,
    564                                       keymaster_padding_t padding) {
    565     SCOPED_TRACE("DecryptMessage");
    566     AuthorizationSet begin_params(client_params());
    567     begin_params.push_back(TAG_PADDING, padding);
    568     begin_params.push_back(TAG_BLOCK_MODE, block_mode);
    569     AuthorizationSet update_params;
    570     return ProcessMessage(KM_PURPOSE_DECRYPT, ciphertext, begin_params, update_params);
    571 }
    572 
    573 string Keymaster2Test::DecryptMessage(const string& ciphertext, keymaster_digest_t digest,
    574                                       keymaster_padding_t padding, const string& nonce) {
    575     SCOPED_TRACE("DecryptMessage");
    576     AuthorizationSet begin_params(client_params());
    577     begin_params.push_back(TAG_PADDING, padding);
    578     begin_params.push_back(TAG_DIGEST, digest);
    579     begin_params.push_back(TAG_NONCE, nonce.data(), nonce.size());
    580     AuthorizationSet update_params;
    581     return ProcessMessage(KM_PURPOSE_DECRYPT, ciphertext, begin_params, update_params);
    582 }
    583 
    584 string Keymaster2Test::DecryptMessage(const string& ciphertext, keymaster_block_mode_t block_mode,
    585                                       keymaster_padding_t padding, const string& nonce) {
    586     SCOPED_TRACE("DecryptMessage");
    587     AuthorizationSet begin_params(client_params());
    588     begin_params.push_back(TAG_PADDING, padding);
    589     begin_params.push_back(TAG_BLOCK_MODE, block_mode);
    590     begin_params.push_back(TAG_NONCE, nonce.data(), nonce.size());
    591     AuthorizationSet update_params;
    592     return ProcessMessage(KM_PURPOSE_DECRYPT, ciphertext, begin_params, update_params);
    593 }
    594 
    595 string Keymaster2Test::DecryptMessage(const AuthorizationSet& update_params,
    596                                       const string& ciphertext, keymaster_digest_t digest,
    597                                       keymaster_padding_t padding, const string& nonce) {
    598     SCOPED_TRACE("DecryptMessage");
    599     AuthorizationSet begin_params(client_params());
    600     begin_params.push_back(TAG_PADDING, padding);
    601     begin_params.push_back(TAG_DIGEST, digest);
    602     begin_params.push_back(TAG_NONCE, nonce.data(), nonce.size());
    603     return ProcessMessage(KM_PURPOSE_DECRYPT, ciphertext, begin_params, update_params);
    604 }
    605 
    606 keymaster_error_t Keymaster2Test::GetCharacteristics() {
    607     FreeCharacteristics();
    608     return device()->get_key_characteristics(device(), &blob_, &client_id_, NULL /* app_data */,
    609                                              &characteristics_);
    610 }
    611 
    612 keymaster_error_t Keymaster2Test::ExportKey(keymaster_key_format_t format, string* export_data) {
    613     keymaster_blob_t export_tmp;
    614     keymaster_error_t error = device()->export_key(device(), format, &blob_, &client_id_,
    615                                                    NULL /* app_data */, &export_tmp);
    616 
    617     if (error != KM_ERROR_OK)
    618         return error;
    619 
    620     *export_data = string(reinterpret_cast<const char*>(export_tmp.data), export_tmp.data_length);
    621     free((void*)export_tmp.data);
    622     return error;
    623 }
    624 
    625 void Keymaster2Test::CheckHmacTestVector(string key, string message, keymaster_digest_t digest,
    626                                          string expected_mac) {
    627     ASSERT_EQ(KM_ERROR_OK, ImportKey(AuthorizationSetBuilder()
    628                                          .HmacKey(key.size() * 8)
    629                                          .Authorization(TAG_MIN_MAC_LENGTH, expected_mac.size() * 8)
    630                                          .Digest(digest),
    631                                      KM_KEY_FORMAT_RAW, key));
    632     string signature;
    633     MacMessage(message, &signature, expected_mac.size() * 8);
    634     EXPECT_EQ(expected_mac, signature) << "Test vector didn't match for digest " << (int)digest;
    635 }
    636 
    637 void Keymaster2Test::CheckAesCtrTestVector(const string& key, const string& nonce,
    638                                            const string& message,
    639                                            const string& expected_ciphertext) {
    640     ASSERT_EQ(KM_ERROR_OK, ImportKey(AuthorizationSetBuilder()
    641                                          .AesEncryptionKey(key.size() * 8)
    642                                          .Authorization(TAG_BLOCK_MODE, KM_MODE_CTR)
    643                                          .Authorization(TAG_CALLER_NONCE)
    644                                          .Padding(KM_PAD_NONE),
    645                                      KM_KEY_FORMAT_RAW, key));
    646 
    647     AuthorizationSet begin_params(client_params()), update_params, output_params;
    648     begin_params.push_back(TAG_NONCE, nonce.data(), nonce.size());
    649     begin_params.push_back(TAG_BLOCK_MODE, KM_MODE_CTR);
    650     begin_params.push_back(TAG_PADDING, KM_PAD_NONE);
    651     string ciphertext =
    652         EncryptMessageWithParams(message, begin_params, update_params, &output_params);
    653     EXPECT_EQ(expected_ciphertext, ciphertext);
    654 }
    655 
    656 AuthorizationSet Keymaster2Test::hw_enforced() {
    657     return AuthorizationSet(characteristics_.hw_enforced);
    658 }
    659 
    660 AuthorizationSet Keymaster2Test::sw_enforced() {
    661     return AuthorizationSet(characteristics_.sw_enforced);
    662 }
    663 
    664 void Keymaster2Test::FreeCharacteristics() {
    665     keymaster_free_characteristics(&characteristics_);
    666 }
    667 
    668 void Keymaster2Test::FreeKeyBlob() {
    669     free(const_cast<uint8_t*>(blob_.key_material));
    670     blob_.key_material = NULL;
    671 }
    672 
    673 void Keymaster2Test::corrupt_key_blob() {
    674     assert(blob_.key_material);
    675     uint8_t* tmp = const_cast<uint8_t*>(blob_.key_material);
    676     ++tmp[blob_.key_material_size / 2];
    677 }
    678 
    679 class Sha256OnlyWrapper {
    680   public:
    681     Sha256OnlyWrapper(const keymaster1_device_t* wrapped_device) : wrapped_device_(wrapped_device) {
    682 
    683         new_module = *wrapped_device_->common.module;
    684         new_module_name = std::string("SHA 256-only ") + wrapped_device_->common.module->name;
    685         new_module.name = new_module_name.c_str();
    686 
    687         memset(&device_, 0, sizeof(device_));
    688         device_.common.module = &new_module;
    689 
    690         device_.common.close = close_device;
    691         device_.get_supported_algorithms = get_supported_algorithms;
    692         device_.get_supported_block_modes = get_supported_block_modes;
    693         device_.get_supported_padding_modes = get_supported_padding_modes;
    694         device_.get_supported_digests = get_supported_digests;
    695         device_.get_supported_import_formats = get_supported_import_formats;
    696         device_.get_supported_export_formats = get_supported_export_formats;
    697         device_.add_rng_entropy = add_rng_entropy;
    698         device_.generate_key = generate_key;
    699         device_.get_key_characteristics = get_key_characteristics;
    700         device_.import_key = import_key;
    701         device_.export_key = export_key;
    702         device_.begin = begin;
    703         device_.update = update;
    704         device_.finish = finish;
    705         device_.abort = abort;
    706     }
    707 
    708     keymaster1_device_t* keymaster_device() { return &device_; }
    709 
    710     static bool is_supported(keymaster_digest_t digest) {
    711         return digest == KM_DIGEST_NONE || digest == KM_DIGEST_SHA_2_256;
    712     }
    713 
    714     static bool all_digests_supported(const keymaster_key_param_set_t* params) {
    715         for (size_t i = 0; i < params->length; ++i)
    716             if (params->params[i].tag == TAG_DIGEST)
    717                 if (!is_supported(static_cast<keymaster_digest_t>(params->params[i].enumerated)))
    718                     return false;
    719         return true;
    720     }
    721 
    722     static const keymaster_key_param_t*
    723     get_algorithm_param(const keymaster_key_param_set_t* params) {
    724         keymaster_key_param_t* end = params->params + params->length;
    725         auto alg_ptr = std::find_if(params->params, end, [](keymaster_key_param_t& p) {
    726             return p.tag == KM_TAG_ALGORITHM;
    727         });
    728         if (alg_ptr == end)
    729             return nullptr;
    730         return alg_ptr;
    731     }
    732 
    733     static int close_device(hw_device_t* dev) {
    734         Sha256OnlyWrapper* wrapper = reinterpret_cast<Sha256OnlyWrapper*>(dev);
    735         const keymaster1_device_t* wrapped_device = wrapper->wrapped_device_;
    736         delete wrapper;
    737         return wrapped_device->common.close(const_cast<hw_device_t*>(&wrapped_device->common));
    738     }
    739 
    740     static const keymaster1_device_t* unwrap(const keymaster1_device_t* dev) {
    741         return reinterpret_cast<const Sha256OnlyWrapper*>(dev)->wrapped_device_;
    742     }
    743 
    744     static keymaster_error_t get_supported_algorithms(const struct keymaster1_device* dev,
    745                                                       keymaster_algorithm_t** algorithms,
    746                                                       size_t* algorithms_length) {
    747         return unwrap(dev)->get_supported_algorithms(unwrap(dev), algorithms, algorithms_length);
    748     }
    749     static keymaster_error_t get_supported_block_modes(const struct keymaster1_device* dev,
    750                                                        keymaster_algorithm_t algorithm,
    751                                                        keymaster_purpose_t purpose,
    752                                                        keymaster_block_mode_t** modes,
    753                                                        size_t* modes_length) {
    754         return unwrap(dev)->get_supported_block_modes(unwrap(dev), algorithm, purpose, modes,
    755                                                       modes_length);
    756     }
    757     static keymaster_error_t get_supported_padding_modes(const struct keymaster1_device* dev,
    758                                                          keymaster_algorithm_t algorithm,
    759                                                          keymaster_purpose_t purpose,
    760                                                          keymaster_padding_t** modes,
    761                                                          size_t* modes_length) {
    762         return unwrap(dev)->get_supported_padding_modes(unwrap(dev), algorithm, purpose, modes,
    763                                                         modes_length);
    764     }
    765 
    766     static keymaster_error_t get_supported_digests(const keymaster1_device_t* dev,
    767                                                    keymaster_algorithm_t algorithm,
    768                                                    keymaster_purpose_t purpose,
    769                                                    keymaster_digest_t** digests,
    770                                                    size_t* digests_length) {
    771         keymaster_error_t error = unwrap(dev)->get_supported_digests(
    772             unwrap(dev), algorithm, purpose, digests, digests_length);
    773         if (error != KM_ERROR_OK)
    774             return error;
    775 
    776         std::vector<keymaster_digest_t> filtered_digests;
    777         std::copy_if(*digests, *digests + *digests_length, std::back_inserter(filtered_digests),
    778                      [](keymaster_digest_t digest) { return is_supported(digest); });
    779 
    780         free(*digests);
    781         *digests_length = filtered_digests.size();
    782         *digests = reinterpret_cast<keymaster_digest_t*>(
    783             malloc(*digests_length * sizeof(keymaster_digest_t)));
    784         std::copy(filtered_digests.begin(), filtered_digests.end(), *digests);
    785 
    786         return KM_ERROR_OK;
    787     }
    788 
    789     static keymaster_error_t get_supported_import_formats(const struct keymaster1_device* dev,
    790                                                           keymaster_algorithm_t algorithm,
    791                                                           keymaster_key_format_t** formats,
    792                                                           size_t* formats_length) {
    793         return unwrap(dev)->get_supported_import_formats(unwrap(dev), algorithm, formats,
    794                                                          formats_length);
    795     }
    796     static keymaster_error_t get_supported_export_formats(const struct keymaster1_device* dev,
    797                                                           keymaster_algorithm_t algorithm,
    798                                                           keymaster_key_format_t** formats,
    799                                                           size_t* formats_length) {
    800         return unwrap(dev)->get_supported_export_formats(unwrap(dev), algorithm, formats,
    801                                                          formats_length);
    802     }
    803     static keymaster_error_t add_rng_entropy(const struct keymaster1_device* dev,
    804                                              const uint8_t* data, size_t data_length) {
    805         return unwrap(dev)->add_rng_entropy(unwrap(dev), data, data_length);
    806     }
    807 
    808     static keymaster_error_t generate_key(const keymaster1_device_t* dev,
    809                                           const keymaster_key_param_set_t* params,
    810                                           keymaster_key_blob_t* key_blob,
    811                                           keymaster_key_characteristics_t** characteristics) {
    812         auto alg_ptr = get_algorithm_param(params);
    813         if (!alg_ptr)
    814             return KM_ERROR_UNSUPPORTED_ALGORITHM;
    815         if (alg_ptr->enumerated == KM_ALGORITHM_HMAC && !all_digests_supported(params))
    816             return KM_ERROR_UNSUPPORTED_DIGEST;
    817 
    818         return unwrap(dev)->generate_key(unwrap(dev), params, key_blob, characteristics);
    819     }
    820 
    821     static keymaster_error_t
    822     get_key_characteristics(const struct keymaster1_device* dev,
    823                             const keymaster_key_blob_t* key_blob, const keymaster_blob_t* client_id,
    824                             const keymaster_blob_t* app_data,
    825                             keymaster_key_characteristics_t** characteristics) {
    826         return unwrap(dev)->get_key_characteristics(unwrap(dev), key_blob, client_id, app_data,
    827                                                     characteristics);
    828     }
    829 
    830     static keymaster_error_t
    831     import_key(const keymaster1_device_t* dev, const keymaster_key_param_set_t* params,
    832                keymaster_key_format_t key_format, const keymaster_blob_t* key_data,
    833                keymaster_key_blob_t* key_blob, keymaster_key_characteristics_t** characteristics) {
    834         auto alg_ptr = get_algorithm_param(params);
    835         if (!alg_ptr)
    836             return KM_ERROR_UNSUPPORTED_ALGORITHM;
    837         if (alg_ptr->enumerated == KM_ALGORITHM_HMAC && !all_digests_supported(params))
    838             return KM_ERROR_UNSUPPORTED_DIGEST;
    839 
    840         return unwrap(dev)->import_key(unwrap(dev), params, key_format, key_data, key_blob,
    841                                        characteristics);
    842     }
    843 
    844     static keymaster_error_t export_key(const struct keymaster1_device* dev,  //
    845                                         keymaster_key_format_t export_format,
    846                                         const keymaster_key_blob_t* key_to_export,
    847                                         const keymaster_blob_t* client_id,
    848                                         const keymaster_blob_t* app_data,
    849                                         keymaster_blob_t* export_data) {
    850         return unwrap(dev)->export_key(unwrap(dev), export_format, key_to_export, client_id,
    851                                        app_data, export_data);
    852     }
    853 
    854     static keymaster_error_t begin(const keymaster1_device_t* dev,  //
    855                                    keymaster_purpose_t purpose, const keymaster_key_blob_t* key,
    856                                    const keymaster_key_param_set_t* in_params,
    857                                    keymaster_key_param_set_t* out_params,
    858                                    keymaster_operation_handle_t* operation_handle) {
    859         if (!all_digests_supported(in_params))
    860             return KM_ERROR_UNSUPPORTED_DIGEST;
    861         return unwrap(dev)->begin(unwrap(dev), purpose, key, in_params, out_params,
    862                                   operation_handle);
    863     }
    864 
    865     static keymaster_error_t update(const keymaster1_device_t* dev,
    866                                     keymaster_operation_handle_t operation_handle,
    867                                     const keymaster_key_param_set_t* in_params,
    868                                     const keymaster_blob_t* input, size_t* input_consumed,
    869                                     keymaster_key_param_set_t* out_params,
    870                                     keymaster_blob_t* output) {
    871         return unwrap(dev)->update(unwrap(dev), operation_handle, in_params, input, input_consumed,
    872                                    out_params, output);
    873     }
    874 
    875     static keymaster_error_t finish(const struct keymaster1_device* dev,  //
    876                                     keymaster_operation_handle_t operation_handle,
    877                                     const keymaster_key_param_set_t* in_params,
    878                                     const keymaster_blob_t* signature,
    879                                     keymaster_key_param_set_t* out_params,
    880                                     keymaster_blob_t* output) {
    881         return unwrap(dev)->finish(unwrap(dev), operation_handle, in_params, signature, out_params,
    882                                    output);
    883     }
    884 
    885     static keymaster_error_t abort(const struct keymaster1_device* dev,
    886                                    keymaster_operation_handle_t operation_handle) {
    887         return unwrap(dev)->abort(unwrap(dev), operation_handle);
    888     }
    889 
    890   private:
    891     keymaster1_device_t device_;
    892     const keymaster1_device_t* wrapped_device_;
    893     hw_module_t new_module;
    894     string new_module_name;
    895 };
    896 
    897 keymaster1_device_t* make_device_sha256_only(keymaster1_device_t* device) {
    898     return (new Sha256OnlyWrapper(device))->keymaster_device();
    899 }
    900 
    901 }  // namespace test
    902 }  // namespace keymaster
    903