/* * Copyright 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include <keymaster/android_keymaster.h> #include <assert.h> #include <string.h> #include <cstddef> #include <openssl/rand.h> #include <openssl/x509.h> #include <UniquePtr.h> #include <keymaster/android_keymaster_utils.h> #include <keymaster/key_factory.h> #include <keymaster/keymaster_context.h> #include "ae.h" #include "key.h" #include "openssl_err.h" #include "operation.h" #include "operation_table.h" namespace keymaster { const uint8_t MAJOR_VER = 1; const uint8_t MINOR_VER = 1; const uint8_t SUBMINOR_VER = 0; AndroidKeymaster::AndroidKeymaster(KeymasterContext* context, size_t operation_table_size) : context_(context), operation_table_(new OperationTable(operation_table_size)) {} AndroidKeymaster::~AndroidKeymaster() {} struct AE_CTX_Delete { void operator()(ae_ctx* ctx) const { ae_free(ctx); } }; typedef UniquePtr<ae_ctx, AE_CTX_Delete> Unique_ae_ctx; // TODO(swillden): Unify support analysis. Right now, we have per-keytype methods that determine if // specific modes, padding, etc. are supported for that key type, and AndroidKeymaster also has // methods that return the same information. They'll get out of sync. Best to put the knowledge in // the keytypes and provide some mechanism for AndroidKeymaster to query the keytypes for the // information. template <typename T> bool check_supported(const KeymasterContext& context, keymaster_algorithm_t algorithm, SupportedResponse<T>* response) { if (context.GetKeyFactory(algorithm) == NULL) { response->error = KM_ERROR_UNSUPPORTED_ALGORITHM; return false; } return true; } void AndroidKeymaster::GetVersion(const GetVersionRequest&, GetVersionResponse* rsp) { if (rsp == NULL) return; rsp->major_ver = MAJOR_VER; rsp->minor_ver = MINOR_VER; rsp->subminor_ver = SUBMINOR_VER; rsp->error = KM_ERROR_OK; } void AndroidKeymaster::SupportedAlgorithms(const SupportedAlgorithmsRequest& /* request */, SupportedAlgorithmsResponse* response) { if (response == NULL) return; response->error = KM_ERROR_OK; size_t algorithm_count = 0; const keymaster_algorithm_t* algorithms = context_->GetSupportedAlgorithms(&algorithm_count); if (algorithm_count == 0) return; response->results_length = algorithm_count; response->results = dup_array(algorithms, algorithm_count); if (!response->results) response->error = KM_ERROR_MEMORY_ALLOCATION_FAILED; } template <typename T> void GetSupported(const KeymasterContext& context, keymaster_algorithm_t algorithm, keymaster_purpose_t purpose, const T* (OperationFactory::*get_supported_method)(size_t* count) const, SupportedResponse<T>* response) { if (response == NULL || !check_supported(context, algorithm, response)) return; const OperationFactory* factory = context.GetOperationFactory(algorithm, purpose); if (!factory) { response->error = KM_ERROR_UNSUPPORTED_PURPOSE; return; } size_t count; const T* supported = (factory->*get_supported_method)(&count); response->SetResults(supported, count); } void AndroidKeymaster::SupportedBlockModes(const SupportedBlockModesRequest& request, SupportedBlockModesResponse* response) { GetSupported(*context_, request.algorithm, request.purpose, &OperationFactory::SupportedBlockModes, response); } void AndroidKeymaster::SupportedPaddingModes(const SupportedPaddingModesRequest& request, SupportedPaddingModesResponse* response) { GetSupported(*context_, request.algorithm, request.purpose, &OperationFactory::SupportedPaddingModes, response); } void AndroidKeymaster::SupportedDigests(const SupportedDigestsRequest& request, SupportedDigestsResponse* response) { GetSupported(*context_, request.algorithm, request.purpose, &OperationFactory::SupportedDigests, response); } void AndroidKeymaster::SupportedImportFormats(const SupportedImportFormatsRequest& request, SupportedImportFormatsResponse* response) { if (response == NULL || !check_supported(*context_, request.algorithm, response)) return; size_t count; const keymaster_key_format_t* formats = context_->GetKeyFactory(request.algorithm)->SupportedImportFormats(&count); response->SetResults(formats, count); } void AndroidKeymaster::SupportedExportFormats(const SupportedExportFormatsRequest& request, SupportedExportFormatsResponse* response) { if (response == NULL || !check_supported(*context_, request.algorithm, response)) return; size_t count; const keymaster_key_format_t* formats = context_->GetKeyFactory(request.algorithm)->SupportedExportFormats(&count); response->SetResults(formats, count); } void AndroidKeymaster::AddRngEntropy(const AddEntropyRequest& request, AddEntropyResponse* response) { response->error = context_->AddRngEntropy(request.random_data.peek_read(), request.random_data.available_read()); } void AndroidKeymaster::GenerateKey(const GenerateKeyRequest& request, GenerateKeyResponse* response) { if (response == NULL) return; keymaster_algorithm_t algorithm; KeyFactory* factory = 0; UniquePtr<Key> key; if (!request.key_description.GetTagValue(TAG_ALGORITHM, &algorithm) || !(factory = context_->GetKeyFactory(algorithm))) response->error = KM_ERROR_UNSUPPORTED_ALGORITHM; else { KeymasterKeyBlob key_blob; response->enforced.Clear(); response->unenforced.Clear(); response->error = factory->GenerateKey(request.key_description, &key_blob, &response->enforced, &response->unenforced); if (response->error == KM_ERROR_OK) response->key_blob = key_blob.release(); } } void AndroidKeymaster::GetKeyCharacteristics(const GetKeyCharacteristicsRequest& request, GetKeyCharacteristicsResponse* response) { if (response == NULL) return; KeymasterKeyBlob key_material; response->error = context_->ParseKeyBlob(KeymasterKeyBlob(request.key_blob), request.additional_params, &key_material, &response->enforced, &response->unenforced); if (response->error != KM_ERROR_OK) return; } static KeyFactory* GetKeyFactory(const KeymasterContext& context, const AuthorizationSet& hw_enforced, const AuthorizationSet& sw_enforced, keymaster_algorithm_t* algorithm, keymaster_error_t* error) { *error = KM_ERROR_UNSUPPORTED_ALGORITHM; if (!hw_enforced.GetTagValue(TAG_ALGORITHM, algorithm) && !sw_enforced.GetTagValue(TAG_ALGORITHM, algorithm)) return nullptr; KeyFactory* factory = context.GetKeyFactory(*algorithm); if (factory) *error = KM_ERROR_OK; return factory; } void AndroidKeymaster::BeginOperation(const BeginOperationRequest& request, BeginOperationResponse* response) { if (response == NULL) return; response->op_handle = 0; AuthorizationSet hw_enforced; AuthorizationSet sw_enforced; const KeyFactory* key_factory; UniquePtr<Key> key; response->error = LoadKey(request.key_blob, request.additional_params, &hw_enforced, &sw_enforced, &key_factory, &key); if (response->error != KM_ERROR_OK) return; response->error = KM_ERROR_UNKNOWN_ERROR; keymaster_algorithm_t key_algorithm; if (!key->authorizations().GetTagValue(TAG_ALGORITHM, &key_algorithm)) return; response->error = KM_ERROR_UNSUPPORTED_PURPOSE; OperationFactory* factory = key_factory->GetOperationFactory(request.purpose); if (!factory) return; UniquePtr<Operation> operation( factory->CreateOperation(*key, request.additional_params, &response->error)); if (operation.get() == NULL) return; if (context_->enforcement_policy()) { km_id_t key_id; response->error = KM_ERROR_UNKNOWN_ERROR; if (!context_->enforcement_policy()->CreateKeyId(request.key_blob, &key_id)) return; operation->set_key_id(key_id); response->error = context_->enforcement_policy()->AuthorizeOperation( request.purpose, key_id, key->authorizations(), request.additional_params, 0 /* op_handle */, true /* is_begin_operation */); if (response->error != KM_ERROR_OK) return; } response->output_params.Clear(); response->error = operation->Begin(request.additional_params, &response->output_params); if (response->error != KM_ERROR_OK) return; operation->SetAuthorizations(key->authorizations()); response->error = operation_table_->Add(operation.release(), &response->op_handle); } void AndroidKeymaster::UpdateOperation(const UpdateOperationRequest& request, UpdateOperationResponse* response) { if (response == NULL) return; response->error = KM_ERROR_INVALID_OPERATION_HANDLE; Operation* operation = operation_table_->Find(request.op_handle); if (operation == NULL) return; if (context_->enforcement_policy()) { response->error = context_->enforcement_policy()->AuthorizeOperation( operation->purpose(), operation->key_id(), operation->authorizations(), request.additional_params, request.op_handle, false /* is_begin_operation */); if (response->error != KM_ERROR_OK) { operation_table_->Delete(request.op_handle); return; } } response->error = operation->Update(request.additional_params, request.input, &response->output_params, &response->output, &response->input_consumed); if (response->error != KM_ERROR_OK) { // Any error invalidates the operation. operation_table_->Delete(request.op_handle); } } void AndroidKeymaster::FinishOperation(const FinishOperationRequest& request, FinishOperationResponse* response) { if (response == NULL) return; response->error = KM_ERROR_INVALID_OPERATION_HANDLE; Operation* operation = operation_table_->Find(request.op_handle); if (operation == NULL) return; if (context_->enforcement_policy()) { response->error = context_->enforcement_policy()->AuthorizeOperation( operation->purpose(), operation->key_id(), operation->authorizations(), request.additional_params, request.op_handle, false /* is_begin_operation */); if (response->error != KM_ERROR_OK) { operation_table_->Delete(request.op_handle); return; } } response->error = operation->Finish(request.additional_params, request.signature, &response->output_params, &response->output); operation_table_->Delete(request.op_handle); } void AndroidKeymaster::AbortOperation(const AbortOperationRequest& request, AbortOperationResponse* response) { if (!response) return; Operation* operation = operation_table_->Find(request.op_handle); if (!operation) { response->error = KM_ERROR_INVALID_OPERATION_HANDLE; return; } response->error = operation->Abort(); operation_table_->Delete(request.op_handle); } void AndroidKeymaster::ExportKey(const ExportKeyRequest& request, ExportKeyResponse* response) { if (response == NULL) return; AuthorizationSet hw_enforced; AuthorizationSet sw_enforced; KeymasterKeyBlob key_material; response->error = context_->ParseKeyBlob(KeymasterKeyBlob(request.key_blob), request.additional_params, &key_material, &hw_enforced, &sw_enforced); if (response->error != KM_ERROR_OK) return; keymaster_algorithm_t algorithm; KeyFactory* key_factory = GetKeyFactory(*context_, hw_enforced, sw_enforced, &algorithm, &response->error); if (!key_factory) return; UniquePtr<Key> key; response->error = key_factory->LoadKey(key_material, request.additional_params, hw_enforced, sw_enforced, &key); if (response->error != KM_ERROR_OK) return; UniquePtr<uint8_t[]> out_key; size_t size; response->error = key->formatted_key_material(request.key_format, &out_key, &size); if (response->error == KM_ERROR_OK) { response->key_data = out_key.release(); response->key_data_length = size; } } void AndroidKeymaster::ImportKey(const ImportKeyRequest& request, ImportKeyResponse* response) { if (response == NULL) return; keymaster_algorithm_t algorithm; KeyFactory* factory = 0; UniquePtr<Key> key; if (!request.key_description.GetTagValue(TAG_ALGORITHM, &algorithm) || !(factory = context_->GetKeyFactory(algorithm))) response->error = KM_ERROR_UNSUPPORTED_ALGORITHM; else { keymaster_key_blob_t key_material = {request.key_data, request.key_data_length}; KeymasterKeyBlob key_blob; response->error = factory->ImportKey(request.key_description, request.key_format, KeymasterKeyBlob(key_material), &key_blob, &response->enforced, &response->unenforced); if (response->error == KM_ERROR_OK) response->key_blob = key_blob.release(); } } void AndroidKeymaster::DeleteKey(const DeleteKeyRequest& request, DeleteKeyResponse* response) { if (!response) return; response->error = context_->DeleteKey(KeymasterKeyBlob(request.key_blob)); } void AndroidKeymaster::DeleteAllKeys(const DeleteAllKeysRequest&, DeleteAllKeysResponse* response) { if (!response) return; response->error = context_->DeleteAllKeys(); } bool AndroidKeymaster::has_operation(keymaster_operation_handle_t op_handle) const { return operation_table_->Find(op_handle) != nullptr; } keymaster_error_t AndroidKeymaster::LoadKey(const keymaster_key_blob_t& key_blob, const AuthorizationSet& additional_params, AuthorizationSet* hw_enforced, AuthorizationSet* sw_enforced, const KeyFactory** factory, UniquePtr<Key>* key) { KeymasterKeyBlob key_material; keymaster_error_t error = context_->ParseKeyBlob(KeymasterKeyBlob(key_blob), additional_params, &key_material, hw_enforced, sw_enforced); if (error != KM_ERROR_OK) return error; keymaster_algorithm_t algorithm; *factory = GetKeyFactory(*context_, *hw_enforced, *sw_enforced, &algorithm, &error); if (error != KM_ERROR_OK) return error; return (*factory)->LoadKey(key_material, additional_params, *hw_enforced, *sw_enforced, key); } } // namespace keymaster