4fa39ef416
* Add explicit to conversion constructors/operators * Use NOLINT or NOLINTNEXTLINE to suppress warnings on intended converters Bug: 28341362 Test: make with WITH_TIDY=1 DEFAULT_GLOBAL_TIDY_CHECKS=-*,google-explicit-constructor Change-Id: I4ed5aea36fcdcd8dbda9a4be9607c5af606f2a08
547 lines
20 KiB
C++
547 lines
20 KiB
C++
/*
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**
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** Copyright 2016, The Android Open Source Project
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**
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** Licensed under the Apache License, Version 2.0 (the "License");
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** you may not use this file except in compliance with the License.
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** You may obtain a copy of the License at
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**
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** http://www.apache.org/licenses/LICENSE-2.0
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**
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** Unless required by applicable law or agreed to in writing, software
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** distributed under the License is distributed on an "AS IS" BASIS,
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** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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** See the License for the specific language governing permissions and
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** limitations under the License.
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*/
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#define LOG_TAG "android.hardware.keymaster@3.0-impl"
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#include "legacy_keymaster_device_wrapper.h"
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#include <log/log.h>
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#include <hardware/keymaster2.h>
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#include <hardware/keymaster_defs.h>
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#include <keymaster/keymaster_configuration.h>
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#include <keymaster/soft_keymaster_device.h>
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namespace android {
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namespace keystore {
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using ::keymaster::SoftKeymasterDevice;
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LegacyKeymasterDeviceWrapper::LegacyKeymasterDeviceWrapper(keymaster2_device_t* dev)
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: keymaster_device_(dev) {}
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LegacyKeymasterDeviceWrapper::~LegacyKeymasterDeviceWrapper() {
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if (keymaster_device_) keymaster_device_->common.close(&keymaster_device_->common);
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}
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static inline keymaster_tag_type_t typeFromTag(const keymaster_tag_t tag) {
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return keymaster_tag_get_type(tag);
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}
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/**
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* legacy_enum_conversion converts enums from hidl to keymaster and back. Currently, this is just a
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* cast to make the compiler happy. One of two thigs should happen though:
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* TODO The keymaster enums should become aliases for the hidl generated enums so that we have a
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* single point of truth. Then this cast function can go away.
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*/
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inline static keymaster_tag_t legacy_enum_conversion(const Tag value) {
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return keymaster_tag_t(value);
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}
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inline static Tag legacy_enum_conversion(const keymaster_tag_t value) {
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return Tag(value);
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}
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inline static keymaster_purpose_t legacy_enum_conversion(const KeyPurpose value) {
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return keymaster_purpose_t(value);
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}
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inline static keymaster_key_format_t legacy_enum_conversion(const KeyFormat value) {
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return keymaster_key_format_t(value);
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}
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inline static ErrorCode legacy_enum_conversion(const keymaster_error_t value) {
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return ErrorCode(value);
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}
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class KmParamSet : public keymaster_key_param_set_t {
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public:
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explicit KmParamSet(const hidl_vec<KeyParameter>& keyParams) {
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params = new keymaster_key_param_t[keyParams.size()];
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length = keyParams.size();
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for (size_t i = 0; i < keyParams.size(); ++i) {
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auto tag = legacy_enum_conversion(keyParams[i].tag);
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switch (typeFromTag(tag)) {
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case KM_ENUM:
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case KM_ENUM_REP:
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params[i] = keymaster_param_enum(tag, keyParams[i].f.integer);
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break;
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case KM_UINT:
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case KM_UINT_REP:
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params[i] = keymaster_param_int(tag, keyParams[i].f.integer);
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break;
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case KM_ULONG:
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case KM_ULONG_REP:
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params[i] = keymaster_param_long(tag, keyParams[i].f.longInteger);
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break;
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case KM_DATE:
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params[i] = keymaster_param_date(tag, keyParams[i].f.dateTime);
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break;
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case KM_BOOL:
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if (keyParams[i].f.boolValue)
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params[i] = keymaster_param_bool(tag);
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else
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params[i].tag = KM_TAG_INVALID;
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break;
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case KM_BIGNUM:
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case KM_BYTES:
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params[i] =
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keymaster_param_blob(tag, &keyParams[i].blob[0], keyParams[i].blob.size());
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break;
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case KM_INVALID:
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default:
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params[i].tag = KM_TAG_INVALID;
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/* just skip */
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break;
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}
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}
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}
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KmParamSet(KmParamSet&& other) noexcept
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: keymaster_key_param_set_t{other.params, other.length} {
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other.length = 0;
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other.params = nullptr;
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}
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KmParamSet(const KmParamSet&) = delete;
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~KmParamSet() { delete[] params; }
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};
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inline static KmParamSet hidlParams2KmParamSet(const hidl_vec<KeyParameter>& params) {
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return KmParamSet(params);
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}
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inline static keymaster_blob_t hidlVec2KmBlob(const hidl_vec<uint8_t>& blob) {
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/* hidl unmarshals funny pointers if the the blob is empty */
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if (blob.size()) return {&blob[0], blob.size()};
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return {};
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}
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inline static keymaster_key_blob_t hidlVec2KmKeyBlob(const hidl_vec<uint8_t>& blob) {
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/* hidl unmarshals funny pointers if the the blob is empty */
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if (blob.size()) return {&blob[0], blob.size()};
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return {};
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}
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inline static hidl_vec<uint8_t> kmBlob2hidlVec(const keymaster_key_blob_t& blob) {
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if (blob.key_material == nullptr || blob.key_material_size == 0) {
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return {};
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} else {
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return hidl_vec<uint8_t>(blob.key_material, blob.key_material + blob.key_material_size);
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}
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}
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inline static hidl_vec<uint8_t> kmBlob2hidlVec(const keymaster_blob_t& blob) {
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if (blob.data == nullptr || blob.data_length == 0) {
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return {};
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} else {
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return hidl_vec<uint8_t>(blob.data, blob.data + blob.data_length);
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}
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}
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inline static hidl_vec<hidl_vec<uint8_t>>
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kmCertChain2Hidl(const keymaster_cert_chain_t* cert_chain) {
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hidl_vec<hidl_vec<uint8_t>> result;
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if (!cert_chain || cert_chain->entry_count == 0 || !cert_chain->entries) return result;
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result.resize(cert_chain->entry_count);
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for (size_t i = 0; i < cert_chain->entry_count; ++i) {
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auto& entry = cert_chain->entries[i];
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result[i] = kmBlob2hidlVec(entry);
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}
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return result;
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}
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static inline hidl_vec<KeyParameter> kmParamSet2Hidl(const keymaster_key_param_set_t& set) {
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hidl_vec<KeyParameter> result;
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if (set.length == 0 || set.params == nullptr) return result;
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result.resize(set.length);
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keymaster_key_param_t* params = set.params;
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for (size_t i = 0; i < set.length; ++i) {
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auto tag = params[i].tag;
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result[i].tag = legacy_enum_conversion(tag);
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switch (typeFromTag(tag)) {
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case KM_ENUM:
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case KM_ENUM_REP:
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result[i].f.integer = params[i].enumerated;
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break;
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case KM_UINT:
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case KM_UINT_REP:
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result[i].f.integer = params[i].integer;
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break;
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case KM_ULONG:
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case KM_ULONG_REP:
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result[i].f.longInteger = params[i].long_integer;
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break;
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case KM_DATE:
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result[i].f.dateTime = params[i].date_time;
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break;
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case KM_BOOL:
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result[i].f.boolValue = params[i].boolean;
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break;
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case KM_BIGNUM:
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case KM_BYTES:
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result[i].blob = kmBlob2hidlVec(params[i].blob);
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break;
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case KM_INVALID:
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default:
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params[i].tag = KM_TAG_INVALID;
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/* just skip */
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break;
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}
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}
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return result;
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}
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// Methods from ::android::hardware::keymaster::V3_0::IKeymasterDevice follow.
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Return<void> LegacyKeymasterDeviceWrapper::getHardwareFeatures(getHardwareFeatures_cb _hidl_cb) {
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_hidl_cb(false, false, false, false, false, "Fallback Device", "Google Android Security");
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return Void();
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}
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Return<ErrorCode> LegacyKeymasterDeviceWrapper::addRngEntropy(const hidl_vec<uint8_t>& data) {
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return legacy_enum_conversion(
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keymaster_device_->add_rng_entropy(keymaster_device_, &data[0], data.size()));
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}
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Return<void> LegacyKeymasterDeviceWrapper::generateKey(const hidl_vec<KeyParameter>& keyParams,
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generateKey_cb _hidl_cb) {
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// result variables for the wire
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KeyCharacteristics resultCharacteristics;
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hidl_vec<uint8_t> resultKeyBlob;
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// result variables the backend understands
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keymaster_key_blob_t key_blob{nullptr, 0};
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keymaster_key_characteristics_t key_characteristics{{nullptr, 0}, {nullptr, 0}};
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// convert the parameter set to something our backend understands
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auto kmParams = hidlParams2KmParamSet(keyParams);
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auto rc = keymaster_device_->generate_key(keymaster_device_, &kmParams, &key_blob,
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&key_characteristics);
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if (rc == KM_ERROR_OK) {
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// on success convert the result to wire format
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resultKeyBlob = kmBlob2hidlVec(key_blob);
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resultCharacteristics.softwareEnforced = kmParamSet2Hidl(key_characteristics.sw_enforced);
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resultCharacteristics.teeEnforced = kmParamSet2Hidl(key_characteristics.hw_enforced);
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}
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// send results off to the client
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_hidl_cb(legacy_enum_conversion(rc), resultKeyBlob, resultCharacteristics);
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// free buffers that we are responsible for
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if (key_blob.key_material) free(const_cast<uint8_t*>(key_blob.key_material));
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keymaster_free_characteristics(&key_characteristics);
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return Void();
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}
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Return<void> LegacyKeymasterDeviceWrapper::getKeyCharacteristics(
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const hidl_vec<uint8_t>& keyBlob, const hidl_vec<uint8_t>& clientId,
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const hidl_vec<uint8_t>& appData, getKeyCharacteristics_cb _hidl_cb) {
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// result variables for the wire
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KeyCharacteristics resultCharacteristics;
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// result variables the backend understands
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keymaster_key_characteristics_t key_characteristics{{nullptr, 0}, {nullptr, 0}};
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auto kmKeyBlob = hidlVec2KmKeyBlob(keyBlob);
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auto kmClientId = hidlVec2KmBlob(clientId);
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auto kmAppData = hidlVec2KmBlob(appData);
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auto rc = keymaster_device_->get_key_characteristics(
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keymaster_device_, keyBlob.size() ? &kmKeyBlob : nullptr,
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clientId.size() ? &kmClientId : nullptr, appData.size() ? &kmAppData : nullptr,
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&key_characteristics);
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if (rc == KM_ERROR_OK) {
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resultCharacteristics.softwareEnforced = kmParamSet2Hidl(key_characteristics.sw_enforced);
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resultCharacteristics.teeEnforced = kmParamSet2Hidl(key_characteristics.hw_enforced);
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}
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_hidl_cb(legacy_enum_conversion(rc), resultCharacteristics);
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keymaster_free_characteristics(&key_characteristics);
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return Void();
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}
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Return<void> LegacyKeymasterDeviceWrapper::importKey(const hidl_vec<KeyParameter>& params,
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KeyFormat keyFormat,
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const hidl_vec<uint8_t>& keyData,
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importKey_cb _hidl_cb) {
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// result variables for the wire
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KeyCharacteristics resultCharacteristics;
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hidl_vec<uint8_t> resultKeyBlob;
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// result variables the backend understands
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keymaster_key_blob_t key_blob{nullptr, 0};
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keymaster_key_characteristics_t key_characteristics{{nullptr, 0}, {nullptr, 0}};
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auto kmParams = hidlParams2KmParamSet(params);
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auto kmKeyData = hidlVec2KmBlob(keyData);
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auto rc = keymaster_device_->import_key(keymaster_device_, &kmParams,
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legacy_enum_conversion(keyFormat), &kmKeyData,
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&key_blob, &key_characteristics);
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if (rc == KM_ERROR_OK) {
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// on success convert the result to wire format
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resultKeyBlob = kmBlob2hidlVec(key_blob);
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resultCharacteristics.softwareEnforced = kmParamSet2Hidl(key_characteristics.sw_enforced);
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resultCharacteristics.teeEnforced = kmParamSet2Hidl(key_characteristics.hw_enforced);
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}
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_hidl_cb(legacy_enum_conversion(rc), resultKeyBlob, resultCharacteristics);
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// free buffers that we are responsible for
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if (key_blob.key_material) free(const_cast<uint8_t*>(key_blob.key_material));
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keymaster_free_characteristics(&key_characteristics);
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return Void();
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}
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Return<void> LegacyKeymasterDeviceWrapper::exportKey(KeyFormat exportFormat,
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const hidl_vec<uint8_t>& keyBlob,
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const hidl_vec<uint8_t>& clientId,
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const hidl_vec<uint8_t>& appData,
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exportKey_cb _hidl_cb) {
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// result variables for the wire
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hidl_vec<uint8_t> resultKeyBlob;
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// result variables the backend understands
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keymaster_blob_t out_blob = {};
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auto kmKeyBlob = hidlVec2KmKeyBlob(keyBlob);
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auto kmClientId = hidlVec2KmBlob(clientId);
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auto kmAppData = hidlVec2KmBlob(appData);
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auto rc = keymaster_device_->export_key(keymaster_device_, legacy_enum_conversion(exportFormat),
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keyBlob.size() ? &kmKeyBlob : nullptr,
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clientId.size() ? &kmClientId : nullptr,
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appData.size() ? &kmAppData : nullptr, &out_blob);
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if (rc == KM_ERROR_OK) {
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// on success convert the result to wire format
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// (Can we assume that key_blob is {nullptr, 0} or a valid buffer description?)
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resultKeyBlob = kmBlob2hidlVec(out_blob);
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}
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_hidl_cb(legacy_enum_conversion(rc), resultKeyBlob);
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// free buffers that we are responsible for
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if (out_blob.data) free(const_cast<uint8_t*>(out_blob.data));
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return Void();
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}
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Return<void> LegacyKeymasterDeviceWrapper::attestKey(const hidl_vec<uint8_t>& keyToAttest,
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const hidl_vec<KeyParameter>& attestParams,
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attestKey_cb _hidl_cb) {
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hidl_vec<hidl_vec<uint8_t>> resultCertChain;
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for (size_t i = 0; i < attestParams.size(); ++i) {
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switch (attestParams[i].tag) {
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case Tag::ATTESTATION_ID_BRAND:
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case Tag::ATTESTATION_ID_DEVICE:
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case Tag::ATTESTATION_ID_PRODUCT:
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case Tag::ATTESTATION_ID_SERIAL:
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case Tag::ATTESTATION_ID_IMEI:
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case Tag::ATTESTATION_ID_MEID:
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case Tag::ATTESTATION_ID_MANUFACTURER:
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case Tag::ATTESTATION_ID_MODEL:
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// Device id attestation may only be supported if the device is able to permanently
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// destroy its knowledge of the ids. This device is unable to do this, so it must
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// never perform any device id attestation.
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_hidl_cb(ErrorCode::CANNOT_ATTEST_IDS, resultCertChain);
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return Void();
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default:
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break;
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}
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}
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keymaster_cert_chain_t cert_chain = {};
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auto kmKeyToAttest = hidlVec2KmKeyBlob(keyToAttest);
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auto kmAttestParams = hidlParams2KmParamSet(attestParams);
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auto rc = keymaster_device_->attest_key(keymaster_device_, &kmKeyToAttest, &kmAttestParams,
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&cert_chain);
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if (rc == KM_ERROR_OK) {
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resultCertChain = kmCertChain2Hidl(&cert_chain);
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}
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_hidl_cb(legacy_enum_conversion(rc), resultCertChain);
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keymaster_free_cert_chain(&cert_chain);
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return Void();
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}
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Return<void> LegacyKeymasterDeviceWrapper::upgradeKey(const hidl_vec<uint8_t>& keyBlobToUpgrade,
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const hidl_vec<KeyParameter>& upgradeParams,
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upgradeKey_cb _hidl_cb) {
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// result variables for the wire
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hidl_vec<uint8_t> resultKeyBlob;
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// result variables the backend understands
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keymaster_key_blob_t key_blob = {};
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auto kmKeyBlobToUpgrade = hidlVec2KmKeyBlob(keyBlobToUpgrade);
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auto kmUpgradeParams = hidlParams2KmParamSet(upgradeParams);
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auto rc = keymaster_device_->upgrade_key(keymaster_device_, &kmKeyBlobToUpgrade,
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&kmUpgradeParams, &key_blob);
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if (rc == KM_ERROR_OK) {
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// on success convert the result to wire format
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resultKeyBlob = kmBlob2hidlVec(key_blob);
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}
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_hidl_cb(legacy_enum_conversion(rc), resultKeyBlob);
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if (key_blob.key_material) free(const_cast<uint8_t*>(key_blob.key_material));
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return Void();
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}
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Return<ErrorCode> LegacyKeymasterDeviceWrapper::deleteKey(const hidl_vec<uint8_t>& keyBlob) {
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auto kmKeyBlob = hidlVec2KmKeyBlob(keyBlob);
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return legacy_enum_conversion(keymaster_device_->delete_key(keymaster_device_, &kmKeyBlob));
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}
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Return<ErrorCode> LegacyKeymasterDeviceWrapper::deleteAllKeys() {
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return legacy_enum_conversion(keymaster_device_->delete_all_keys(keymaster_device_));
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}
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Return<ErrorCode> LegacyKeymasterDeviceWrapper::destroyAttestationIds() {
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return ErrorCode::UNIMPLEMENTED;
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}
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Return<void> LegacyKeymasterDeviceWrapper::begin(KeyPurpose purpose, const hidl_vec<uint8_t>& key,
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const hidl_vec<KeyParameter>& inParams,
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begin_cb _hidl_cb) {
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// result variables for the wire
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hidl_vec<KeyParameter> resultParams;
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uint64_t resultOpHandle = 0;
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// result variables the backend understands
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keymaster_key_param_set_t out_params{nullptr, 0};
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keymaster_operation_handle_t& operation_handle = resultOpHandle;
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auto kmKey = hidlVec2KmKeyBlob(key);
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auto kmInParams = hidlParams2KmParamSet(inParams);
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auto rc = keymaster_device_->begin(keymaster_device_, legacy_enum_conversion(purpose), &kmKey,
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&kmInParams, &out_params, &operation_handle);
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if (rc == KM_ERROR_OK) resultParams = kmParamSet2Hidl(out_params);
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|
|
_hidl_cb(legacy_enum_conversion(rc), resultParams, resultOpHandle);
|
|
|
|
keymaster_free_param_set(&out_params);
|
|
|
|
return Void();
|
|
}
|
|
|
|
Return<void> LegacyKeymasterDeviceWrapper::update(uint64_t operationHandle,
|
|
const hidl_vec<KeyParameter>& inParams,
|
|
const hidl_vec<uint8_t>& input,
|
|
update_cb _hidl_cb) {
|
|
// result variables for the wire
|
|
uint32_t resultConsumed = 0;
|
|
hidl_vec<KeyParameter> resultParams;
|
|
hidl_vec<uint8_t> resultBlob;
|
|
|
|
// result variables the backend understands
|
|
size_t consumed = 0;
|
|
keymaster_key_param_set_t out_params = {};
|
|
keymaster_blob_t out_blob = {};
|
|
|
|
auto kmInParams = hidlParams2KmParamSet(inParams);
|
|
auto kmInput = hidlVec2KmBlob(input);
|
|
|
|
auto rc = keymaster_device_->update(keymaster_device_, operationHandle, &kmInParams, &kmInput,
|
|
&consumed, &out_params, &out_blob);
|
|
|
|
if (rc == KM_ERROR_OK) {
|
|
resultConsumed = consumed;
|
|
resultParams = kmParamSet2Hidl(out_params);
|
|
resultBlob = kmBlob2hidlVec(out_blob);
|
|
}
|
|
|
|
_hidl_cb(legacy_enum_conversion(rc), resultConsumed, resultParams, resultBlob);
|
|
|
|
keymaster_free_param_set(&out_params);
|
|
if (out_blob.data) free(const_cast<uint8_t*>(out_blob.data));
|
|
|
|
return Void();
|
|
}
|
|
|
|
Return<void> LegacyKeymasterDeviceWrapper::finish(uint64_t operationHandle,
|
|
const hidl_vec<KeyParameter>& inParams,
|
|
const hidl_vec<uint8_t>& input,
|
|
const hidl_vec<uint8_t>& signature,
|
|
finish_cb _hidl_cb) {
|
|
// result variables for the wire
|
|
hidl_vec<KeyParameter> resultParams;
|
|
hidl_vec<uint8_t> resultBlob;
|
|
|
|
// result variables the backend understands
|
|
keymaster_key_param_set_t out_params = {};
|
|
keymaster_blob_t out_blob = {};
|
|
|
|
auto kmInParams = hidlParams2KmParamSet(inParams);
|
|
auto kmInput = hidlVec2KmBlob(input);
|
|
auto kmSignature = hidlVec2KmBlob(signature);
|
|
|
|
auto rc = keymaster_device_->finish(keymaster_device_, operationHandle, &kmInParams, &kmInput,
|
|
&kmSignature, &out_params, &out_blob);
|
|
|
|
if (rc == KM_ERROR_OK) {
|
|
resultParams = kmParamSet2Hidl(out_params);
|
|
resultBlob = kmBlob2hidlVec(out_blob);
|
|
}
|
|
|
|
_hidl_cb(legacy_enum_conversion(rc), resultParams, resultBlob);
|
|
|
|
keymaster_free_param_set(&out_params);
|
|
if (out_blob.data) free(const_cast<uint8_t*>(out_blob.data));
|
|
|
|
return Void();
|
|
}
|
|
|
|
Return<ErrorCode> LegacyKeymasterDeviceWrapper::abort(uint64_t operationHandle) {
|
|
return legacy_enum_conversion(keymaster_device_->abort(keymaster_device_, operationHandle));
|
|
}
|
|
|
|
sp<IKeymasterDevice> makeSoftwareKeymasterDevice() {
|
|
keymaster2_device_t* dev = nullptr;
|
|
dev = (new SoftKeymasterDevice)->keymaster2_device();
|
|
|
|
auto kmrc = ::keymaster::ConfigureDevice(dev);
|
|
if (kmrc != KM_ERROR_OK) {
|
|
dev->common.close(&dev->common);
|
|
return nullptr;
|
|
}
|
|
|
|
return new LegacyKeymasterDeviceWrapper(dev);
|
|
}
|
|
|
|
} // namespace keystore
|
|
} // namespace android
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