platform_system_security/identity/WritableCredential.cpp
David Zeuthen c239db4114 identity: Add support for setting minimum validity period for AuthKey.
This change adds support for specifying that an AuthKey should be
replaced if it's going to expire within a certain amount of time
configurable by the application. This also adds a way for the
application to learn about the expiration time of currently configured
AuthKeys.

Combined these two changes allow an application to get a perfect
picture of which AuthKeys are available, when they expire, and allows
the application to refresh AuthKeys well ahead of expiration dates.

Also remove checking storeStaticAuthenticationDataWithExpiration() is
only available on HAL version 3 and later (feature version 202101 and
later). This works on any HAL version.

Bug: 241912421
Test: atest VtsHalIdentityTargetTest
Test: atest android.security.identity.cts
Change-Id: Ic8274088035c31f73ad61645ee5e0281b3460837
2022-12-09 02:58:18 -05:00

283 lines
11 KiB
C++

/*
* Copyright (c) 2019, 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.
*/
#define LOG_TAG "credstore"
#include <android-base/logging.h>
#include <android/hardware/identity/support/IdentityCredentialSupport.h>
#include <android/security/identity/ICredentialStore.h>
#include <binder/IPCThreadState.h>
#include <cppbor.h>
#include <cppbor_parse.h>
#include <keystore/keystore_attestation_id.h>
#include "CredentialData.h"
#include "Util.h"
#include "WritableCredential.h"
namespace android {
namespace security {
namespace identity {
using ::std::pair;
using ::android::hardware::identity::SecureAccessControlProfile;
using ::android::hardware::identity::support::chunkVector;
WritableCredential::WritableCredential(const string& dataPath, const string& credentialName,
const string& docType, bool isUpdate,
HardwareInformation hwInfo,
sp<IWritableIdentityCredential> halBinder)
: dataPath_(dataPath), credentialName_(credentialName), docType_(docType), isUpdate_(isUpdate),
hwInfo_(std::move(hwInfo)), halBinder_(halBinder) {}
WritableCredential::~WritableCredential() {}
void WritableCredential::setCredentialToReloadWhenUpdated(sp<Credential> credential) {
credentialToReloadWhenUpdated_ = credential;
}
Status WritableCredential::ensureAttestationCertificateExists(const vector<uint8_t>& challenge) {
if (!attestationCertificate_.empty()) {
return Status::ok();
}
const int32_t callingUid = IPCThreadState::self()->getCallingUid();
auto asn1AttestationId = android::security::gather_attestation_application_id(callingUid);
if (!asn1AttestationId.isOk()) {
LOG(ERROR) << "Failed gathering AttestionApplicationId";
return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
"Failed gathering AttestionApplicationId");
}
vector<Certificate> certificateChain;
Status status = halBinder_->getAttestationCertificate(asn1AttestationId.value(), challenge,
&certificateChain);
if (!status.isOk()) {
LOG(ERROR) << "Error calling getAttestationCertificate()";
return halStatusToGenericError(status);
}
vector<vector<uint8_t>> splitCerts;
for (const auto& cert : certificateChain) {
splitCerts.push_back(cert.encodedCertificate);
}
attestationCertificate_ =
::android::hardware::identity::support::certificateChainJoin(splitCerts);
return Status::ok();
}
Status WritableCredential::getCredentialKeyCertificateChain(const vector<uint8_t>& challenge,
vector<uint8_t>* _aidl_return) {
if (isUpdate_) {
return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
"Cannot be called for an update");
}
Status ensureStatus = ensureAttestationCertificateExists(challenge);
if (!ensureStatus.isOk()) {
return ensureStatus;
}
*_aidl_return = attestationCertificate_;
return Status::ok();
}
void WritableCredential::setAttestationCertificate(const vector<uint8_t>& attestationCertificate) {
attestationCertificate_ = attestationCertificate;
}
void WritableCredential::setAvailableAuthenticationKeys(int keyCount, int maxUsesPerKey,
int64_t minValidTimeMillis) {
keyCount_ = keyCount;
maxUsesPerKey_ = maxUsesPerKey;
minValidTimeMillis_ = minValidTimeMillis;
}
ssize_t WritableCredential::calcExpectedProofOfProvisioningSize(
const vector<AccessControlProfileParcel>& accessControlProfiles,
const vector<EntryNamespaceParcel>& entryNamespaces) {
// Right now, we calculate the size by simply just calculating the
// CBOR. There's a little bit of overhead associated with this (as compared
// to just adding up sizes) but it's a lot simpler and robust. In the future
// if this turns out to be a problem, we can optimize it.
//
cppbor::Array acpArray;
for (const AccessControlProfileParcel& profile : accessControlProfiles) {
cppbor::Map map;
map.add("id", profile.id);
if (profile.readerCertificate.size() > 0) {
map.add("readerCertificate", cppbor::Bstr(profile.readerCertificate));
}
if (profile.userAuthenticationRequired) {
map.add("userAuthenticationRequired", profile.userAuthenticationRequired);
map.add("timeoutMillis", profile.userAuthenticationTimeoutMillis);
}
acpArray.add(std::move(map));
}
cppbor::Map dataMap;
for (const EntryNamespaceParcel& ensParcel : entryNamespaces) {
cppbor::Array entriesArray;
for (const EntryParcel& eParcel : ensParcel.entries) {
// TODO: ideally do do this without parsing the data (but still validate data is valid
// CBOR).
auto [itemForValue, _, _2] = cppbor::parse(eParcel.value);
if (itemForValue == nullptr) {
return -1;
}
cppbor::Map entryMap;
entryMap.add("name", eParcel.name);
entryMap.add("value", std::move(itemForValue));
cppbor::Array acpIdsArray;
for (int32_t id : eParcel.accessControlProfileIds) {
acpIdsArray.add(id);
}
entryMap.add("accessControlProfiles", std::move(acpIdsArray));
entriesArray.add(std::move(entryMap));
}
dataMap.add(ensParcel.namespaceName, std::move(entriesArray));
}
cppbor::Array array;
array.add("ProofOfProvisioning");
array.add(docType_);
array.add(std::move(acpArray));
array.add(std::move(dataMap));
array.add(false); // testCredential
return array.encode().size();
}
Status
WritableCredential::personalize(const vector<AccessControlProfileParcel>& accessControlProfiles,
const vector<EntryNamespaceParcel>& entryNamespaces,
int64_t secureUserId, vector<uint8_t>* _aidl_return) {
if (!isUpdate_) {
Status ensureStatus =
ensureAttestationCertificateExists({0x00}); // Challenge cannot be empty.
if (!ensureStatus.isOk()) {
return ensureStatus;
}
}
uid_t callingUid = android::IPCThreadState::self()->getCallingUid();
CredentialData data = CredentialData(dataPath_, callingUid, credentialName_);
// Note: The value 0 is used to convey that no user-authentication is needed for this
// credential. This is to allow creating credentials w/o user authentication on devices
// where Secure lock screen is not enabled.
data.setSecureUserId(secureUserId);
data.setAttestationCertificate(attestationCertificate_);
vector<int32_t> entryCounts;
for (const EntryNamespaceParcel& ensParcel : entryNamespaces) {
entryCounts.push_back(ensParcel.entries.size());
}
ssize_t expectedPoPSize =
calcExpectedProofOfProvisioningSize(accessControlProfiles, entryNamespaces);
if (expectedPoPSize < 0) {
return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
"Data is not valid CBOR");
}
// This is not catastrophic, we might be dealing with a version 1 implementation which
// doesn't have this method.
Status status = halBinder_->setExpectedProofOfProvisioningSize(expectedPoPSize);
if (!status.isOk()) {
LOG(INFO) << "Failed setting expected ProofOfProvisioning size, assuming V1 HAL "
<< "and continuing";
}
status = halBinder_->startPersonalization(accessControlProfiles.size(), entryCounts);
if (!status.isOk()) {
return halStatusToGenericError(status);
}
for (const AccessControlProfileParcel& acpParcel : accessControlProfiles) {
Certificate certificate;
certificate.encodedCertificate = acpParcel.readerCertificate;
SecureAccessControlProfile profile;
status = halBinder_->addAccessControlProfile(
acpParcel.id, certificate, acpParcel.userAuthenticationRequired,
acpParcel.userAuthenticationTimeoutMillis, secureUserId, &profile);
if (!status.isOk()) {
return halStatusToGenericError(status);
}
data.addSecureAccessControlProfile(profile);
}
for (const EntryNamespaceParcel& ensParcel : entryNamespaces) {
for (const EntryParcel& eParcel : ensParcel.entries) {
vector<vector<uint8_t>> chunks = chunkVector(eParcel.value, hwInfo_.dataChunkSize);
vector<int32_t> ids;
std::copy(eParcel.accessControlProfileIds.begin(),
eParcel.accessControlProfileIds.end(), std::back_inserter(ids));
status = halBinder_->beginAddEntry(ids, ensParcel.namespaceName, eParcel.name,
eParcel.value.size());
if (!status.isOk()) {
return halStatusToGenericError(status);
}
vector<vector<uint8_t>> encryptedChunks;
for (const auto& chunk : chunks) {
vector<uint8_t> encryptedChunk;
status = halBinder_->addEntryValue(chunk, &encryptedChunk);
if (!status.isOk()) {
return halStatusToGenericError(status);
}
encryptedChunks.push_back(encryptedChunk);
}
EntryData eData;
eData.size = eParcel.value.size();
eData.accessControlProfileIds = std::move(ids);
eData.encryptedChunks = std::move(encryptedChunks);
data.addEntryData(ensParcel.namespaceName, eParcel.name, eData);
}
}
vector<uint8_t> credentialData;
vector<uint8_t> proofOfProvisioningSignature;
status = halBinder_->finishAddingEntries(&credentialData, &proofOfProvisioningSignature);
if (!status.isOk()) {
return halStatusToGenericError(status);
}
data.setCredentialData(credentialData);
data.setAvailableAuthenticationKeys(keyCount_, maxUsesPerKey_, minValidTimeMillis_);
if (!data.saveToDisk()) {
return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
"Error saving credential data to disk");
}
if (credentialToReloadWhenUpdated_) {
credentialToReloadWhenUpdated_->writableCredentialPersonalized();
credentialToReloadWhenUpdated_.clear();
}
*_aidl_return = proofOfProvisioningSignature;
return Status::ok();
}
} // namespace identity
} // namespace security
} // namespace android