Merge "VTS tests: check size of byte strings"
diff --git a/audio/7.0/config/update_audio_policy_config.sh b/audio/7.0/config/update_audio_policy_config.sh
index 159fa35..c475dd1 100755
--- a/audio/7.0/config/update_audio_policy_config.sh
+++ b/audio/7.0/config/update_audio_policy_config.sh
@@ -41,7 +41,7 @@
set -euo pipefail
-if (echo "$@" | grep -qe -h); then
+if (echo "$@" | grep -qe "^-h"); then
echo "This script will update Audio Policy Manager config file"
echo "to the format required by V7.0 XSD schema from a previous"
echo "version."
diff --git a/bluetooth/audio/utils/session/BluetoothAudioSessionControl_2_1.h b/bluetooth/audio/utils/session/BluetoothAudioSessionControl_2_1.h
index 4d7be21..95f7408 100644
--- a/bluetooth/audio/utils/session/BluetoothAudioSessionControl_2_1.h
+++ b/bluetooth/audio/utils/session/BluetoothAudioSessionControl_2_1.h
@@ -35,7 +35,7 @@
std::shared_ptr<BluetoothAudioSession_2_1> session_ptr =
BluetoothAudioSessionInstance_2_1::GetSessionInstance(session_type);
if (session_ptr != nullptr) {
- return session_ptr->GetAudioSession()->IsSessionReady();
+ return session_ptr->IsSessionReady();
}
return false;
}
diff --git a/bluetooth/audio/utils/session/BluetoothAudioSession_2_1.cpp b/bluetooth/audio/utils/session/BluetoothAudioSession_2_1.cpp
index 3228a09..77f7c3b 100644
--- a/bluetooth/audio/utils/session/BluetoothAudioSession_2_1.cpp
+++ b/bluetooth/audio/utils/session/BluetoothAudioSession_2_1.cpp
@@ -60,6 +60,18 @@
}
}
+bool BluetoothAudioSession_2_1::IsSessionReady() {
+ LOG(WARNING) << __func__ << " session_type: " << toString(session_type_2_1_);
+
+ if (session_type_2_1_ !=
+ SessionType_2_1::LE_AUDIO_HARDWARE_OFFLOAD_ENCODING_DATAPATH) {
+ return audio_session->IsSessionReady();
+ }
+
+ std::lock_guard<std::recursive_mutex> guard(audio_session->mutex_);
+ return audio_session->stack_iface_ != nullptr;
+}
+
std::shared_ptr<BluetoothAudioSession>
BluetoothAudioSession_2_1::GetAudioSession() {
return audio_session;
@@ -70,7 +82,7 @@
const ::android::hardware::bluetooth::audio::V2_1::AudioConfiguration
BluetoothAudioSession_2_1::GetAudioConfig() {
std::lock_guard<std::recursive_mutex> guard(audio_session->mutex_);
- if (audio_session->IsSessionReady()) {
+ if (IsSessionReady()) {
// If session is unknown it means it should be 2.0 type
if (session_type_2_1_ != SessionType_2_1::UNKNOWN)
return audio_config_2_1_;
diff --git a/bluetooth/audio/utils/session/BluetoothAudioSession_2_1.h b/bluetooth/audio/utils/session/BluetoothAudioSession_2_1.h
index 5a35153..db82c73 100644
--- a/bluetooth/audio/utils/session/BluetoothAudioSession_2_1.h
+++ b/bluetooth/audio/utils/session/BluetoothAudioSession_2_1.h
@@ -50,6 +50,10 @@
const ::android::hardware::bluetooth::audio::V2_1::SessionType&
session_type);
+ // The function helps to check if this session is ready or not
+ // @return: true if the Bluetooth stack has started the specified session
+ bool IsSessionReady();
+
std::shared_ptr<BluetoothAudioSession> GetAudioSession();
// The report function is used to report that the Bluetooth stack has started
diff --git a/gatekeeper/1.0/vts/functional/VtsHalGatekeeperV1_0TargetTest.cpp b/gatekeeper/1.0/vts/functional/VtsHalGatekeeperV1_0TargetTest.cpp
index 7d32ced..618624e 100644
--- a/gatekeeper/1.0/vts/functional/VtsHalGatekeeperV1_0TargetTest.cpp
+++ b/gatekeeper/1.0/vts/functional/VtsHalGatekeeperV1_0TargetTest.cpp
@@ -236,6 +236,10 @@
generatePassword(password, 0);
enrollNewPassword(password, enrollRsp, true);
verifyPassword(password, enrollRsp.data, 1, verifyRsp, true);
+
+ ALOGI("Testing unenrolled password doesn't verify");
+ generatePassword(password, 1);
+ verifyPassword(password, enrollRsp.data, 1, verifyRsp, false);
ALOGI("Testing Enroll+Verify done");
}
diff --git a/keymaster/4.1/vts/functional/DeviceUniqueAttestationTest.cpp b/keymaster/4.1/vts/functional/DeviceUniqueAttestationTest.cpp
index 0639da8..3d97daf 100644
--- a/keymaster/4.1/vts/functional/DeviceUniqueAttestationTest.cpp
+++ b/keymaster/4.1/vts/functional/DeviceUniqueAttestationTest.cpp
@@ -16,6 +16,7 @@
#define LOG_TAG "keymaster_hidl_hal_test"
#include <cutils/log.h>
+#include <vector>
#include "Keymaster4_1HidlTest.h"
@@ -178,6 +179,33 @@
<< DIFFERENCE(expected_hw_enforced, attestation.hardware_enforced);
}
+X509_Ptr parse_cert_blob(const std::vector<uint8_t>& blob) {
+ const uint8_t* p = blob.data();
+ return X509_Ptr(d2i_X509(nullptr /* allocate new */, &p, blob.size()));
+}
+
+bool check_certificate_chain_signatures(const hidl_vec<hidl_vec<uint8_t>>& cert_chain) {
+ // TODO: Check that root is self-signed once b/187803288 is resolved.
+ for (size_t i = 0; i < cert_chain.size() - 1; ++i) {
+ X509_Ptr key_cert(parse_cert_blob(cert_chain[i]));
+ X509_Ptr signing_cert(parse_cert_blob(cert_chain[i + 1]));
+
+ if (!key_cert.get() || !signing_cert.get()) {
+ return false;
+ }
+
+ EVP_PKEY_Ptr signing_pubkey(X509_get_pubkey(signing_cert.get()));
+ if (!signing_pubkey.get()) {
+ return false;
+ }
+
+ if (!X509_verify(key_cert.get(), signing_pubkey.get())) {
+ return false;
+ }
+ }
+ return true;
+}
+
} // namespace
using std::string;
@@ -243,6 +271,7 @@
EXPECT_EQ(ErrorCode::OK, result);
EXPECT_EQ(2U, cert_chain.size());
+ EXPECT_TRUE(check_certificate_chain_signatures(cert_chain));
if (dumpAttestations) {
for (auto cert_ : cert_chain) dumpContent(bin2hex(cert_));
}
@@ -289,6 +318,7 @@
EXPECT_EQ(ErrorCode::OK, result);
EXPECT_EQ(2U, cert_chain.size());
+ EXPECT_TRUE(check_certificate_chain_signatures(cert_chain));
if (dumpAttestations) {
for (auto cert_ : cert_chain) dumpContent(bin2hex(cert_));
}
diff --git a/neuralnetworks/1.3/utils/src/Conversions.cpp b/neuralnetworks/1.3/utils/src/Conversions.cpp
index e8a4f55..11225cf 100644
--- a/neuralnetworks/1.3/utils/src/Conversions.cpp
+++ b/neuralnetworks/1.3/utils/src/Conversions.cpp
@@ -239,7 +239,7 @@
using Discriminator = hal::V1_3::Request::MemoryPool::hidl_discriminator;
switch (memoryPool.getDiscriminator()) {
case Discriminator::hidlMemory:
- return hal::utils::createSharedMemoryFromHidlMemory(memoryPool.hidlMemory());
+ return unvalidatedConvert(memoryPool.hidlMemory());
case Discriminator::token:
return static_cast<Request::MemoryDomainToken>(memoryPool.token());
}
diff --git a/neuralnetworks/aidl/utils/include/nnapi/hal/aidl/Conversions.h b/neuralnetworks/aidl/utils/include/nnapi/hal/aidl/Conversions.h
index 5eab9ff..78433a7 100644
--- a/neuralnetworks/aidl/utils/include/nnapi/hal/aidl/Conversions.h
+++ b/neuralnetworks/aidl/utils/include/nnapi/hal/aidl/Conversions.h
@@ -95,9 +95,7 @@
GeneralResult<Extension> unvalidatedConvert(const aidl_hal::Extension& extension);
GeneralResult<Extension::OperandTypeInformation> unvalidatedConvert(
const aidl_hal::ExtensionOperandTypeInformation& operandTypeInformation);
-GeneralResult<SharedHandle> unvalidatedConvert(
- const ::aidl::android::hardware::common::NativeHandle& handle);
-GeneralResult<SyncFence> unvalidatedConvert(const ndk::ScopedFileDescriptor& syncFence);
+GeneralResult<SharedHandle> unvalidatedConvert(const ndk::ScopedFileDescriptor& handle);
GeneralResult<std::vector<Operation>> unvalidatedConvert(
const std::vector<aidl_hal::Operation>& operations);
@@ -113,7 +111,7 @@
GeneralResult<Priority> convert(const aidl_hal::Priority& priority);
GeneralResult<Request> convert(const aidl_hal::Request& request);
GeneralResult<Timing> convert(const aidl_hal::Timing& timing);
-GeneralResult<SyncFence> convert(const ndk::ScopedFileDescriptor& syncFence);
+GeneralResult<SharedHandle> convert(const ndk::ScopedFileDescriptor& handle);
GeneralResult<std::vector<Extension>> convert(const std::vector<aidl_hal::Extension>& extension);
GeneralResult<std::vector<SharedMemory>> convert(const std::vector<aidl_hal::Memory>& memories);
@@ -160,9 +158,7 @@
nn::GeneralResult<int64_t> unvalidatedConvert(const nn::OptionalDuration& optionalDuration);
nn::GeneralResult<int64_t> unvalidatedConvert(const nn::OptionalTimePoint& optionalTimePoint);
nn::GeneralResult<ndk::ScopedFileDescriptor> unvalidatedConvert(const nn::SyncFence& syncFence);
-nn::GeneralResult<common::NativeHandle> unvalidatedConvert(const nn::SharedHandle& sharedHandle);
-nn::GeneralResult<ndk::ScopedFileDescriptor> unvalidatedConvertCache(
- const nn::SharedHandle& handle);
+nn::GeneralResult<ndk::ScopedFileDescriptor> unvalidatedConvert(const nn::SharedHandle& handle);
nn::GeneralResult<std::vector<uint8_t>> convert(const nn::CacheToken& cacheToken);
nn::GeneralResult<BufferDesc> convert(const nn::BufferDesc& bufferDesc);
diff --git a/neuralnetworks/aidl/utils/src/Conversions.cpp b/neuralnetworks/aidl/utils/src/Conversions.cpp
index 4b263ee..0517730 100644
--- a/neuralnetworks/aidl/utils/src/Conversions.cpp
+++ b/neuralnetworks/aidl/utils/src/Conversions.cpp
@@ -108,17 +108,6 @@
return canonical;
}
-GeneralResult<Handle> unvalidatedConvertHelper(const NativeHandle& aidlNativeHandle) {
- std::vector<base::unique_fd> fds;
- fds.reserve(aidlNativeHandle.fds.size());
- for (const auto& fd : aidlNativeHandle.fds) {
- auto duplicatedFd = NN_TRY(dupFd(fd.get()));
- fds.emplace_back(duplicatedFd.release());
- }
-
- return Handle{.fds = std::move(fds), .ints = aidlNativeHandle.ints};
-}
-
struct NativeHandleDeleter {
void operator()(native_handle_t* handle) const {
if (handle) {
@@ -498,18 +487,14 @@
return static_cast<ExecutionPreference>(executionPreference);
}
-GeneralResult<SharedHandle> unvalidatedConvert(const NativeHandle& aidlNativeHandle) {
- return std::make_shared<const Handle>(NN_TRY(unvalidatedConvertHelper(aidlNativeHandle)));
-}
-
GeneralResult<std::vector<Operation>> unvalidatedConvert(
const std::vector<aidl_hal::Operation>& operations) {
return unvalidatedConvertVec(operations);
}
-GeneralResult<SyncFence> unvalidatedConvert(const ndk::ScopedFileDescriptor& syncFence) {
- auto duplicatedFd = NN_TRY(dupFd(syncFence.get()));
- return SyncFence::create(std::move(duplicatedFd));
+GeneralResult<SharedHandle> unvalidatedConvert(const ndk::ScopedFileDescriptor& handle) {
+ auto duplicatedFd = NN_TRY(dupFd(handle.get()));
+ return std::make_shared<const Handle>(std::move(duplicatedFd));
}
GeneralResult<Capabilities> convert(const aidl_hal::Capabilities& capabilities) {
@@ -553,8 +538,8 @@
return validatedConvert(timing);
}
-GeneralResult<SyncFence> convert(const ndk::ScopedFileDescriptor& syncFence) {
- return validatedConvert(syncFence);
+GeneralResult<SharedHandle> convert(const ndk::ScopedFileDescriptor& handle) {
+ return validatedConvert(handle);
}
GeneralResult<std::vector<Extension>> convert(const std::vector<aidl_hal::Extension>& extension) {
@@ -619,17 +604,6 @@
return halObject;
}
-nn::GeneralResult<common::NativeHandle> unvalidatedConvert(const nn::Handle& handle) {
- common::NativeHandle aidlNativeHandle;
- aidlNativeHandle.fds.reserve(handle.fds.size());
- for (const auto& fd : handle.fds) {
- auto duplicatedFd = NN_TRY(nn::dupFd(fd.get()));
- aidlNativeHandle.fds.emplace_back(duplicatedFd.release());
- }
- aidlNativeHandle.ints = handle.ints;
- return aidlNativeHandle;
-}
-
// Helper template for std::visit
template <class... Ts>
struct overloaded : Ts... {
@@ -755,11 +729,6 @@
return measureTiming == nn::MeasureTiming::YES;
}
-nn::GeneralResult<common::NativeHandle> unvalidatedConvert(const nn::SharedHandle& sharedHandle) {
- CHECK(sharedHandle != nullptr);
- return unvalidatedConvert(*sharedHandle);
-}
-
nn::GeneralResult<Memory> unvalidatedConvert(const nn::SharedMemory& memory) {
if (memory == nullptr) {
return (NN_ERROR() << "Unable to convert nullptr memory")
@@ -997,16 +966,8 @@
return ndk::ScopedFileDescriptor(duplicatedFd.release());
}
-nn::GeneralResult<ndk::ScopedFileDescriptor> unvalidatedConvertCache(
- const nn::SharedHandle& handle) {
- if (handle->ints.size() != 0) {
- NN_ERROR() << "Cache handle must not contain ints";
- }
- if (handle->fds.size() != 1) {
- NN_ERROR() << "Cache handle must contain exactly one fd but contains "
- << handle->fds.size();
- }
- auto duplicatedFd = NN_TRY(nn::dupFd(handle->fds.front().get()));
+nn::GeneralResult<ndk::ScopedFileDescriptor> unvalidatedConvert(const nn::SharedHandle& handle) {
+ auto duplicatedFd = NN_TRY(nn::dupFd(handle->get()));
return ndk::ScopedFileDescriptor(duplicatedFd.release());
}
@@ -1069,16 +1030,7 @@
nn::GeneralResult<std::vector<ndk::ScopedFileDescriptor>> convert(
const std::vector<nn::SharedHandle>& cacheHandles) {
- const auto version = NN_TRY(hal::utils::makeGeneralFailure(nn::validate(cacheHandles)));
- if (version > kVersion) {
- return NN_ERROR() << "Insufficient version: " << version << " vs required " << kVersion;
- }
- std::vector<ndk::ScopedFileDescriptor> cacheFds;
- cacheFds.reserve(cacheHandles.size());
- for (const auto& cacheHandle : cacheHandles) {
- cacheFds.push_back(NN_TRY(unvalidatedConvertCache(cacheHandle)));
- }
- return cacheFds;
+ return validatedConvert(cacheHandles);
}
nn::GeneralResult<std::vector<ndk::ScopedFileDescriptor>> convert(
diff --git a/neuralnetworks/aidl/utils/src/PreparedModel.cpp b/neuralnetworks/aidl/utils/src/PreparedModel.cpp
index 18e7636..f861d74 100644
--- a/neuralnetworks/aidl/utils/src/PreparedModel.cpp
+++ b/neuralnetworks/aidl/utils/src/PreparedModel.cpp
@@ -160,7 +160,7 @@
auto resultSyncFence = nn::SyncFence::createAsSignaled();
if (result.syncFence.get() != -1) {
- resultSyncFence = NN_TRY(nn::convert(result.syncFence));
+ resultSyncFence = nn::SyncFence::create(NN_TRY(nn::convert(result.syncFence))).value();
}
auto callback = result.callback;
diff --git a/neuralnetworks/utils/common/src/CommonUtils.cpp b/neuralnetworks/utils/common/src/CommonUtils.cpp
index 8e55bf0..906b0cf 100644
--- a/neuralnetworks/utils/common/src/CommonUtils.cpp
+++ b/neuralnetworks/utils/common/src/CommonUtils.cpp
@@ -89,23 +89,39 @@
});
}
-nn::GeneralResult<hidl_handle> createNativeHandleFrom(base::unique_fd fd,
+nn::GeneralResult<hidl_handle> createNativeHandleFrom(std::vector<base::unique_fd> fds,
const std::vector<int32_t>& ints) {
constexpr size_t kIntMax = std::numeric_limits<int>::max();
+ CHECK_LE(fds.size(), kIntMax);
CHECK_LE(ints.size(), kIntMax);
- native_handle_t* nativeHandle = native_handle_create(1, static_cast<int>(ints.size()));
+ native_handle_t* nativeHandle =
+ native_handle_create(static_cast<int>(fds.size()), static_cast<int>(ints.size()));
if (nativeHandle == nullptr) {
return NN_ERROR() << "Failed to create native_handle";
}
- nativeHandle->data[0] = fd.release();
- std::copy(ints.begin(), ints.end(), nativeHandle->data + 1);
+ for (size_t i = 0; i < fds.size(); ++i) {
+ nativeHandle->data[i] = fds[i].release();
+ }
+ std::copy(ints.begin(), ints.end(), nativeHandle->data + nativeHandle->numFds);
hidl_handle handle;
handle.setTo(nativeHandle, /*shouldOwn=*/true);
return handle;
}
+nn::GeneralResult<hidl_handle> createNativeHandleFrom(base::unique_fd fd,
+ const std::vector<int32_t>& ints) {
+ std::vector<base::unique_fd> fds;
+ fds.push_back(std::move(fd));
+ return createNativeHandleFrom(std::move(fds), ints);
+}
+
+nn::GeneralResult<hidl_handle> createNativeHandleFrom(const nn::Memory::Unknown::Handle& handle) {
+ std::vector<base::unique_fd> fds = NN_TRY(nn::dupFds(handle.fds.begin(), handle.fds.end()));
+ return createNativeHandleFrom(std::move(fds), handle.ints);
+}
+
nn::GeneralResult<hidl_memory> createHidlMemoryFrom(const nn::Memory::Ashmem& memory) {
auto fd = NN_TRY(nn::dupFd(memory.fd));
auto handle = NN_TRY(createNativeHandleFrom(std::move(fd), {}));
@@ -139,7 +155,22 @@
}
nn::GeneralResult<hidl_memory> createHidlMemoryFrom(const nn::Memory::Unknown& memory) {
- return hidl_memory(memory.name, NN_TRY(hidlHandleFromSharedHandle(memory.handle)), memory.size);
+ return hidl_memory(memory.name, NN_TRY(createNativeHandleFrom(memory.handle)), memory.size);
+}
+
+nn::GeneralResult<nn::Memory::Unknown::Handle> unknownHandleFromNativeHandle(
+ const native_handle_t* handle) {
+ if (handle == nullptr) {
+ return NN_ERROR() << "unknownHandleFromNativeHandle failed because handle is nullptr";
+ }
+
+ std::vector<base::unique_fd> fds =
+ NN_TRY(nn::dupFds(handle->data + 0, handle->data + handle->numFds));
+
+ std::vector<int> ints(handle->data + handle->numFds,
+ handle->data + handle->numFds + handle->numInts);
+
+ return nn::Memory::Unknown::Handle{.fds = std::move(fds), .ints = std::move(ints)};
}
} // anonymous namespace
@@ -349,7 +380,7 @@
if (memory.name() != "hardware_buffer_blob") {
auto handle = nn::Memory::Unknown{
- .handle = NN_TRY(sharedHandleFromNativeHandle(memory.handle())),
+ .handle = NN_TRY(unknownHandleFromNativeHandle(memory.handle())),
.size = static_cast<size_t>(memory.size()),
.name = memory.name(),
};
@@ -395,53 +426,19 @@
}
nn::GeneralResult<hidl_handle> hidlHandleFromSharedHandle(const nn::Handle& handle) {
- std::vector<base::unique_fd> fds;
- fds.reserve(handle.fds.size());
- for (const auto& fd : handle.fds) {
- const int dupFd = dup(fd);
- if (dupFd == -1) {
- return NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE) << "Failed to dup the fd";
- }
- fds.emplace_back(dupFd);
- }
-
- constexpr size_t kIntMax = std::numeric_limits<int>::max();
- CHECK_LE(handle.fds.size(), kIntMax);
- CHECK_LE(handle.ints.size(), kIntMax);
- native_handle_t* nativeHandle = native_handle_create(static_cast<int>(handle.fds.size()),
- static_cast<int>(handle.ints.size()));
- if (nativeHandle == nullptr) {
- return NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE) << "Failed to create native_handle";
- }
- for (size_t i = 0; i < fds.size(); ++i) {
- nativeHandle->data[i] = fds[i].release();
- }
- std::copy(handle.ints.begin(), handle.ints.end(), &nativeHandle->data[nativeHandle->numFds]);
-
- hidl_handle hidlHandle;
- hidlHandle.setTo(nativeHandle, /*shouldOwn=*/true);
- return hidlHandle;
+ base::unique_fd fd = NN_TRY(nn::dupFd(handle.get()));
+ return createNativeHandleFrom(std::move(fd), {});
}
nn::GeneralResult<nn::Handle> sharedHandleFromNativeHandle(const native_handle_t* handle) {
if (handle == nullptr) {
return NN_ERROR() << "sharedHandleFromNativeHandle failed because handle is nullptr";
}
-
- std::vector<base::unique_fd> fds;
- fds.reserve(handle->numFds);
- for (int i = 0; i < handle->numFds; ++i) {
- const int dupFd = dup(handle->data[i]);
- if (dupFd == -1) {
- return NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE) << "Failed to dup the fd";
- }
- fds.emplace_back(dupFd);
+ if (handle->numFds != 1 || handle->numInts != 0) {
+ return NN_ERROR() << "sharedHandleFromNativeHandle failed because handle does not only "
+ "hold a single fd";
}
-
- std::vector<int> ints(&handle->data[handle->numFds],
- &handle->data[handle->numFds + handle->numInts]);
-
- return nn::Handle{.fds = std::move(fds), .ints = std::move(ints)};
+ return nn::dupFd(handle->data[0]);
}
nn::GeneralResult<hidl_vec<hidl_handle>> convertSyncFences(
diff --git a/radio/1.6/vts/functional/radio_hidl_hal_api.cpp b/radio/1.6/vts/functional/radio_hidl_hal_api.cpp
index 34395ca..00991bc 100644
--- a/radio/1.6/vts/functional/radio_hidl_hal_api.cpp
+++ b/radio/1.6/vts/functional/radio_hidl_hal_api.cpp
@@ -19,6 +19,39 @@
#define ASSERT_OK(ret) ASSERT_TRUE(ret.isOk())
/*
+ * Test IRadio.setAllowedNetworkTypesBitmap for the response returned.
+ */
+TEST_P(RadioHidlTest_v1_6, setAllowedNetworkTypesBitmap) {
+ serial = GetRandomSerialNumber();
+ ::android::hardware::hidl_bitfield<::android::hardware::radio::V1_4::RadioAccessFamily>
+ allowedNetworkTypesBitmap{};
+ allowedNetworkTypesBitmap |= ::android::hardware::radio::V1_4::RadioAccessFamily::LTE;
+
+ radio_v1_6->setAllowedNetworkTypesBitmap(serial, allowedNetworkTypesBitmap);
+
+ EXPECT_EQ(std::cv_status::no_timeout, wait());
+ EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_v1_6->rspInfo.type);
+ EXPECT_EQ(serial, radioRsp_v1_6->rspInfo.serial);
+
+ if (getRadioHalCapabilities()) {
+ ASSERT_TRUE(CheckAnyOfErrors(
+ radioRsp_v1_6->rspInfo.error,
+ {::android::hardware::radio::V1_6::RadioError::REQUEST_NOT_SUPPORTED}));
+ } else {
+ ASSERT_TRUE(CheckAnyOfErrors(
+ radioRsp_v1_6->rspInfo.error,
+ {::android::hardware::radio::V1_6::RadioError::NONE,
+ ::android::hardware::radio::V1_6::RadioError::RADIO_NOT_AVAILABLE,
+ ::android::hardware::radio::V1_6::RadioError::OPERATION_NOT_ALLOWED,
+ ::android::hardware::radio::V1_6::RadioError::MODE_NOT_SUPPORTED,
+ ::android::hardware::radio::V1_6::RadioError::INTERNAL_ERR,
+ ::android::hardware::radio::V1_6::RadioError::INVALID_ARGUMENTS,
+ ::android::hardware::radio::V1_6::RadioError::MODEM_ERR,
+ ::android::hardware::radio::V1_6::RadioError::NO_RESOURCES}));
+ }
+}
+
+/*
* Test IRadio.setupDataCall_1_6() for the response returned.
*/
TEST_P(RadioHidlTest_v1_6, setupDataCall_1_6) {
diff --git a/security/keymint/aidl/android/hardware/security/keymint/Tag.aidl b/security/keymint/aidl/android/hardware/security/keymint/Tag.aidl
index 58e02b3..861084e 100644
--- a/security/keymint/aidl/android/hardware/security/keymint/Tag.aidl
+++ b/security/keymint/aidl/android/hardware/security/keymint/Tag.aidl
@@ -18,10 +18,6 @@
import android.hardware.security.keymint.TagType;
-// TODO(seleneh) : note aidl currently does not support double nested enum definitions such as
-// ROOT_OF_TRUST = TagType:BYTES | 704. So we are forced to write definitions as
-// ROOT_OF_TRUST = (9 << 28) for now. Will need to flip this back later when aidl support is added.
-
/**
* Tag specifies various kinds of tags that can be set in KeyParameter to identify what kind of
* data are stored in KeyParameter.
@@ -33,7 +29,7 @@
/**
* Tag::INVALID should never be set. It means you hit an error.
*/
- INVALID = (0 << 28) | 0,
+ INVALID = 0,
/**
* Tag::PURPOSE specifies the set of purposes for which the key may be used. Possible values
@@ -47,7 +43,7 @@
*
* Must be hardware-enforced.
*/
- PURPOSE = (2 << 28) /* TagType:ENUM_REP */ | 1,
+ PURPOSE = TagType.ENUM_REP | 1,
/**
* Tag::ALGORITHM specifies the cryptographic algorithm with which the key is used. This tag
@@ -56,7 +52,7 @@
*
* Must be hardware-enforced.
*/
- ALGORITHM = (1 << 28) /* TagType:ENUM */ | 2,
+ ALGORITHM = TagType.ENUM | 2,
/**
* Tag::KEY_SIZE specifies the size, in bits, of the key, measuring in the normal way for the
@@ -68,7 +64,7 @@
*
* Must be hardware-enforced.
*/
- KEY_SIZE = (3 << 28) /* TagType:UINT */ | 3,
+ KEY_SIZE = TagType.UINT | 3,
/**
* Tag::BLOCK_MODE specifies the block cipher mode(s) with which the key may be used. This tag
@@ -81,7 +77,7 @@
*
* Must be hardware-enforced.
*/
- BLOCK_MODE = (2 << 28) /* TagType:ENUM_REP */ | 4,
+ BLOCK_MODE = TagType.ENUM_REP | 4,
/**
* Tag::DIGEST specifies the digest algorithms that may be used with the key to perform signing
@@ -95,7 +91,7 @@
*
* Must be hardware-enforced.
*/
- DIGEST = (2 << 28) /* TagType:ENUM_REP */ | 5,
+ DIGEST = TagType.ENUM_REP | 5,
/**
* Tag::PADDING specifies the padding modes that may be used with the key. This tag is relevant
@@ -123,7 +119,7 @@
*
* Must be hardware-enforced.
*/
- PADDING = (2 << 28) /* TagType:ENUM_REP */ | 6,
+ PADDING = TagType.ENUM_REP | 6,
/**
* Tag::CALLER_NONCE specifies that the caller can provide a nonce for nonce-requiring
@@ -136,7 +132,7 @@
*
* Must be hardware-enforced.
*/
- CALLER_NONCE = (7 << 28) /* TagType:BOOL */ | 7,
+ CALLER_NONCE = TagType.BOOL | 7,
/**
* Tag::MIN_MAC_LENGTH specifies the minimum length of MAC that can be requested or verified
@@ -149,7 +145,7 @@
*
* Must be hardware-enforced.
*/
- MIN_MAC_LENGTH = (3 << 28) /* TagType:UINT */ | 8,
+ MIN_MAC_LENGTH = TagType.UINT | 8,
// Tag 9 reserved
@@ -159,7 +155,7 @@
*
* Must be hardware-enforced.
*/
- EC_CURVE = (1 << 28) /* TagType:ENUM */ | 10,
+ EC_CURVE = TagType.ENUM | 10,
/**
* Tag::RSA_PUBLIC_EXPONENT specifies the value of the public exponent for an RSA key pair.
@@ -173,7 +169,7 @@
*
* Must be hardware-enforced.
*/
- RSA_PUBLIC_EXPONENT = (5 << 28) /* TagType:ULONG */ | 200,
+ RSA_PUBLIC_EXPONENT = TagType.ULONG | 200,
// Tag 201 reserved
@@ -184,7 +180,7 @@
*
* Must be hardware-enforced.
*/
- INCLUDE_UNIQUE_ID = (7 << 28) /* TagType:BOOL */ | 202,
+ INCLUDE_UNIQUE_ID = TagType.BOOL | 202,
/**
* Tag::RSA_OAEP_MGF_DIGEST specifies the MGF1 digest algorithms that may be used with RSA
@@ -197,7 +193,7 @@
*
* Must be hardware-enforced.
*/
- RSA_OAEP_MGF_DIGEST = (2 << 28) /* TagType:ENUM_REP */ | 203,
+ RSA_OAEP_MGF_DIGEST = TagType.ENUM_REP | 203,
// Tag 301 reserved
@@ -209,7 +205,7 @@
*
* Must be hardware-enforced.
*/
- BOOTLOADER_ONLY = (7 << 28) /* TagType:BOOL */ | 302,
+ BOOTLOADER_ONLY = TagType.BOOL | 302,
/**
* Tag::ROLLBACK_RESISTANCE specifies that the key has rollback resistance, meaning that when
@@ -224,10 +220,10 @@
*
* Must be hardware-enforced.
*/
- ROLLBACK_RESISTANCE = (7 << 28) /* TagType:BOOL */ | 303,
+ ROLLBACK_RESISTANCE = TagType.BOOL | 303,
// Reserved for future use.
- HARDWARE_TYPE = (1 << 28) /* TagType:ENUM */ | 304,
+ HARDWARE_TYPE = TagType.ENUM | 304,
/**
* Keys tagged with EARLY_BOOT_ONLY may only be used during early boot, until
@@ -236,7 +232,7 @@
* provided to IKeyMintDevice::importKey, the import must fail with
* ErrorCode::EARLY_BOOT_ENDED.
*/
- EARLY_BOOT_ONLY = (7 << 28) /* TagType:BOOL */ | 305,
+ EARLY_BOOT_ONLY = TagType.BOOL | 305,
/**
* Tag::ACTIVE_DATETIME specifies the date and time at which the key becomes active, in
@@ -245,7 +241,7 @@
*
* Need not be hardware-enforced.
*/
- ACTIVE_DATETIME = (6 << 28) /* TagType:DATE */ | 400,
+ ACTIVE_DATETIME = TagType.DATE | 400,
/**
* Tag::ORIGINATION_EXPIRE_DATETIME specifies the date and time at which the key expires for
@@ -257,7 +253,7 @@
*
* Need not be hardware-enforced.
*/
- ORIGINATION_EXPIRE_DATETIME = (6 << 28) /* TagType:DATE */ | 401,
+ ORIGINATION_EXPIRE_DATETIME = TagType.DATE | 401,
/**
* Tag::USAGE_EXPIRE_DATETIME specifies the date and time at which the key expires for
@@ -269,7 +265,7 @@
*
* Need not be hardware-enforced.
*/
- USAGE_EXPIRE_DATETIME = (6 << 28) /* TagType:DATE */ | 402,
+ USAGE_EXPIRE_DATETIME = TagType.DATE | 402,
/**
* TODO(seleneh) this tag need to be deleted.
@@ -294,7 +290,7 @@
*
* Must be hardware-enforced.
*/
- MIN_SECONDS_BETWEEN_OPS = (3 << 28) /* TagType:UINT */ | 403,
+ MIN_SECONDS_BETWEEN_OPS = TagType.UINT | 403,
/**
* Tag::MAX_USES_PER_BOOT specifies the maximum number of times that a key may be used between
@@ -314,7 +310,7 @@
*
* Must be hardware-enforced.
*/
- MAX_USES_PER_BOOT = (3 << 28) /* TagType:UINT */ | 404,
+ MAX_USES_PER_BOOT = TagType.UINT | 404,
/**
* Tag::USAGE_COUNT_LIMIT specifies the number of times that a key may be used. This can be
@@ -343,14 +339,14 @@
* record. This tag must have the same SecurityLevel as the tag that is added to the key
* characteristics.
*/
- USAGE_COUNT_LIMIT = (3 << 28) | 405, /* TagType:UINT */
+ USAGE_COUNT_LIMIT = TagType.UINT | 405,
/**
* Tag::USER_ID specifies the ID of the Android user that is permitted to use the key.
*
* Must not be hardware-enforced.
*/
- USER_ID = (3 << 28) /* TagType:UINT */ | 501,
+ USER_ID = TagType.UINT | 501,
/**
* Tag::USER_SECURE_ID specifies that a key may only be used under a particular secure user
@@ -383,7 +379,7 @@
*
* Must be hardware-enforced.
*/
- USER_SECURE_ID = (10 << 28) /* TagType:ULONG_REP */ | 502,
+ USER_SECURE_ID = TagType.ULONG_REP | 502,
/**
* Tag::NO_AUTH_REQUIRED specifies that no authentication is required to use this key. This tag
@@ -391,7 +387,7 @@
*
* Must be hardware-enforced.
*/
- NO_AUTH_REQUIRED = (7 << 28) /* TagType:BOOL */ | 503,
+ NO_AUTH_REQUIRED = TagType.BOOL | 503,
/**
* Tag::USER_AUTH_TYPE specifies the types of user authenticators that may be used to authorize
@@ -410,7 +406,7 @@
*
* Must be hardware-enforced.
*/
- USER_AUTH_TYPE = (1 << 28) /* TagType:ENUM */ | 504,
+ USER_AUTH_TYPE = TagType.ENUM | 504,
/**
* Tag::AUTH_TIMEOUT specifies the time in seconds for which the key is authorized for use,
@@ -424,7 +420,7 @@
*
* Must be hardware-enforced.
*/
- AUTH_TIMEOUT = (3 << 28) /* TagType:UINT */ | 505,
+ AUTH_TIMEOUT = TagType.UINT | 505,
/**
* Tag::ALLOW_WHILE_ON_BODY specifies that the key may be used after authentication timeout if
@@ -432,7 +428,7 @@
*
* Cannot be hardware-enforced.
*/
- ALLOW_WHILE_ON_BODY = (7 << 28) /* TagType:BOOL */ | 506,
+ ALLOW_WHILE_ON_BODY = TagType.BOOL | 506,
/**
* TRUSTED_USER_PRESENCE_REQUIRED is an optional feature that specifies that this key must be
@@ -479,7 +475,7 @@
*
* Must be hardware-enforced.
*/
- TRUSTED_USER_PRESENCE_REQUIRED = (7 << 28) /* TagType:BOOL */ | 507,
+ TRUSTED_USER_PRESENCE_REQUIRED = TagType.BOOL | 507,
/**
* Tag::TRUSTED_CONFIRMATION_REQUIRED is only applicable to keys with KeyPurpose SIGN, and
@@ -493,7 +489,7 @@
*
* Must be hardware-enforced.
*/
- TRUSTED_CONFIRMATION_REQUIRED = (7 << 28) /* TagType:BOOL */ | 508,
+ TRUSTED_CONFIRMATION_REQUIRED = TagType.BOOL | 508,
/**
* Tag::UNLOCKED_DEVICE_REQUIRED specifies that the key may only be used when the device is
@@ -501,7 +497,7 @@
*
* Must be software-enforced.
*/
- UNLOCKED_DEVICE_REQUIRED = (7 << 28) /* TagType:BOOL */ | 509,
+ UNLOCKED_DEVICE_REQUIRED = TagType.BOOL | 509,
/**
* Tag::APPLICATION_ID. When provided to generateKey or importKey, this tag specifies data
@@ -517,7 +513,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- APPLICATION_ID = (9 << 28) /* TagType:BYTES */ | 601,
+ APPLICATION_ID = TagType.BYTES | 601,
/*
* Semantically unenforceable tags, either because they have no specific meaning or because
@@ -538,7 +534,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- APPLICATION_DATA = (9 << 28) /* TagType:BYTES */ | 700,
+ APPLICATION_DATA = TagType.BYTES | 700,
/**
* Tag::CREATION_DATETIME specifies the date and time the key was created, in milliseconds since
@@ -546,7 +542,7 @@
*
* Must be in the software-enforced list, if provided.
*/
- CREATION_DATETIME = (6 << 28) /* TagType:DATE */ | 701,
+ CREATION_DATETIME = TagType.DATE | 701,
/**
* Tag::ORIGIN specifies where the key was created, if known. This tag must not be specified
@@ -555,7 +551,7 @@
*
* Must be hardware-enforced.
*/
- ORIGIN = (1 << 28) /* TagType:ENUM */ | 702,
+ ORIGIN = TagType.ENUM | 702,
// 703 is unused.
@@ -567,7 +563,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- ROOT_OF_TRUST = (9 << 28) /* TagType:BYTES */ | 704,
+ ROOT_OF_TRUST = TagType.BYTES | 704,
/**
* Tag::OS_VERSION specifies the system OS version with which the key may be used. This tag is
@@ -590,7 +586,7 @@
*
* Must be hardware-enforced.
*/
- OS_VERSION = (3 << 28) /* TagType:UINT */ | 705,
+ OS_VERSION = TagType.UINT | 705,
/**
* Tag::OS_PATCHLEVEL specifies the system security patch level with which the key may be used.
@@ -611,7 +607,7 @@
*
* Must be hardware-enforced.
*/
- OS_PATCHLEVEL = (3 << 28) /* TagType:UINT */ | 706,
+ OS_PATCHLEVEL = TagType.UINT | 706,
/**
* Tag::UNIQUE_ID specifies a unique, time-based identifier. This tag is never provided to or
@@ -646,7 +642,7 @@
*
* Must be hardware-enforced.
*/
- UNIQUE_ID = (9 << 28) /* TagType:BYTES */ | 707,
+ UNIQUE_ID = TagType.BYTES | 707,
/**
* Tag::ATTESTATION_CHALLENGE is used to deliver a "challenge" value to the attested key
@@ -655,7 +651,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- ATTESTATION_CHALLENGE = (9 << 28) /* TagType:BYTES */ | 708,
+ ATTESTATION_CHALLENGE = TagType.BYTES | 708,
/**
* Tag::ATTESTATION_APPLICATION_ID identifies the set of applications which may use a key, used
@@ -681,7 +677,7 @@
*
* Cannot be hardware-enforced.
*/
- ATTESTATION_APPLICATION_ID = (9 << 28) /* TagType:BYTES */ | 709,
+ ATTESTATION_APPLICATION_ID = TagType.BYTES | 709,
/**
* Tag::ATTESTATION_ID_BRAND provides the device's brand name, as returned by Build.BRAND in
@@ -694,7 +690,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- ATTESTATION_ID_BRAND = (9 << 28) /* TagType:BYTES */ | 710,
+ ATTESTATION_ID_BRAND = TagType.BYTES | 710,
/**
* Tag::ATTESTATION_ID_DEVICE provides the device's device name, as returned by Build.DEVICE in
@@ -707,7 +703,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- ATTESTATION_ID_DEVICE = (9 << 28) /* TagType:BYTES */ | 711,
+ ATTESTATION_ID_DEVICE = TagType.BYTES | 711,
/**
* Tag::ATTESTATION_ID_PRODUCT provides the device's product name, as returned by Build.PRODUCT
@@ -720,7 +716,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- ATTESTATION_ID_PRODUCT = (9 << 28) /* TagType:BYTES */ | 712,
+ ATTESTATION_ID_PRODUCT = TagType.BYTES | 712,
/**
* Tag::ATTESTATION_ID_SERIAL the device's serial number. This field must be set only when
@@ -732,7 +728,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- ATTESTATION_ID_SERIAL = (9 << 28) /* TagType:BYTES */ | 713,
+ ATTESTATION_ID_SERIAL = TagType.BYTES | 713,
/**
* Tag::ATTESTATION_ID_IMEI provides the IMEIs for all radios on the device to attested key
@@ -745,7 +741,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- ATTESTATION_ID_IMEI = (9 << 28) /* TagType:BYTES */ | 714,
+ ATTESTATION_ID_IMEI = TagType.BYTES | 714,
/**
* Tag::ATTESTATION_ID_MEID provides the MEIDs for all radios on the device to attested key
@@ -758,7 +754,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- ATTESTATION_ID_MEID = (9 << 28) /* TagType:BYTES */ | 715,
+ ATTESTATION_ID_MEID = TagType.BYTES | 715,
/**
* Tag::ATTESTATION_ID_MANUFACTURER provides the device's manufacturer name, as returned by
@@ -771,7 +767,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- ATTESTATION_ID_MANUFACTURER = (9 << 28) /* TagType:BYTES */ | 716,
+ ATTESTATION_ID_MANUFACTURER = TagType.BYTES | 716,
/**
* Tag::ATTESTATION_ID_MODEL provides the device's model name, as returned by Build.MODEL in
@@ -784,7 +780,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- ATTESTATION_ID_MODEL = (9 << 28) /* TagType:BYTES */ | 717,
+ ATTESTATION_ID_MODEL = TagType.BYTES | 717,
/**
* Tag::VENDOR_PATCHLEVEL specifies the vendor image security patch level with which the key may
@@ -806,7 +802,7 @@
*
* Must be hardware-enforced.
*/
- VENDOR_PATCHLEVEL = (3 << 28) /* TagType:UINT */ | 718,
+ VENDOR_PATCHLEVEL = TagType.UINT | 718,
/**
* Tag::BOOT_PATCHLEVEL specifies the boot image (kernel) security patch level with which the
@@ -826,7 +822,7 @@
*
* Must be hardware-enforced.
*/
- BOOT_PATCHLEVEL = (3 << 28) /* TagType:UINT */ | 719,
+ BOOT_PATCHLEVEL = TagType.UINT | 719,
/**
* DEVICE_UNIQUE_ATTESTATION is an argument to IKeyMintDevice::attested key generation/import
@@ -852,7 +848,7 @@
* IKeyMintDevice implementations that support device-unique attestation MUST add the
* DEVICE_UNIQUE_ATTESTATION tag to device-unique attestations.
*/
- DEVICE_UNIQUE_ATTESTATION = (7 << 28) /* TagType:BOOL */ | 720,
+ DEVICE_UNIQUE_ATTESTATION = TagType.BOOL | 720,
/**
* IDENTITY_CREDENTIAL_KEY is never used by IKeyMintDevice, is not a valid argument to key
@@ -860,7 +856,7 @@
* attestation. It is used in attestations produced by the IIdentityCredential HAL when that
* HAL attests to Credential Keys. IIdentityCredential produces KeyMint-style attestations.
*/
- IDENTITY_CREDENTIAL_KEY = (7 << 28) /* TagType:BOOL */ | 721,
+ IDENTITY_CREDENTIAL_KEY = TagType.BOOL | 721,
/**
* To prevent keys from being compromised if an attacker acquires read access to system / kernel
@@ -877,12 +873,12 @@
* ErrorCode::INVALID_OPERATION is returned when a key with Tag::STORAGE_KEY is provided to
* begin().
*/
- STORAGE_KEY = (7 << 28) /* TagType:BOOL */ | 722,
+ STORAGE_KEY = TagType.BOOL | 722,
/**
* TODO: Delete when keystore1 is deleted.
*/
- ASSOCIATED_DATA = (9 << 28) /* TagType:BYTES */ | 1000,
+ ASSOCIATED_DATA = TagType.BYTES | 1000,
/**
* Tag::NONCE is used to provide or return a nonce or Initialization Vector (IV) for AES-GCM,
@@ -897,7 +893,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- NONCE = (9 << 28) /* TagType:BYTES */ | 1001,
+ NONCE = TagType.BYTES | 1001,
/**
* Tag::MAC_LENGTH provides the requested length of a MAC or GCM authentication tag, in bits.
@@ -908,7 +904,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- MAC_LENGTH = (3 << 28) /* TagType:UINT */ | 1003,
+ MAC_LENGTH = TagType.UINT | 1003,
/**
* Tag::RESET_SINCE_ID_ROTATION specifies whether the device has been factory reset since the
@@ -916,7 +912,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- RESET_SINCE_ID_ROTATION = (7 << 28) /* TagType:BOOL */ | 1004,
+ RESET_SINCE_ID_ROTATION = TagType.BOOL | 1004,
/**
* Tag::CONFIRMATION_TOKEN is used to deliver a cryptographic token proving that the user
@@ -925,7 +921,7 @@
*
* Must never appear in KeyCharacteristics.
*/
- CONFIRMATION_TOKEN = (9 << 28) /* TagType:BYTES */ | 1005,
+ CONFIRMATION_TOKEN = TagType.BYTES | 1005,
/**
* Tag::CERTIFICATE_SERIAL specifies the serial number to be assigned to the attestation
@@ -933,7 +929,7 @@
* keyMint in the attestation parameters during generateKey() and importKey(). If not provided,
* the serial shall default to 1.
*/
- CERTIFICATE_SERIAL = (8 << 28) /* TagType:BIGNUM */ | 1006,
+ CERTIFICATE_SERIAL = TagType.BIGNUM | 1006,
/**
* Tag::CERTIFICATE_SUBJECT the certificate subject. The value is a DER encoded X509 NAME.
@@ -941,7 +937,7 @@
* during generateKey and importKey. If not provided the subject name shall default to
* CN="Android Keystore Key".
*/
- CERTIFICATE_SUBJECT = (9 << 28) /* TagType:BYTES */ | 1007,
+ CERTIFICATE_SUBJECT = TagType.BYTES | 1007,
/**
* Tag::CERTIFICATE_NOT_BEFORE the beginning of the validity of the certificate in UNIX epoch
@@ -949,7 +945,7 @@
* certificates. ErrorCode::MISSING_NOT_BEFORE must be returned if this tag is not provided if
* this tag is not provided to generateKey or importKey.
*/
- CERTIFICATE_NOT_BEFORE = (6 << 28) /* TagType:DATE */ | 1008,
+ CERTIFICATE_NOT_BEFORE = TagType.DATE | 1008,
/**
* Tag::CERTIFICATE_NOT_AFTER the end of the validity of the certificate in UNIX epoch time in
@@ -957,7 +953,7 @@
* ErrorCode::MISSING_NOT_AFTER must be returned if this tag is not provided to generateKey or
* importKey.
*/
- CERTIFICATE_NOT_AFTER = (6 << 28) /* TagType:DATE */ | 1009,
+ CERTIFICATE_NOT_AFTER = TagType.DATE | 1009,
/**
* Tag::MAX_BOOT_LEVEL specifies a maximum boot level at which a key should function.
@@ -968,5 +964,5 @@
*
* Cannot be hardware enforced in this version.
*/
- MAX_BOOT_LEVEL = (3 << 28) /* TagType:UINT */ | 1010,
+ MAX_BOOT_LEVEL = TagType.UINT | 1010,
}
diff --git a/security/keymint/support/keymint_utils.cpp b/security/keymint/support/keymint_utils.cpp
index 2dbdfa8..1e0733f 100644
--- a/security/keymint/support/keymint_utils.cpp
+++ b/security/keymint/support/keymint_utils.cpp
@@ -32,10 +32,11 @@
constexpr char kPlatformPatchlevelProp[] = "ro.build.version.security_patch";
constexpr char kVendorPatchlevelProp[] = "ro.vendor.build.security_patch";
-constexpr char kPatchlevelRegex[] = "^([0-9]{4})-([0-9]{2})-[0-9]{2}$";
+constexpr char kPatchlevelRegex[] = "^([0-9]{4})-([0-9]{2})-([0-9]{2})$";
constexpr size_t kYearMatch = 1;
constexpr size_t kMonthMatch = 2;
-constexpr size_t kPatchlevelMatchCount = kMonthMatch + 1;
+constexpr size_t kDayMatch = 3;
+constexpr size_t kPatchlevelMatchCount = kDayMatch + 1;
uint32_t match_to_uint32(const char* expression, const regmatch_t& match) {
if (match.rm_so == -1) return 0;
@@ -53,8 +54,6 @@
return prop_value;
}
-} // anonymous namespace
-
uint32_t getOsVersion(const char* version_str) {
regex_t regex;
if (regcomp(®ex, kPlatformVersionRegex, REG_EXTENDED)) {
@@ -76,12 +75,9 @@
return (major * 100 + minor) * 100 + subminor;
}
-uint32_t getOsVersion() {
- std::string version = wait_and_get_property(kPlatformVersionProp);
- return getOsVersion(version.c_str());
-}
+enum class PatchlevelOutput { kYearMonthDay, kYearMonth };
-uint32_t getPatchlevel(const char* patchlevel_str) {
+uint32_t getPatchlevel(const char* patchlevel_str, PatchlevelOutput detail) {
regex_t regex;
if (regcomp(®ex, kPatchlevelRegex, REG_EXTENDED) != 0) {
return 0;
@@ -100,17 +96,35 @@
if (month < 1 || month > 12) {
return 0;
}
- return year * 100 + month;
+
+ switch (detail) {
+ case PatchlevelOutput::kYearMonthDay: {
+ uint32_t day = match_to_uint32(patchlevel_str, matches[kDayMatch]);
+ if (day < 1 || day > 31) {
+ return 0;
+ }
+ return year * 10000 + month * 100 + day;
+ }
+ case PatchlevelOutput::kYearMonth:
+ return year * 100 + month;
+ }
+}
+
+} // anonymous namespace
+
+uint32_t getOsVersion() {
+ std::string version = wait_and_get_property(kPlatformVersionProp);
+ return getOsVersion(version.c_str());
}
uint32_t getOsPatchlevel() {
std::string patchlevel = wait_and_get_property(kPlatformPatchlevelProp);
- return getPatchlevel(patchlevel.c_str());
+ return getPatchlevel(patchlevel.c_str(), PatchlevelOutput::kYearMonth);
}
uint32_t getVendorPatchlevel() {
std::string patchlevel = wait_and_get_property(kVendorPatchlevelProp);
- return getPatchlevel(patchlevel.c_str());
+ return getPatchlevel(patchlevel.c_str(), PatchlevelOutput::kYearMonthDay);
}
} // namespace aidl::android::hardware::security::keymint