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README.md |
README.md
NNAPI Conversions
convert
fails if either the source type or the destination type is invalid, and it yields a valid
object if the conversion succeeds. For example, let's say that an enumeration in the current version
has fewer possible values than the "same" canonical enumeration, such as OperationType
. The new
value of HARD_SWISH
(introduced in Android R / NN HAL 1.3) does not map to any valid existing
value in OperationType
, but an older value of ADD
(introduced in Android OC-MR1 / NN HAL 1.0) is
valid. This can be seen in the following model conversions:
// Unsuccessful conversion
const nn::Model canonicalModel = createModelWhichHasV1_3Operations();
const nn::Result<V1_0::Model> maybeVersionedModel = V1_0::utils::convert(canonicalModel);
EXPECT_FALSE(maybeVersionedModel.has_value());
// Successful conversion
const nn::Model canonicalModel = createModelWhichHasOnlyV1_0Operations();
const nn::Result<V1_0::Model> maybeVersionedModel = V1_0::utils::convert(canonicalModel);
ASSERT_TRUE(maybeVersionedModel.has_value());
const V1_0::Model& versionedModel = maybeVersionedModel.value();
EXPECT_TRUE(V1_0::utils::valid(versionedModel));
V1_X::utils::convert
does not guarantee that all information is preserved. For example, In the
case of nn::ErrorStatus
, the new value of MISSED_DEADLINE_TRANSIENT
can be represented by the
existing value of V1_0::GENERAL_FAILURE
:
// Lossy Canonical -> HAL -> Canonical conversion
const nn::ErrorStatus canonicalBefore = nn::ErrorStatus::MISSED_DEADLINE_TRANSIENT;
const V1_0::ErrorStatus versioned = V1_0::utils::convert(canonicalBefore).value();
const nn::ErrorStatus canonicalAfter = nn::convert(versioned).value();
EXPECT_NE(canonicalBefore, canonicalAfter);
However, nn::convert
is guaranteed to preserve all information:
// Lossless HAL -> Canonical -> HAL conversion
const V1_0::ErrorStatus versionedBefore = V1_0::ErrorStatus::GENERAL_FAILURE;
const nn::ErrorStatus canonical = nn::convert(versionedBefore).value();
const V1_0::ErrorStatus versionedAfter = V1_0::utils::convert(canonical).value();
EXPECT_EQ(versionedBefore, versionedAfter);
The convert
functions operate only on types that used in a HIDL method call directly. The
unvalidatedConvert
functions operate on types that are either used in a HIDL method call directly
(i.e., not as a nested class) or used in a subsequent version of the NN HAL. Prefer using convert
over unvalidatedConvert
.
Interface Lifetimes across Processes
HIDL
Some notes about HIDL interface objects and lifetimes across processes:
All HIDL interface objects inherit from IBase
, which itself inherits from ::android::RefBase
. As
such, all HIDL interface objects are reference counted and must be owned through ::android::sp
(or
referenced through ::android::wp
). Allocating RefBase
objects on the stack will log errors and
may result in crashes, and deleting a RefBase
object through another means (e.g., "delete",
"free", or RAII-cleanup through std::unique_ptr
or some equivalent) will result in double-free
and/or use-after-free undefined behavior.
HIDL/Binder manages the reference count of HIDL interface objects automatically across processes. If
a process that references (but did not create) the HIDL interface object dies, HIDL/Binder ensures
any reference count it held is properly released. (Caveat: it might be possible that HIDL/Binder
behave strangely with ::android::wp
references.)
If the process which created the HIDL interface object dies, any call on this object from another
process will result in a HIDL transport error with the code DEAD_OBJECT
.
AIDL
We use NDK backend for AIDL interfaces. Handling of lifetimes is generally the same with the following differences:
- Interfaces inherit from
ndk::ICInterface
, which inherits fromndk::SharedRefBase
. The latter is an analog of::android::RefBase
usingstd::shared_ptr
for reference counting. - AIDL calls return
ndk::ScopedAStatus
which wraps fields of typesbinder_status_t
andbinder_exception_t
. In case the call is made on a dead object, the call will returnndk::ScopedAStatus
with exceptionEX_TRANSACTION_FAILED
and binder statusSTATUS_DEAD_OBJECT
.
Protecting Asynchronous Calls
Across HIDL
Some notes about asynchronous calls across HIDL:
For synchronous calls across HIDL, if an error occurs after the function was called but before it
returns, HIDL will return a transport error. For example, if the message cannot be delivered to the
server process or if the server process dies before returning a result, HIDL will return from the
function with the appropriate transport error in the Return<>
object, which can be queried with
Return<>::isOk()
, Return<>::isDeadObject()
, Return<>::description()
, etc.
However, HIDL offers no such error management in the case of asynchronous calls. By default, if the client launches an asynchronous task and the server fails to return a result through the callback, the client will be left waiting indefinitely for a result it will never receive.
In the NNAPI, IDevice::prepareModel*
and IPreparedModel::execute*
(but not
IPreparedModel::executeSynchronously*
) are asynchronous calls across HIDL. Specifically, these
asynchronous functions are called with a HIDL interface callback object (IPrepareModelCallback
for
IDevice::prepareModel*
and IExecutionCallback
for IPreparedModel::execute*
) and are expected
to quickly return, and the results are returned at a later time through these callback objects.
To protect against the case when the server dies after the asynchronous task was called successfully
but before the results could be returned, HIDL provides an object called a "hidl_death_recipient
,"
which can be used to detect when an interface object (and more generally, the server process) has
died. nnapi/hal/ProtectCallback.h's DeathHandler
uses hidl_death_recipient
s to detect when the
driver process has died, and DeathHandler
will unblock any thread waiting on the results of an
IProtectedCallback
callback object that may otherwise not be signaled. In order for this to work,
the IProtectedCallback
object must have been registered via DeathHandler::protectCallback()
.
Across AIDL
We use NDK backend for AIDL interfaces. Handling of asynchronous calls is generally the same with the following differences:
- AIDL calls return
ndk::ScopedAStatus
which wraps fields of typesbinder_status_t
andbinder_exception_t
. In case the call is made on a dead object, the call will returnndk::ScopedAStatus
with exceptionEX_TRANSACTION_FAILED
and binder statusSTATUS_DEAD_OBJECT
. - AIDL interface doesn't contain asynchronous
IPreparedModel::execute
. - Service death is handled using
AIBinder_DeathRecipient
object which is linked to an interface object usingAIBinder_linkToDeath
. nnapi/hal/aidl/ProtectCallback.h providesDeathHandler
object that is a direct analog of HIDLDeathHandler
, only using libbinder_ndk objects for implementation.