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Coroutines support libraries for Kotlin
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package kotlinx.coroutines
import kotlinx.atomicfu.*
import kotlinx.coroutines.internal.*
import kotlin.coroutines.*
import kotlin.coroutines.intrinsics.*
import kotlin.jvm.*
private const val UNDECIDED = 0
private const val SUSPENDED = 1
private const val RESUMED = 2
private const val DECISION_SHIFT = 29
private const val INDEX_MASK = (1 shl DECISION_SHIFT) - 1
private const val NO_INDEX = INDEX_MASK
private inline val Int.decision get() = this shr DECISION_SHIFT
private inline val Int.index get() = this and INDEX_MASK
@Suppress("NOTHING_TO_INLINE")
private inline fun decisionAndIndex(decision: Int, index: Int) = (decision shl DECISION_SHIFT) + index
@JvmField
internal val RESUME_TOKEN = Symbol("RESUME_TOKEN")
/**
* @suppress **This is unstable API and it is subject to change.**
*/
@OptIn(InternalForInheritanceCoroutinesApi::class)
@PublishedApi
internal open class CancellableContinuationImpl(
final override val delegate: Continuation,
resumeMode: Int
) : DispatchedTask(resumeMode), CancellableContinuation, CoroutineStackFrame, Waiter {
init {
assert { resumeMode != MODE_UNINITIALIZED } // invalid mode for CancellableContinuationImpl
}
public override val context: CoroutineContext = delegate.context
/*
* Implementation notes
*
* CancellableContinuationImpl is a subset of Job with following limitations:
* 1) It can have only cancellation listener (no "on cancelling")
* 2) It always invokes cancellation listener if it's cancelled (no 'invokeImmediately')
* 3) It can have at most one cancellation listener
* 4) Its cancellation listeners cannot be deregistered
* As a consequence it has much simpler state machine, more lightweight machinery and
* less dependencies.
*/
/** decision state machine
+-----------+ trySuspend +-----------+
| UNDECIDED | -------------> | SUSPENDED |
+-----------+ +-----------+
|
| tryResume
V
+-----------+
| RESUMED |
+-----------+
Note: both tryResume and trySuspend can be invoked at most once, first invocation wins.
If the cancellation handler is specified via a [Segment] instance and the index in it
(so [Segment.onCancellation] should be called), the [_decisionAndIndex] field may store
this index additionally to the "decision" value.
*/
private val _decisionAndIndex = atomic(decisionAndIndex(UNDECIDED, NO_INDEX))
/*
=== Internal states ===
name state class public state description
------ ------------ ------------ -----------
ACTIVE Active : Active active, no listeners
SINGLE_A CancelHandler : Active active, one cancellation listener
CANCELLED CancelledContinuation: Cancelled cancelled (final state)
COMPLETED any : Completed produced some result or threw an exception (final state)
*/
private val _state = atomic(Active)
/*
* This field has a concurrent rendezvous in the following scenario:
*
* - installParentHandle publishes this instance on T1
*
* T1 writes:
* - handle = installed; right after the installation
* - Shortly after: if (isComplete) handle = NonDisposableHandle
*
* Any other T writes if the parent job is cancelled in detachChild:
* - handle = NonDisposableHandle
*
* We want to preserve a strict invariant on parentHandle transition, allowing only three of them:
* null -> anyHandle
* anyHandle -> NonDisposableHandle
* null -> NonDisposableHandle
*
* With a guarantee that after disposal the only state handle may end up in is NonDisposableHandle
*/
private val _parentHandle = atomic(null)
private val parentHandle: DisposableHandle?
get() = _parentHandle.value
internal val state: Any? get() = _state.value
public override val isActive: Boolean get() = state is NotCompleted
public override val isCompleted: Boolean get() = state !is NotCompleted
public override val isCancelled: Boolean get() = state is CancelledContinuation
// We cannot invoke `state.toString()` since it may cause a circular dependency
private val stateDebugRepresentation get() = when(state) {
is NotCompleted -> "Active"
is CancelledContinuation -> "Cancelled"
else -> "Completed"
}
public override fun initCancellability() {
/*
* Invariant: at the moment of invocation, `this` has not yet
* leaked to user code and no one is able to invoke `resume` or `cancel`
* on it yet. Also, this function is not invoked for reusable continuations.
*/
val handle = installParentHandle()
?: return // fast path -- don't do anything without parent
// now check our state _after_ registering, could have completed while we were registering,
// but only if parent was cancelled. Parent could be in a "cancelling" state for a while,
// so we are helping it and cleaning the node ourselves
if (isCompleted) {
// Can be invoked concurrently in 'parentCancelled', no problems here
handle.dispose()
_parentHandle.value = NonDisposableHandle
}
}
private fun isReusable(): Boolean = resumeMode.isReusableMode && (delegate as DispatchedContinuation<*>).isReusable()
/**
* Resets cancellability state in order to [suspendCancellableCoroutineReusable] to work.
* Invariant: used only by [suspendCancellableCoroutineReusable] in [REUSABLE_CLAIMED] state.
*/
@JvmName("resetStateReusable") // Prettier stack traces
internal fun resetStateReusable(): Boolean {
assert { resumeMode == MODE_CANCELLABLE_REUSABLE }
assert { parentHandle !== NonDisposableHandle }
val state = _state.value
assert { state !is NotCompleted }
if (state is CompletedContinuation<*> && state.idempotentResume != null) {
// Cannot reuse continuation that was resumed with idempotent marker
detachChild()
return false
}
_decisionAndIndex.value = decisionAndIndex(UNDECIDED, NO_INDEX)
_state.value = Active
return true
}
public override val callerFrame: CoroutineStackFrame?
get() = delegate as? CoroutineStackFrame
public override fun getStackTraceElement(): StackTraceElement? = null
override fun takeState(): Any? = state
// Note: takeState does not clear the state so we don't use takenState
// and we use the actual current state where in CAS-loop
override fun cancelCompletedResult(takenState: Any?, cause: Throwable): Unit = _state.loop { state ->
when (state) {
is NotCompleted -> error("Not completed")
is CompletedExceptionally -> return // already completed exception or cancelled, nothing to do
is CompletedContinuation<*> -> {
check(!state.cancelled) { "Must be called at most once" }
val update = state.copy(cancelCause = cause)
if (_state.compareAndSet(state, update)) {
state.invokeHandlers(this, cause)
return // done
}
}
else -> {
// completed normally without marker class, promote to CompletedContinuation in case
// if invokeOnCancellation if called later
if (_state.compareAndSet(state, CompletedContinuation(state, cancelCause = cause))) {
return // done
}
}
}
}
/*
* Attempt to postpone cancellation for reusable cancellable continuation
*/
private fun cancelLater(cause: Throwable): Boolean {
// Ensure that we are postponing cancellation to the right reusable instance
if (!isReusable()) return false
val dispatched = delegate as DispatchedContinuation<*>
return dispatched.postponeCancellation(cause)
}
public override fun cancel(cause: Throwable?): Boolean {
_state.loop { state ->
if (state !is NotCompleted) return false // false if already complete or cancelling
// Active -- update to final state
val update = CancelledContinuation(this, cause, handled = state is CancelHandler || state is Segment<*>)
if (!_state.compareAndSet(state, update)) return@loop // retry on cas failure
// Invoke cancel handler if it was present
when (state) {
is CancelHandler -> callCancelHandler(state, cause)
is Segment<*> -> callSegmentOnCancellation(state, cause)
}
// Complete state update
detachChildIfNonResuable()
dispatchResume(resumeMode) // no need for additional cancellation checks
return true
}
}
internal fun parentCancelled(cause: Throwable) {
if (cancelLater(cause)) return
cancel(cause)
// Even if cancellation has failed, we should detach child to avoid potential leak
detachChildIfNonResuable()
}
private inline fun callCancelHandlerSafely(block: () -> Unit) {
try {
block()
} catch (ex: Throwable) {
// Handler should never fail, if it does -- it is an unhandled exception
handleCoroutineException(
context,
CompletionHandlerException("Exception in invokeOnCancellation handler for $this", ex)
)
}
}
fun callCancelHandler(handler: CancelHandler, cause: Throwable?) =
callCancelHandlerSafely { handler.invoke(cause) }
private fun callSegmentOnCancellation(segment: Segment<*>, cause: Throwable?) {
val index = _decisionAndIndex.value.index
check(index != NO_INDEX) { "The index for Segment.onCancellation(..) is broken" }
callCancelHandlerSafely { segment.onCancellation(index, cause, context) }
}
fun callOnCancellation(
onCancellation: (cause: Throwable, value: R, context: CoroutineContext) -> Unit,
cause: Throwable,
value: R
) {
try {
onCancellation.invoke(cause, value, context)
} catch (ex: Throwable) {
// Handler should never fail, if it does -- it is an unhandled exception
handleCoroutineException(
context,
CompletionHandlerException("Exception in resume onCancellation handler for $this", ex)
)
}
}
/**
* It is used when parent is cancelled to get the cancellation cause for this continuation.
*/
open fun getContinuationCancellationCause(parent: Job): Throwable =
parent.getCancellationException()
private fun trySuspend(): Boolean {
_decisionAndIndex.loop { cur ->
when (cur.decision) {
UNDECIDED -> if (this._decisionAndIndex.compareAndSet(cur, decisionAndIndex(SUSPENDED, cur.index))) return true
RESUMED -> return false
else -> error("Already suspended")
}
}
}
private fun tryResume(): Boolean {
_decisionAndIndex.loop { cur ->
when (cur.decision) {
UNDECIDED -> if (this._decisionAndIndex.compareAndSet(cur, decisionAndIndex(RESUMED, cur.index))) return true
SUSPENDED -> return false
else -> error("Already resumed")
}
}
}
@PublishedApi
internal fun getResult(): Any? {
val isReusable = isReusable()
// trySuspend may fail either if 'block' has resumed/cancelled a continuation,
// or we got async cancellation from parent.
if (trySuspend()) {
/*
* Invariant: parentHandle is `null` *only* for reusable continuations.
* We were neither resumed nor cancelled, time to suspend.
* But first we have to install parent cancellation handle (if we didn't yet),
* so CC could be properly resumed on parent cancellation.
*
* This read has benign data-race with write of 'NonDisposableHandle'
* in 'detachChildIfNotReusable'.
*/
if (parentHandle == null) {
installParentHandle()
}
/*
* Release the continuation after installing the handle (if needed).
* If we were successful, then do nothing, it's ok to reuse the instance now.
* Otherwise, dispose the handle by ourselves.
*/
if (isReusable) {
releaseClaimedReusableContinuation()
}
return COROUTINE_SUSPENDED
}
// otherwise, onCompletionInternal was already invoked & invoked tryResume, and the result is in the state
if (isReusable) {
// release claimed reusable continuation for the future reuse
releaseClaimedReusableContinuation()
}
val state = this.state
if (state is CompletedExceptionally) throw recoverStackTrace(state.cause, this)
// if the parent job was already cancelled, then throw the corresponding cancellation exception
// otherwise, there is a race if suspendCancellableCoroutine { cont -> ... } does cont.resume(...)
// before the block returns. This getResult would return a result as opposed to cancellation
// exception that should have happened if the continuation is dispatched for execution later.
if (resumeMode.isCancellableMode) {
val job = context[Job]
if (job != null && !job.isActive) {
val cause = job.getCancellationException()
cancelCompletedResult(state, cause)
throw recoverStackTrace(cause, this)
}
}
return getSuccessfulResult(state)
}
private fun installParentHandle(): DisposableHandle? {
val parent = context[Job] ?: return null // don't do anything without a parent
// Install the handle
val handle = parent.invokeOnCompletion(handler = ChildContinuation(this))
_parentHandle.compareAndSet(null, handle)
return handle
}
/**
* Tries to release reusable continuation. It can fail is there was an asynchronous cancellation,
* in which case it detaches from the parent and cancels this continuation.
*/
internal fun releaseClaimedReusableContinuation() {
// Cannot be cast if e.g. invoked from `installParentHandleReusable` for context without dispatchers, but with Job in it
val cancellationCause = (delegate as? DispatchedContinuation<*>)?.tryReleaseClaimedContinuation(this) ?: return
detachChild()
cancel(cancellationCause)
}
override fun resumeWith(result: Result) =
resumeImpl(result.toState(this), resumeMode)
@Suppress("OVERRIDE_DEPRECATION")
override fun resume(value: T, onCancellation: ((cause: Throwable) -> Unit)?) =
resumeImpl(value, resumeMode, onCancellation?.let { { cause, _, _ -> onCancellation(cause) } })
override fun resume(
value: R,
onCancellation: ((cause: Throwable, value: R, context: CoroutineContext) -> Unit)?
) =
resumeImpl(value, resumeMode, onCancellation)
/**
* An optimized version for the code below that does not allocate
* a cancellation handler object and efficiently stores the specified
* [segment] and [index] in this [CancellableContinuationImpl].
*
* The only difference is that `segment.onCancellation(..)` is never
* called if this continuation is already completed;
*
* ```
* invokeOnCancellation { cause ->
* segment.onCancellation(index, cause)
* }
* ```
*/
override fun invokeOnCancellation(segment: Segment<*>, index: Int) {
_decisionAndIndex.update {
check(it.index == NO_INDEX) {
"invokeOnCancellation should be called at most once"
}
decisionAndIndex(it.decision, index)
}
invokeOnCancellationImpl(segment)
}
override fun invokeOnCancellation(handler: CompletionHandler) =
invokeOnCancellation(CancelHandler.UserSupplied(handler))
internal fun invokeOnCancellationInternal(handler: CancelHandler) = invokeOnCancellationImpl(handler)
private fun invokeOnCancellationImpl(handler: Any) {
assert { handler is CancelHandler || handler is Segment<*> }
_state.loop { state ->
when (state) {
is Active -> {
if (_state.compareAndSet(state, handler)) return // quit on cas success
}
is CancelHandler, is Segment<*> -> multipleHandlersError(handler, state)
is CompletedExceptionally -> {
/*
* Continuation was already cancelled or completed exceptionally.
* NOTE: multiple invokeOnCancellation calls with different handlers are not allowed,
* so we check to make sure handler was installed just once.
*/
if (!state.makeHandled()) multipleHandlersError(handler, state)
/*
* Call the handler only if it was cancelled (not called when completed exceptionally).
* :KLUDGE: We have to invoke a handler in platform-specific way via `invokeIt` extension,
* because we play type tricks on Kotlin/JS and handler is not necessarily a function there
*/
if (state is CancelledContinuation) {
val cause: Throwable? = (state as? CompletedExceptionally)?.cause
if (handler is CancelHandler) {
callCancelHandler(handler, cause)
} else {
val segment = handler as Segment<*>
callSegmentOnCancellation(segment, cause)
}
}
return
}
is CompletedContinuation<*> -> {
/*
* Continuation was already completed, and might already have cancel handler.
*/
if (state.cancelHandler != null) multipleHandlersError(handler, state)
// Segment.invokeOnCancellation(..) does NOT need to be called on completed continuation.
if (handler is Segment<*>) return
handler as CancelHandler
if (state.cancelled) {
// Was already cancelled while being dispatched -- invoke the handler directly
callCancelHandler(handler, state.cancelCause)
return
}
val update = state.copy(cancelHandler = handler)
if (_state.compareAndSet(state, update)) return // quit on cas success
}
else -> {
/*
* Continuation was already completed normally, but might get cancelled while being dispatched.
* Change its state to CompletedContinuation, unless we have Segment which
* does not need to be called in this case.
*/
if (handler is Segment<*>) return
handler as CancelHandler
val update = CompletedContinuation(state, cancelHandler = handler)
if (_state.compareAndSet(state, update)) return // quit on cas success
}
}
}
}
private fun multipleHandlersError(handler: Any, state: Any?) {
error("It's prohibited to register multiple handlers, tried to register $handler, already has $state")
}
private fun dispatchResume(mode: Int) {
if (tryResume()) return // completed before getResult invocation -- bail out
// otherwise, getResult has already commenced, i.e. completed later or in other thread
dispatch(mode)
}
private fun resumedState(
state: NotCompleted,
proposedUpdate: R,
resumeMode: Int,
onCancellation: ((cause: Throwable, value: R, context: CoroutineContext) -> Unit)?,
idempotent: Any?
): Any? = when {
proposedUpdate is CompletedExceptionally -> {
assert { idempotent == null } // there are no idempotent exceptional resumes
assert { onCancellation == null } // only successful results can be cancelled
proposedUpdate
}
!resumeMode.isCancellableMode && idempotent == null -> proposedUpdate // cannot be cancelled in process, all is fine
onCancellation != null || state is CancelHandler || idempotent != null ->
// mark as CompletedContinuation if special cases are present:
// Cancellation handlers that shall be called after resume or idempotent resume
CompletedContinuation(proposedUpdate, state as? CancelHandler, onCancellation, idempotent)
else -> proposedUpdate // simple case -- use the value directly
}
internal fun resumeImpl(
proposedUpdate: R,
resumeMode: Int,
onCancellation: ((cause: Throwable, value: R, context: CoroutineContext) -> Unit)? = null
) {
_state.loop { state ->
when (state) {
is NotCompleted -> {
val update = resumedState(state, proposedUpdate, resumeMode, onCancellation, idempotent = null)
if (!_state.compareAndSet(state, update)) return@loop // retry on cas failure
detachChildIfNonResuable()
dispatchResume(resumeMode) // dispatch resume, but it might get cancelled in process
return // done
}
is CancelledContinuation -> {
/*
* If continuation was cancelled, then resume attempt must be ignored,
* because cancellation is asynchronous and may race with resume.
* Racy exceptions will be lost, too.
*/
if (state.makeResumed()) { // check if trying to resume one (otherwise error)
// call onCancellation
onCancellation?.let { callOnCancellation(it, state.cause, proposedUpdate) }
return // done
}
}
}
alreadyResumedError(proposedUpdate) // otherwise, an error (second resume attempt)
}
}
/**
* Similar to [tryResume], but does not actually completes resume (needs [completeResume] call).
* Returns [RESUME_TOKEN] when resumed, `null` when it was already resumed or cancelled.
*/
private fun tryResumeImpl(
proposedUpdate: R,
idempotent: Any?,
onCancellation: ((cause: Throwable, value: R, context: CoroutineContext) -> Unit)?
): Symbol? {
_state.loop { state ->
when (state) {
is NotCompleted -> {
val update = resumedState(state, proposedUpdate, resumeMode, onCancellation, idempotent)
if (!_state.compareAndSet(state, update)) return@loop // retry on cas failure
detachChildIfNonResuable()
return RESUME_TOKEN
}
is CompletedContinuation<*> -> {
return if (idempotent != null && state.idempotentResume === idempotent) {
assert { state.result == proposedUpdate } // "Non-idempotent resume"
RESUME_TOKEN // resumed with the same token -- ok
} else {
null // resumed with a different token or non-idempotent -- too late
}
}
else -> return null // cannot resume -- not active anymore
}
}
}
private fun alreadyResumedError(proposedUpdate: Any?): Nothing {
error("Already resumed, but proposed with update $proposedUpdate")
}
// Unregister from parent job
private fun detachChildIfNonResuable() {
// If instance is reusable, do not detach on every reuse, #releaseInterceptedContinuation will do it for us in the end
if (!isReusable()) detachChild()
}
/**
* Detaches from the parent.
*/
internal fun detachChild() {
val handle = parentHandle ?: return
handle.dispose()
_parentHandle.value = NonDisposableHandle
}
// Note: Always returns RESUME_TOKEN | null
override fun tryResume(value: T, idempotent: Any?): Any? =
tryResumeImpl(value, idempotent, onCancellation = null)
override fun tryResume(
value: R,
idempotent: Any?,
onCancellation: ((cause: Throwable, value: R, context: CoroutineContext) -> Unit)?
): Any? =
tryResumeImpl(value, idempotent, onCancellation)
override fun tryResumeWithException(exception: Throwable): Any? =
tryResumeImpl(CompletedExceptionally(exception), idempotent = null, onCancellation = null)
// note: token is always RESUME_TOKEN
override fun completeResume(token: Any) {
assert { token === RESUME_TOKEN }
dispatchResume(resumeMode)
}
override fun CoroutineDispatcher.resumeUndispatched(value: T) {
val dc = delegate as? DispatchedContinuation
resumeImpl(value, if (dc?.dispatcher === this) MODE_UNDISPATCHED else resumeMode)
}
override fun CoroutineDispatcher.resumeUndispatchedWithException(exception: Throwable) {
val dc = delegate as? DispatchedContinuation
resumeImpl(CompletedExceptionally(exception), if (dc?.dispatcher === this) MODE_UNDISPATCHED else resumeMode)
}
@Suppress("UNCHECKED_CAST")
override fun getSuccessfulResult(state: Any?): T =
when (state) {
is CompletedContinuation<*> -> state.result as T
else -> state as T
}
// The exceptional state in CancellableContinuationImpl is stored directly and it is not recovered yet.
// The stacktrace recovery is invoked here.
override fun getExceptionalResult(state: Any?): Throwable? =
super.getExceptionalResult(state)?.let { recoverStackTrace(it, delegate) }
// For nicer debugging
public override fun toString(): String =
"${nameString()}(${delegate.toDebugString()}){$stateDebugRepresentation}@$hexAddress"
protected open fun nameString(): String =
"CancellableContinuation"
}
// Marker for active continuation
internal interface NotCompleted
private object Active : NotCompleted {
override fun toString(): String = "Active"
}
/**
* Essentially the same as just a function from `Throwable?` to `Unit`.
* The only thing implementors can do is call [invoke].
* The reason this abstraction exists is to allow providing a readable [toString] in the list of completion handlers
* as seen from the debugger.
* Use [UserSupplied] to create an instance from a lambda.
* We can't avoid defining a separate type, because on JS, you can't inherit from a function type.
*/
internal interface CancelHandler : NotCompleted {
/**
* Signals cancellation.
*
* This function:
* - Does not throw any exceptions.
* Violating this rule in an implementation leads to [handleUncaughtCoroutineException] being called with a
* [CompletionHandlerException] wrapping the thrown exception.
* - Is fast, non-blocking, and thread-safe.
* - Can be invoked concurrently with the surrounding code.
* - Can be invoked from any context.
*
* The meaning of `cause` that is passed to the handler is:
* - It is `null` if the continuation was cancelled directly via [CancellableContinuation.cancel] without a `cause`.
* - It is an instance of [CancellationException] if the continuation was _normally_ cancelled from the outside.
* **It should not be treated as an error**. In particular, it should not be reported to error logs.
* - Otherwise, the continuation had cancelled with an _error_.
*/
fun invoke(cause: Throwable?)
/**
* A lambda passed from outside the coroutine machinery.
*
* See the requirements for [CancelHandler.invoke] when implementing this function.
*/
class UserSupplied(private val handler: (cause: Throwable?) -> Unit) : CancelHandler {
/** @suppress */
override fun invoke(cause: Throwable?) { handler(cause) }
override fun toString() = "CancelHandler.UserSupplied[${handler.classSimpleName}@$hexAddress]"
}
}
// Completed with additional metadata
private data class CompletedContinuation(
@JvmField val result: R,
// installed via `invokeOnCancellation`
@JvmField val cancelHandler: CancelHandler? = null,
// installed via the `resume` block
@JvmField val onCancellation: ((cause: Throwable, value: R, context: CoroutineContext) -> Unit)? = null,
@JvmField val idempotentResume: Any? = null,
@JvmField val cancelCause: Throwable? = null
) {
val cancelled: Boolean get() = cancelCause != null
fun invokeHandlers(cont: CancellableContinuationImpl<*>, cause: Throwable) {
cancelHandler?.let { cont.callCancelHandler(it, cause) }
onCancellation?.let { cont.callOnCancellation(it, cause, result) }
}
}
// Same as ChildHandleNode, but for cancellable continuation
private class ChildContinuation(
@JvmField val child: CancellableContinuationImpl<*>
) : JobNode() {
override val onCancelling get() = true
override fun invoke(cause: Throwable?) {
child.parentCancelled(child.getContinuationCancellationCause(job))
}
}