#include <vector>
#include <folly/Optional.h>
-#include <folly/SmallLocks.h>
+#include <folly/MicroSpinLock.h>
#include <folly/futures/Try.h>
#include <folly/futures/Promise.h>
/// time there won't be any problems.
template<typename T>
class Core {
+ static_assert(!std::is_void<T>::value,
+ "void futures are not supported. Use Unit instead.");
public:
/// This must be heap-constructed. There's probably a way to enforce that in
/// code but since this is just internal detail code and I don't know how
/// off-hand, I'm punting.
- Core() {}
+ Core() : result_(), fsm_(State::Start), attached_(2) {}
+
+ explicit Core(Try<T>&& t)
+ : result_(std::move(t)),
+ fsm_(State::OnlyResult),
+ attached_(1) {}
+
~Core() {
- assert(attached_ == 0);
+ DCHECK(attached_ == 0);
}
// not copyable
template <typename F>
class LambdaBufHelper {
public:
- explicit LambdaBufHelper(F&& func) : func_(std::forward<F>(func)) {}
+ template <typename FF>
+ explicit LambdaBufHelper(FF&& func) : func_(std::forward<FF>(func)) {}
void operator()(Try<T>&& t) {
SCOPE_EXIT { this->~LambdaBufHelper(); };
func_(std::move(t));
// Move the lambda into the Core if it fits
if (sizeof(LambdaBufHelper<F>) <= lambdaBufSize) {
- auto funcLoc = static_cast<LambdaBufHelper<F>*>((void*)lambdaBuf_);
+ auto funcLoc = reinterpret_cast<LambdaBufHelper<F>*>(&lambdaBuf_);
new (funcLoc) LambdaBufHelper<F>(std::forward<F>(func));
callback_ = std::ref(*funcLoc);
} else {
void detachPromise() {
// detachPromise() and setResult() should never be called in parallel
// so we don't need to protect this.
- if (!result_) {
- setResult(Try<T>(exception_wrapper(BrokenPromise())));
+ if (UNLIKELY(!result_)) {
+ setResult(Try<T>(exception_wrapper(BrokenPromise(typeid(T).name()))));
}
detachOne();
}
/// May call from any thread
void deactivate() {
- active_ = false;
+ active_.store(false, std::memory_order_release);
}
/// May call from any thread
void activate() {
- active_ = true;
+ active_.store(true, std::memory_order_release);
maybeCallback();
}
/// May call from any thread
- bool isActive() { return active_; }
+ bool isActive() { return active_.load(std::memory_order_acquire); }
/// Call only from Future thread
- void setExecutor(Executor* x) {
+ void setExecutor(Executor* x, int8_t priority = Executor::MID_PRI) {
+ if (!executorLock_.try_lock()) {
+ executorLock_.lock();
+ }
+ executor_ = x;
+ priority_ = priority;
+ executorLock_.unlock();
+ }
+
+ void setExecutorNoLock(Executor* x, int8_t priority = Executor::MID_PRI) {
executor_ = x;
+ priority_ = priority;
}
Executor* getExecutor() {
/// Call only from Future thread
void raise(exception_wrapper e) {
- std::lock_guard<decltype(interruptLock_)> guard(interruptLock_);
+ if (!interruptLock_.try_lock()) {
+ interruptLock_.lock();
+ }
if (!interrupt_ && !hasResult()) {
interrupt_ = folly::make_unique<exception_wrapper>(std::move(e));
if (interruptHandler_) {
interruptHandler_(*interrupt_);
}
}
+ interruptLock_.unlock();
+ }
+
+ std::function<void(exception_wrapper const&)> getInterruptHandler() {
+ if (!interruptHandlerSet_.load(std::memory_order_acquire)) {
+ return nullptr;
+ }
+ if (!interruptLock_.try_lock()) {
+ interruptLock_.lock();
+ }
+ auto handler = interruptHandler_;
+ interruptLock_.unlock();
+ return handler;
}
/// Call only from Promise thread
void setInterruptHandler(std::function<void(exception_wrapper const&)> fn) {
- std::lock_guard<decltype(interruptLock_)> guard(interruptLock_);
+ if (!interruptLock_.try_lock()) {
+ interruptLock_.lock();
+ }
if (!hasResult()) {
if (interrupt_) {
fn(*interrupt_);
} else {
- interruptHandler_ = std::move(fn);
+ setInterruptHandlerNoLock(std::move(fn));
}
}
+ interruptLock_.unlock();
+ }
+
+ void setInterruptHandlerNoLock(
+ std::function<void(exception_wrapper const&)> fn) {
+ interruptHandlerSet_.store(true, std::memory_order_relaxed);
+ interruptHandler_ = std::move(fn);
}
protected:
void maybeCallback() {
FSM_START(fsm_)
case State::Armed:
- if (active_) {
- FSM_UPDATE2(fsm_, State::Done, []{},
- std::bind(&Core::doCallback, this));
+ if (active_.load(std::memory_order_acquire)) {
+ FSM_UPDATE2(fsm_, State::Done, []{}, [this]{ this->doCallback(); });
}
FSM_BREAK
}
void doCallback() {
- RequestContext::setContext(context_);
-
- // TODO(6115514) semantic race on reading executor_ and setExecutor()
Executor* x = executor_;
+ int8_t priority;
if (x) {
- ++attached_; // keep Core alive until executor did its thing
+ if (!executorLock_.try_lock()) {
+ executorLock_.lock();
+ }
+ x = executor_;
+ priority = priority_;
+ executorLock_.unlock();
+ }
+
+ if (x) {
+ // keep Core alive until executor did its thing
+ ++attached_;
try {
- x->add([this]() mutable {
- SCOPE_EXIT { detachOne(); };
- callback_(std::move(*result_));
- });
+ if (LIKELY(x->getNumPriorities() == 1)) {
+ x->add([this]() mutable {
+ SCOPE_EXIT { detachOne(); };
+ RequestContext::setContext(context_);
+ SCOPE_EXIT { callback_ = {}; };
+ callback_(std::move(*result_));
+ });
+ } else {
+ x->addWithPriority([this]() mutable {
+ SCOPE_EXIT { detachOne(); };
+ RequestContext::setContext(context_);
+ SCOPE_EXIT { callback_ = {}; };
+ callback_(std::move(*result_));
+ }, priority);
+ }
} catch (...) {
+ --attached_; // Account for extra ++attached_ before try
+ RequestContext::setContext(context_);
result_ = Try<T>(exception_wrapper(std::current_exception()));
+ SCOPE_EXIT { callback_ = {}; };
callback_(std::move(*result_));
}
} else {
+ RequestContext::setContext(context_);
+ SCOPE_EXIT { callback_ = {}; };
callback_(std::move(*result_));
}
}
}
}
- FSM<State> fsm_ {State::Start};
- std::atomic<unsigned char> attached_ {2};
+ // lambdaBuf occupies exactly one cache line
+ static constexpr size_t lambdaBufSize = 8 * sizeof(void*);
+ typename std::aligned_storage<lambdaBufSize>::type lambdaBuf_;
+ // place result_ next to increase the likelihood that the value will be
+ // contained entirely in one cache line
+ folly::Optional<Try<T>> result_;
+ std::function<void(Try<T>&&)> callback_ {nullptr};
+ FSM<State> fsm_;
+ std::atomic<unsigned char> attached_;
std::atomic<bool> active_ {true};
+ std::atomic<bool> interruptHandlerSet_ {false};
folly::MicroSpinLock interruptLock_ {0};
- folly::Optional<Try<T>> result_ {};
- std::function<void(Try<T>&&)> callback_ {nullptr};
- static constexpr size_t lambdaBufSize = 8 * sizeof(void*);
- char lambdaBuf_[lambdaBufSize];
+ folly::MicroSpinLock executorLock_ {0};
+ int8_t priority_ {-1};
+ Executor* executor_ {nullptr};
std::shared_ptr<RequestContext> context_ {nullptr};
- std::atomic<Executor*> executor_ {nullptr};
std::unique_ptr<exception_wrapper> interrupt_ {};
std::function<void(exception_wrapper const&)> interruptHandler_ {nullptr};
};
template <typename... Ts>
-struct VariadicContext {
- VariadicContext() : total(0), count(0) {}
- Promise<std::tuple<Try<Ts>... > > p;
- std::tuple<Try<Ts>... > results;
- size_t total;
- std::atomic<size_t> count;
+struct CollectAllVariadicContext {
+ CollectAllVariadicContext() {}
+ template <typename T, size_t I>
+ inline void setPartialResult(Try<T>& t) {
+ std::get<I>(results) = std::move(t);
+ }
+ ~CollectAllVariadicContext() {
+ p.setValue(std::move(results));
+ }
+ Promise<std::tuple<Try<Ts>...>> p;
+ std::tuple<Try<Ts>...> results;
typedef Future<std::tuple<Try<Ts>...>> type;
};
-template <typename... Ts, typename THead, typename... Fs>
-typename std::enable_if<sizeof...(Fs) == 0, void>::type
-collectAllVariadicHelper(VariadicContext<Ts...> *ctx, THead&& head, Fs&&... tail) {
- head.setCallback_([ctx](Try<typename THead::value_type>&& t) {
- std::get<sizeof...(Ts) - sizeof...(Fs) - 1>(ctx->results) = std::move(t);
- if (++ctx->count == ctx->total) {
- ctx->p.setValue(std::move(ctx->results));
- delete ctx;
+template <typename... Ts>
+struct CollectVariadicContext {
+ CollectVariadicContext() {}
+ template <typename T, size_t I>
+ inline void setPartialResult(Try<T>& t) {
+ if (t.hasException()) {
+ if (!threw.exchange(true)) {
+ p.setException(std::move(t.exception()));
+ }
+ } else if (!threw) {
+ std::get<I>(results) = std::move(t);
+ }
+ }
+ ~CollectVariadicContext() {
+ if (!threw.exchange(true)) {
+ p.setValue(unwrap(std::move(results)));
}
- });
+ }
+ Promise<std::tuple<Ts...>> p;
+ std::tuple<folly::Try<Ts>...> results;
+ std::atomic<bool> threw {false};
+ typedef Future<std::tuple<Ts...>> type;
+
+ private:
+ template <typename... Ts2>
+ static std::tuple<Ts...> unwrap(std::tuple<folly::Try<Ts>...>&& o,
+ Ts2&&... ts2) {
+ static_assert(sizeof...(ts2) <
+ std::tuple_size<std::tuple<folly::Try<Ts>...>>::value,
+ "Non-templated unwrap should be used instead");
+ assert(std::get<sizeof...(ts2)>(o).hasValue());
+
+ return unwrap(std::move(o),
+ std::forward<Ts2>(ts2)...,
+ std::move(*std::get<sizeof...(ts2)>(o)));
+ }
+
+ static std::tuple<Ts...> unwrap(std::tuple<folly::Try<Ts>...>&& /* o */,
+ Ts&&... ts) {
+ return std::tuple<Ts...>(std::forward<Ts>(ts)...);
+ }
+};
+
+template <template <typename...> class T, typename... Ts>
+void collectVariadicHelper(const std::shared_ptr<T<Ts...>>& /* ctx */) {
+ // base case
}
-template <typename... Ts, typename THead, typename... Fs>
-typename std::enable_if<sizeof...(Fs) != 0, void>::type
-collectAllVariadicHelper(VariadicContext<Ts...> *ctx, THead&& head, Fs&&... tail) {
+template <template <typename ...> class T, typename... Ts,
+ typename THead, typename... TTail>
+void collectVariadicHelper(const std::shared_ptr<T<Ts...>>& ctx,
+ THead&& head, TTail&&... tail) {
head.setCallback_([ctx](Try<typename THead::value_type>&& t) {
- std::get<sizeof...(Ts) - sizeof...(Fs) - 1>(ctx->results) = std::move(t);
- if (++ctx->count == ctx->total) {
- ctx->p.setValue(std::move(ctx->results));
- delete ctx;
- }
+ ctx->template setPartialResult<typename THead::value_type,
+ sizeof...(Ts) - sizeof...(TTail) - 1>(t);
});
// template tail-recursion
- collectAllVariadicHelper(ctx, std::forward<Fs>(tail)...);
+ collectVariadicHelper(ctx, std::forward<TTail>(tail)...);
}
-template <typename T>
-struct WhenAllContext {
- WhenAllContext() : count(0) {}
- Promise<std::vector<Try<T> > > p;
- std::vector<Try<T> > results;
- std::atomic<size_t> count;
-};
-
-template <typename T>
-struct WhenAnyContext {
- explicit WhenAnyContext(size_t n) : done(false), ref_count(n) {};
- Promise<std::pair<size_t, Try<T>>> p;
- std::atomic<bool> done;
- std::atomic<size_t> ref_count;
- void decref() {
- if (--ref_count == 0) {
- delete this;
- }
- }
-};
-
}} // folly::detail