165 lines
4.5 KiB
C++
165 lines
4.5 KiB
C++
#ifndef STAR_RPC_THREAD_PROMISE_HPP
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#define STAR_RPC_THREAD_PROMISE_HPP
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#include "StarEither.hpp"
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#include "StarString.hpp"
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#include "StarThread.hpp"
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// A thread-safe version of RpcPromise.
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// This is just a copy-paste with a Mutex tacked on. I don't like that, but it's 11 PM.
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namespace Star {
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STAR_EXCEPTION(RpcThreadPromiseException, StarException);
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template <typename Result, typename Error = String>
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class RpcThreadPromiseKeeper {
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public:
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void fulfill(Result result);
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void fail(Error error);
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private:
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template <typename ResultT, typename ErrorT>
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friend class RpcThreadPromise;
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function<void(Result)> m_fulfill;
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function<void(Error)> m_fail;
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};
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template <typename Result, typename Error = String>
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class RpcThreadPromise {
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public:
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static pair<RpcThreadPromise, RpcThreadPromiseKeeper<Result, Error>> createPair();
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static RpcThreadPromise createFulfilled(Result result);
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static RpcThreadPromise createFailed(Error error);
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// Has the respoonse either failed or succeeded?
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bool finished() const;
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// Has the response finished with success?
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bool succeeded() const;
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// Has the response finished with failure?
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bool failed() const;
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// Returns the result of the rpc call on success, nothing on failure or when
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// not yet finished.
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Maybe<Result> result() const;
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// Returns the error of a failed rpc call. Returns nothing if the call is
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// successful or not yet finished.
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Maybe<Error> error() const;
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private:
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template <typename ResultT, typename ErrorT>
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friend class RpcThreadPromise;
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struct Value {
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Mutex mutex;
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Maybe<Result> result;
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Maybe<Error> error;
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};
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RpcThreadPromise() = default;
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function<Value*()> m_getValue;
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};
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template <typename Result, typename Error>
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void RpcThreadPromiseKeeper<Result, Error>::fulfill(Result result) {
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m_fulfill(move(result));
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}
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template <typename Result, typename Error>
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void RpcThreadPromiseKeeper<Result, Error>::fail(Error error) {
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m_fail(move(error));
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}
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template <typename Result, typename Error>
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pair<RpcThreadPromise<Result, Error>, RpcThreadPromiseKeeper<Result, Error>> RpcThreadPromise<Result, Error>::createPair() {
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auto valuePtr = make_shared<Value>();
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RpcThreadPromise promise;
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promise.m_getValue = [valuePtr]() {
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return valuePtr.get();
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};
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RpcThreadPromiseKeeper<Result, Error> keeper;
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keeper.m_fulfill = [valuePtr](Result result) {
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MutexLocker lock(valuePtr->mutex);
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if (valuePtr->result || valuePtr->error)
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throw RpcThreadPromiseException("fulfill called on already finished RpcThreadPromise");
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valuePtr->result = move(result);
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};
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keeper.m_fail = [valuePtr](Error error) {
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MutexLocker lock(valuePtr->mutex);
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if (valuePtr->result || valuePtr->error)
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throw RpcThreadPromiseException("fail called on already finished RpcThreadPromise");
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valuePtr->error = move(error);
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};
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return {move(promise), move(keeper)};
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}
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template <typename Result, typename Error>
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RpcThreadPromise<Result, Error> RpcThreadPromise<Result, Error>::createFulfilled(Result result) {
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auto valuePtr = make_shared<Value>();
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valuePtr->result = move(result);
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RpcThreadPromise<Result, Error> promise;
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promise.m_getValue = [valuePtr]() {
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return valuePtr.get();
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};
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return promise;
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}
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template <typename Result, typename Error>
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RpcThreadPromise<Result, Error> RpcThreadPromise<Result, Error>::createFailed(Error error) {
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auto valuePtr = make_shared<Value>();
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valuePtr->error = move(error);
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RpcThreadPromise<Result, Error> promise;
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promise.m_getValue = [valuePtr]() {
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return valuePtr.get();
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};
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return promise;
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}
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template <typename Result, typename Error>
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bool RpcThreadPromise<Result, Error>::finished() const {
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auto val = m_getValue();
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MutexLocker lock(val->mutex);
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return val->result || val->error;
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}
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template <typename Result, typename Error>
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bool RpcThreadPromise<Result, Error>::succeeded() const {
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auto val = m_getValue();
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MutexLocker lock(val->mutex);
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return val->result.isValid();
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}
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template <typename Result, typename Error>
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bool RpcThreadPromise<Result, Error>::failed() const {
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auto val = m_getValue();
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MutexLocker lock(val->mutex);
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return val->error.isValid();
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}
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template <typename Result, typename Error>
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Maybe<Result> RpcThreadPromise<Result, Error>::result() const {
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auto val = m_getValue();
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MutexLocker lock(val->mutex);
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return val->result;
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}
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template <typename Result, typename Error>
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Maybe<Error> RpcThreadPromise<Result, Error>::error() const {
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auto val = m_getValue();
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MutexLocker lock(val->mutex);
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return val->error;
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}
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}
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#endif
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