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// Copyright 2021 gRPC authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include <functional>
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#include <map>
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#include <memory>
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#include <tuple>
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#include <utility>
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#include <vector>
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#include "absl/status/status.h"
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#include "absl/types/optional.h"
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#include <grpc/support/log.h>
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#include "src/core/lib/promise/activity.h"
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#include "src/core/lib/promise/detail/basic_join.h"
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#include "src/core/lib/promise/join.h"
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#include "src/core/lib/promise/map.h"
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#include "src/core/lib/promise/poll.h"
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#include "src/core/lib/promise/promise.h"
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#include "src/core/lib/promise/race.h"
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#include "src/core/lib/promise/seq.h"
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#include "src/libfuzzer/libfuzzer_macro.h"
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#include "test/core/promise/promise_fuzzer.pb.h"
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bool squelch = true;
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bool leak_check = true;
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namespace grpc_core {
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// Return type for infallible promises.
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// We choose this so that it's easy to construct, and will trigger asan failures
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// if misused, and is copyable.
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using IntHdl = std::shared_ptr<int>;
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template <typename T>
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using PromiseFactory = std::function<Promise<T>(T)>;
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namespace {
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class Fuzzer {
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public:
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void Run(const promise_fuzzer::Msg& msg) {
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// If there's no promise we can't construct and activity and... we're done.
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if (!msg.has_promise()) {
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return;
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}
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// Construct activity.
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activity_ = MakeActivity(
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[msg, this] {
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return Seq(MakePromise(msg.promise()),
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[] { return absl::OkStatus(); });
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},
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Scheduler{this},
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[this](absl::Status status) {
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// Must only be called once
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GPR_ASSERT(!done_);
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// If we became certain of the eventual status, verify it.
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if (expected_status_.has_value()) {
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GPR_ASSERT(status == *expected_status_);
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}
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// Mark ourselves done.
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done_ = true;
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});
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for (int i = 0; !done_ && activity_ != nullptr && i < msg.actions_size();
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i++) {
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// Do some things
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const auto& action = msg.actions(i);
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switch (action.action_type_case()) {
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// Force a wakeup
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case promise_fuzzer::Action::kForceWakeup:
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activity_->ForceWakeup();
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break;
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// Cancel from the outside
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case promise_fuzzer::Action::kCancel:
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ExpectCancelled();
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activity_.reset();
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break;
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// Flush any pending wakeups
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case promise_fuzzer::Action::kFlushWakeup:
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if (wakeup_ != nullptr) std::exchange(wakeup_, nullptr)();
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break;
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// Drop some wakeups (external system closed?)
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case promise_fuzzer::Action::kDropWaker: {
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int n = action.drop_waker();
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auto v = std::move(wakers_[n]);
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wakers_.erase(n);
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break;
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}
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// Wakeup some wakeups
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case promise_fuzzer::Action::kAwakeWaker: {
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int n = action.awake_waker();
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auto v = std::move(wakers_[n]);
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wakers_.erase(n);
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for (auto& w : v) {
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w.Wakeup();
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}
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break;
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}
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case promise_fuzzer::Action::ACTION_TYPE_NOT_SET:
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break;
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}
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}
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ExpectCancelled();
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activity_.reset();
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if (wakeup_ != nullptr) std::exchange(wakeup_, nullptr)();
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GPR_ASSERT(done_);
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}
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private:
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// Schedule wakeups against the fuzzer
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struct Scheduler {
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Fuzzer* fuzzer;
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template <typename ActivityType>
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class BoundScheduler {
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public:
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explicit BoundScheduler(Scheduler scheduler)
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: fuzzer_(scheduler.fuzzer) {}
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void ScheduleWakeup() {
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GPR_ASSERT(static_cast<ActivityType*>(this) ==
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fuzzer_->activity_.get());
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GPR_ASSERT(fuzzer_->wakeup_ == nullptr);
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fuzzer_->wakeup_ = [this]() {
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static_cast<ActivityType*>(this)->RunScheduledWakeup();
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};
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}
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private:
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Fuzzer* fuzzer_;
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};
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};
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// We know that if not already finished, the status when finished will be
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// cancelled.
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void ExpectCancelled() {
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if (!done_ && !expected_status_.has_value()) {
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expected_status_ = absl::CancelledError();
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}
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}
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// Construct a promise factory from a protobuf
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PromiseFactory<IntHdl> MakePromiseFactory(
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const promise_fuzzer::PromiseFactory& p) {
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switch (p.promise_factory_type_case()) {
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case promise_fuzzer::PromiseFactory::kPromise:
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return [p, this](IntHdl) { return MakePromise(p.promise()); };
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case promise_fuzzer::PromiseFactory::kLast:
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return [](IntHdl h) { return [h]() { return h; }; };
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case promise_fuzzer::PromiseFactory::PROMISE_FACTORY_TYPE_NOT_SET:
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break;
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}
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return [](IntHdl) {
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return []() -> Poll<IntHdl> { return std::make_shared<int>(42); };
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};
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}
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// Construct a promise from a protobuf
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Promise<IntHdl> MakePromise(const promise_fuzzer::Promise& p) {
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switch (p.promise_type_case()) {
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case promise_fuzzer::Promise::kSeq:
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switch (p.seq().promise_factories_size()) {
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case 1:
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return Seq(MakePromise(p.seq().first()),
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MakePromiseFactory(p.seq().promise_factories(0)));
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case 2:
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return Seq(MakePromise(p.seq().first()),
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MakePromiseFactory(p.seq().promise_factories(0)),
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MakePromiseFactory(p.seq().promise_factories(1)));
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case 3:
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return Seq(MakePromise(p.seq().first()),
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MakePromiseFactory(p.seq().promise_factories(0)),
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MakePromiseFactory(p.seq().promise_factories(1)),
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MakePromiseFactory(p.seq().promise_factories(2)));
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case 4:
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return Seq(MakePromise(p.seq().first()),
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MakePromiseFactory(p.seq().promise_factories(0)),
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MakePromiseFactory(p.seq().promise_factories(1)),
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MakePromiseFactory(p.seq().promise_factories(2)),
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MakePromiseFactory(p.seq().promise_factories(3)));
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case 5:
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return Seq(MakePromise(p.seq().first()),
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MakePromiseFactory(p.seq().promise_factories(0)),
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MakePromiseFactory(p.seq().promise_factories(1)),
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MakePromiseFactory(p.seq().promise_factories(2)),
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MakePromiseFactory(p.seq().promise_factories(3)),
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MakePromiseFactory(p.seq().promise_factories(4)));
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case 6:
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return Seq(MakePromise(p.seq().first()),
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MakePromiseFactory(p.seq().promise_factories(0)),
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MakePromiseFactory(p.seq().promise_factories(1)),
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MakePromiseFactory(p.seq().promise_factories(2)),
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MakePromiseFactory(p.seq().promise_factories(3)),
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MakePromiseFactory(p.seq().promise_factories(4)),
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MakePromiseFactory(p.seq().promise_factories(5)));
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}
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break;
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case promise_fuzzer::Promise::kJoin:
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switch (p.join().promises_size()) {
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case 1:
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return Map(Join(MakePromise(p.join().promises(0))),
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[](std::tuple<IntHdl> t) { return std::get<0>(t); });
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case 2:
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return Map(
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Join(MakePromise(p.join().promises(0)),
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MakePromise(p.join().promises(1))),
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[](std::tuple<IntHdl, IntHdl> t) { return std::get<0>(t); });
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case 3:
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return Map(Join(MakePromise(p.join().promises(0)),
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MakePromise(p.join().promises(1)),
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MakePromise(p.join().promises(2))),
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[](std::tuple<IntHdl, IntHdl, IntHdl> t) {
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return std::get<0>(t);
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});
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case 4:
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return Map(Join(MakePromise(p.join().promises(0)),
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MakePromise(p.join().promises(1)),
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MakePromise(p.join().promises(2)),
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MakePromise(p.join().promises(3))),
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[](std::tuple<IntHdl, IntHdl, IntHdl, IntHdl> t) {
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return std::get<0>(t);
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});
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case 5:
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return Map(
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Join(MakePromise(p.join().promises(0)),
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MakePromise(p.join().promises(1)),
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MakePromise(p.join().promises(2)),
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MakePromise(p.join().promises(3)),
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MakePromise(p.join().promises(4))),
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[](std::tuple<IntHdl, IntHdl, IntHdl, IntHdl, IntHdl> t) {
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return std::get<0>(t);
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});
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case 6:
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return Map(
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Join(MakePromise(p.join().promises(0)),
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MakePromise(p.join().promises(1)),
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MakePromise(p.join().promises(2)),
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MakePromise(p.join().promises(3)),
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MakePromise(p.join().promises(4)),
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MakePromise(p.join().promises(5))),
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[](std::tuple<IntHdl, IntHdl, IntHdl, IntHdl, IntHdl, IntHdl>
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t) { return std::get<0>(t); });
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}
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break;
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case promise_fuzzer::Promise::kRace:
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switch (p.race().promises_size()) {
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case 1:
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return Race(MakePromise(p.race().promises(0)));
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case 2:
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return Race(MakePromise(p.race().promises(0)),
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MakePromise(p.race().promises(1)));
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case 3:
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return Race(MakePromise(p.race().promises(0)),
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MakePromise(p.race().promises(1)),
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MakePromise(p.race().promises(2)));
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case 4:
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return Race(MakePromise(p.race().promises(0)),
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MakePromise(p.race().promises(1)),
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MakePromise(p.race().promises(2)),
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MakePromise(p.race().promises(3)));
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case 5:
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return Race(MakePromise(p.race().promises(0)),
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MakePromise(p.race().promises(1)),
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MakePromise(p.race().promises(2)),
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MakePromise(p.race().promises(3)),
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MakePromise(p.race().promises(4)));
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case 6:
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return Race(MakePromise(p.race().promises(0)),
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MakePromise(p.race().promises(1)),
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MakePromise(p.race().promises(2)),
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MakePromise(p.race().promises(3)),
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MakePromise(p.race().promises(4)),
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MakePromise(p.race().promises(5)));
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}
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break;
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case promise_fuzzer::Promise::kNever:
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return Never<IntHdl>();
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case promise_fuzzer::Promise::kSleepFirstN: {
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int n = p.sleep_first_n();
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return [n]() mutable -> Poll<IntHdl> {
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if (n <= 0) return std::make_shared<int>(0);
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n--;
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return Pending{};
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};
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}
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case promise_fuzzer::Promise::kCancelFromInside:
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return [this]() -> Poll<IntHdl> {
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this->activity_.reset();
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return Pending{};
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};
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case promise_fuzzer::Promise::kWaitOnceOnWaker: {
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bool called = false;
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auto config = p.wait_once_on_waker();
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return [this, config, called]() mutable -> Poll<IntHdl> {
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if (!called) {
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if (config.owning()) {
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wakers_[config.waker()].push_back(
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Activity::current()->MakeOwningWaker());
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} else {
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wakers_[config.waker()].push_back(
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Activity::current()->MakeNonOwningWaker());
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}
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return Pending();
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}
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return std::make_shared<int>(3);
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};
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}
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case promise_fuzzer::Promise::PromiseTypeCase::PROMISE_TYPE_NOT_SET:
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break;
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}
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return [] { return std::make_shared<int>(42); };
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}
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// Activity under test
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ActivityPtr activity_;
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// Scheduled wakeup (may be nullptr if no wakeup scheduled)
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std::function<void()> wakeup_;
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// If we are certain of the final status, then that. Otherwise, nullopt if we
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// don't know.
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absl::optional<absl::Status> expected_status_;
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// Has on_done been called?
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bool done_ = false;
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// Wakers that may be scheduled
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std::map<int, std::vector<Waker>> wakers_;
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};
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} // namespace
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} // namespace grpc_core
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DEFINE_PROTO_FUZZER(const promise_fuzzer::Msg& msg) {
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grpc_core::Fuzzer().Run(msg);
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}
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