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/*
*
4 years ago
* Copyright 2019 gRPC authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef GRPCPP_IMPL_CODEGEN_CLIENT_CALLBACK_H
#define GRPCPP_IMPL_CODEGEN_CLIENT_CALLBACK_H
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#include <atomic>
#include <functional>
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#include <grpcpp/impl/codegen/call.h>
#include <grpcpp/impl/codegen/call_op_set.h>
#include <grpcpp/impl/codegen/callback_common.h>
#include <grpcpp/impl/codegen/channel_interface.h>
#include <grpcpp/impl/codegen/config.h>
#include <grpcpp/impl/codegen/core_codegen_interface.h>
#include <grpcpp/impl/codegen/status.h>
namespace grpc {
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class Channel;
class ClientContext;
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namespace internal {
class RpcMethod;
/// Perform a callback-based unary call
/// TODO(vjpai): Combine as much as possible with the blocking unary call code
template <class InputMessage, class OutputMessage>
void CallbackUnaryCall(::grpc::ChannelInterface* channel,
const ::grpc::internal::RpcMethod& method,
::grpc::ClientContext* context,
const InputMessage* request, OutputMessage* result,
std::function<void(::grpc::Status)> on_completion) {
CallbackUnaryCallImpl<InputMessage, OutputMessage> x(
channel, method, context, request, result, on_completion);
}
template <class InputMessage, class OutputMessage>
class CallbackUnaryCallImpl {
public:
CallbackUnaryCallImpl(::grpc::ChannelInterface* channel,
const ::grpc::internal::RpcMethod& method,
::grpc::ClientContext* context,
const InputMessage* request, OutputMessage* result,
std::function<void(::grpc::Status)> on_completion) {
::grpc::CompletionQueue* cq = channel->CallbackCQ();
GPR_CODEGEN_ASSERT(cq != nullptr);
grpc::internal::Call call(channel->CreateCall(method, context, cq));
using FullCallOpSet = grpc::internal::CallOpSet<
::grpc::internal::CallOpSendInitialMetadata,
grpc::internal::CallOpSendMessage,
grpc::internal::CallOpRecvInitialMetadata,
grpc::internal::CallOpRecvMessage<OutputMessage>,
grpc::internal::CallOpClientSendClose,
grpc::internal::CallOpClientRecvStatus>;
struct OpSetAndTag {
FullCallOpSet opset;
grpc::internal::CallbackWithStatusTag tag;
};
const size_t alloc_sz = sizeof(OpSetAndTag);
auto* const alloced = static_cast<OpSetAndTag*>(
::grpc::g_core_codegen_interface->grpc_call_arena_alloc(call.call(),
alloc_sz));
auto* ops = new (&alloced->opset) FullCallOpSet;
auto* tag = new (&alloced->tag)
grpc::internal::CallbackWithStatusTag(call.call(), on_completion, ops);
// TODO(vjpai): Unify code with sync API as much as possible
::grpc::Status s = ops->SendMessagePtr(request);
if (!s.ok()) {
tag->force_run(s);
return;
}
ops->SendInitialMetadata(&context->send_initial_metadata_,
context->initial_metadata_flags());
ops->RecvInitialMetadata(context);
ops->RecvMessage(result);
ops->AllowNoMessage();
ops->ClientSendClose();
ops->ClientRecvStatus(context, tag->status_ptr());
ops->set_core_cq_tag(tag);
call.PerformOps(ops);
}
};
// Base class for public API classes.
class ClientReactor {
public:
/// Called by the library when all operations associated with this RPC have
/// completed and all Holds have been removed. OnDone provides the RPC status
/// outcome for both successful and failed RPCs. If it is never called on an
/// RPC, it indicates an application-level problem (like failure to remove a
/// hold).
///
/// \param[in] s The status outcome of this RPC
virtual void OnDone(const ::grpc::Status& /*s*/) = 0;
/// InternalScheduleOnDone is not part of the API and is not meant to be
/// overridden. It is virtual to allow successful builds for certain bazel
/// build users that only want to depend on gRPC codegen headers and not the
/// full library (although this is not a generally-supported option). Although
/// the virtual call is slower than a direct call, this function is
/// heavyweight and the cost of the virtual call is not much in comparison.
/// This function may be removed or devirtualized in the future.
virtual void InternalScheduleOnDone(::grpc::Status s);
};
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} // namespace internal
// Forward declarations
template <class Request, class Response>
class ClientBidiReactor;
template <class Response>
class ClientReadReactor;
template <class Request>
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class ClientWriteReactor;
class ClientUnaryReactor;
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// NOTE: The streaming objects are not actually implemented in the public API.
// These interfaces are provided for mocking only. Typical applications
// will interact exclusively with the reactors that they define.
template <class Request, class Response>
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class ClientCallbackReaderWriter {
public:
virtual ~ClientCallbackReaderWriter() {}
virtual void StartCall() = 0;
virtual void Write(const Request* req, ::grpc::WriteOptions options) = 0;
virtual void WritesDone() = 0;
virtual void Read(Response* resp) = 0;
virtual void AddHold(int holds) = 0;
virtual void RemoveHold() = 0;
protected:
void BindReactor(ClientBidiReactor<Request, Response>* reactor) {
reactor->BindStream(this);
}
};
template <class Response>
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class ClientCallbackReader {
public:
virtual ~ClientCallbackReader() {}
virtual void StartCall() = 0;
virtual void Read(Response* resp) = 0;
virtual void AddHold(int holds) = 0;
virtual void RemoveHold() = 0;
protected:
void BindReactor(ClientReadReactor<Response>* reactor) {
reactor->BindReader(this);
}
};
template <class Request>
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class ClientCallbackWriter {
public:
virtual ~ClientCallbackWriter() {}
virtual void StartCall() = 0;
void Write(const Request* req) { Write(req, ::grpc::WriteOptions()); }
virtual void Write(const Request* req, ::grpc::WriteOptions options) = 0;
void WriteLast(const Request* req, ::grpc::WriteOptions options) {
Write(req, options.set_last_message());
}
virtual void WritesDone() = 0;
virtual void AddHold(int holds) = 0;
virtual void RemoveHold() = 0;
protected:
void BindReactor(ClientWriteReactor<Request>* reactor) {
reactor->BindWriter(this);
}
};
class ClientCallbackUnary {
public:
virtual ~ClientCallbackUnary() {}
virtual void StartCall() = 0;
protected:
void BindReactor(ClientUnaryReactor* reactor);
};
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// The following classes are the reactor interfaces that are to be implemented
// by the user. They are passed in to the library as an argument to a call on a
// stub (either a codegen-ed call or a generic call). The streaming RPC is
// activated by calling StartCall, possibly after initiating StartRead,
// StartWrite, or AddHold operations on the streaming object. Note that none of
// the classes are pure; all reactions have a default empty reaction so that the
// user class only needs to override those classes that it cares about.
// The reactor must be passed to the stub invocation before any of the below
// operations can be called.
/// \a ClientBidiReactor is the interface for a bidirectional streaming RPC.
template <class Request, class Response>
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class ClientBidiReactor : public internal::ClientReactor {
public:
virtual ~ClientBidiReactor() {}
/// Activate the RPC and initiate any reads or writes that have been Start'ed
/// before this call. All streaming RPCs issued by the client MUST have
/// StartCall invoked on them (even if they are canceled) as this call is the
/// activation of their lifecycle.
void StartCall() { stream_->StartCall(); }
/// Initiate a read operation (or post it for later initiation if StartCall
/// has not yet been invoked).
///
/// \param[out] resp Where to eventually store the read message. Valid when
/// the library calls OnReadDone
void StartRead(Response* resp) { stream_->Read(resp); }
/// Initiate a write operation (or post it for later initiation if StartCall
/// has not yet been invoked).
///
/// \param[in] req The message to be written. The library does not take
/// ownership but the caller must ensure that the message is
/// not deleted or modified until OnWriteDone is called.
void StartWrite(const Request* req) {
StartWrite(req, ::grpc::WriteOptions());
}
/// Initiate/post a write operation with specified options.
///
/// \param[in] req The message to be written. The library does not take
/// ownership but the caller must ensure that the message is
/// not deleted or modified until OnWriteDone is called.
/// \param[in] options The WriteOptions to use for writing this message
void StartWrite(const Request* req, ::grpc::WriteOptions options) {
stream_->Write(req, std::move(options));
}
/// Initiate/post a write operation with specified options and an indication
/// that this is the last write (like StartWrite and StartWritesDone, merged).
/// Note that calling this means that no more calls to StartWrite,
/// StartWriteLast, or StartWritesDone are allowed.
///
/// \param[in] req The message to be written. The library does not take
/// ownership but the caller must ensure that the message is
/// not deleted or modified until OnWriteDone is called.
/// \param[in] options The WriteOptions to use for writing this message
void StartWriteLast(const Request* req, ::grpc::WriteOptions options) {
StartWrite(req, std::move(options.set_last_message()));
}
/// Indicate that the RPC will have no more write operations. This can only be
/// issued once for a given RPC. This is not required or allowed if
/// StartWriteLast is used since that already has the same implication.
/// Note that calling this means that no more calls to StartWrite,
/// StartWriteLast, or StartWritesDone are allowed.
void StartWritesDone() { stream_->WritesDone(); }
/// Holds are needed if (and only if) this stream has operations that take
/// place on it after StartCall but from outside one of the reactions
/// (OnReadDone, etc). This is _not_ a common use of the streaming API.
///
/// Holds must be added before calling StartCall. If a stream still has a hold
/// in place, its resources will not be destroyed even if the status has
/// already come in from the wire and there are currently no active callbacks
/// outstanding. Similarly, the stream will not call OnDone if there are still
/// holds on it.
///
/// For example, if a StartRead or StartWrite operation is going to be
/// initiated from elsewhere in the application, the application should call
/// AddHold or AddMultipleHolds before StartCall. If there is going to be,
/// for example, a read-flow and a write-flow taking place outside the
/// reactions, then call AddMultipleHolds(2) before StartCall. When the
/// application knows that it won't issue any more read operations (such as
/// when a read comes back as not ok), it should issue a RemoveHold(). It
/// should also call RemoveHold() again after it does StartWriteLast or
/// StartWritesDone that indicates that there will be no more write ops.
/// The number of RemoveHold calls must match the total number of AddHold
/// calls plus the number of holds added by AddMultipleHolds.
/// The argument to AddMultipleHolds must be positive.
void AddHold() { AddMultipleHolds(1); }
void AddMultipleHolds(int holds) {
GPR_CODEGEN_DEBUG_ASSERT(holds > 0);
stream_->AddHold(holds);
}
void RemoveHold() { stream_->RemoveHold(); }
/// Notifies the application that all operations associated with this RPC
/// have completed and all Holds have been removed. OnDone provides the RPC
/// status outcome for both successful and failed RPCs and will be called in
/// all cases. If it is not called, it indicates an application-level problem
/// (like failure to remove a hold).
///
/// \param[in] s The status outcome of this RPC
void OnDone(const ::grpc::Status& /*s*/) override {}
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/// Notifies the application that a read of initial metadata from the
/// server is done. If the application chooses not to implement this method,
/// it can assume that the initial metadata has been read before the first
/// call of OnReadDone or OnDone.
///
/// \param[in] ok Was the initial metadata read successfully? If false, no
/// new read/write operation will succeed, and any further
/// Start* operations should not be called.
virtual void OnReadInitialMetadataDone(bool /*ok*/) {}
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/// Notifies the application that a StartRead operation completed.
///
/// \param[in] ok Was it successful? If false, no new read/write operation
/// will succeed, and any further Start* should not be called.
virtual void OnReadDone(bool /*ok*/) {}
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/// Notifies the application that a StartWrite or StartWriteLast operation
/// completed.
///
/// \param[in] ok Was it successful? If false, no new read/write operation
/// will succeed, and any further Start* should not be called.
virtual void OnWriteDone(bool /*ok*/) {}
/// Notifies the application that a StartWritesDone operation completed. Note
/// that this is only used on explicit StartWritesDone operations and not for
/// those that are implicitly invoked as part of a StartWriteLast.
///
/// \param[in] ok Was it successful? If false, the application will later see
/// the failure reflected as a bad status in OnDone and no
/// further Start* should be called.
virtual void OnWritesDoneDone(bool /*ok*/) {}
private:
friend class ClientCallbackReaderWriter<Request, Response>;
void BindStream(ClientCallbackReaderWriter<Request, Response>* stream) {
stream_ = stream;
}
ClientCallbackReaderWriter<Request, Response>* stream_;
};
/// \a ClientReadReactor is the interface for a server-streaming RPC.
/// All public methods behave as in ClientBidiReactor.
template <class Response>
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class ClientReadReactor : public internal::ClientReactor {
public:
virtual ~ClientReadReactor() {}
void StartCall() { reader_->StartCall(); }
void StartRead(Response* resp) { reader_->Read(resp); }
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void AddHold() { AddMultipleHolds(1); }
void AddMultipleHolds(int holds) {
GPR_CODEGEN_DEBUG_ASSERT(holds > 0);
reader_->AddHold(holds);
}
void RemoveHold() { reader_->RemoveHold(); }
void OnDone(const ::grpc::Status& /*s*/) override {}
virtual void OnReadInitialMetadataDone(bool /*ok*/) {}
virtual void OnReadDone(bool /*ok*/) {}
private:
friend class ClientCallbackReader<Response>;
void BindReader(ClientCallbackReader<Response>* reader) { reader_ = reader; }
ClientCallbackReader<Response>* reader_;
};
/// \a ClientWriteReactor is the interface for a client-streaming RPC.
/// All public methods behave as in ClientBidiReactor.
template <class Request>
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class ClientWriteReactor : public internal::ClientReactor {
public:
virtual ~ClientWriteReactor() {}
void StartCall() { writer_->StartCall(); }
void StartWrite(const Request* req) {
StartWrite(req, ::grpc::WriteOptions());
}
void StartWrite(const Request* req, ::grpc::WriteOptions options) {
writer_->Write(req, std::move(options));
}
void StartWriteLast(const Request* req, ::grpc::WriteOptions options) {
StartWrite(req, std::move(options.set_last_message()));
}
void StartWritesDone() { writer_->WritesDone(); }
void AddHold() { AddMultipleHolds(1); }
void AddMultipleHolds(int holds) {
GPR_CODEGEN_DEBUG_ASSERT(holds > 0);
writer_->AddHold(holds);
}
void RemoveHold() { writer_->RemoveHold(); }
void OnDone(const ::grpc::Status& /*s*/) override {}
virtual void OnReadInitialMetadataDone(bool /*ok*/) {}
virtual void OnWriteDone(bool /*ok*/) {}
virtual void OnWritesDoneDone(bool /*ok*/) {}
private:
friend class ClientCallbackWriter<Request>;
void BindWriter(ClientCallbackWriter<Request>* writer) { writer_ = writer; }
ClientCallbackWriter<Request>* writer_;
};
/// \a ClientUnaryReactor is a reactor-style interface for a unary RPC.
/// This is _not_ a common way of invoking a unary RPC. In practice, this
/// option should be used only if the unary RPC wants to receive initial
/// metadata without waiting for the response to complete. Most deployments of
/// RPC systems do not use this option, but it is needed for generality.
/// All public methods behave as in ClientBidiReactor.
/// StartCall is included for consistency with the other reactor flavors: even
/// though there are no StartRead or StartWrite operations to queue before the
/// call (that is part of the unary call itself) and there is no reactor object
/// being created as a result of this call, we keep a consistent 2-phase
/// initiation API among all the reactor flavors.
class ClientUnaryReactor : public internal::ClientReactor {
public:
virtual ~ClientUnaryReactor() {}
void StartCall() { call_->StartCall(); }
void OnDone(const ::grpc::Status& /*s*/) override {}
virtual void OnReadInitialMetadataDone(bool /*ok*/) {}
private:
friend class ClientCallbackUnary;
void BindCall(ClientCallbackUnary* call) { call_ = call; }
ClientCallbackUnary* call_;
};
// Define function out-of-line from class to avoid forward declaration issue
inline void ClientCallbackUnary::BindReactor(ClientUnaryReactor* reactor) {
reactor->BindCall(this);
}
namespace internal {
// Forward declare factory classes for friendship
template <class Request, class Response>
class ClientCallbackReaderWriterFactory;
template <class Response>
class ClientCallbackReaderFactory;
template <class Request>
class ClientCallbackWriterFactory;
template <class Request, class Response>
class ClientCallbackReaderWriterImpl
: public ClientCallbackReaderWriter<Request, Response> {
public:
// always allocated against a call arena, no memory free required
static void operator delete(void* /*ptr*/, std::size_t size) {
GPR_CODEGEN_ASSERT(size == sizeof(ClientCallbackReaderWriterImpl));
}
// This operator should never be called as the memory should be freed as part
// of the arena destruction. It only exists to provide a matching operator
// delete to the operator new so that some compilers will not complain (see
// https://github.com/grpc/grpc/issues/11301) Note at the time of adding this
// there are no tests catching the compiler warning.
static void operator delete(void*, void*) { GPR_CODEGEN_ASSERT(false); }
void StartCall() override {
// This call initiates two batches, plus any backlog, each with a callback
// 1. Send initial metadata (unless corked) + recv initial metadata
// 2. Any read backlog
// 3. Any write backlog
// 4. Recv trailing metadata (unless corked)
if (!start_corked_) {
start_ops_.SendInitialMetadata(&context_->send_initial_metadata_,
context_->initial_metadata_flags());
}
call_.PerformOps(&start_ops_);
{
grpc::internal::MutexLock lock(&start_mu_);
if (backlog_.read_ops) {
call_.PerformOps(&read_ops_);
}
if (backlog_.write_ops) {
call_.PerformOps(&write_ops_);
}
if (backlog_.writes_done_ops) {
call_.PerformOps(&writes_done_ops_);
}
call_.PerformOps(&finish_ops_);
// The last thing in this critical section is to set started_ so that it
// can be used lock-free as well.
started_.store(true, std::memory_order_release);
}
// MaybeFinish outside the lock to make sure that destruction of this object
// doesn't take place while holding the lock (which would cause the lock to
// be released after destruction)
this->MaybeFinish(/*from_reaction=*/false);
}
void Read(Response* msg) override {
read_ops_.RecvMessage(msg);
callbacks_outstanding_.fetch_add(1, std::memory_order_relaxed);
if (GPR_UNLIKELY(!started_.load(std::memory_order_acquire))) {
grpc::internal::MutexLock lock(&start_mu_);
if (GPR_LIKELY(!started_.load(std::memory_order_relaxed))) {
backlog_.read_ops = true;
return;
}
}
call_.PerformOps(&read_ops_);
}
void Write(const Request* msg, ::grpc::WriteOptions options) override {
if (options.is_last_message()) {
options.set_buffer_hint();
write_ops_.ClientSendClose();
}
// TODO(vjpai): don't assert
GPR_CODEGEN_ASSERT(write_ops_.SendMessagePtr(msg, options).ok());
callbacks_outstanding_.fetch_add(1, std::memory_order_relaxed);
if (GPR_UNLIKELY(corked_write_needed_)) {
write_ops_.SendInitialMetadata(&context_->send_initial_metadata_,
context_->initial_metadata_flags());
corked_write_needed_ = false;
}
if (GPR_UNLIKELY(!started_.load(std::memory_order_acquire))) {
grpc::internal::MutexLock lock(&start_mu_);
if (GPR_LIKELY(!started_.load(std::memory_order_relaxed))) {
backlog_.write_ops = true;
return;
}
}
call_.PerformOps(&write_ops_);
}
void WritesDone() override {
writes_done_ops_.ClientSendClose();
writes_done_tag_.Set(call_.call(),
[this](bool ok) {
reactor_->OnWritesDoneDone(ok);
MaybeFinish(/*from_reaction=*/true);
},
&writes_done_ops_, /*can_inline=*/false);
writes_done_ops_.set_core_cq_tag(&writes_done_tag_);
callbacks_outstanding_.fetch_add(1, std::memory_order_relaxed);
if (GPR_UNLIKELY(corked_write_needed_)) {
writes_done_ops_.SendInitialMetadata(&context_->send_initial_metadata_,
context_->initial_metadata_flags());
corked_write_needed_ = false;
}
if (GPR_UNLIKELY(!started_.load(std::memory_order_acquire))) {
grpc::internal::MutexLock lock(&start_mu_);
if (GPR_LIKELY(!started_.load(std::memory_order_relaxed))) {
backlog_.writes_done_ops = true;
return;
}
}
call_.PerformOps(&writes_done_ops_);
}
void AddHold(int holds) override {
callbacks_outstanding_.fetch_add(holds, std::memory_order_relaxed);
}
void RemoveHold() override { MaybeFinish(/*from_reaction=*/false); }
private:
friend class ClientCallbackReaderWriterFactory<Request, Response>;
ClientCallbackReaderWriterImpl(grpc::internal::Call call,
::grpc::ClientContext* context,
ClientBidiReactor<Request, Response>* reactor)
: context_(context),
call_(call),
reactor_(reactor),
start_corked_(context_->initial_metadata_corked_),
corked_write_needed_(start_corked_) {
this->BindReactor(reactor);
// Set up the unchanging parts of the start, read, and write tags and ops.
start_tag_.Set(call_.call(),
[this](bool ok) {
reactor_->OnReadInitialMetadataDone(ok);
MaybeFinish(/*from_reaction=*/true);
},
&start_ops_, /*can_inline=*/false);
start_ops_.RecvInitialMetadata(context_);
start_ops_.set_core_cq_tag(&start_tag_);
write_tag_.Set(call_.call(),
[this](bool ok) {
reactor_->OnWriteDone(ok);
MaybeFinish(/*from_reaction=*/true);
},
&write_ops_, /*can_inline=*/false);
write_ops_.set_core_cq_tag(&write_tag_);
read_tag_.Set(call_.call(),
[this](bool ok) {
reactor_->OnReadDone(ok);
MaybeFinish(/*from_reaction=*/true);
},
&read_ops_, /*can_inline=*/false);
read_ops_.set_core_cq_tag(&read_tag_);
// Also set up the Finish tag and op set.
finish_tag_.Set(
call_.call(),
[this](bool /*ok*/) { MaybeFinish(/*from_reaction=*/true); },
&finish_ops_,
/*can_inline=*/false);
finish_ops_.ClientRecvStatus(context_, &finish_status_);
finish_ops_.set_core_cq_tag(&finish_tag_);
}
// MaybeFinish can be called from reactions or from user-initiated operations
// like StartCall or RemoveHold. If this is the last operation or hold on this
// object, it will invoke the OnDone reaction. If MaybeFinish was called from
// a reaction, it can call OnDone directly. If not, it would need to schedule
// OnDone onto an executor thread to avoid the possibility of deadlocking with
// any locks in the user code that invoked it.
void MaybeFinish(bool from_reaction) {
if (GPR_UNLIKELY(callbacks_outstanding_.fetch_sub(
1, std::memory_order_acq_rel) == 1)) {
::grpc::Status s = std::move(finish_status_);
auto* reactor = reactor_;
auto* call = call_.call();
this->~ClientCallbackReaderWriterImpl();
::grpc::g_core_codegen_interface->grpc_call_unref(call);
if (GPR_LIKELY(from_reaction)) {
reactor->OnDone(s);
} else {
reactor->InternalScheduleOnDone(std::move(s));
}
}
}
::grpc::ClientContext* const context_;
grpc::internal::Call call_;
ClientBidiReactor<Request, Response>* const reactor_;
grpc::internal::CallOpSet<grpc::internal::CallOpSendInitialMetadata,
grpc::internal::CallOpRecvInitialMetadata>
start_ops_;
grpc::internal::CallbackWithSuccessTag start_tag_;
const bool start_corked_;
bool corked_write_needed_; // no lock needed since only accessed in
// Write/WritesDone which cannot be concurrent
grpc::internal::CallOpSet<grpc::internal::CallOpClientRecvStatus> finish_ops_;
grpc::internal::CallbackWithSuccessTag finish_tag_;
::grpc::Status finish_status_;
grpc::internal::CallOpSet<grpc::internal::CallOpSendInitialMetadata,
grpc::internal::CallOpSendMessage,
grpc::internal::CallOpClientSendClose>
write_ops_;
grpc::internal::CallbackWithSuccessTag write_tag_;
grpc::internal::CallOpSet<grpc::internal::CallOpSendInitialMetadata,
grpc::internal::CallOpClientSendClose>
writes_done_ops_;
grpc::internal::CallbackWithSuccessTag writes_done_tag_;
grpc::internal::CallOpSet<grpc::internal::CallOpRecvMessage<Response>>
read_ops_;
grpc::internal::CallbackWithSuccessTag read_tag_;
struct StartCallBacklog {
bool write_ops = false;
bool writes_done_ops = false;
bool read_ops = false;
};
StartCallBacklog backlog_ /* GUARDED_BY(start_mu_) */;
// Minimum of 3 callbacks to pre-register for start ops, StartCall, and finish
std::atomic<intptr_t> callbacks_outstanding_{3};
std::atomic_bool started_{false};
grpc::internal::Mutex start_mu_;
};
template <class Request, class Response>
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class ClientCallbackReaderWriterFactory {
public:
static void Create(::grpc::ChannelInterface* channel,
const ::grpc::internal::RpcMethod& method,
::grpc::ClientContext* context,
ClientBidiReactor<Request, Response>* reactor) {
grpc::internal::Call call =
channel->CreateCall(method, context, channel->CallbackCQ());
::grpc::g_core_codegen_interface->grpc_call_ref(call.call());
new (::grpc::g_core_codegen_interface->grpc_call_arena_alloc(
call.call(), sizeof(ClientCallbackReaderWriterImpl<Request, Response>)))
ClientCallbackReaderWriterImpl<Request, Response>(call, context,
reactor);
}
};
template <class Response>
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class ClientCallbackReaderImpl : public ClientCallbackReader<Response> {
public:
// always allocated against a call arena, no memory free required
static void operator delete(void* /*ptr*/, std::size_t size) {
GPR_CODEGEN_ASSERT(size == sizeof(ClientCallbackReaderImpl));
}
// This operator should never be called as the memory should be freed as part
// of the arena destruction. It only exists to provide a matching operator
// delete to the operator new so that some compilers will not complain (see
// https://github.com/grpc/grpc/issues/11301) Note at the time of adding this
// there are no tests catching the compiler warning.
static void operator delete(void*, void*) { GPR_CODEGEN_ASSERT(false); }
void StartCall() override {
// This call initiates two batches, plus any backlog, each with a callback
// 1. Send initial metadata (unless corked) + recv initial metadata
// 2. Any backlog
// 3. Recv trailing metadata
start_tag_.Set(call_.call(),
[this](bool ok) {
reactor_->OnReadInitialMetadataDone(ok);
MaybeFinish(/*from_reaction=*/true);
},
&start_ops_, /*can_inline=*/false);
start_ops_.SendInitialMetadata(&context_->send_initial_metadata_,
context_->initial_metadata_flags());
start_ops_.RecvInitialMetadata(context_);
start_ops_.set_core_cq_tag(&start_tag_);
call_.PerformOps(&start_ops_);
// Also set up the read tag so it doesn't have to be set up each time
read_tag_.Set(call_.call(),
[this](bool ok) {
reactor_->OnReadDone(ok);
MaybeFinish(/*from_reaction=*/true);
},
&read_ops_, /*can_inline=*/false);
read_ops_.set_core_cq_tag(&read_tag_);
{
grpc::internal::MutexLock lock(&start_mu_);
if (backlog_.read_ops) {
call_.PerformOps(&read_ops_);
}
started_.store(true, std::memory_order_release);
}
finish_tag_.Set(
call_.call(),
[this](bool /*ok*/) { MaybeFinish(/*from_reaction=*/true); },
&finish_ops_, /*can_inline=*/false);
finish_ops_.ClientRecvStatus(context_, &finish_status_);
finish_ops_.set_core_cq_tag(&finish_tag_);
call_.PerformOps(&finish_ops_);
}
void Read(Response* msg) override {
read_ops_.RecvMessage(msg);
callbacks_outstanding_.fetch_add(1, std::memory_order_relaxed);
if (GPR_UNLIKELY(!started_.load(std::memory_order_acquire))) {
grpc::internal::MutexLock lock(&start_mu_);
if (GPR_LIKELY(!started_.load(std::memory_order_relaxed))) {
backlog_.read_ops = true;
return;
}
}
call_.PerformOps(&read_ops_);
}
void AddHold(int holds) override {
callbacks_outstanding_.fetch_add(holds, std::memory_order_relaxed);
}
void RemoveHold() override { MaybeFinish(/*from_reaction=*/false); }
private:
friend class ClientCallbackReaderFactory<Response>;
template <class Request>
ClientCallbackReaderImpl(::grpc::internal::Call call,
::grpc::ClientContext* context, Request* request,
ClientReadReactor<Response>* reactor)
: context_(context), call_(call), reactor_(reactor) {
this->BindReactor(reactor);
// TODO(vjpai): don't assert
GPR_CODEGEN_ASSERT(start_ops_.SendMessagePtr(request).ok());
start_ops_.ClientSendClose();
}
// MaybeFinish behaves as in ClientCallbackReaderWriterImpl.
void MaybeFinish(bool from_reaction) {
if (GPR_UNLIKELY(callbacks_outstanding_.fetch_sub(
1, std::memory_order_acq_rel) == 1)) {
::grpc::Status s = std::move(finish_status_);
auto* reactor = reactor_;
auto* call = call_.call();
this->~ClientCallbackReaderImpl();
::grpc::g_core_codegen_interface->grpc_call_unref(call);
if (GPR_LIKELY(from_reaction)) {
reactor->OnDone(s);
} else {
reactor->InternalScheduleOnDone(std::move(s));
}
}
}
::grpc::ClientContext* const context_;
grpc::internal::Call call_;
ClientReadReactor<Response>* const reactor_;
grpc::internal::CallOpSet<grpc::internal::CallOpSendInitialMetadata,
grpc::internal::CallOpSendMessage,
grpc::internal::CallOpClientSendClose,
grpc::internal::CallOpRecvInitialMetadata>
start_ops_;
grpc::internal::CallbackWithSuccessTag start_tag_;
grpc::internal::CallOpSet<grpc::internal::CallOpClientRecvStatus> finish_ops_;
grpc::internal::CallbackWithSuccessTag finish_tag_;
::grpc::Status finish_status_;
grpc::internal::CallOpSet<grpc::internal::CallOpRecvMessage<Response>>
read_ops_;
grpc::internal::CallbackWithSuccessTag read_tag_;
struct StartCallBacklog {
bool read_ops = false;
};
StartCallBacklog backlog_ /* GUARDED_BY(start_mu_) */;
// Minimum of 2 callbacks to pre-register for start and finish
std::atomic<intptr_t> callbacks_outstanding_{2};
std::atomic_bool started_{false};
grpc::internal::Mutex start_mu_;
};
template <class Response>
class ClientCallbackReaderFactory {
public:
template <class Request>
static void Create(::grpc::ChannelInterface* channel,
const ::grpc::internal::RpcMethod& method,
::grpc::ClientContext* context, const Request* request,
ClientReadReactor<Response>* reactor) {
grpc::internal::Call call =
channel->CreateCall(method, context, channel->CallbackCQ());
::grpc::g_core_codegen_interface->grpc_call_ref(call.call());
new (::grpc::g_core_codegen_interface->grpc_call_arena_alloc(
call.call(), sizeof(ClientCallbackReaderImpl<Response>)))
ClientCallbackReaderImpl<Response>(call, context, request, reactor);
}
};
template <class Request>
4 years ago
class ClientCallbackWriterImpl : public ClientCallbackWriter<Request> {
public:
// always allocated against a call arena, no memory free required
static void operator delete(void* /*ptr*/, std::size_t size) {
GPR_CODEGEN_ASSERT(size == sizeof(ClientCallbackWriterImpl));
}
4 years ago
// This operator should never be called as the memory should be freed as part
// of the arena destruction. It only exists to provide a matching operator
// delete to the operator new so that some compilers will not complain (see
// https://github.com/grpc/grpc/issues/11301) Note at the time of adding this
// there are no tests catching the compiler warning.
static void operator delete(void*, void*) { GPR_CODEGEN_ASSERT(false); }
4 years ago
void StartCall() override {
// This call initiates two batches, plus any backlog, each with a callback
// 1. Send initial metadata (unless corked) + recv initial metadata
// 2. Any backlog
// 3. Recv trailing metadata
4 years ago
if (!start_corked_) {
start_ops_.SendInitialMetadata(&context_->send_initial_metadata_,
context_->initial_metadata_flags());
}
call_.PerformOps(&start_ops_);
{
grpc::internal::MutexLock lock(&start_mu_);
if (backlog_.write_ops) {
call_.PerformOps(&write_ops_);
}
if (backlog_.writes_done_ops) {
call_.PerformOps(&writes_done_ops_);
}
call_.PerformOps(&finish_ops_);
// The last thing in this critical section is to set started_ so that it
// can be used lock-free as well.
started_.store(true, std::memory_order_release);
}
// MaybeFinish outside the lock to make sure that destruction of this object
// doesn't take place while holding the lock (which would cause the lock to
// be released after destruction)
this->MaybeFinish(/*from_reaction=*/false);
}
void Write(const Request* msg, ::grpc::WriteOptions options) override {
if (GPR_UNLIKELY(options.is_last_message())) {
options.set_buffer_hint();
write_ops_.ClientSendClose();
}
// TODO(vjpai): don't assert
GPR_CODEGEN_ASSERT(write_ops_.SendMessagePtr(msg, options).ok());
callbacks_outstanding_.fetch_add(1, std::memory_order_relaxed);
if (GPR_UNLIKELY(corked_write_needed_)) {
write_ops_.SendInitialMetadata(&context_->send_initial_metadata_,
context_->initial_metadata_flags());
corked_write_needed_ = false;
}
if (GPR_UNLIKELY(!started_.load(std::memory_order_acquire))) {
grpc::internal::MutexLock lock(&start_mu_);
if (GPR_LIKELY(!started_.load(std::memory_order_relaxed))) {
backlog_.write_ops = true;
return;
}
}
call_.PerformOps(&write_ops_);
}
void WritesDone() override {
writes_done_ops_.ClientSendClose();
writes_done_tag_.Set(call_.call(),
[this](bool ok) {
reactor_->OnWritesDoneDone(ok);
MaybeFinish(/*from_reaction=*/true);
},
&writes_done_ops_, /*can_inline=*/false);
writes_done_ops_.set_core_cq_tag(&writes_done_tag_);
callbacks_outstanding_.fetch_add(1, std::memory_order_relaxed);
if (GPR_UNLIKELY(corked_write_needed_)) {
writes_done_ops_.SendInitialMetadata(&context_->send_initial_metadata_,
context_->initial_metadata_flags());
corked_write_needed_ = false;
}
4 years ago
if (GPR_UNLIKELY(!started_.load(std::memory_order_acquire))) {
grpc::internal::MutexLock lock(&start_mu_);
if (GPR_LIKELY(!started_.load(std::memory_order_relaxed))) {
backlog_.writes_done_ops = true;
return;
}
}
call_.PerformOps(&writes_done_ops_);
}
void AddHold(int holds) override {
callbacks_outstanding_.fetch_add(holds, std::memory_order_relaxed);
}
void RemoveHold() override { MaybeFinish(/*from_reaction=*/false); }
private:
friend class ClientCallbackWriterFactory<Request>;
template <class Response>
ClientCallbackWriterImpl(::grpc::internal::Call call,
::grpc::ClientContext* context, Response* response,
ClientWriteReactor<Request>* reactor)
: context_(context),
call_(call),
reactor_(reactor),
start_corked_(context_->initial_metadata_corked_),
corked_write_needed_(start_corked_) {
this->BindReactor(reactor);
// Set up the unchanging parts of the start and write tags and ops.
start_tag_.Set(call_.call(),
[this](bool ok) {
reactor_->OnReadInitialMetadataDone(ok);
MaybeFinish(/*from_reaction=*/true);
},
&start_ops_, /*can_inline=*/false);
start_ops_.RecvInitialMetadata(context_);
start_ops_.set_core_cq_tag(&start_tag_);
write_tag_.Set(call_.call(),
[this](bool ok) {
reactor_->OnWriteDone(ok);
MaybeFinish(/*from_reaction=*/true);
},
&write_ops_, /*can_inline=*/false);
write_ops_.set_core_cq_tag(&write_tag_);
// Also set up the Finish tag and op set.
finish_ops_.RecvMessage(response);
finish_ops_.AllowNoMessage();
finish_tag_.Set(
call_.call(),
[this](bool /*ok*/) { MaybeFinish(/*from_reaction=*/true); },
&finish_ops_,
/*can_inline=*/false);
finish_ops_.ClientRecvStatus(context_, &finish_status_);
finish_ops_.set_core_cq_tag(&finish_tag_);
}
// MaybeFinish behaves as in ClientCallbackReaderWriterImpl.
void MaybeFinish(bool from_reaction) {
if (GPR_UNLIKELY(callbacks_outstanding_.fetch_sub(
1, std::memory_order_acq_rel) == 1)) {
::grpc::Status s = std::move(finish_status_);
auto* reactor = reactor_;
auto* call = call_.call();
this->~ClientCallbackWriterImpl();
::grpc::g_core_codegen_interface->grpc_call_unref(call);
if (GPR_LIKELY(from_reaction)) {
reactor->OnDone(s);
} else {
reactor->InternalScheduleOnDone(std::move(s));
}
}
}
::grpc::ClientContext* const context_;
grpc::internal::Call call_;
ClientWriteReactor<Request>* const reactor_;
grpc::internal::CallOpSet<grpc::internal::CallOpSendInitialMetadata,
grpc::internal::CallOpRecvInitialMetadata>
start_ops_;
grpc::internal::CallbackWithSuccessTag start_tag_;
const bool start_corked_;
bool corked_write_needed_; // no lock needed since only accessed in
// Write/WritesDone which cannot be concurrent
grpc::internal::CallOpSet<grpc::internal::CallOpGenericRecvMessage,
grpc::internal::CallOpClientRecvStatus>
finish_ops_;
grpc::internal::CallbackWithSuccessTag finish_tag_;
::grpc::Status finish_status_;
grpc::internal::CallOpSet<grpc::internal::CallOpSendInitialMetadata,
grpc::internal::CallOpSendMessage,
grpc::internal::CallOpClientSendClose>
write_ops_;
grpc::internal::CallbackWithSuccessTag write_tag_;
grpc::internal::CallOpSet<grpc::internal::CallOpSendInitialMetadata,
grpc::internal::CallOpClientSendClose>
writes_done_ops_;
grpc::internal::CallbackWithSuccessTag writes_done_tag_;
struct StartCallBacklog {
bool write_ops = false;
bool writes_done_ops = false;
};
StartCallBacklog backlog_ /* GUARDED_BY(start_mu_) */;
// Minimum of 3 callbacks to pre-register for start ops, StartCall, and finish
std::atomic<intptr_t> callbacks_outstanding_{3};
std::atomic_bool started_{false};
grpc::internal::Mutex start_mu_;
};
template <class Request>
class ClientCallbackWriterFactory {
public:
template <class Response>
static void Create(::grpc::ChannelInterface* channel,
const ::grpc::internal::RpcMethod& method,
::grpc::ClientContext* context, Response* response,
ClientWriteReactor<Request>* reactor) {
grpc::internal::Call call =
channel->CreateCall(method, context, channel->CallbackCQ());
::grpc::g_core_codegen_interface->grpc_call_ref(call.call());
new (::grpc::g_core_codegen_interface->grpc_call_arena_alloc(
call.call(), sizeof(ClientCallbackWriterImpl<Request>)))
ClientCallbackWriterImpl<Request>(call, context, response, reactor);
}
};
class ClientCallbackUnaryImpl final : public ClientCallbackUnary {
public:
// always allocated against a call arena, no memory free required
static void operator delete(void* /*ptr*/, std::size_t size) {
GPR_CODEGEN_ASSERT(size == sizeof(ClientCallbackUnaryImpl));
}
// This operator should never be called as the memory should be freed as part
// of the arena destruction. It only exists to provide a matching operator
// delete to the operator new so that some compilers will not complain (see
// https://github.com/grpc/grpc/issues/11301) Note at the time of adding this
// there are no tests catching the compiler warning.
static void operator delete(void*, void*) { GPR_CODEGEN_ASSERT(false); }
void StartCall() override {
// This call initiates two batches, each with a callback
// 1. Send initial metadata + write + writes done + recv initial metadata
// 2. Read message, recv trailing metadata
start_tag_.Set(call_.call(),
[this](bool ok) {
reactor_->OnReadInitialMetadataDone(ok);
MaybeFinish();
},
&start_ops_, /*can_inline=*/false);
start_ops_.SendInitialMetadata(&context_->send_initial_metadata_,
context_->initial_metadata_flags());
start_ops_.RecvInitialMetadata(context_);
start_ops_.set_core_cq_tag(&start_tag_);
call_.PerformOps(&start_ops_);
finish_tag_.Set(call_.call(), [this](bool /*ok*/) { MaybeFinish(); },
&finish_ops_,
/*can_inline=*/false);
finish_ops_.ClientRecvStatus(context_, &finish_status_);
finish_ops_.set_core_cq_tag(&finish_tag_);
call_.PerformOps(&finish_ops_);
}
private:
friend class ClientCallbackUnaryFactory;
template <class Request, class Response>
ClientCallbackUnaryImpl(::grpc::internal::Call call,
::grpc::ClientContext* context, Request* request,
Response* response, ClientUnaryReactor* reactor)
: context_(context), call_(call), reactor_(reactor) {
this->BindReactor(reactor);
// TODO(vjpai): don't assert
GPR_CODEGEN_ASSERT(start_ops_.SendMessagePtr(request).ok());
start_ops_.ClientSendClose();
finish_ops_.RecvMessage(response);
finish_ops_.AllowNoMessage();
}
// In the unary case, MaybeFinish is only ever invoked from a
// library-initiated reaction, so it will just directly call OnDone if this is
// the last reaction for this RPC.
void MaybeFinish() {
if (GPR_UNLIKELY(callbacks_outstanding_.fetch_sub(
1, std::memory_order_acq_rel) == 1)) {
::grpc::Status s = std::move(finish_status_);
auto* reactor = reactor_;
auto* call = call_.call();
this->~ClientCallbackUnaryImpl();
::grpc::g_core_codegen_interface->grpc_call_unref(call);
reactor->OnDone(s);
}
}
::grpc::ClientContext* const context_;
grpc::internal::Call call_;
ClientUnaryReactor* const reactor_;
grpc::internal::CallOpSet<grpc::internal::CallOpSendInitialMetadata,
grpc::internal::CallOpSendMessage,
grpc::internal::CallOpClientSendClose,
grpc::internal::CallOpRecvInitialMetadata>
start_ops_;
grpc::internal::CallbackWithSuccessTag start_tag_;
grpc::internal::CallOpSet<grpc::internal::CallOpGenericRecvMessage,
grpc::internal::CallOpClientRecvStatus>
finish_ops_;
grpc::internal::CallbackWithSuccessTag finish_tag_;
::grpc::Status finish_status_;
// This call will have 2 callbacks: start and finish
std::atomic<intptr_t> callbacks_outstanding_{2};
};
class ClientCallbackUnaryFactory {
public:
template <class Request, class Response>
static void Create(::grpc::ChannelInterface* channel,
const ::grpc::internal::RpcMethod& method,
::grpc::ClientContext* context, const Request* request,
Response* response, ClientUnaryReactor* reactor) {
grpc::internal::Call call =
channel->CreateCall(method, context, channel->CallbackCQ());
::grpc::g_core_codegen_interface->grpc_call_ref(call.call());
new (::grpc::g_core_codegen_interface->grpc_call_arena_alloc(
call.call(), sizeof(ClientCallbackUnaryImpl)))
ClientCallbackUnaryImpl(call, context, request, response, reactor);
}
};
} // namespace internal
} // namespace grpc
#endif // GRPCPP_IMPL_CODEGEN_CLIENT_CALLBACK_H