#include <fstream>
#include <iostream>
+#include <queue>
#include <vector>
#include "collectd.grpc.pb.h"
}
using collectd::Collectd;
+using collectd::Dispatch;
using collectd::DispatchValuesRequest;
-using collectd::DispatchValuesReply;
+using collectd::DispatchValuesResponse;
using collectd::QueryValuesRequest;
-using collectd::QueryValuesReply;
+using collectd::QueryValuesResponse;
using google::protobuf::util::TimeUtil;
msg->set_allocated_interval(new google::protobuf::Duration(d));
for (size_t i = 0; i < vl->values_len; ++i) {
- auto v = msg->add_value();
+ auto v = msg->add_values();
switch (ds->ds[i].type) {
case DS_TYPE_COUNTER:
v->set_counter(vl->values[i].counter);
return grpc::Status(grpc::StatusCode::INTERNAL,
grpc::string("unknown value type"));
}
+
+ auto name = msg->add_ds_names();
+ name->assign(ds->ds[i].name);
}
return grpc::Status::OK;
size_t values_len = 0;
status = grpc::Status::OK;
- for (auto v : msg.value()) {
+ for (auto v : msg.values()) {
value_t *val = (value_t *)realloc(values, (values_len + 1) * sizeof(*values));
if (!val) {
status = grpc::Status(grpc::StatusCode::RESOURCE_EXHAUSTED,
/*
* request call-backs and call objects
*/
-
-static grpc::Status Process(grpc::ServerContext *ctx,
- DispatchValuesRequest request, DispatchValuesReply *reply)
+static grpc::Status DispatchValue(grpc::ServerContext *ctx, DispatchValuesRequest request, DispatchValuesResponse *reply)
{
value_list_t vl = VALUE_LIST_INIT;
- auto status = unmarshal_value_list(request.values(), &vl);
+ auto status = unmarshal_value_list(request.value_list(), &vl);
if (!status.ok())
return status;
if (plugin_dispatch_values(&vl))
status = grpc::Status(grpc::StatusCode::INTERNAL,
grpc::string("failed to enqueue values for writing"));
+
+ reply->Clear();
return status;
-} /* Process(): DispatchValues */
+} /* grpc::Status DispatchValue */
-static grpc::Status Process(grpc::ServerContext *ctx,
- QueryValuesRequest request, QueryValuesReply *reply)
-{
- uc_iter_t *iter;
- char *name = NULL;
+// CallData is the abstract base class for asynchronous calls.
+class CallData {
+public:
+ virtual ~CallData() {}
+ virtual void process(bool ok) = 0;
- value_list_t matcher;
- auto status = unmarshal_ident(request.identifier(), &matcher, false);
- if (!status.ok())
- return status;
+protected:
+ CallData() {}
- if ((iter = uc_get_iterator()) == NULL) {
- return grpc::Status(grpc::StatusCode::INTERNAL,
- grpc::string("failed to query values: cannot create iterator"));
+private:
+ CallData(const CallData&) = delete;
+ CallData& operator=(const CallData&) = delete;
+};
+
+/*
+ * Collectd service
+ */
+
+// QueryValuesCallData holds the state and implements the logic for QueryValues calls.
+class QueryValuesCallData : public CallData {
+public:
+ QueryValuesCallData(Collectd::AsyncService* service, grpc::ServerCompletionQueue* cq)
+ : cq_(cq), service_(service), writer_(&context_) {
+ process(true);
}
- while (uc_iterator_next(iter, &name) == 0) {
- value_list_t res;
- if (parse_identifier_vl(name, &res) != 0) {
- uc_iterator_destroy(iter);
- return grpc::Status(grpc::StatusCode::INTERNAL,
- grpc::string("failed to parse identifier"));
+ void process(bool ok) final {
+ if (status_ == Status::INIT) {
+ status_ = Status::READ;
+ service_->RequestQueryValues(&context_, &request_, &writer_, cq_, cq_, this);
+ } else if (status_ == Status::READ) {
+ auto err = queryValues();
+ if (!err.ok()) {
+ writer_.Finish(err, this);
+ status_ = Status::DONE;
+ return;
+ }
+ respond();
+ } else if (status_ == Status::WRITE) {
+ respond();
+ } else if (status_ == Status::DONE) {
+ new QueryValuesCallData(service_, cq_);
+ delete this;
+ } else {
+ throw std::logic_error("Unhandled state enum.");
}
+ }
- if (!ident_matches(&res, &matcher))
- continue;
+private:
+ enum class Status {
+ INIT,
+ READ,
+ WRITE,
+ DONE,
+ };
+
+ grpc::Status queryValues (void) {
+ uc_iter_t *iter;
+ char *name = NULL;
+
+ value_list_t matcher;
+ auto status = unmarshal_ident(request_.identifier(), &matcher, false);
+ if (!status.ok())
+ return status;
- if (uc_iterator_get_time(iter, &res.time) < 0) {
- uc_iterator_destroy(iter);
- return grpc::Status(grpc::StatusCode::INTERNAL,
- grpc::string("failed to retrieve value timestamp"));
- }
- if (uc_iterator_get_interval(iter, &res.interval) < 0) {
- uc_iterator_destroy(iter);
+ if ((iter = uc_get_iterator()) == NULL) {
return grpc::Status(grpc::StatusCode::INTERNAL,
- grpc::string("failed to retrieve value interval"));
- }
- if (uc_iterator_get_values(iter, &res.values, &res.values_len) < 0) {
- uc_iterator_destroy(iter);
- return grpc::Status(grpc::StatusCode::INTERNAL,
- grpc::string("failed to retrieve values"));
+ grpc::string("failed to query values: cannot create iterator"));
}
- auto vl = reply->add_values();
- status = marshal_value_list(&res, vl);
- free(res.values);
- if (!status.ok()) {
- uc_iterator_destroy(iter);
- return status;
- }
- }
+ status = grpc::Status::OK;
+ while (uc_iterator_next(iter, &name) == 0) {
+ value_list_t vl;
+ if (parse_identifier_vl(name, &vl) != 0) {
+ status = grpc::Status(grpc::StatusCode::INTERNAL,
+ grpc::string("failed to parse identifier"));
+ break;
+ }
- uc_iterator_destroy(iter);
+ if (!ident_matches(&vl, &matcher))
+ continue;
- return grpc::Status::OK;
-} /* Process(): QueryValues */
+ if (uc_iterator_get_time(iter, &vl.time) < 0) {
+ status = grpc::Status(grpc::StatusCode::INTERNAL,
+ grpc::string("failed to retrieve value timestamp"));
+ break;
+ }
+ if (uc_iterator_get_interval(iter, &vl.interval) < 0) {
+ status = grpc::Status(grpc::StatusCode::INTERNAL,
+ grpc::string("failed to retrieve value interval"));
+ break;
+ }
+ if (uc_iterator_get_values(iter, &vl.values, &vl.values_len) < 0) {
+ status = grpc::Status(grpc::StatusCode::INTERNAL,
+ grpc::string("failed to retrieve values"));
+ break;
+ }
-class Call
-{
-public:
- Call(Collectd::AsyncService *service, grpc::ServerCompletionQueue *cq)
- : service_(service), cq_(cq), status_(CREATE)
- { }
+ value_lists_.push(vl);
+ }
- virtual ~Call()
- { }
+ uc_iterator_destroy(iter);
+ return status;
+ }
- void Handle()
- {
- if (status_ == CREATE) {
- Create();
- status_ = PROCESS;
- }
- else if (status_ == PROCESS) {
- Process();
- status_ = FINISH;
+ void respond() {
+ if (value_lists_.empty()) {
+ writer_.Finish(grpc::Status::OK, this);
+ status_ = Status::DONE;
+ return;
}
- else {
- GPR_ASSERT(status_ == FINISH);
- Finish();
- }
- } /* Handle() */
-protected:
- virtual void Create() = 0;
- virtual void Process() = 0;
- virtual void Finish() = 0;
+ auto vl = value_lists_.front();
- Collectd::AsyncService *service_;
- grpc::ServerCompletionQueue *cq_;
- grpc::ServerContext ctx_;
+ response_.Clear();
+ auto err = marshal_value_list(&vl, response_.mutable_value_list());
+ if (!err.ok()) {
+ writer_.Finish(err, this);
+ status_ = Status::DONE;
+ return;
+ }
-private:
- enum CallStatus { CREATE, PROCESS, FINISH };
- CallStatus status_;
-}; /* class Call */
+ value_lists_.pop();
+ free(vl.values);
-template<typename RequestT, typename ReplyT>
-class RpcCall final : public Call
-{
- typedef void (Collectd::AsyncService::*CreatorT)(grpc::ServerContext *,
- RequestT *, grpc::ServerAsyncResponseWriter<ReplyT> *,
- grpc::CompletionQueue *, grpc::ServerCompletionQueue *, void *);
+ writer_.Write(response_, this);
+ status_ = Status::WRITE;
+ }
+ Status status_ = Status::INIT;
+ grpc::ServerContext context_;
+ grpc::ServerCompletionQueue* cq_;
+ Collectd::AsyncService* service_;
+ QueryValuesRequest request_;
+ std::queue<value_list_t> value_lists_;
+ QueryValuesResponse response_;
+ grpc::ServerAsyncWriter<QueryValuesResponse> writer_;
+};
+
+/*
+ * Dispatch service
+ */
+// DispatchValuesCallData holds the state and implements the logic for DispatchValues calls.
+class DispatchValuesCallData : public CallData {
public:
- RpcCall(Collectd::AsyncService *service,
- CreatorT creator, grpc::ServerCompletionQueue *cq)
- : Call(service, cq), creator_(creator), responder_(&ctx_)
- {
- Handle();
- } /* RpcCall() */
+ DispatchValuesCallData(Dispatch::AsyncService* service, grpc::ServerCompletionQueue* cq)
+ : cq_(cq), service_(service), reader_(&context_) {
+ process(true);
+ }
- virtual ~RpcCall()
- { }
+ void process(bool ok) final {
+ if (status == Status::INIT) {
+ service_->RequestDispatchValues(&context_, &reader_, cq_, cq_, this);
+ status = Status::CALL;
+ } else if (status == Status::CALL) {
+ reader_.Read(&request_, this);
+ status = Status::READ;
+ } else if (status == Status::READ && ok) {
+ (void) DispatchValue(&context_, request_, &response_);
+
+ reader_.Read(&request_, this);
+ } else if (status == Status::READ) {
+ response_.Clear();
+
+ status = Status::DONE;
+ } else if (status == Status::DONE) {
+ new DispatchValuesCallData(service_, cq_);
+ delete this;
+ } else {
+ ERROR("grpc: DispatchValuesCallData: invalid state");
+ }
+ }
private:
- void Create()
- {
- (service_->*creator_)(&ctx_, &request_, &responder_, cq_, cq_, this);
- } /* Create() */
-
- void Process()
- {
- // Add a new request object to the queue.
- new RpcCall<RequestT, ReplyT>(service_, creator_, cq_);
- grpc::Status status = ::Process(&ctx_, request_, &reply_);
- responder_.Finish(reply_, status, this);
- } /* Process() */
-
- void Finish()
- {
- delete this;
- } /* Finish() */
-
- CreatorT creator_;
-
- RequestT request_;
- ReplyT reply_;
-
- grpc::ServerAsyncResponseWriter<ReplyT> responder_;
-}; /* class RpcCall */
+ enum class Status {
+ INIT,
+ CALL,
+ READ,
+ DONE,
+ };
+ Status status = Status::INIT;
+
+ grpc::ServerContext context_;
+ grpc::ServerCompletionQueue* cq_;
+ Dispatch::AsyncService* service_;
+
+ DispatchValuesRequest request_;
+ DispatchValuesResponse response_;
+ grpc::ServerAsyncReader<DispatchValuesResponse, DispatchValuesRequest> reader_;
+};
/*
* gRPC server implementation
*/
-
class CollectdServer final
{
public:
}
}
- builder.RegisterService(&service_);
cq_ = builder.AddCompletionQueue();
+
+ builder.RegisterService(&collectd_service_);
+ builder.RegisterService(&dispatch_service_);
+
server_ = builder.BuildAndStart();
+ new QueryValuesCallData(&collectd_service_, cq_.get());
+ new DispatchValuesCallData(&dispatch_service_, cq_.get());
} /* Start() */
void Shutdown()
void Mainloop()
{
- // Register request types.
- new RpcCall<DispatchValuesRequest, DispatchValuesReply>(&service_,
- &Collectd::AsyncService::RequestDispatchValues, cq_.get());
- new RpcCall<QueryValuesRequest, QueryValuesReply>(&service_,
- &Collectd::AsyncService::RequestQueryValues, cq_.get());
-
while (true) {
- void *req = NULL;
+ void *tag = NULL;
bool ok = false;
- if (!cq_->Next(&req, &ok))
+ // Block waiting to read the next event from the completion queue.
+ // The event is uniquely identified by its tag, which in this case
+ // is the memory address of a CallData instance.
+ if (!cq_->Next(&tag, &ok))
break; // Queue shut down.
- if (!ok) {
- ERROR("grpc: Failed to read from queue");
- break;
- }
- static_cast<Call *>(req)->Handle();
+ static_cast<CallData*>(tag)->process(ok);
}
} /* Mainloop() */
private:
- Collectd::AsyncService service_;
+ Collectd::AsyncService collectd_service_;
+ Dispatch::AsyncService dispatch_service_;
std::unique_ptr<grpc::Server> server_;
std::unique_ptr<grpc::ServerCompletionQueue> cq_;
/*
* collectd plugin interface
*/
-
extern "C" {
static pthread_t *workers;
static size_t workers_num = 5;