mirror of
https://github.com/unclechu/gRPC-haskell.git
synced 2024-12-12 12:59:47 +01:00
c1fa7956c7
* Hellos example: skeleton and server-streaming mode use * Catch IO exceptions in dispatchLoop * Distinguish decoding errors from other errors; convert error calls to explicit throws of GRPCIOErrors * instance Exception GRPCIOError * Add error checks and error messages to hellos cpp client * Change fixed32 to uint32 * Add prelim hellos-client, hellos-server executables * Hellos cpp example: add client-streaming mode use * In unregistered high-level server, aggressively catch all exceptions raised in handlers and promote then to a new GRPCIOError constructor. * Hellos hs example: add client-streaming mode use * Hellos cpp example: add simple bidi mode use * Hellos hs example: add simple bidi mode use * wibbles * Add GRPCIOErrorEq newtype wrapper w/ Eq instance for testing purposes * Refactoring wibbles * README wibbles * DCR * Fix rebase derp * Remove libdl dep, update protobuf github link in hellos cpp Makefile. * Use Data.Coerce.coerce for GRPCIOErrorEq; remove warnings * Report expected/got errors in Haskell hellos client/server * Report expected/got errors in cpp hellos client/server * Add some instructions for running the hellos client/server * Fix warnings * Rename logShow to logMsg and use stderr for logging * Tweak compliation parameters for hellos hs executables; increase constant workload * Remove unnecessary type annotation * Simplify handleError in dispatchLoop * Remove GRPCIOErrorEq and coerce use; change GRPCIOHandlerException type
144 lines
4.2 KiB
C++
144 lines
4.2 KiB
C++
#include <iostream>
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#include <memory>
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#include <string>
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#include <thread>
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#include <grpc++/grpc++.h>
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#include "hellos.grpc.pb.h"
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using grpc::Channel;
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using grpc::ClientContext;
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using grpc::ClientReader;
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using grpc::ClientWriter;
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using grpc::ClientReaderWriter;
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using grpc::Status;
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using hellos::SSRqt;
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using hellos::SSRpy;
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using hellos::CSRqt;
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using hellos::CSRpy;
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using hellos::BiRqtRpy;
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using hellos::Hellos;
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static void Die(const std::string& msg) {
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std::cerr << "Fatal error: " << msg << std::endl;
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exit(1);
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}
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static void CheckRPCStatus(const std::string& ctx, Status status) {
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if (status.ok()) {
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std::cout << ctx << ": RPC successful." << std::endl;
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} else {
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std::cout << ctx << ": Got failed status code: " << status.error_code() << std::endl;
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std::cout << ctx << ": Got failed status msg: " << status.error_message() << std::endl;
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Die(ctx + ": RPC failed");
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}
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}
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class HellosClient {
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public:
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HellosClient(std::shared_ptr<Channel> channel)
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: stub_(Hellos::NewStub(channel)) {}
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void DoHelloSS(const std::string& name, unsigned n) {
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SSRqt rqt;
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rqt.set_name(name);
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rqt.set_num_replies(n);
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SSRpy rpy;
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ClientContext ctx;
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std::unique_ptr<ClientReader<SSRpy> > reader(stub_->HelloSS(&ctx, rqt));
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unsigned rpyCnt = 0;
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while (reader->Read(&rpy)) {
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++rpyCnt;
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std::string ex("Hello there, " + name + "!");
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if (rpy.greeting() != ex) {
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Die("DoHelloSS/rpy: expected payload '" + ex +
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"', got '" + rpy.greeting() + "'");
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}
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}
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Status status = reader->Finish();
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CheckRPCStatus("DoHelloSS", status);
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if (rpyCnt != n)
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Die("DoHelloSS/cnt: expected " + std::to_string(n) +
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"replies, got " + std::to_string(rpyCnt));
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}
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void DoHelloCS(const std::string& pay, unsigned n) {
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CSRqt rqt;
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rqt.set_message(pay);
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CSRpy rpy;
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ClientContext ctx;
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std::unique_ptr<ClientWriter<CSRqt> > writer(stub_->HelloCS(&ctx, &rpy));
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for (unsigned i = 0; i < n; ++i) {
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if (!writer->Write(rqt)) {
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// Broken stream
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break;
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}
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}
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writer->WritesDone();
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Status status = writer->Finish();
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CheckRPCStatus("DoHelloCS", status);
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if (rpy.num_requests() != n)
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Die("DoHelloCS/cnt: expected request count " + std::to_string(n) +
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", got " + std::to_string(rpy.num_requests()));
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}
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void DoHelloBi(const std::string& pay, unsigned n) {
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BiRqtRpy rqt;
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rqt.set_message(pay);
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ClientContext ctx;
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std::shared_ptr<ClientReaderWriter<BiRqtRpy, BiRqtRpy> > strm(stub_->HelloBi(&ctx));
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// Spawn a writer thread which sends rqt to the server n times.
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std::thread writer([strm,rqt,n]() {
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for(unsigned i = 0; i < n; ++i) {
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strm->Write(rqt);
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}
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strm->WritesDone();
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});
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// Concurrently, read back echo'd replies from the server until there are no
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// more to consume; ensure we get the expected number of responses after
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// there's nothing left to read.
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BiRqtRpy rpy;
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unsigned rpyCnt = 0;
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while(strm->Read(&rpy)) {
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if (rpy.message() != pay)
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Die("DoHelloBi/rpy: expected payload '" + pay +
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"', got '" + rpy.message() + "'");
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++rpyCnt;
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}
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writer.join();
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Status status = strm->Finish();
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CheckRPCStatus("DoHelloBi", status);
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if (rpyCnt != n)
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Die("DoHelloBi/cnt: expected reply count " + std::to_string(n) +
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", got " + std::to_string(rpyCnt));
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}
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private:
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std::unique_ptr<Hellos::Stub> stub_;
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};
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int main(int argc, char** argv) {
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// Instantiate the client. It requires a channel, out of which the actual RPCs
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// are created. This channel models a connection to an endpoint (in this case,
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// localhost at port 50051). We indicate that the channel isn't authenticated
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// (use of InsecureChannelCredentials()).
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HellosClient hellos(grpc::CreateChannel(
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"localhost:50051", grpc::InsecureChannelCredentials()));
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const unsigned n = 100000;
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std::cout << "-------------- HelloSS --------------" << std::endl;
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hellos.DoHelloSS("server streaming mode", n);
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std::cout << "-------------- HelloCS --------------" << std::endl;
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hellos.DoHelloCS("client streaming payload", n);
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std::cout << "-------------- HelloBi --------------" << std::endl;
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hellos.DoHelloBi("bidi payload", n);
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return 0;
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}
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