[llvm] r286639 - [ORC] Re-apply 286620 with fixes for the ErrorSuccess class.
Vedant Kumar via llvm-commits
llvm-commits at lists.llvm.org
Mon Nov 14 15:40:18 PST 2016
> On Nov 14, 2016, at 3:38 PM, Lang Hames <lhames at gmail.com> wrote:
>
> I had been looking into this as a modules bug, but I've just realized that I failed to properly define those variables. I should have a fix momentarily.
>
> Nope, nope - they are properly defined. Back to assuming this is a modules bug. Let me see if I can come up with a workaround. If I can't come up with a good one I'll revert.
Thanks for digging into this!
vedant
>
> - Lang.
>
> On Mon, Nov 14, 2016 at 3:29 PM, Lang Hames <lhames at gmail.com> wrote:
> HI Vedant,
>
> I had been looking into this as a modules bug, but I've just realized that I failed to properly define those variables. I should have a fix momentarily.
>
> - Lang.
>
>
> On Mon, Nov 14, 2016 at 12:36 PM, Vedant Kumar <vsk at apple.com> wrote:
> Hi Lang,
>
> This commit seems to break the modules RDA bot:
>
> http://lab.llvm.org:8080/green/job/clang-stage2-cmake-modulesRDA_build/1631
>
> FAILED: bin/lli
>
> : && /Users/buildslave/jenkins/sharedspace/clang-stage2-cmake-modulesRDA at 2/host-compiler/bin/clang++ -fPIC -fvisibility-inlines-hidden -Wall -W -Wno-unused-parameter -Wwrite-strings -Wcast-qual -Wmissing-field-initializers -pedantic -Wno-long-long -Wcovered-switch-default -Wnon-virtual-dtor -Wdelete-non-virtual-dtor -Werror=date-time -std=c++11 -fmodules -fmodules-cache-path=/Users/buildslave/jenkins/sharedspace/clang-stage2-cmake-modulesRDA at 2/clang-build/module.cache -fcxx-modules -gmodules -fcolor-diagnostics -O2 -g -DNDEBUG -Wl,-search_paths_first -Wl,-headerpad_max_install_names -Wl,-dead_strip -rdynamic tools/lli/CMakeFiles/lli.dir/lli.cpp.o tools/lli/CMakeFiles/lli.dir/OrcLazyJIT.cpp.o -o bin/lli lib/libLLVMCodeGen.a lib/libLLVMCore.a lib/libLLVMExecutionEngine.a lib/libLLVMIRReader.a lib/libLLVMInstrumentation.a lib/libLLVMInterpreter.a lib/libLLVMMC.a lib/libLLVMMCJIT.a lib/libLLVMObject.a lib/libLLVMOrcJIT.a lib/libLLVMRuntimeDyld.a lib/libLLVMSelectionDAG.a lib/libLLVMSupport.a lib/libLLVMTarget.a lib/libLLVMTransformUtils.a lib/libLLVMX86CodeGen.a lib/libLLVMX86AsmPrinter.a lib/libLLVMX86AsmParser.a lib/libLLVMX86Desc.a lib/libLLVMX86Info.a lib/libLLVMX86Disassembler.a lib/libLLVMAsmParser.a lib/libLLVMExecutionEngine.a lib/libLLVMRuntimeDyld.a lib/libLLVMSelectionDAG.a lib/libLLVMAsmPrinter.a lib/libLLVMCodeGen.a lib/libLLVMInstrumentation.a lib/libLLVMBitWriter.a lib/libLLVMScalarOpts.a lib/libLLVMInstCombine.a lib/libLLVMTarget.a lib/libLLVMTransformUtils.a lib/libLLVMAnalysis.a lib/libLLVMProfileData.a lib/libLLVMDebugInfoCodeView.a lib/libLLVMDebugInfoMSF.a lib/libLLVMObject.a lib/libLLVMBitReader.a lib/libLLVMX86AsmPrinter.a lib/libLLVMX86Utils.a lib/libLLVMCore.a lib/libLLVMMCParser.a lib/libLLVMX86Info.a lib/libLLVMMCDisassembler.a lib/libLLVMMC.a lib/libLLVMSupport.a -lcurses -lz -lm lib/libLLVMDemangle.a -Wl,-rpath, at loader_path/../lib && :
> Undefined symbols for architecture x86_64:
> "llvm::orc::rpc::Function<llvm::orc::rpc::detail::RPCBase<llvm::orc::rpc::SingleThreadedRPC<llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>, llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>::OrcRPCNegotiate, unsigned int (std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> >)>::Name", referenced from:
> llvm::orc::rpc::Function<llvm::orc::rpc::detail::RPCBase<llvm::orc::rpc::SingleThreadedRPC<llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>, llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>::OrcRPCNegotiate, unsigned int (std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> >)>::getPrototype() in lli.cpp.o
> "llvm::orc::rpc::Function<llvm::orc::rpc::detail::RPCBase<llvm::orc::rpc::SingleThreadedRPC<llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>, llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>::OrcRPCNegotiate, unsigned int (std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> >)>::NameMutex", referenced from:
> llvm::orc::rpc::Function<llvm::orc::rpc::detail::RPCBase<llvm::orc::rpc::SingleThreadedRPC<llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>, llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>::OrcRPCNegotiate, unsigned int (std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> >)>::getPrototype() in lli.cpp.o
> "llvm::orc::rpc::Function<llvm::orc::rpc::detail::RPCBase<llvm::orc::rpc::SingleThreadedRPC<llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>, llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>::OrcRPCResponse, void ()>::Name", referenced from:
> llvm::orc::rpc::Function<llvm::orc::rpc::detail::RPCBase<llvm::orc::rpc::SingleThreadedRPC<llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>, llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>::OrcRPCResponse, void ()>::getPrototype() in lli.cpp.o
> "llvm::orc::rpc::Function<llvm::orc::rpc::detail::RPCBase<llvm::orc::rpc::SingleThreadedRPC<llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>, llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>::OrcRPCResponse, void ()>::NameMutex", referenced from:
> llvm::orc::rpc::Function<llvm::orc::rpc::detail::RPCBase<llvm::orc::rpc::SingleThreadedRPC<llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>, llvm::orc::rpc::RawByteChannel, unsigned int, unsigned int>::OrcRPCResponse, void ()>::getPrototype() in lli.cpp.o
> ld: symbol(s) not found for architecture x86_64
>
> I'm not sure why this isn't breaking the non-modules build.
>
> Could you revert this until we understand the failure better?
>
> vedant
>
> > On Nov 11, 2016, at 1:42 PM, Lang Hames via llvm-commits <llvm-commits at lists.llvm.org> wrote:
> >
> > Author: lhames
> > Date: Fri Nov 11 15:42:09 2016
> > New Revision: 286639
> >
> > URL: http://llvm.org/viewvc/llvm-project?rev=286639&view=rev
> > Log:
> > [ORC] Re-apply 286620 with fixes for the ErrorSuccess class.
> >
> > Added:
> > llvm/trunk/include/llvm/ExecutionEngine/Orc/RawByteChannel.h
> > - copied unchanged from r286620, llvm/trunk/include/llvm/ExecutionEngine/Orc/RawByteChannel.h
> > Removed:
> > llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCByteChannel.h
> > llvm/trunk/lib/ExecutionEngine/Orc/OrcRemoteTargetRPCAPI.cpp
> > Modified:
> > llvm/trunk/examples/Kaleidoscope/BuildingAJIT/Chapter5/RemoteJITUtils.h
> > llvm/trunk/examples/Kaleidoscope/BuildingAJIT/Chapter5/toy.cpp
> > llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcError.h
> > llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetClient.h
> > llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetRPCAPI.h
> > llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetServer.h
> > llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCSerialization.h
> > llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCUtils.h
> > llvm/trunk/lib/ExecutionEngine/Orc/CMakeLists.txt
> > llvm/trunk/lib/ExecutionEngine/Orc/OrcError.cpp
> > llvm/trunk/tools/lli/ChildTarget/ChildTarget.cpp
> > llvm/trunk/tools/lli/RemoteJITUtils.h
> > llvm/trunk/tools/lli/lli.cpp
> > llvm/trunk/unittests/ExecutionEngine/Orc/RPCUtilsTest.cpp
> >
> > Modified: llvm/trunk/examples/Kaleidoscope/BuildingAJIT/Chapter5/RemoteJITUtils.h
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/examples/Kaleidoscope/BuildingAJIT/Chapter5/RemoteJITUtils.h?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/examples/Kaleidoscope/BuildingAJIT/Chapter5/RemoteJITUtils.h (original)
> > +++ llvm/trunk/examples/Kaleidoscope/BuildingAJIT/Chapter5/RemoteJITUtils.h Fri Nov 11 15:42:09 2016
> > @@ -14,7 +14,7 @@
> > #ifndef LLVM_TOOLS_LLI_REMOTEJITUTILS_H
> > #define LLVM_TOOLS_LLI_REMOTEJITUTILS_H
> >
> > -#include "llvm/ExecutionEngine/Orc/RPCByteChannel.h"
> > +#include "llvm/ExecutionEngine/Orc/RawByteChannel.h"
> > #include "llvm/ExecutionEngine/RTDyldMemoryManager.h"
> > #include <mutex>
> >
> > @@ -25,7 +25,7 @@
> > #endif
> >
> > /// RPC channel that reads from and writes from file descriptors.
> > -class FDRPCChannel final : public llvm::orc::remote::RPCByteChannel {
> > +class FDRPCChannel final : public llvm::orc::rpc::RawByteChannel {
> > public:
> > FDRPCChannel(int InFD, int OutFD) : InFD(InFD), OutFD(OutFD) {}
> >
> >
> > Modified: llvm/trunk/examples/Kaleidoscope/BuildingAJIT/Chapter5/toy.cpp
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/examples/Kaleidoscope/BuildingAJIT/Chapter5/toy.cpp?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/examples/Kaleidoscope/BuildingAJIT/Chapter5/toy.cpp (original)
> > +++ llvm/trunk/examples/Kaleidoscope/BuildingAJIT/Chapter5/toy.cpp Fri Nov 11 15:42:09 2016
> > @@ -1265,8 +1265,8 @@ int main(int argc, char *argv[]) {
> > BinopPrecedence['*'] = 40; // highest.
> >
> > auto TCPChannel = connect();
> > - MyRemote Remote = ExitOnErr(MyRemote::Create(*TCPChannel));
> > - TheJIT = llvm::make_unique<KaleidoscopeJIT>(Remote);
> > + auto Remote = ExitOnErr(MyRemote::Create(*TCPChannel));
> > + TheJIT = llvm::make_unique<KaleidoscopeJIT>(*Remote);
> >
> > // Automatically inject a definition for 'printExprResult'.
> > FunctionProtos["printExprResult"] =
> > @@ -1288,7 +1288,7 @@ int main(int argc, char *argv[]) {
> > TheJIT = nullptr;
> >
> > // Send a terminate message to the remote to tell it to exit cleanly.
> > - ExitOnErr(Remote.terminateSession());
> > + ExitOnErr(Remote->terminateSession());
> >
> > return 0;
> > }
> >
> > Modified: llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcError.h
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcError.h?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcError.h (original)
> > +++ llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcError.h Fri Nov 11 15:42:09 2016
> > @@ -29,6 +29,7 @@ enum class OrcErrorCode : int {
> > RemoteIndirectStubsOwnerIdAlreadyInUse,
> > UnexpectedRPCCall,
> > UnexpectedRPCResponse,
> > + UnknownRPCFunction
> > };
> >
> > Error orcError(OrcErrorCode ErrCode);
> >
> > Modified: llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetClient.h
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetClient.h?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetClient.h (original)
> > +++ llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetClient.h Fri Nov 11 15:42:09 2016
> > @@ -8,7 +8,7 @@
> > //===----------------------------------------------------------------------===//
> > //
> > // This file defines the OrcRemoteTargetClient class and helpers. This class
> > -// can be used to communicate over an RPCByteChannel with an
> > +// can be used to communicate over an RawByteChannel with an
> > // OrcRemoteTargetServer instance to support remote-JITing.
> > //
> > //===----------------------------------------------------------------------===//
> > @@ -36,23 +36,6 @@ namespace remote {
> > template <typename ChannelT>
> > class OrcRemoteTargetClient : public OrcRemoteTargetRPCAPI {
> > public:
> > - // FIXME: Remove move/copy ops once MSVC supports synthesizing move ops.
> > -
> > - OrcRemoteTargetClient(const OrcRemoteTargetClient &) = delete;
> > - OrcRemoteTargetClient &operator=(const OrcRemoteTargetClient &) = delete;
> > -
> > - OrcRemoteTargetClient(OrcRemoteTargetClient &&Other)
> > - : Channel(Other.Channel), ExistingError(std::move(Other.ExistingError)),
> > - RemoteTargetTriple(std::move(Other.RemoteTargetTriple)),
> > - RemotePointerSize(std::move(Other.RemotePointerSize)),
> > - RemotePageSize(std::move(Other.RemotePageSize)),
> > - RemoteTrampolineSize(std::move(Other.RemoteTrampolineSize)),
> > - RemoteIndirectStubSize(std::move(Other.RemoteIndirectStubSize)),
> > - AllocatorIds(std::move(Other.AllocatorIds)),
> > - IndirectStubOwnerIds(std::move(Other.IndirectStubOwnerIds)),
> > - CallbackManager(std::move(Other.CallbackManager)) {}
> > -
> > - OrcRemoteTargetClient &operator=(OrcRemoteTargetClient &&) = delete;
> >
> > /// Remote memory manager.
> > class RCMemoryManager : public RuntimeDyld::MemoryManager {
> > @@ -62,18 +45,10 @@ public:
> > DEBUG(dbgs() << "Created remote allocator " << Id << "\n");
> > }
> >
> > - RCMemoryManager(RCMemoryManager &&Other)
> > - : Client(std::move(Other.Client)), Id(std::move(Other.Id)),
> > - Unmapped(std::move(Other.Unmapped)),
> > - Unfinalized(std::move(Other.Unfinalized)) {}
> > -
> > - RCMemoryManager operator=(RCMemoryManager &&Other) {
> > - Client = std::move(Other.Client);
> > - Id = std::move(Other.Id);
> > - Unmapped = std::move(Other.Unmapped);
> > - Unfinalized = std::move(Other.Unfinalized);
> > - return *this;
> > - }
> > + RCMemoryManager(const RCMemoryManager&) = delete;
> > + RCMemoryManager& operator=(const RCMemoryManager&) = delete;
> > + RCMemoryManager(RCMemoryManager&&) = default;
> > + RCMemoryManager& operator=(RCMemoryManager&&) = default;
> >
> > ~RCMemoryManager() override {
> > Client.destroyRemoteAllocator(Id);
> > @@ -367,18 +342,10 @@ public:
> > Alloc(uint64_t Size, unsigned Align)
> > : Size(Size), Align(Align), Contents(new char[Size + Align - 1]) {}
> >
> > - Alloc(Alloc &&Other)
> > - : Size(std::move(Other.Size)), Align(std::move(Other.Align)),
> > - Contents(std::move(Other.Contents)),
> > - RemoteAddr(std::move(Other.RemoteAddr)) {}
> > -
> > - Alloc &operator=(Alloc &&Other) {
> > - Size = std::move(Other.Size);
> > - Align = std::move(Other.Align);
> > - Contents = std::move(Other.Contents);
> > - RemoteAddr = std::move(Other.RemoteAddr);
> > - return *this;
> > - }
> > + Alloc(const Alloc&) = delete;
> > + Alloc& operator=(const Alloc&) = delete;
> > + Alloc(Alloc&&) = default;
> > + Alloc& operator=(Alloc&&) = default;
> >
> > uint64_t getSize() const { return Size; }
> >
> > @@ -405,24 +372,10 @@ public:
> >
> > struct ObjectAllocs {
> > ObjectAllocs() = default;
> > -
> > - ObjectAllocs(ObjectAllocs &&Other)
> > - : RemoteCodeAddr(std::move(Other.RemoteCodeAddr)),
> > - RemoteRODataAddr(std::move(Other.RemoteRODataAddr)),
> > - RemoteRWDataAddr(std::move(Other.RemoteRWDataAddr)),
> > - CodeAllocs(std::move(Other.CodeAllocs)),
> > - RODataAllocs(std::move(Other.RODataAllocs)),
> > - RWDataAllocs(std::move(Other.RWDataAllocs)) {}
> > -
> > - ObjectAllocs &operator=(ObjectAllocs &&Other) {
> > - RemoteCodeAddr = std::move(Other.RemoteCodeAddr);
> > - RemoteRODataAddr = std::move(Other.RemoteRODataAddr);
> > - RemoteRWDataAddr = std::move(Other.RemoteRWDataAddr);
> > - CodeAllocs = std::move(Other.CodeAllocs);
> > - RODataAllocs = std::move(Other.RODataAllocs);
> > - RWDataAllocs = std::move(Other.RWDataAllocs);
> > - return *this;
> > - }
> > + ObjectAllocs(const ObjectAllocs &) = delete;
> > + ObjectAllocs& operator=(const ObjectAllocs &) = delete;
> > + ObjectAllocs(ObjectAllocs&&) = default;
> > + ObjectAllocs& operator=(ObjectAllocs&&) = default;
> >
> > JITTargetAddress RemoteCodeAddr = 0;
> > JITTargetAddress RemoteRODataAddr = 0;
> > @@ -588,23 +541,21 @@ public:
> > /// Create an OrcRemoteTargetClient.
> > /// Channel is the ChannelT instance to communicate on. It is assumed that
> > /// the channel is ready to be read from and written to.
> > - static Expected<OrcRemoteTargetClient> Create(ChannelT &Channel) {
> > + static Expected<std::unique_ptr<OrcRemoteTargetClient>>
> > + Create(ChannelT &Channel) {
> > Error Err = Error::success();
> > - OrcRemoteTargetClient H(Channel, Err);
> > + std::unique_ptr<OrcRemoteTargetClient>
> > + Client(new OrcRemoteTargetClient(Channel, Err));
> > if (Err)
> > return std::move(Err);
> > - return Expected<OrcRemoteTargetClient>(std::move(H));
> > + return std::move(Client);
> > }
> >
> > /// Call the int(void) function at the given address in the target and return
> > /// its result.
> > Expected<int> callIntVoid(JITTargetAddress Addr) {
> > DEBUG(dbgs() << "Calling int(*)(void) " << format("0x%016x", Addr) << "\n");
> > -
> > - auto Listen = [&](RPCByteChannel &C, uint32_t Id) {
> > - return listenForCompileRequests(C, Id);
> > - };
> > - return callSTHandling<CallIntVoid>(Channel, Listen, Addr);
> > + return callB<CallIntVoid>(Addr);
> > }
> >
> > /// Call the int(int, char*[]) function at the given address in the target and
> > @@ -613,11 +564,7 @@ public:
> > const std::vector<std::string> &Args) {
> > DEBUG(dbgs() << "Calling int(*)(int, char*[]) " << format("0x%016x", Addr)
> > << "\n");
> > -
> > - auto Listen = [&](RPCByteChannel &C, uint32_t Id) {
> > - return listenForCompileRequests(C, Id);
> > - };
> > - return callSTHandling<CallMain>(Channel, Listen, Addr, Args);
> > + return callB<CallMain>(Addr, Args);
> > }
> >
> > /// Call the void() function at the given address in the target and wait for
> > @@ -625,11 +572,7 @@ public:
> > Error callVoidVoid(JITTargetAddress Addr) {
> > DEBUG(dbgs() << "Calling void(*)(void) " << format("0x%016x", Addr)
> > << "\n");
> > -
> > - auto Listen = [&](RPCByteChannel &C, uint32_t Id) {
> > - return listenForCompileRequests(C, Id);
> > - };
> > - return callSTHandling<CallVoidVoid>(Channel, Listen, Addr);
> > + return callB<CallVoidVoid>(Addr);
> > }
> >
> > /// Create an RCMemoryManager which will allocate its memory on the remote
> > @@ -638,7 +581,7 @@ public:
> > assert(!MM && "MemoryManager should be null before creation.");
> >
> > auto Id = AllocatorIds.getNext();
> > - if (auto Err = callST<CreateRemoteAllocator>(Channel, Id))
> > + if (auto Err = callB<CreateRemoteAllocator>(Id))
> > return Err;
> > MM = llvm::make_unique<RCMemoryManager>(*this, Id);
> > return Error::success();
> > @@ -649,7 +592,7 @@ public:
> > Error createIndirectStubsManager(std::unique_ptr<RCIndirectStubsManager> &I) {
> > assert(!I && "Indirect stubs manager should be null before creation.");
> > auto Id = IndirectStubOwnerIds.getNext();
> > - if (auto Err = callST<CreateIndirectStubsOwner>(Channel, Id))
> > + if (auto Err = callB<CreateIndirectStubsOwner>(Id))
> > return Err;
> > I = llvm::make_unique<RCIndirectStubsManager>(*this, Id);
> > return Error::success();
> > @@ -662,7 +605,7 @@ public:
> > return std::move(ExistingError);
> >
> > // Emit the resolver block on the JIT server.
> > - if (auto Err = callST<EmitResolverBlock>(Channel))
> > + if (auto Err = callB<EmitResolverBlock>())
> > return std::move(Err);
> >
> > // Create the callback manager.
> > @@ -679,18 +622,28 @@ public:
> > if (ExistingError)
> > return std::move(ExistingError);
> >
> > - return callST<GetSymbolAddress>(Channel, Name);
> > + return callB<GetSymbolAddress>(Name);
> > }
> >
> > /// Get the triple for the remote target.
> > const std::string &getTargetTriple() const { return RemoteTargetTriple; }
> >
> > - Error terminateSession() { return callST<TerminateSession>(Channel); }
> > + Error terminateSession() { return callB<TerminateSession>(); }
> >
> > private:
> > - OrcRemoteTargetClient(ChannelT &Channel, Error &Err) : Channel(Channel) {
> > +
> > + OrcRemoteTargetClient(ChannelT &Channel, Error &Err)
> > + : OrcRemoteTargetRPCAPI(Channel) {
> > ErrorAsOutParameter EAO(&Err);
> > - if (auto RIOrErr = callST<GetRemoteInfo>(Channel)) {
> > +
> > + addHandler<RequestCompile>(
> > + [this](JITTargetAddress Addr) -> JITTargetAddress {
> > + if (CallbackManager)
> > + return CallbackManager->executeCompileCallback(Addr);
> > + return 0;
> > + });
> > +
> > + if (auto RIOrErr = callB<GetRemoteInfo>()) {
> > std::tie(RemoteTargetTriple, RemotePointerSize, RemotePageSize,
> > RemoteTrampolineSize, RemoteIndirectStubSize) = *RIOrErr;
> > Err = Error::success();
> > @@ -700,11 +653,11 @@ private:
> > }
> >
> > Error deregisterEHFrames(JITTargetAddress Addr, uint32_t Size) {
> > - return callST<RegisterEHFrames>(Channel, Addr, Size);
> > + return callB<RegisterEHFrames>(Addr, Size);
> > }
> >
> > void destroyRemoteAllocator(ResourceIdMgr::ResourceId Id) {
> > - if (auto Err = callST<DestroyRemoteAllocator>(Channel, Id)) {
> > + if (auto Err = callB<DestroyRemoteAllocator>(Id)) {
> > // FIXME: This will be triggered by a removeModuleSet call: Propagate
> > // error return up through that.
> > llvm_unreachable("Failed to destroy remote allocator.");
> > @@ -714,12 +667,12 @@ private:
> >
> > Error destroyIndirectStubsManager(ResourceIdMgr::ResourceId Id) {
> > IndirectStubOwnerIds.release(Id);
> > - return callST<DestroyIndirectStubsOwner>(Channel, Id);
> > + return callB<DestroyIndirectStubsOwner>(Id);
> > }
> >
> > Expected<std::tuple<JITTargetAddress, JITTargetAddress, uint32_t>>
> > emitIndirectStubs(ResourceIdMgr::ResourceId Id, uint32_t NumStubsRequired) {
> > - return callST<EmitIndirectStubs>(Channel, Id, NumStubsRequired);
> > + return callB<EmitIndirectStubs>(Id, NumStubsRequired);
> > }
> >
> > Expected<std::tuple<JITTargetAddress, uint32_t>> emitTrampolineBlock() {
> > @@ -727,7 +680,7 @@ private:
> > if (ExistingError)
> > return std::move(ExistingError);
> >
> > - return callST<EmitTrampolineBlock>(Channel);
> > + return callB<EmitTrampolineBlock>();
> > }
> >
> > uint32_t getIndirectStubSize() const { return RemoteIndirectStubSize; }
> > @@ -736,42 +689,17 @@ private:
> >
> > uint32_t getTrampolineSize() const { return RemoteTrampolineSize; }
> >
> > - Error listenForCompileRequests(RPCByteChannel &C, uint32_t &Id) {
> > - assert(CallbackManager &&
> > - "No calback manager. enableCompileCallbacks must be called first");
> > -
> > - // Check for an 'out-of-band' error, e.g. from an MM destructor.
> > - if (ExistingError)
> > - return std::move(ExistingError);
> > -
> > - // FIXME: CompileCallback could be an anonymous lambda defined at the use
> > - // site below, but that triggers a GCC 4.7 ICE. When we move off
> > - // GCC 4.7, tidy this up.
> > - auto CompileCallback =
> > - [this](JITTargetAddress Addr) -> Expected<JITTargetAddress> {
> > - return this->CallbackManager->executeCompileCallback(Addr);
> > - };
> > -
> > - if (Id == RequestCompileId) {
> > - if (auto Err = handle<RequestCompile>(C, CompileCallback))
> > - return Err;
> > - return Error::success();
> > - }
> > - // else
> > - return orcError(OrcErrorCode::UnexpectedRPCCall);
> > - }
> > -
> > Expected<std::vector<char>> readMem(char *Dst, JITTargetAddress Src,
> > uint64_t Size) {
> > // Check for an 'out-of-band' error, e.g. from an MM destructor.
> > if (ExistingError)
> > return std::move(ExistingError);
> >
> > - return callST<ReadMem>(Channel, Src, Size);
> > + return callB<ReadMem>(Src, Size);
> > }
> >
> > Error registerEHFrames(JITTargetAddress &RAddr, uint32_t Size) {
> > - return callST<RegisterEHFrames>(Channel, RAddr, Size);
> > + return callB<RegisterEHFrames>(RAddr, Size);
> > }
> >
> > Expected<JITTargetAddress> reserveMem(ResourceIdMgr::ResourceId Id,
> > @@ -781,12 +709,12 @@ private:
> > if (ExistingError)
> > return std::move(ExistingError);
> >
> > - return callST<ReserveMem>(Channel, Id, Size, Align);
> > + return callB<ReserveMem>(Id, Size, Align);
> > }
> >
> > Error setProtections(ResourceIdMgr::ResourceId Id,
> > JITTargetAddress RemoteSegAddr, unsigned ProtFlags) {
> > - return callST<SetProtections>(Channel, Id, RemoteSegAddr, ProtFlags);
> > + return callB<SetProtections>(Id, RemoteSegAddr, ProtFlags);
> > }
> >
> > Error writeMem(JITTargetAddress Addr, const char *Src, uint64_t Size) {
> > @@ -794,7 +722,7 @@ private:
> > if (ExistingError)
> > return std::move(ExistingError);
> >
> > - return callST<WriteMem>(Channel, DirectBufferWriter(Src, Addr, Size));
> > + return callB<WriteMem>(DirectBufferWriter(Src, Addr, Size));
> > }
> >
> > Error writePointer(JITTargetAddress Addr, JITTargetAddress PtrVal) {
> > @@ -802,12 +730,11 @@ private:
> > if (ExistingError)
> > return std::move(ExistingError);
> >
> > - return callST<WritePtr>(Channel, Addr, PtrVal);
> > + return callB<WritePtr>(Addr, PtrVal);
> > }
> >
> > static Error doNothing() { return Error::success(); }
> >
> > - ChannelT &Channel;
> > Error ExistingError = Error::success();
> > std::string RemoteTargetTriple;
> > uint32_t RemotePointerSize = 0;
> >
> > Modified: llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetRPCAPI.h
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetRPCAPI.h?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetRPCAPI.h (original)
> > +++ llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetRPCAPI.h Fri Nov 11 15:42:09 2016
> > @@ -16,7 +16,7 @@
> > #ifndef LLVM_EXECUTIONENGINE_ORC_ORCREMOTETARGETRPCAPI_H
> > #define LLVM_EXECUTIONENGINE_ORC_ORCREMOTETARGETRPCAPI_H
> >
> > -#include "RPCByteChannel.h"
> > +#include "RawByteChannel.h"
> > #include "RPCUtils.h"
> > #include "llvm/ExecutionEngine/JITSymbol.h"
> >
> > @@ -40,13 +40,24 @@ private:
> > uint64_t Size;
> > };
> >
> > +} // end namespace remote
> > +
> > +namespace rpc {
> > +
> > template <>
> > -class SerializationTraits<RPCByteChannel, DirectBufferWriter> {
> > +class RPCTypeName<remote::DirectBufferWriter> {
> > public:
> > + static const char *getName() { return "DirectBufferWriter"; }
> > +};
> >
> > - static const char* getName() { return "DirectBufferWriter"; }
> > +template <typename ChannelT>
> > +class SerializationTraits<ChannelT, remote::DirectBufferWriter, remote::DirectBufferWriter,
> > + typename std::enable_if<
> > + std::is_base_of<RawByteChannel, ChannelT>::
> > + value>::type> {
> > +public:
> >
> > - static Error serialize(RPCByteChannel &C, const DirectBufferWriter &DBW) {
> > + static Error serialize(ChannelT &C, const remote::DirectBufferWriter &DBW) {
> > if (auto EC = serializeSeq(C, DBW.getDst()))
> > return EC;
> > if (auto EC = serializeSeq(C, DBW.getSize()))
> > @@ -54,7 +65,7 @@ public:
> > return C.appendBytes(DBW.getSrc(), DBW.getSize());
> > }
> >
> > - static Error deserialize(RPCByteChannel &C, DirectBufferWriter &DBW) {
> > + static Error deserialize(ChannelT &C, remote::DirectBufferWriter &DBW) {
> > JITTargetAddress Dst;
> > if (auto EC = deserializeSeq(C, Dst))
> > return EC;
> > @@ -63,13 +74,18 @@ public:
> > return EC;
> > char *Addr = reinterpret_cast<char *>(static_cast<uintptr_t>(Dst));
> >
> > - DBW = DirectBufferWriter(0, Dst, Size);
> > + DBW = remote::DirectBufferWriter(0, Dst, Size);
> >
> > return C.readBytes(Addr, Size);
> > }
> > };
> >
> > -class OrcRemoteTargetRPCAPI : public RPC<RPCByteChannel> {
> > +} // end namespace rpc
> > +
> > +namespace remote {
> > +
> > +class OrcRemoteTargetRPCAPI
> > + : public rpc::SingleThreadedRPC<rpc::RawByteChannel> {
> > protected:
> > class ResourceIdMgr {
> > public:
> > @@ -93,119 +109,162 @@ protected:
> >
> > public:
> > // FIXME: Remove constructors once MSVC supports synthesizing move-ops.
> > - OrcRemoteTargetRPCAPI() = default;
> > - OrcRemoteTargetRPCAPI(const OrcRemoteTargetRPCAPI &) = delete;
> > - OrcRemoteTargetRPCAPI &operator=(const OrcRemoteTargetRPCAPI &) = delete;
> > -
> > - OrcRemoteTargetRPCAPI(OrcRemoteTargetRPCAPI &&) {}
> > - OrcRemoteTargetRPCAPI &operator=(OrcRemoteTargetRPCAPI &&) { return *this; }
> > -
> > - enum JITFuncId : uint32_t {
> > - InvalidId = RPCFunctionIdTraits<JITFuncId>::InvalidId,
> > - CallIntVoidId = RPCFunctionIdTraits<JITFuncId>::FirstValidId,
> > - CallMainId,
> > - CallVoidVoidId,
> > - CreateRemoteAllocatorId,
> > - CreateIndirectStubsOwnerId,
> > - DeregisterEHFramesId,
> > - DestroyRemoteAllocatorId,
> > - DestroyIndirectStubsOwnerId,
> > - EmitIndirectStubsId,
> > - EmitResolverBlockId,
> > - EmitTrampolineBlockId,
> > - GetSymbolAddressId,
> > - GetRemoteInfoId,
> > - ReadMemId,
> > - RegisterEHFramesId,
> > - ReserveMemId,
> > - RequestCompileId,
> > - SetProtectionsId,
> > - TerminateSessionId,
> > - WriteMemId,
> > - WritePtrId
> > - };
> > -
> > - static const char *getJITFuncIdName(JITFuncId Id);
> > -
> > - typedef Function<CallIntVoidId, int32_t(JITTargetAddress Addr)> CallIntVoid;
> > -
> > - typedef Function<CallMainId,
> > - int32_t(JITTargetAddress Addr,
> > - std::vector<std::string> Args)>
> > - CallMain;
> > -
> > - typedef Function<CallVoidVoidId, void(JITTargetAddress FnAddr)> CallVoidVoid;
> > -
> > - typedef Function<CreateRemoteAllocatorId,
> > - void(ResourceIdMgr::ResourceId AllocatorID)>
> > - CreateRemoteAllocator;
> > -
> > - typedef Function<CreateIndirectStubsOwnerId,
> > - void(ResourceIdMgr::ResourceId StubOwnerID)>
> > - CreateIndirectStubsOwner;
> > -
> > - typedef Function<DeregisterEHFramesId,
> > - void(JITTargetAddress Addr, uint32_t Size)>
> > - DeregisterEHFrames;
> > -
> > - typedef Function<DestroyRemoteAllocatorId,
> > - void(ResourceIdMgr::ResourceId AllocatorID)>
> > - DestroyRemoteAllocator;
> > -
> > - typedef Function<DestroyIndirectStubsOwnerId,
> > - void(ResourceIdMgr::ResourceId StubsOwnerID)>
> > - DestroyIndirectStubsOwner;
> > + OrcRemoteTargetRPCAPI(rpc::RawByteChannel &C)
> > + : rpc::SingleThreadedRPC<rpc::RawByteChannel>(C, true) {}
> > +
> > + class CallIntVoid : public rpc::Function<CallIntVoid,
> > + int32_t(JITTargetAddress Addr)> {
> > + public:
> > + static const char* getName() { return "CallIntVoid"; }
> > + };
> > +
> > + class CallMain
> > + : public rpc::Function<CallMain,
> > + int32_t(JITTargetAddress Addr,
> > + std::vector<std::string> Args)> {
> > + public:
> > + static const char* getName() { return "CallMain"; }
> > + };
> > +
> > + class CallVoidVoid : public rpc::Function<CallVoidVoid,
> > + void(JITTargetAddress FnAddr)> {
> > + public:
> > + static const char* getName() { return "CallVoidVoid"; }
> > + };
> > +
> > + class CreateRemoteAllocator
> > + : public rpc::Function<CreateRemoteAllocator,
> > + void(ResourceIdMgr::ResourceId AllocatorID)> {
> > + public:
> > + static const char* getName() { return "CreateRemoteAllocator"; }
> > + };
> > +
> > + class CreateIndirectStubsOwner
> > + : public rpc::Function<CreateIndirectStubsOwner,
> > + void(ResourceIdMgr::ResourceId StubOwnerID)> {
> > + public:
> > + static const char* getName() { return "CreateIndirectStubsOwner"; }
> > + };
> > +
> > + class DeregisterEHFrames
> > + : public rpc::Function<DeregisterEHFrames,
> > + void(JITTargetAddress Addr, uint32_t Size)> {
> > + public:
> > + static const char* getName() { return "DeregisterEHFrames"; }
> > + };
> > +
> > + class DestroyRemoteAllocator
> > + : public rpc::Function<DestroyRemoteAllocator,
> > + void(ResourceIdMgr::ResourceId AllocatorID)> {
> > + public:
> > + static const char* getName() { return "DestroyRemoteAllocator"; }
> > + };
> > +
> > + class DestroyIndirectStubsOwner
> > + : public rpc::Function<DestroyIndirectStubsOwner,
> > + void(ResourceIdMgr::ResourceId StubsOwnerID)> {
> > + public:
> > + static const char* getName() { return "DestroyIndirectStubsOwner"; }
> > + };
> >
> > /// EmitIndirectStubs result is (StubsBase, PtrsBase, NumStubsEmitted).
> > - typedef Function<EmitIndirectStubsId,
> > - std::tuple<JITTargetAddress, JITTargetAddress, uint32_t>(
> > - ResourceIdMgr::ResourceId StubsOwnerID,
> > - uint32_t NumStubsRequired)>
> > - EmitIndirectStubs;
> > + class EmitIndirectStubs
> > + : public rpc::Function<EmitIndirectStubs,
> > + std::tuple<JITTargetAddress, JITTargetAddress,
> > + uint32_t>(
> > + ResourceIdMgr::ResourceId StubsOwnerID,
> > + uint32_t NumStubsRequired)> {
> > + public:
> > + static const char* getName() { return "EmitIndirectStubs"; }
> > + };
> >
> > - typedef Function<EmitResolverBlockId, void()> EmitResolverBlock;
> > + class EmitResolverBlock : public rpc::Function<EmitResolverBlock, void()> {
> > + public:
> > + static const char* getName() { return "EmitResolverBlock"; }
> > + };
> >
> > /// EmitTrampolineBlock result is (BlockAddr, NumTrampolines).
> > - typedef Function<EmitTrampolineBlockId,
> > - std::tuple<JITTargetAddress, uint32_t>()>
> > - EmitTrampolineBlock;
> > + class EmitTrampolineBlock
> > + : public rpc::Function<EmitTrampolineBlock,
> > + std::tuple<JITTargetAddress, uint32_t>()> {
> > + public:
> > + static const char* getName() { return "EmitTrampolineBlock"; }
> > + };
> >
> > - typedef Function<GetSymbolAddressId, JITTargetAddress(std::string SymbolName)>
> > - GetSymbolAddress;
> > + class GetSymbolAddress
> > + : public rpc::Function<GetSymbolAddress,
> > + JITTargetAddress(std::string SymbolName)> {
> > + public:
> > + static const char* getName() { return "GetSymbolAddress"; }
> > + };
> >
> > /// GetRemoteInfo result is (Triple, PointerSize, PageSize, TrampolineSize,
> > /// IndirectStubsSize).
> > - typedef Function<GetRemoteInfoId, std::tuple<std::string, uint32_t, uint32_t,
> > - uint32_t, uint32_t>()>
> > - GetRemoteInfo;
> > + class GetRemoteInfo
> > + : public rpc::Function<GetRemoteInfo,
> > + std::tuple<std::string, uint32_t, uint32_t,
> > + uint32_t, uint32_t>()> {
> > + public:
> > + static const char* getName() { return "GetRemoteInfo"; }
> > + };
> >
> > - typedef Function<ReadMemId,
> > - std::vector<char>(JITTargetAddress Src, uint64_t Size)>
> > - ReadMem;
> > + class ReadMem
> > + : public rpc::Function<ReadMem,
> > + std::vector<uint8_t>(JITTargetAddress Src,
> > + uint64_t Size)> {
> > + public:
> > + static const char* getName() { return "ReadMem"; }
> > + };
> >
> > - typedef Function<RegisterEHFramesId, void(JITTargetAddress Addr, uint32_t Size)>
> > - RegisterEHFrames;
> > + class RegisterEHFrames
> > + : public rpc::Function<RegisterEHFrames,
> > + void(JITTargetAddress Addr, uint32_t Size)> {
> > + public:
> > + static const char* getName() { return "RegisterEHFrames"; }
> > + };
> >
> > - typedef Function<ReserveMemId,
> > - JITTargetAddress(ResourceIdMgr::ResourceId AllocID,
> > - uint64_t Size, uint32_t Align)>
> > - ReserveMem;
> > + class ReserveMem
> > + : public rpc::Function<ReserveMem,
> > + JITTargetAddress(ResourceIdMgr::ResourceId AllocID,
> > + uint64_t Size, uint32_t Align)> {
> > + public:
> > + static const char* getName() { return "ReserveMem"; }
> > + };
> >
> > - typedef Function<RequestCompileId,
> > - JITTargetAddress(JITTargetAddress TrampolineAddr)>
> > - RequestCompile;
> > + class RequestCompile
> > + : public rpc::Function<RequestCompile,
> > + JITTargetAddress(JITTargetAddress TrampolineAddr)> {
> > + public:
> > + static const char* getName() { return "RequestCompile"; }
> > + };
> > +
> > + class SetProtections
> > + : public rpc::Function<SetProtections,
> > + void(ResourceIdMgr::ResourceId AllocID,
> > + JITTargetAddress Dst,
> > + uint32_t ProtFlags)> {
> > + public:
> > + static const char* getName() { return "SetProtections"; }
> > + };
> >
> > - typedef Function<SetProtectionsId,
> > - void(ResourceIdMgr::ResourceId AllocID, JITTargetAddress Dst,
> > - uint32_t ProtFlags)>
> > - SetProtections;
> > + class TerminateSession : public rpc::Function<TerminateSession, void()> {
> > + public:
> > + static const char* getName() { return "TerminateSession"; }
> > + };
> >
> > - typedef Function<TerminateSessionId, void()> TerminateSession;
> > + class WriteMem : public rpc::Function<WriteMem,
> > + void(remote::DirectBufferWriter DB)> {
> > + public:
> > + static const char* getName() { return "WriteMem"; }
> > + };
> >
> > - typedef Function<WriteMemId, void(DirectBufferWriter DB)> WriteMem;
> > + class WritePtr
> > + : public rpc::Function<WritePtr,
> > + void(JITTargetAddress Dst, JITTargetAddress Val)> {
> > + public:
> > + static const char* getName() { return "WritePtr"; }
> > + };
> >
> > - typedef Function<WritePtrId, void(JITTargetAddress Dst, JITTargetAddress Val)>
> > - WritePtr;
> > };
> >
> > } // end namespace remote
> >
> > Modified: llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetServer.h
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetServer.h?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetServer.h (original)
> > +++ llvm/trunk/include/llvm/ExecutionEngine/Orc/OrcRemoteTargetServer.h Fri Nov 11 15:42:09 2016
> > @@ -41,94 +41,51 @@ public:
> > OrcRemoteTargetServer(ChannelT &Channel, SymbolLookupFtor SymbolLookup,
> > EHFrameRegistrationFtor EHFramesRegister,
> > EHFrameRegistrationFtor EHFramesDeregister)
> > - : Channel(Channel), SymbolLookup(std::move(SymbolLookup)),
> > + : OrcRemoteTargetRPCAPI(Channel), SymbolLookup(std::move(SymbolLookup)),
> > EHFramesRegister(std::move(EHFramesRegister)),
> > - EHFramesDeregister(std::move(EHFramesDeregister)) {}
> > + EHFramesDeregister(std::move(EHFramesDeregister)),
> > + TerminateFlag(false) {
> > +
> > + using ThisT = typename std::remove_reference<decltype(*this)>::type;
> > + addHandler<CallIntVoid>(*this, &ThisT::handleCallIntVoid);
> > + addHandler<CallMain>(*this, &ThisT::handleCallMain);
> > + addHandler<CallVoidVoid>(*this, &ThisT::handleCallVoidVoid);
> > + addHandler<CreateRemoteAllocator>(*this,
> > + &ThisT::handleCreateRemoteAllocator);
> > + addHandler<CreateIndirectStubsOwner>(*this,
> > + &ThisT::handleCreateIndirectStubsOwner);
> > + addHandler<DeregisterEHFrames>(*this, &ThisT::handleDeregisterEHFrames);
> > + addHandler<DestroyRemoteAllocator>(*this,
> > + &ThisT::handleDestroyRemoteAllocator);
> > + addHandler<DestroyIndirectStubsOwner>(*this,
> > + &ThisT::handleDestroyIndirectStubsOwner);
> > + addHandler<EmitIndirectStubs>(*this, &ThisT::handleEmitIndirectStubs);
> > + addHandler<EmitResolverBlock>(*this, &ThisT::handleEmitResolverBlock);
> > + addHandler<EmitTrampolineBlock>(*this, &ThisT::handleEmitTrampolineBlock);
> > + addHandler<GetSymbolAddress>(*this, &ThisT::handleGetSymbolAddress);
> > + addHandler<GetRemoteInfo>(*this, &ThisT::handleGetRemoteInfo);
> > + addHandler<ReadMem>(*this, &ThisT::handleReadMem);
> > + addHandler<RegisterEHFrames>(*this, &ThisT::handleRegisterEHFrames);
> > + addHandler<ReserveMem>(*this, &ThisT::handleReserveMem);
> > + addHandler<SetProtections>(*this, &ThisT::handleSetProtections);
> > + addHandler<TerminateSession>(*this, &ThisT::handleTerminateSession);
> > + addHandler<WriteMem>(*this, &ThisT::handleWriteMem);
> > + addHandler<WritePtr>(*this, &ThisT::handleWritePtr);
> > + }
> >
> > // FIXME: Remove move/copy ops once MSVC supports synthesizing move ops.
> > OrcRemoteTargetServer(const OrcRemoteTargetServer &) = delete;
> > OrcRemoteTargetServer &operator=(const OrcRemoteTargetServer &) = delete;
> >
> > - OrcRemoteTargetServer(OrcRemoteTargetServer &&Other)
> > - : Channel(Other.Channel), SymbolLookup(std::move(Other.SymbolLookup)),
> > - EHFramesRegister(std::move(Other.EHFramesRegister)),
> > - EHFramesDeregister(std::move(Other.EHFramesDeregister)) {}
> > -
> > + OrcRemoteTargetServer(OrcRemoteTargetServer &&Other) = default;
> > OrcRemoteTargetServer &operator=(OrcRemoteTargetServer &&) = delete;
> >
> > - Error handleKnownFunction(JITFuncId Id) {
> > - typedef OrcRemoteTargetServer ThisT;
> > -
> > - DEBUG(dbgs() << "Handling known proc: " << getJITFuncIdName(Id) << "\n");
> > -
> > - switch (Id) {
> > - case CallIntVoidId:
> > - return handle<CallIntVoid>(Channel, *this, &ThisT::handleCallIntVoid);
> > - case CallMainId:
> > - return handle<CallMain>(Channel, *this, &ThisT::handleCallMain);
> > - case CallVoidVoidId:
> > - return handle<CallVoidVoid>(Channel, *this, &ThisT::handleCallVoidVoid);
> > - case CreateRemoteAllocatorId:
> > - return handle<CreateRemoteAllocator>(Channel, *this,
> > - &ThisT::handleCreateRemoteAllocator);
> > - case CreateIndirectStubsOwnerId:
> > - return handle<CreateIndirectStubsOwner>(
> > - Channel, *this, &ThisT::handleCreateIndirectStubsOwner);
> > - case DeregisterEHFramesId:
> > - return handle<DeregisterEHFrames>(Channel, *this,
> > - &ThisT::handleDeregisterEHFrames);
> > - case DestroyRemoteAllocatorId:
> > - return handle<DestroyRemoteAllocator>(
> > - Channel, *this, &ThisT::handleDestroyRemoteAllocator);
> > - case DestroyIndirectStubsOwnerId:
> > - return handle<DestroyIndirectStubsOwner>(
> > - Channel, *this, &ThisT::handleDestroyIndirectStubsOwner);
> > - case EmitIndirectStubsId:
> > - return handle<EmitIndirectStubs>(Channel, *this,
> > - &ThisT::handleEmitIndirectStubs);
> > - case EmitResolverBlockId:
> > - return handle<EmitResolverBlock>(Channel, *this,
> > - &ThisT::handleEmitResolverBlock);
> > - case EmitTrampolineBlockId:
> > - return handle<EmitTrampolineBlock>(Channel, *this,
> > - &ThisT::handleEmitTrampolineBlock);
> > - case GetSymbolAddressId:
> > - return handle<GetSymbolAddress>(Channel, *this,
> > - &ThisT::handleGetSymbolAddress);
> > - case GetRemoteInfoId:
> > - return handle<GetRemoteInfo>(Channel, *this, &ThisT::handleGetRemoteInfo);
> > - case ReadMemId:
> > - return handle<ReadMem>(Channel, *this, &ThisT::handleReadMem);
> > - case RegisterEHFramesId:
> > - return handle<RegisterEHFrames>(Channel, *this,
> > - &ThisT::handleRegisterEHFrames);
> > - case ReserveMemId:
> > - return handle<ReserveMem>(Channel, *this, &ThisT::handleReserveMem);
> > - case SetProtectionsId:
> > - return handle<SetProtections>(Channel, *this,
> > - &ThisT::handleSetProtections);
> > - case WriteMemId:
> > - return handle<WriteMem>(Channel, *this, &ThisT::handleWriteMem);
> > - case WritePtrId:
> > - return handle<WritePtr>(Channel, *this, &ThisT::handleWritePtr);
> > - default:
> > - return orcError(OrcErrorCode::UnexpectedRPCCall);
> > - }
> > -
> > - llvm_unreachable("Unhandled JIT RPC procedure Id.");
> > - }
> >
> > Expected<JITTargetAddress> requestCompile(JITTargetAddress TrampolineAddr) {
> > - auto Listen = [&](RPCByteChannel &C, uint32_t Id) {
> > - return handleKnownFunction(static_cast<JITFuncId>(Id));
> > - };
> > -
> > - return callSTHandling<RequestCompile>(Channel, Listen, TrampolineAddr);
> > + return callB<RequestCompile>(TrampolineAddr);
> > }
> >
> > - Error handleTerminateSession() {
> > - return handle<TerminateSession>(Channel, []() { return Error::success(); });
> > - }
> > + bool receivedTerminate() const { return TerminateFlag; }
> >
> > private:
> > struct Allocator {
> > @@ -365,15 +322,16 @@ private:
> > IndirectStubSize);
> > }
> >
> > - Expected<std::vector<char>> handleReadMem(JITTargetAddress RSrc, uint64_t Size) {
> > - char *Src = reinterpret_cast<char *>(static_cast<uintptr_t>(RSrc));
> > + Expected<std::vector<uint8_t>> handleReadMem(JITTargetAddress RSrc,
> > + uint64_t Size) {
> > + uint8_t *Src = reinterpret_cast<uint8_t*>(static_cast<uintptr_t>(RSrc));
> >
> > DEBUG(dbgs() << " Reading " << Size << " bytes from "
> > << format("0x%016x", RSrc) << "\n");
> >
> > - std::vector<char> Buffer;
> > + std::vector<uint8_t> Buffer;
> > Buffer.resize(Size);
> > - for (char *P = Src; Size != 0; --Size)
> > + for (uint8_t *P = Src; Size != 0; --Size)
> > Buffer.push_back(*P++);
> >
> > return Buffer;
> > @@ -421,6 +379,11 @@ private:
> > return Allocator.setProtections(LocalAddr, Flags);
> > }
> >
> > + Error handleTerminateSession() {
> > + TerminateFlag = true;
> > + return Error::success();
> > + }
> > +
> > Error handleWriteMem(DirectBufferWriter DBW) {
> > DEBUG(dbgs() << " Writing " << DBW.getSize() << " bytes to "
> > << format("0x%016x", DBW.getDst()) << "\n");
> > @@ -436,7 +399,6 @@ private:
> > return Error::success();
> > }
> >
> > - ChannelT &Channel;
> > SymbolLookupFtor SymbolLookup;
> > EHFrameRegistrationFtor EHFramesRegister, EHFramesDeregister;
> > std::map<ResourceIdMgr::ResourceId, Allocator> Allocators;
> > @@ -444,6 +406,7 @@ private:
> > std::map<ResourceIdMgr::ResourceId, ISBlockOwnerList> IndirectStubsOwners;
> > sys::OwningMemoryBlock ResolverBlock;
> > std::vector<sys::OwningMemoryBlock> TrampolineBlocks;
> > + bool TerminateFlag;
> > };
> >
> > } // end namespace remote
> >
> > Removed: llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCByteChannel.h
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCByteChannel.h?rev=286638&view=auto
> > ==============================================================================
> > --- llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCByteChannel.h (original)
> > +++ llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCByteChannel.h (removed)
> > @@ -1,231 +0,0 @@
> > -//===- llvm/ExecutionEngine/Orc/RPCByteChannel.h ----------------*- C++ -*-===//
> > -//
> > -// The LLVM Compiler Infrastructure
> > -//
> > -// This file is distributed under the University of Illinois Open Source
> > -// License. See LICENSE.TXT for details.
> > -//
> > -//===----------------------------------------------------------------------===//
> > -
> > -#ifndef LLVM_EXECUTIONENGINE_ORC_RPCBYTECHANNEL_H
> > -#define LLVM_EXECUTIONENGINE_ORC_RPCBYTECHANNEL_H
> > -
> > -#include "OrcError.h"
> > -#include "RPCSerialization.h"
> > -#include "llvm/ADT/ArrayRef.h"
> > -#include "llvm/ADT/STLExtras.h"
> > -#include "llvm/ADT/StringRef.h"
> > -#include "llvm/Support/Endian.h"
> > -#include "llvm/Support/Error.h"
> > -#include <cstddef>
> > -#include <cstdint>
> > -#include <mutex>
> > -#include <string>
> > -#include <tuple>
> > -#include <type_traits>
> > -#include <vector>
> > -
> > -namespace llvm {
> > -namespace orc {
> > -namespace remote {
> > -
> > -/// Interface for byte-streams to be used with RPC.
> > -class RPCByteChannel {
> > -public:
> > - virtual ~RPCByteChannel() {}
> > -
> > - /// Read Size bytes from the stream into *Dst.
> > - virtual Error readBytes(char *Dst, unsigned Size) = 0;
> > -
> > - /// Read size bytes from *Src and append them to the stream.
> > - virtual Error appendBytes(const char *Src, unsigned Size) = 0;
> > -
> > - /// Flush the stream if possible.
> > - virtual Error send() = 0;
> > -
> > - /// Get the lock for stream reading.
> > - std::mutex &getReadLock() { return readLock; }
> > -
> > - /// Get the lock for stream writing.
> > - std::mutex &getWriteLock() { return writeLock; }
> > -
> > -private:
> > - std::mutex readLock, writeLock;
> > -};
> > -
> > -/// Notify the channel that we're starting a message send.
> > -/// Locks the channel for writing.
> > -inline Error startSendMessage(RPCByteChannel &C) {
> > - C.getWriteLock().lock();
> > - return Error::success();
> > -}
> > -
> > -/// Notify the channel that we're ending a message send.
> > -/// Unlocks the channel for writing.
> > -inline Error endSendMessage(RPCByteChannel &C) {
> > - C.getWriteLock().unlock();
> > - return Error::success();
> > -}
> > -
> > -/// Notify the channel that we're starting a message receive.
> > -/// Locks the channel for reading.
> > -inline Error startReceiveMessage(RPCByteChannel &C) {
> > - C.getReadLock().lock();
> > - return Error::success();
> > -}
> > -
> > -/// Notify the channel that we're ending a message receive.
> > -/// Unlocks the channel for reading.
> > -inline Error endReceiveMessage(RPCByteChannel &C) {
> > - C.getReadLock().unlock();
> > - return Error::success();
> > -}
> > -
> > -template <typename ChannelT, typename T,
> > - typename =
> > - typename std::enable_if<
> > - std::is_base_of<RPCByteChannel, ChannelT>::value>::
> > - type>
> > -class RPCByteChannelPrimitiveSerialization {
> > -public:
> > - static Error serialize(ChannelT &C, T V) {
> > - support::endian::byte_swap<T, support::big>(V);
> > - return C.appendBytes(reinterpret_cast<const char *>(&V), sizeof(T));
> > - };
> > -
> > - static Error deserialize(ChannelT &C, T &V) {
> > - if (auto Err = C.readBytes(reinterpret_cast<char *>(&V), sizeof(T)))
> > - return Err;
> > - support::endian::byte_swap<T, support::big>(V);
> > - return Error::success();
> > - };
> > -};
> > -
> > -template <typename ChannelT>
> > -class SerializationTraits<ChannelT, uint64_t>
> > - : public RPCByteChannelPrimitiveSerialization<ChannelT, uint64_t> {
> > -public:
> > - static const char* getName() { return "uint64_t"; }
> > -};
> > -
> > -template <typename ChannelT>
> > -class SerializationTraits<ChannelT, int64_t>
> > - : public RPCByteChannelPrimitiveSerialization<ChannelT, int64_t> {
> > -public:
> > - static const char* getName() { return "int64_t"; }
> > -};
> > -
> > -template <typename ChannelT>
> > -class SerializationTraits<ChannelT, uint32_t>
> > - : public RPCByteChannelPrimitiveSerialization<ChannelT, uint32_t> {
> > -public:
> > - static const char* getName() { return "uint32_t"; }
> > -};
> > -
> > -template <typename ChannelT>
> > -class SerializationTraits<ChannelT, int32_t>
> > - : public RPCByteChannelPrimitiveSerialization<ChannelT, int32_t> {
> > -public:
> > - static const char* getName() { return "int32_t"; }
> > -};
> > -
> > -template <typename ChannelT>
> > -class SerializationTraits<ChannelT, uint16_t>
> > - : public RPCByteChannelPrimitiveSerialization<ChannelT, uint16_t> {
> > -public:
> > - static const char* getName() { return "uint16_t"; }
> > -};
> > -
> > -template <typename ChannelT>
> > -class SerializationTraits<ChannelT, int16_t>
> > - : public RPCByteChannelPrimitiveSerialization<ChannelT, int16_t> {
> > -public:
> > - static const char* getName() { return "int16_t"; }
> > -};
> > -
> > -template <typename ChannelT>
> > -class SerializationTraits<ChannelT, uint8_t>
> > - : public RPCByteChannelPrimitiveSerialization<ChannelT, uint8_t> {
> > -public:
> > - static const char* getName() { return "uint8_t"; }
> > -};
> > -
> > -template <typename ChannelT>
> > -class SerializationTraits<ChannelT, int8_t>
> > - : public RPCByteChannelPrimitiveSerialization<ChannelT, int8_t> {
> > -public:
> > - static const char* getName() { return "int8_t"; }
> > -};
> > -
> > -template <typename ChannelT>
> > -class SerializationTraits<ChannelT, char>
> > - : public RPCByteChannelPrimitiveSerialization<ChannelT, uint8_t> {
> > -public:
> > - static const char* getName() { return "char"; }
> > -
> > - static Error serialize(RPCByteChannel &C, char V) {
> > - return serializeSeq(C, static_cast<uint8_t>(V));
> > - };
> > -
> > - static Error deserialize(RPCByteChannel &C, char &V) {
> > - uint8_t VV;
> > - if (auto Err = deserializeSeq(C, VV))
> > - return Err;
> > - V = static_cast<char>(V);
> > - return Error::success();
> > - };
> > -};
> > -
> > -template <typename ChannelT>
> > -class SerializationTraits<ChannelT, bool,
> > - typename std::enable_if<
> > - std::is_base_of<RPCByteChannel, ChannelT>::value>::
> > - type> {
> > -public:
> > - static const char* getName() { return "bool"; }
> > -
> > - static Error serialize(ChannelT &C, bool V) {
> > - return C.appendBytes(reinterpret_cast<const char *>(&V), 1);
> > - }
> > -
> > - static Error deserialize(ChannelT &C, bool &V) {
> > - return C.readBytes(reinterpret_cast<char *>(&V), 1);
> > - }
> > -};
> > -
> > -template <typename ChannelT>
> > -class SerializationTraits<ChannelT, std::string,
> > - typename std::enable_if<
> > - std::is_base_of<RPCByteChannel, ChannelT>::value>::
> > - type> {
> > -public:
> > - static const char* getName() { return "std::string"; }
> > -
> > - static Error serialize(RPCByteChannel &C, StringRef S) {
> > - if (auto Err = SerializationTraits<RPCByteChannel, uint64_t>::
> > - serialize(C, static_cast<uint64_t>(S.size())))
> > - return Err;
> > - return C.appendBytes((const char *)S.bytes_begin(), S.size());
> > - }
> > -
> > - /// RPC channel serialization for std::strings.
> > - static Error serialize(RPCByteChannel &C, const std::string &S) {
> > - return serialize(C, StringRef(S));
> > - }
> > -
> > - /// RPC channel deserialization for std::strings.
> > - static Error deserialize(RPCByteChannel &C, std::string &S) {
> > - uint64_t Count = 0;
> > - if (auto Err = SerializationTraits<RPCByteChannel, uint64_t>::
> > - deserialize(C, Count))
> > - return Err;
> > - S.resize(Count);
> > - return C.readBytes(&S[0], Count);
> > - }
> > -};
> > -
> > -} // end namespace remote
> > -} // end namespace orc
> > -} // end namespace llvm
> > -
> > -#endif // LLVM_EXECUTIONENGINE_ORC_RPCBYTECHANNEL_H
> >
> > Modified: llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCSerialization.h
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCSerialization.h?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCSerialization.h (original)
> > +++ llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCSerialization.h Fri Nov 11 15:42:09 2016
> > @@ -17,7 +17,164 @@
> >
> > namespace llvm {
> > namespace orc {
> > -namespace remote {
> > +namespace rpc {
> > +
> > +template <typename T>
> > +class RPCTypeName;
> > +
> > +/// TypeNameSequence is a utility for rendering sequences of types to a string
> > +/// by rendering each type, separated by ", ".
> > +template <typename... ArgTs> class RPCTypeNameSequence {};
> > +
> > +/// Render an empty TypeNameSequence to an ostream.
> > +template <typename OStream>
> > +OStream &operator<<(OStream &OS, const RPCTypeNameSequence<> &V) {
> > + return OS;
> > +}
> > +
> > +/// Render a TypeNameSequence of a single type to an ostream.
> > +template <typename OStream, typename ArgT>
> > +OStream &operator<<(OStream &OS, const RPCTypeNameSequence<ArgT> &V) {
> > + OS << RPCTypeName<ArgT>::getName();
> > + return OS;
> > +}
> > +
> > +/// Render a TypeNameSequence of more than one type to an ostream.
> > +template <typename OStream, typename ArgT1, typename ArgT2, typename... ArgTs>
> > +OStream&
> > +operator<<(OStream &OS, const RPCTypeNameSequence<ArgT1, ArgT2, ArgTs...> &V) {
> > + OS << RPCTypeName<ArgT1>::getName() << ", "
> > + << RPCTypeNameSequence<ArgT2, ArgTs...>();
> > + return OS;
> > +}
> > +
> > +template <>
> > +class RPCTypeName<void> {
> > +public:
> > + static const char* getName() { return "void"; }
> > +};
> > +
> > +template <>
> > +class RPCTypeName<int8_t> {
> > +public:
> > + static const char* getName() { return "int8_t"; }
> > +};
> > +
> > +template <>
> > +class RPCTypeName<uint8_t> {
> > +public:
> > + static const char* getName() { return "uint8_t"; }
> > +};
> > +
> > +template <>
> > +class RPCTypeName<int16_t> {
> > +public:
> > + static const char* getName() { return "int16_t"; }
> > +};
> > +
> > +template <>
> > +class RPCTypeName<uint16_t> {
> > +public:
> > + static const char* getName() { return "uint16_t"; }
> > +};
> > +
> > +template <>
> > +class RPCTypeName<int32_t> {
> > +public:
> > + static const char* getName() { return "int32_t"; }
> > +};
> > +
> > +template <>
> > +class RPCTypeName<uint32_t> {
> > +public:
> > + static const char* getName() { return "uint32_t"; }
> > +};
> > +
> > +template <>
> > +class RPCTypeName<int64_t> {
> > +public:
> > + static const char* getName() { return "int64_t"; }
> > +};
> > +
> > +template <>
> > +class RPCTypeName<uint64_t> {
> > +public:
> > + static const char* getName() { return "uint64_t"; }
> > +};
> > +
> > +template <>
> > +class RPCTypeName<bool> {
> > +public:
> > + static const char* getName() { return "bool"; }
> > +};
> > +
> > +template <>
> > +class RPCTypeName<std::string> {
> > +public:
> > + static const char* getName() { return "std::string"; }
> > +};
> > +
> > +template <typename T1, typename T2>
> > +class RPCTypeName<std::pair<T1, T2>> {
> > +public:
> > + static const char* getName() {
> > + std::lock_guard<std::mutex> Lock(NameMutex);
> > + if (Name.empty())
> > + raw_string_ostream(Name) << "std::pair<" << RPCTypeNameSequence<T1, T2>()
> > + << ">";
> > + return Name.data();
> > + }
> > +private:
> > + static std::mutex NameMutex;
> > + static std::string Name;
> > +};
> > +
> > +template <typename T1, typename T2>
> > +std::mutex RPCTypeName<std::pair<T1, T2>>::NameMutex;
> > +template <typename T1, typename T2>
> > +std::string RPCTypeName<std::pair<T1, T2>>::Name;
> > +
> > +template <typename... ArgTs>
> > +class RPCTypeName<std::tuple<ArgTs...>> {
> > +public:
> > + static const char* getName() {
> > + std::lock_guard<std::mutex> Lock(NameMutex);
> > + if (Name.empty())
> > + raw_string_ostream(Name) << "std::tuple<"
> > + << RPCTypeNameSequence<ArgTs...>() << ">";
> > + return Name.data();
> > + }
> > +private:
> > + static std::mutex NameMutex;
> > + static std::string Name;
> > +};
> > +
> > +template <typename... ArgTs>
> > +std::mutex RPCTypeName<std::tuple<ArgTs...>>::NameMutex;
> > +template <typename... ArgTs>
> > +std::string RPCTypeName<std::tuple<ArgTs...>>::Name;
> > +
> > +template <typename T>
> > +class RPCTypeName<std::vector<T>> {
> > +public:
> > + static const char*getName() {
> > + std::lock_guard<std::mutex> Lock(NameMutex);
> > + if (Name.empty())
> > + raw_string_ostream(Name) << "std::vector<" << RPCTypeName<T>::getName()
> > + << ">";
> > + return Name.data();
> > + }
> > +
> > +private:
> > + static std::mutex NameMutex;
> > + static std::string Name;
> > +};
> > +
> > +template <typename T>
> > +std::mutex RPCTypeName<std::vector<T>>::NameMutex;
> > +template <typename T>
> > +std::string RPCTypeName<std::vector<T>>::Name;
> > +
> >
> > /// The SerializationTraits<ChannelT, T> class describes how to serialize and
> > /// deserialize an instance of type T to/from an abstract channel of type
> > @@ -51,71 +208,92 @@ namespace remote {
> > /// }
> > ///
> > /// @endcode
> > -template <typename ChannelT, typename T, typename = void>
> > +template <typename ChannelT, typename WireType, typename From = WireType,
> > + typename = void>
> > class SerializationTraits {};
> >
> > -/// TypeNameSequence is a utility for rendering sequences of types to a string
> > -/// by rendering each type, separated by ", ".
> > -template <typename ChannelT, typename... ArgTs> class TypeNameSequence {};
> > +template <typename ChannelT>
> > +class SequenceTraits {
> > +public:
> > + static Error emitSeparator(ChannelT &C) { return Error::success(); }
> > + static Error consumeSeparator(ChannelT &C) { return Error::success(); }
> > +};
> >
> > -/// Render a TypeNameSequence of a single type to an ostream.
> > -template <typename OStream, typename ChannelT, typename ArgT>
> > -OStream &operator<<(OStream &OS, const TypeNameSequence<ChannelT, ArgT> &V) {
> > - OS << SerializationTraits<ChannelT, ArgT>::getName();
> > - return OS;
> > -}
> > +/// Utility class for serializing sequences of values of varying types.
> > +/// Specializations of this class contain 'serialize' and 'deserialize' methods
> > +/// for the given channel. The ArgTs... list will determine the "over-the-wire"
> > +/// types to be serialized. The serialize and deserialize methods take a list
> > +/// CArgTs... ("caller arg types") which must be the same length as ArgTs...,
> > +/// but may be different types from ArgTs, provided that for each CArgT there
> > +/// is a SerializationTraits specialization
> > +/// SerializeTraits<ChannelT, ArgT, CArgT> with methods that can serialize the
> > +/// caller argument to over-the-wire value.
> > +template <typename ChannelT, typename... ArgTs>
> > +class SequenceSerialization;
> >
> > -/// Render a TypeNameSequence of more than one type to an ostream.
> > -template <typename OStream, typename ChannelT, typename ArgT1, typename ArgT2,
> > - typename... ArgTs>
> > -OStream &
> > -operator<<(OStream &OS,
> > - const TypeNameSequence<ChannelT, ArgT1, ArgT2, ArgTs...> &V) {
> > - OS << SerializationTraits<ChannelT, ArgT1>::getName() << ", "
> > - << TypeNameSequence<ChannelT, ArgT2, ArgTs...>();
> > - return OS;
> > -}
> > +template <typename ChannelT>
> > +class SequenceSerialization<ChannelT> {
> > +public:
> > + static Error serialize(ChannelT &C) { return Error::success(); }
> > + static Error deserialize(ChannelT &C) { return Error::success(); }
> > +};
> >
> > -/// RPC channel serialization for a variadic list of arguments.
> > -template <typename ChannelT, typename T, typename... Ts>
> > -Error serializeSeq(ChannelT &C, const T &Arg, const Ts &... Args) {
> > - if (auto Err = SerializationTraits<ChannelT, T>::serialize(C, Arg))
> > - return Err;
> > - return serializeSeq(C, Args...);
> > -}
> > +template <typename ChannelT, typename ArgT>
> > +class SequenceSerialization<ChannelT, ArgT> {
> > +public:
> >
> > -/// RPC channel serialization for an (empty) variadic list of arguments.
> > -template <typename ChannelT> Error serializeSeq(ChannelT &C) {
> > - return Error::success();
> > -}
> > + template <typename CArgT>
> > + static Error serialize(ChannelT &C, const CArgT &CArg) {
> > + return SerializationTraits<ChannelT, ArgT, CArgT>::serialize(C, CArg);
> > + }
> > +
> > + template <typename CArgT>
> > + static Error deserialize(ChannelT &C, CArgT &CArg) {
> > + return SerializationTraits<ChannelT, ArgT, CArgT>::deserialize(C, CArg);
> > + }
> > +};
> > +
> > +template <typename ChannelT, typename ArgT, typename... ArgTs>
> > +class SequenceSerialization<ChannelT, ArgT, ArgTs...> {
> > +public:
> >
> > -/// RPC channel deserialization for a variadic list of arguments.
> > -template <typename ChannelT, typename T, typename... Ts>
> > -Error deserializeSeq(ChannelT &C, T &Arg, Ts &... Args) {
> > - if (auto Err = SerializationTraits<ChannelT, T>::deserialize(C, Arg))
> > - return Err;
> > - return deserializeSeq(C, Args...);
> > + template <typename CArgT, typename... CArgTs>
> > + static Error serialize(ChannelT &C, const CArgT &CArg,
> > + const CArgTs&... CArgs) {
> > + if (auto Err =
> > + SerializationTraits<ChannelT, ArgT, CArgT>::serialize(C, CArg))
> > + return Err;
> > + if (auto Err = SequenceTraits<ChannelT>::emitSeparator(C))
> > + return Err;
> > + return SequenceSerialization<ChannelT, ArgTs...>::serialize(C, CArgs...);
> > + }
> > +
> > + template <typename CArgT, typename... CArgTs>
> > + static Error deserialize(ChannelT &C, CArgT &CArg,
> > + CArgTs&... CArgs) {
> > + if (auto Err =
> > + SerializationTraits<ChannelT, ArgT, CArgT>::deserialize(C, CArg))
> > + return Err;
> > + if (auto Err = SequenceTraits<ChannelT>::consumeSeparator(C))
> > + return Err;
> > + return SequenceSerialization<ChannelT, ArgTs...>::deserialize(C, CArgs...);
> > + }
> > +};
> > +
> > +template <typename ChannelT, typename... ArgTs>
> > +Error serializeSeq(ChannelT &C, const ArgTs &... Args) {
> > + return SequenceSerialization<ChannelT, ArgTs...>::serialize(C, Args...);
> > }
> >
> > -/// RPC channel serialization for an (empty) variadic list of arguments.
> > -template <typename ChannelT> Error deserializeSeq(ChannelT &C) {
> > - return Error::success();
> > +template <typename ChannelT, typename... ArgTs>
> > +Error deserializeSeq(ChannelT &C, ArgTs &... Args) {
> > + return SequenceSerialization<ChannelT, ArgTs...>::deserialize(C, Args...);
> > }
> >
> > /// SerializationTraits default specialization for std::pair.
> > template <typename ChannelT, typename T1, typename T2>
> > class SerializationTraits<ChannelT, std::pair<T1, T2>> {
> > public:
> > - static const char *getName() {
> > - std::lock_guard<std::mutex> Lock(NameMutex);
> > - if (Name.empty())
> > - Name = (std::ostringstream()
> > - << "std::pair<" << TypeNameSequence<ChannelT, T1, T2>() << ">")
> > - .str();
> > -
> > - return Name.data();
> > - }
> > -
> > static Error serialize(ChannelT &C, const std::pair<T1, T2> &V) {
> > return serializeSeq(C, V.first, V.second);
> > }
> > @@ -123,31 +301,12 @@ public:
> > static Error deserialize(ChannelT &C, std::pair<T1, T2> &V) {
> > return deserializeSeq(C, V.first, V.second);
> > }
> > -
> > -private:
> > - static std::mutex NameMutex;
> > - static std::string Name;
> > };
> >
> > -template <typename ChannelT, typename T1, typename T2>
> > -std::mutex SerializationTraits<ChannelT, std::pair<T1, T2>>::NameMutex;
> > -
> > -template <typename ChannelT, typename T1, typename T2>
> > -std::string SerializationTraits<ChannelT, std::pair<T1, T2>>::Name;
> > -
> > /// SerializationTraits default specialization for std::tuple.
> > template <typename ChannelT, typename... ArgTs>
> > class SerializationTraits<ChannelT, std::tuple<ArgTs...>> {
> > public:
> > - static const char *getName() {
> > - std::lock_guard<std::mutex> Lock(NameMutex);
> > - if (Name.empty())
> > - Name = (std::ostringstream()
> > - << "std::tuple<" << TypeNameSequence<ChannelT, ArgTs...>() << ">")
> > - .str();
> > -
> > - return Name.data();
> > - }
> >
> > /// RPC channel serialization for std::tuple.
> > static Error serialize(ChannelT &C, const std::tuple<ArgTs...> &V) {
> > @@ -173,68 +332,41 @@ private:
> > llvm::index_sequence<Is...> _) {
> > return deserializeSeq(C, std::get<Is>(V)...);
> > }
> > -
> > - static std::mutex NameMutex;
> > - static std::string Name;
> > };
> >
> > -template <typename ChannelT, typename... ArgTs>
> > -std::mutex SerializationTraits<ChannelT, std::tuple<ArgTs...>>::NameMutex;
> > -
> > -template <typename ChannelT, typename... ArgTs>
> > -std::string SerializationTraits<ChannelT, std::tuple<ArgTs...>>::Name;
> > -
> > /// SerializationTraits default specialization for std::vector.
> > template <typename ChannelT, typename T>
> > class SerializationTraits<ChannelT, std::vector<T>> {
> > public:
> > - static const char *getName() {
> > - std::lock_guard<std::mutex> Lock(NameMutex);
> > - if (Name.empty())
> > - Name = (std::ostringstream() << "std::vector<"
> > - << TypeNameSequence<ChannelT, T>() << ">")
> > - .str();
> > - return Name.data();
> > - }
> >
> > + /// Serialize a std::vector<T> from std::vector<T>.
> > static Error serialize(ChannelT &C, const std::vector<T> &V) {
> > - if (auto Err = SerializationTraits<ChannelT, uint64_t>::serialize(
> > - C, static_cast<uint64_t>(V.size())))
> > + if (auto Err = serializeSeq(C, static_cast<uint64_t>(V.size())))
> > return Err;
> >
> > for (const auto &E : V)
> > - if (auto Err = SerializationTraits<ChannelT, T>::serialize(C, E))
> > + if (auto Err = serializeSeq(C, E))
> > return Err;
> >
> > return Error::success();
> > }
> >
> > + /// Deserialize a std::vector<T> to a std::vector<T>.
> > static Error deserialize(ChannelT &C, std::vector<T> &V) {
> > uint64_t Count = 0;
> > - if (auto Err =
> > - SerializationTraits<ChannelT, uint64_t>::deserialize(C, Count))
> > + if (auto Err = deserializeSeq(C, Count))
> > return Err;
> >
> > V.resize(Count);
> > for (auto &E : V)
> > - if (auto Err = SerializationTraits<ChannelT, T>::deserialize(C, E))
> > + if (auto Err = deserializeSeq(C, E))
> > return Err;
> >
> > return Error::success();
> > }
> > -
> > -private:
> > - static std::mutex NameMutex;
> > - static std::string Name;
> > };
> >
> > -template <typename ChannelT, typename T>
> > -std::mutex SerializationTraits<ChannelT, std::vector<T>>::NameMutex;
> > -
> > -template <typename ChannelT, typename T>
> > -std::string SerializationTraits<ChannelT, std::vector<T>>::Name;
> > -
> > -} // end namespace remote
> > +} // end namespace rpc
> > } // end namespace orc
> > } // end namespace llvm
> >
> >
> > Modified: llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCUtils.h
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCUtils.h?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCUtils.h (original)
> > +++ llvm/trunk/include/llvm/ExecutionEngine/Orc/RPCUtils.h Fri Nov 11 15:42:09 2016
> > @@ -1,4 +1,4 @@
> > -//===----- RPCUTils.h - Basic tilities for building RPC APIs ----*- C++ -*-===//
> > +//===------- RPCUTils.h - Utilities for building RPC APIs -------*- C++ -*-===//
> > //
> > // The LLVM Compiler Infrastructure
> > //
> > @@ -7,7 +7,11 @@
> > //
> > //===----------------------------------------------------------------------===//
> > //
> > -// Basic utilities for building RPC APIs.
> > +// Utilities to support construction of simple RPC APIs.
> > +//
> > +// The RPC utilities aim for ease of use (minimal conceptual overhead) for C++
> > +// programmers, high performance, low memory overhead, and efficient use of the
> > +// communications channel.
> > //
> > //===----------------------------------------------------------------------===//
> >
> > @@ -15,10 +19,12 @@
> > #define LLVM_EXECUTIONENGINE_ORC_RPCUTILS_H
> >
> > #include <map>
> > +#include <thread>
> > #include <vector>
> >
> > #include "llvm/ADT/STLExtras.h"
> > #include "llvm/ExecutionEngine/Orc/OrcError.h"
> > +#include "llvm/ExecutionEngine/Orc/RPCSerialization.h"
> >
> > #ifdef _MSC_VER
> > // concrt.h depends on eh.h for __uncaught_exception declaration
> > @@ -39,32 +45,92 @@
> >
> > namespace llvm {
> > namespace orc {
> > -namespace remote {
> > +namespace rpc {
> >
> > -/// Describes reserved RPC Function Ids.
> > -///
> > -/// The default implementation will serve for integer and enum function id
> > -/// types. If you want to use a custom type as your FunctionId you can
> > -/// specialize this class and provide unique values for InvalidId,
> > -/// ResponseId and FirstValidId.
> > +template <typename DerivedFunc, typename FnT>
> > +class Function;
> >
> > -template <typename T> class RPCFunctionIdTraits {
> > +// RPC Function class.
> > +// DerivedFunc should be a user defined class with a static 'getName()' method
> > +// returning a const char* representing the function's name.
> > +template <typename DerivedFunc, typename RetT, typename... ArgTs>
> > +class Function<DerivedFunc, RetT(ArgTs...)> {
> > public:
> > - static const T InvalidId = static_cast<T>(0);
> > - static const T ResponseId = static_cast<T>(1);
> > - static const T FirstValidId = static_cast<T>(2);
> > +
> > + /// User defined function type.
> > + using Type = RetT(ArgTs...);
> > +
> > + /// Return type.
> > + using ReturnType = RetT;
> > +
> > + /// Returns the full function prototype as a string.
> > + static const char *getPrototype() {
> > + std::lock_guard<std::mutex> Lock(NameMutex);
> > + if (Name.empty())
> > + raw_string_ostream(Name)
> > + << RPCTypeName<RetT>::getName() << " " << DerivedFunc::getName()
> > + << "(" << llvm::orc::rpc::RPCTypeNameSequence<ArgTs...>() << ")";
> > + return Name.data();
> > + }
> > +private:
> > + static std::mutex NameMutex;
> > + static std::string Name;
> > };
> >
> > -// Base class containing utilities that require partial specialization.
> > -// These cannot be included in RPC, as template class members cannot be
> > -// partially specialized.
> > -class RPCBase {
> > -protected:
> >
> > - // FIXME: Remove MSVCPError/MSVCPExpected once MSVC's future implementation
> > - // supports classes without default constructors.
> > +template <typename DerivedFunc, typename RetT, typename... ArgTs>
> > +std::mutex Function<DerivedFunc, RetT(ArgTs...)>::NameMutex;
> > +
> > +template <typename DerivedFunc, typename RetT, typename... ArgTs>
> > +std::string Function<DerivedFunc, RetT(ArgTs...)>::Name;
> > +
> > +/// Allocates RPC function ids during autonegotiation.
> > +/// Specializations of this class must provide four members:
> > +///
> > +/// static T getInvalidId():
> > +/// Should return a reserved id that will be used to represent missing
> > +/// functions during autonegotiation.
> > +///
> > +/// static T getResponseId():
> > +/// Should return a reserved id that will be used to send function responses
> > +/// (return values).
> > +///
> > +/// static T getNegotiateId():
> > +/// Should return a reserved id for the negotiate function, which will be used
> > +/// to negotiate ids for user defined functions.
> > +///
> > +/// template <typename Func> T allocate():
> > +/// Allocate a unique id for function Func.
> > +template <typename T, typename = void>
> > +class RPCFunctionIdAllocator;
> > +
> > +/// This specialization of RPCFunctionIdAllocator provides a default
> > +/// implementation for integral types.
> > +template <typename T>
> > +class RPCFunctionIdAllocator<T,
> > + typename std::enable_if<
> > + std::is_integral<T>::value
> > + >::type> {
> > +public:
> > +
> > + static T getInvalidId() { return T(0); }
> > + static T getResponseId() { return T(1); }
> > + static T getNegotiateId() { return T(2); }
> > +
> > + template <typename Func>
> > + T allocate(){ return NextId++; }
> > +private:
> > + T NextId = 3;
> > +};
> > +
> > +namespace detail {
> > +
> > +// FIXME: Remove MSVCPError/MSVCPExpected once MSVC's future implementation
> > +// supports classes without default constructors.
> > #ifdef _MSC_VER
> >
> > +namespace msvc_hacks {
> > +
> > // Work around MSVC's future implementation's use of default constructors:
> > // A default constructed value in the promise will be overwritten when the
> > // real error is set - so the default constructed Error has to be checked
> > @@ -86,7 +152,7 @@ protected:
> > MSVCPError(Error Err) : Error(std::move(Err)) {}
> > };
> >
> > - // Likewise for Expected:
> > + // Work around MSVC's future implementation, similar to MSVCPError.
> > template <typename T>
> > class MSVCPExpected : public Expected<T> {
> > public:
> > @@ -123,488 +189,531 @@ protected:
> > nullptr) : Expected<T>(std::move(Other)) {}
> > };
> >
> > +} // end namespace msvc_hacks
> > +
> > #endif // _MSC_VER
> >
> > - // RPC Function description type.
> > - //
> > - // This class provides the information and operations needed to support the
> > - // RPC primitive operations (call, expect, etc) for a given function. It
> > - // is specialized for void and non-void functions to deal with the differences
> > - // betwen the two. Both specializations have the same interface:
> > - //
> > - // Id - The function's unique identifier.
> > - // ErrorReturn - The return type for blocking calls.
> > - // readResult - Deserialize a result from a channel.
> > - // abandon - Abandon a promised result.
> > - // respond - Retun a result on the channel.
> > - template <typename FunctionIdT, FunctionIdT FuncId, typename FnT>
> > - class FunctionHelper {};
> > -
> > - // RPC Function description specialization for non-void functions.
> > - template <typename FunctionIdT, FunctionIdT FuncId, typename RetT,
> > - typename... ArgTs>
> > - class FunctionHelper<FunctionIdT, FuncId, RetT(ArgTs...)> {
> > - public:
> > - static_assert(FuncId != RPCFunctionIdTraits<FunctionIdT>::InvalidId &&
> > - FuncId != RPCFunctionIdTraits<FunctionIdT>::ResponseId,
> > - "Cannot define custom function with InvalidId or ResponseId. "
> > - "Please use RPCFunctionTraits<FunctionIdT>::FirstValidId.");
> > -
> > - static const FunctionIdT Id = FuncId;
> > -
> > - typedef Expected<RetT> ErrorReturn;
> > -
> > - // FIXME: Ditch PErrorReturn (replace it with plain ErrorReturn) once MSVC's
> > - // std::future implementation supports types without default
> > - // constructors.
> > -#ifdef _MSC_VER
> > - typedef MSVCPExpected<RetT> PErrorReturn;
> > -#else
> > - typedef Expected<RetT> PErrorReturn;
> > -#endif
> > +// ResultTraits provides typedefs and utilities specific to the return type
> > +// of functions.
> > +template <typename RetT>
> > +class ResultTraits {
> > +public:
> >
> > - template <typename ChannelT>
> > - static Error readResult(ChannelT &C, std::promise<PErrorReturn> &P) {
> > - RetT Val;
> > - auto Err = deserializeSeq(C, Val);
> > - auto Err2 = endReceiveMessage(C);
> > - Err = joinErrors(std::move(Err), std::move(Err2));
> > - if (Err)
> > - return Err;
> > + // The return type wrapped in llvm::Expected.
> > + using ErrorReturnType = Expected<RetT>;
> >
> > - P.set_value(std::move(Val));
> > - return Error::success();
> > - }
> > +#ifdef _MSC_VER
> > + // The ErrorReturnType wrapped in a std::promise.
> > + using ReturnPromiseType = std::promise<msvc_hacks::MSVCPExpected<RetT>>;
> >
> > - static void abandon(std::promise<PErrorReturn> &P) {
> > - P.set_value(
> > - make_error<StringError>("RPC function call failed to return",
> > - inconvertibleErrorCode()));
> > - }
> > + // The ErrorReturnType wrapped in a std::future.
> > + using ReturnFutureType = std::future<msvc_hacks::MSVCPExpected<RetT>>;
> > +#else
> > + // The ErrorReturnType wrapped in a std::promise.
> > + using ReturnPromiseType = std::promise<ErrorReturnType>;
> >
> > - static void consumeAbandoned(std::future<PErrorReturn> &P) {
> > - consumeError(P.get().takeError());
> > - }
> > + // The ErrorReturnType wrapped in a std::future.
> > + using ReturnFutureType = std::future<ErrorReturnType>;
> > +#endif
> >
> > - template <typename ChannelT, typename SequenceNumberT>
> > - static Error respond(ChannelT &C, SequenceNumberT SeqNo,
> > - ErrorReturn &Result) {
> > - FunctionIdT ResponseId = RPCFunctionIdTraits<FunctionIdT>::ResponseId;
> > + // Create a 'blank' value of the ErrorReturnType, ready and safe to
> > + // overwrite.
> > + static ErrorReturnType createBlankErrorReturnValue() {
> > + return ErrorReturnType(RetT());
> > + }
> >
> > - // If the handler returned an error then bail out with that.
> > - if (!Result)
> > - return Result.takeError();
> > + // Consume an abandoned ErrorReturnType.
> > + static void consumeAbandoned(ErrorReturnType RetOrErr) {
> > + consumeError(RetOrErr.takeError());
> > + }
> > +};
> >
> > - // Otherwise open a new message on the channel and send the result.
> > - if (auto Err = startSendMessage(C))
> > - return Err;
> > - if (auto Err = serializeSeq(C, ResponseId, SeqNo, *Result))
> > - return Err;
> > - return endSendMessage(C);
> > - }
> > - };
> > +// ResultTraits specialization for void functions.
> > +template <>
> > +class ResultTraits<void> {
> > +public:
> > +
> > + // For void functions, ErrorReturnType is llvm::Error.
> > + using ErrorReturnType = Error;
> >
> > - // RPC Function description specialization for void functions.
> > - template <typename FunctionIdT, FunctionIdT FuncId, typename... ArgTs>
> > - class FunctionHelper<FunctionIdT, FuncId, void(ArgTs...)> {
> > - public:
> > - static_assert(FuncId != RPCFunctionIdTraits<FunctionIdT>::InvalidId &&
> > - FuncId != RPCFunctionIdTraits<FunctionIdT>::ResponseId,
> > - "Cannot define custom function with InvalidId or ResponseId. "
> > - "Please use RPCFunctionTraits<FunctionIdT>::FirstValidId.");
> > -
> > - static const FunctionIdT Id = FuncId;
> > -
> > - typedef Error ErrorReturn;
> > -
> > - // FIXME: Ditch PErrorReturn (replace it with plain ErrorReturn) once MSVC's
> > - // std::future implementation supports types without default
> > - // constructors.
> > #ifdef _MSC_VER
> > - typedef MSVCPError PErrorReturn;
> > + // The ErrorReturnType wrapped in a std::promise.
> > + using ReturnPromiseType = std::promise<msvc_hacks::MSVCPError>;
> > +
> > + // The ErrorReturnType wrapped in a std::future.
> > + using ReturnFutureType = std::future<msvc_hacks::MSVCPError>;
> > #else
> > - typedef Error PErrorReturn;
> > + // The ErrorReturnType wrapped in a std::promise.
> > + using ReturnPromiseType = std::promise<ErrorReturnType>;
> > +
> > + // The ErrorReturnType wrapped in a std::future.
> > + using ReturnFutureType = std::future<ErrorReturnType>;
> > #endif
> >
> > - template <typename ChannelT>
> > - static Error readResult(ChannelT &C, std::promise<PErrorReturn> &P) {
> > - // Void functions don't have anything to deserialize, so we're good.
> > - P.set_value(Error::success());
> > - return endReceiveMessage(C);
> > - }
> > + // Create a 'blank' value of the ErrorReturnType, ready and safe to
> > + // overwrite.
> > + static ErrorReturnType createBlankErrorReturnValue() {
> > + return ErrorReturnType::success();
> > + }
> >
> > - static void abandon(std::promise<PErrorReturn> &P) {
> > - P.set_value(
> > - make_error<StringError>("RPC function call failed to return",
> > - inconvertibleErrorCode()));
> > - }
> > + // Consume an abandoned ErrorReturnType.
> > + static void consumeAbandoned(ErrorReturnType Err) {
> > + consumeError(std::move(Err));
> > + }
> > +};
> >
> > - static void consumeAbandoned(std::future<PErrorReturn> &P) {
> > - consumeError(P.get());
> > - }
> > +// ResultTraits<Error> is equivalent to ResultTraits<void>. This allows
> > +// handlers for void RPC functions to return either void (in which case they
> > +// implicitly succeed) or Error (in which case their error return is
> > +// propagated). See usage in HandlerTraits::runHandlerHelper.
> > +template <>
> > +class ResultTraits<Error> : public ResultTraits<void> {};
> > +
> > +// ResultTraits<Expected<T>> is equivalent to ResultTraits<T>. This allows
> > +// handlers for RPC functions returning a T to return either a T (in which
> > +// case they implicitly succeed) or Expected<T> (in which case their error
> > +// return is propagated). See usage in HandlerTraits::runHandlerHelper.
> > +template <typename RetT>
> > +class ResultTraits<Expected<RetT>> : public ResultTraits<RetT> {};
> > +
> > +// Send a response of the given wire return type (WireRetT) over the
> > +// channel, with the given sequence number.
> > +template <typename WireRetT, typename HandlerRetT, typename ChannelT,
> > + typename FunctionIdT, typename SequenceNumberT>
> > +static Error respond(ChannelT &C, const FunctionIdT &ResponseId,
> > + SequenceNumberT SeqNo, Expected<HandlerRetT> ResultOrErr) {
> > + // If this was an error bail out.
> > + // FIXME: Send an "error" message to the client if this is not a channel
> > + // failure?
> > + if (auto Err = ResultOrErr.takeError())
> > + return Err;
> > +
> > + // Open the response message.
> > + if (auto Err = C.startSendMessage(ResponseId, SeqNo))
> > + return Err;
> > +
> > + // Serialize the result.
> > + if (auto Err = SerializationTraits<ChannelT, WireRetT, HandlerRetT>::
> > + serialize(C, *ResultOrErr))
> > + return Err;
> > +
> > + // Close the response message.
> > + return C.endSendMessage();
> > +}
> > +
> > +// Send an empty response message on the given channel to indicate that
> > +// the handler ran.
> > +template <typename WireRetT, typename ChannelT, typename FunctionIdT,
> > + typename SequenceNumberT>
> > +static Error respond(ChannelT &C, const FunctionIdT &ResponseId,
> > + SequenceNumberT SeqNo, Error Err) {
> > + if (Err)
> > + return Err;
> > + if (auto Err2 = C.startSendMessage(ResponseId, SeqNo))
> > + return Err2;
> > + return C.endSendMessage();
> > +}
> > +
> > +// This template class provides utilities related to RPC function handlers.
> > +// The base case applies to non-function types (the template class is
> > +// specialized for function types) and inherits from the appropriate
> > +// speciilization for the given non-function type's call operator.
> > +template <typename HandlerT>
> > +class HandlerTraits
> > + : public HandlerTraits<decltype(
> > + &std::remove_reference<HandlerT>::type::operator())> {};
> > +
> > +// Traits for handlers with a given function type.
> > +template <typename RetT, typename... ArgTs>
> > +class HandlerTraits<RetT(ArgTs...)> {
> > +public:
> >
> > - template <typename ChannelT, typename SequenceNumberT>
> > - static Error respond(ChannelT &C, SequenceNumberT SeqNo,
> > - ErrorReturn &Result) {
> > - const FunctionIdT ResponseId =
> > - RPCFunctionIdTraits<FunctionIdT>::ResponseId;
> > + // Function type of the handler.
> > + using Type = RetT(ArgTs...);
> >
> > - // If the handler returned an error then bail out with that.
> > - if (Result)
> > - return std::move(Result);
> > + // Return type of the handler.
> > + using ReturnType = RetT;
> >
> > - // Otherwise open a new message on the channel and send the result.
> > - if (auto Err = startSendMessage(C))
> > - return Err;
> > - if (auto Err = serializeSeq(C, ResponseId, SeqNo))
> > - return Err;
> > - return endSendMessage(C);
> > - }
> > - };
> > + // A std::tuple wrapping the handler arguments.
> > + using ArgStorage =
> > + std::tuple<
> > + typename std::decay<
> > + typename std::remove_reference<ArgTs>::type>::type...>;
> > +
> > + // Call the given handler with the given arguments.
> > + template <typename HandlerT>
> > + static typename ResultTraits<RetT>::ErrorReturnType
> > + runHandler(HandlerT &Handler, ArgStorage &Args) {
> > + return runHandlerHelper<RetT>(Handler, Args,
> > + llvm::index_sequence_for<ArgTs...>());
> > + }
> >
> > - // Helper for the call primitive.
> > - template <typename ChannelT, typename SequenceNumberT, typename Func>
> > - class CallHelper;
> > -
> > - template <typename ChannelT, typename SequenceNumberT, typename FunctionIdT,
> > - FunctionIdT FuncId, typename RetT, typename... ArgTs>
> > - class CallHelper<ChannelT, SequenceNumberT,
> > - FunctionHelper<FunctionIdT, FuncId, RetT(ArgTs...)>> {
> > - public:
> > - static Error call(ChannelT &C, SequenceNumberT SeqNo,
> > - const ArgTs &... Args) {
> > - if (auto Err = startSendMessage(C))
> > - return Err;
> > - if (auto Err = serializeSeq(C, FuncId, SeqNo, Args...))
> > - return Err;
> > - return endSendMessage(C);
> > - }
> > - };
> > + // Serialize arguments to the channel.
> > + template <typename ChannelT, typename... CArgTs>
> > + static Error serializeArgs(ChannelT &C, const CArgTs... CArgs) {
> > + return SequenceSerialization<ChannelT, ArgTs...>::serialize(C, CArgs...);
> > + }
> >
> > - // Helper for handle primitive.
> > - template <typename ChannelT, typename SequenceNumberT, typename Func>
> > - class HandlerHelper;
> > -
> > - template <typename ChannelT, typename SequenceNumberT, typename FunctionIdT,
> > - FunctionIdT FuncId, typename RetT, typename... ArgTs>
> > - class HandlerHelper<ChannelT, SequenceNumberT,
> > - FunctionHelper<FunctionIdT, FuncId, RetT(ArgTs...)>> {
> > - public:
> > - template <typename HandlerT>
> > - static Error handle(ChannelT &C, HandlerT Handler) {
> > - return readAndHandle(C, Handler, llvm::index_sequence_for<ArgTs...>());
> > - }
> > -
> > - private:
> > - typedef FunctionHelper<FunctionIdT, FuncId, RetT(ArgTs...)> Func;
> > -
> > - template <typename HandlerT, size_t... Is>
> > - static Error readAndHandle(ChannelT &C, HandlerT Handler,
> > - llvm::index_sequence<Is...> _) {
> > - std::tuple<ArgTs...> RPCArgs;
> > - SequenceNumberT SeqNo;
> > - // GCC 4.7 and 4.8 incorrectly issue a -Wunused-but-set-variable warning
> > - // for RPCArgs. Void cast RPCArgs to work around this for now.
> > - // FIXME: Remove this workaround once we can assume a working GCC version.
> > - (void)RPCArgs;
> > - if (auto Err = deserializeSeq(C, SeqNo, std::get<Is>(RPCArgs)...))
> > - return Err;
> > + // Deserialize arguments from the channel.
> > + template <typename ChannelT, typename... CArgTs>
> > + static Error deserializeArgs(ChannelT &C, std::tuple<CArgTs...> &Args) {
> > + return deserializeArgsHelper(C, Args,
> > + llvm::index_sequence_for<CArgTs...>());
> > + }
> >
> > - // We've deserialized the arguments, so unlock the channel for reading
> > - // before we call the handler. This allows recursive RPC calls.
> > - if (auto Err = endReceiveMessage(C))
> > - return Err;
> > +private:
> >
> > - // Run the handler and get the result.
> > - auto Result = Handler(std::get<Is>(RPCArgs)...);
> > + // For non-void user handlers: unwrap the args tuple and call the handler,
> > + // returning the result.
> > + template <typename RetTAlt, typename HandlerT, size_t... Indexes>
> > + static typename std::enable_if<
> > + !std::is_void<RetTAlt>::value,
> > + typename ResultTraits<RetT>::ErrorReturnType>::type
> > + runHandlerHelper(HandlerT &Handler, ArgStorage &Args,
> > + llvm::index_sequence<Indexes...>) {
> > + return Handler(std::move(std::get<Indexes>(Args))...);
> > + }
> >
> > - // Return the result to the client.
> > - return Func::template respond<ChannelT, SequenceNumberT>(C, SeqNo,
> > - Result);
> > - }
> > - };
> > + // For void user handlers: unwrap the args tuple and call the handler, then
> > + // return Error::success().
> > + template <typename RetTAlt, typename HandlerT, size_t... Indexes>
> > + static typename std::enable_if<
> > + std::is_void<RetTAlt>::value,
> > + typename ResultTraits<RetT>::ErrorReturnType>::type
> > + runHandlerHelper(HandlerT &Handler, ArgStorage &Args,
> > + llvm::index_sequence<Indexes...>) {
> > + Handler(std::move(std::get<Indexes>(Args))...);
> > + return ResultTraits<RetT>::ErrorReturnType::success();
> > + }
> >
> > - // Helper for wrapping member functions up as functors.
> > - template <typename ClassT, typename RetT, typename... ArgTs>
> > - class MemberFnWrapper {
> > - public:
> > - typedef RetT (ClassT::*MethodT)(ArgTs...);
> > - MemberFnWrapper(ClassT &Instance, MethodT Method)
> > - : Instance(Instance), Method(Method) {}
> > - RetT operator()(ArgTs &... Args) { return (Instance.*Method)(Args...); }
> > -
> > - private:
> > - ClassT &Instance;
> > - MethodT Method;
> > - };
> > + template <typename ChannelT, typename... CArgTs, size_t... Indexes>
> > + static
> > + Error deserializeArgsHelper(ChannelT &C, std::tuple<CArgTs...> &Args,
> > + llvm::index_sequence<Indexes...> _) {
> > + return SequenceSerialization<ChannelT, ArgTs...>::
> > + deserialize(C, std::get<Indexes>(Args)...);
> > + }
> >
> > - // Helper that provides a Functor for deserializing arguments.
> > - template <typename... ArgTs> class ReadArgs {
> > - public:
> > - Error operator()() { return Error::success(); }
> > - };
> > +};
> >
> > - template <typename ArgT, typename... ArgTs>
> > - class ReadArgs<ArgT, ArgTs...> : public ReadArgs<ArgTs...> {
> > - public:
> > - ReadArgs(ArgT &Arg, ArgTs &... Args)
> > - : ReadArgs<ArgTs...>(Args...), Arg(Arg) {}
> > +// Handler traits for class methods (especially call operators for lambdas).
> > +template <typename Class, typename RetT, typename... ArgTs>
> > +class HandlerTraits<RetT (Class::*)(ArgTs...)>
> > + : public HandlerTraits<RetT(ArgTs...)> {};
> > +
> > +// Handler traits for const class methods (especially call operators for
> > +// lambdas).
> > +template <typename Class, typename RetT, typename... ArgTs>
> > +class HandlerTraits<RetT (Class::*)(ArgTs...) const>
> > + : public HandlerTraits<RetT(ArgTs...)> {};
> > +
> > +// Utility to peel the Expected wrapper off a response handler error type.
> > +template <typename HandlerT>
> > +class UnwrapResponseHandlerArg;
> >
> > - Error operator()(ArgT &ArgVal, ArgTs &... ArgVals) {
> > - this->Arg = std::move(ArgVal);
> > - return ReadArgs<ArgTs...>::operator()(ArgVals...);
> > - }
> > +template <typename ArgT>
> > +class UnwrapResponseHandlerArg<Error(Expected<ArgT>)> {
> > +public:
> > + using ArgType = ArgT;
> > +};
> >
> > - private:
> > - ArgT &Arg;
> > - };
> > +template <typename ArgT>
> > +class UnwrapResponseHandlerArg<ErrorSuccess(Expected<ArgT>)> {
> > +public:
> > + using ArgType = ArgT;
> > };
> >
> > -/// Contains primitive utilities for defining, calling and handling calls to
> > -/// remote procedures. ChannelT is a bidirectional stream conforming to the
> > -/// RPCChannel interface (see RPCChannel.h), and FunctionIdT is a procedure
> > -/// identifier type that must be serializable on ChannelT.
> > -///
> > -/// These utilities support the construction of very primitive RPC utilities.
> > -/// Their intent is to ensure correct serialization and deserialization of
> > -/// procedure arguments, and to keep the client and server's view of the API in
> > -/// sync.
> > -///
> > -/// These utilities do not support return values. These can be handled by
> > -/// declaring a corresponding '.*Response' procedure and expecting it after a
> > -/// call). They also do not support versioning: the client and server *must* be
> > -/// compiled with the same procedure definitions.
> > -///
> > -///
> > -///
> > -/// Overview (see comments individual types/methods for details):
> > -///
> > -/// Function<Id, Args...> :
> > -///
> > -/// associates a unique serializable id with an argument list.
> > -///
> > -///
> > -/// call<Func>(Channel, Args...) :
> > -///
> > -/// Calls the remote procedure 'Func' by serializing Func's id followed by its
> > -/// arguments and sending the resulting bytes to 'Channel'.
> > -///
> > -///
> > -/// handle<Func>(Channel, <functor matching Error(Args...)> :
> > -///
> > -/// Handles a call to 'Func' by deserializing its arguments and calling the
> > -/// given functor. This assumes that the id for 'Func' has already been
> > -/// deserialized.
> > -///
> > -/// expect<Func>(Channel, <functor matching Error(Args...)> :
> > -///
> > -/// The same as 'handle', except that the procedure id should not have been
> > -/// read yet. Expect will deserialize the id and assert that it matches Func's
> > -/// id. If it does not, and unexpected RPC call error is returned.
> > -template <typename ChannelT, typename FunctionIdT = uint32_t,
> > - typename SequenceNumberT = uint16_t>
> > -class RPC : public RPCBase {
> > -public:
> > - /// RPC default constructor.
> > - RPC() = default;
> > -
> > - /// RPC instances cannot be copied.
> > - RPC(RPC &&) = default;
> > - RPC &operator=(RPC &&) = default;
> >
> > - /// Utility class for defining/referring to RPC procedures.
> > - ///
> > - /// Typedefs of this utility are used when calling/handling remote procedures.
> > - ///
> > - /// FuncId should be a unique value of FunctionIdT (i.e. not used with any
> > - /// other Function typedef in the RPC API being defined.
> > - ///
> > - /// the template argument Ts... gives the argument list for the remote
> > - /// procedure.
> > - ///
> > - /// E.g.
> > - ///
> > - /// typedef Function<0, bool> Func1;
> > - /// typedef Function<1, std::string, std::vector<int>> Func2;
> > - ///
> > - /// if (auto Err = call<Func1>(Channel, true))
> > - /// /* handle Err */;
> > - ///
> > - /// if (auto Err = expect<Func2>(Channel,
> > - /// [](std::string &S, std::vector<int> &V) {
> > - /// // Stuff.
> > - /// return Error::success();
> > - /// })
> > - /// /* handle Err */;
> > - ///
> > - template <FunctionIdT FuncId, typename FnT>
> > - using Function = FunctionHelper<FunctionIdT, FuncId, FnT>;
> > +// ResponseHandler represents a handler for a not-yet-received function call
> > +// result.
> > +template <typename ChannelT>
> > +class ResponseHandler {
> > +public:
> > + virtual ~ResponseHandler() {}
> >
> > - /// Return type for non-blocking call primitives.
> > - template <typename Func>
> > - using NonBlockingCallResult = std::future<typename Func::PErrorReturn>;
> > + // Reads the function result off the wire and acts on it. The meaning of
> > + // "act" will depend on how this method is implemented in any given
> > + // ResponseHandler subclass but could, for example, mean running a
> > + // user-specified handler or setting a promise value.
> > + virtual Error handleResponse(ChannelT &C) = 0;
> > +
> > + // Abandons this outstanding result.
> > + virtual void abandon() = 0;
> > +
> > + // Create an error instance representing an abandoned response.
> > + static Error createAbandonedResponseError() {
> > + return make_error<StringError>("RPC function call failed to return",
> > + inconvertibleErrorCode());
> > + }
> > +};
> >
> > - /// Return type for non-blocking call-with-seq primitives.
> > - template <typename Func>
> > - using NonBlockingCallWithSeqResult =
> > - std::pair<NonBlockingCallResult<Func>, SequenceNumberT>;
> > +// ResponseHandler subclass for RPC functions with non-void returns.
> > +template <typename ChannelT, typename FuncRetT, typename HandlerT>
> > +class ResponseHandlerImpl : public ResponseHandler<ChannelT> {
> > +public:
> > + ResponseHandlerImpl(HandlerT Handler)
> > + : Handler(std::move(Handler)) {}
> >
> > - /// Call Func on Channel C. Does not block, does not call send. Returns a pair
> > - /// of a future result and the sequence number assigned to the result.
> > - ///
> > - /// This utility function is primarily used for single-threaded mode support,
> > - /// where the sequence number can be used to wait for the corresponding
> > - /// result. In multi-threaded mode the appendCallNB method, which does not
> > - /// return the sequence numeber, should be preferred.
> > - template <typename Func, typename... ArgTs>
> > - Expected<NonBlockingCallWithSeqResult<Func>>
> > - appendCallNBWithSeq(ChannelT &C, const ArgTs &... Args) {
> > - auto SeqNo = SequenceNumberMgr.getSequenceNumber();
> > - std::promise<typename Func::PErrorReturn> Promise;
> > - auto Result = Promise.get_future();
> > - OutstandingResults[SeqNo] =
> > - createOutstandingResult<Func>(std::move(Promise));
> > -
> > - if (auto Err = CallHelper<ChannelT, SequenceNumberT, Func>::call(C, SeqNo,
> > - Args...)) {
> > - abandonOutstandingResults();
> > - Func::consumeAbandoned(Result);
> > - return std::move(Err);
> > - } else
> > - return NonBlockingCallWithSeqResult<Func>(std::move(Result), SeqNo);
> > + // Handle the result by deserializing it from the channel then passing it
> > + // to the user defined handler.
> > + Error handleResponse(ChannelT &C) override {
> > + using ArgType = typename UnwrapResponseHandlerArg<
> > + typename HandlerTraits<HandlerT>::Type>::ArgType;
> > + ArgType Result;
> > + if (auto Err = SerializationTraits<ChannelT, FuncRetT, ArgType>::
> > + deserialize(C, Result))
> > + return Err;
> > + if (auto Err = C.endReceiveMessage())
> > + return Err;
> > + return Handler(Result);
> > }
> >
> > - /// The same as appendCallNBWithSeq, except that it calls C.send() to
> > - /// flush the channel after serializing the call.
> > - template <typename Func, typename... ArgTs>
> > - Expected<NonBlockingCallWithSeqResult<Func>>
> > - callNBWithSeq(ChannelT &C, const ArgTs &... Args) {
> > - auto Result = appendCallNBWithSeq<Func>(C, Args...);
> > - if (!Result)
> > - return Result;
> > - if (auto Err = C.send()) {
> > - abandonOutstandingResults();
> > - Func::consumeAbandoned(Result->first);
> > - return std::move(Err);
> > + // Abandon this response by calling the handler with an 'abandoned response'
> > + // error.
> > + void abandon() override {
> > + if (auto Err = Handler(this->createAbandonedResponseError())) {
> > + // Handlers should not fail when passed an abandoned response error.
> > + report_fatal_error(std::move(Err));
> > }
> > - return Result;
> > }
> >
> > - /// Serialize Args... to channel C, but do not call send.
> > - /// Returns an error if serialization fails, otherwise returns a
> > - /// std::future<Expected<T>> (or a future<Error> for void functions).
> > - template <typename Func, typename... ArgTs>
> > - Expected<NonBlockingCallResult<Func>> appendCallNB(ChannelT &C,
> > - const ArgTs &... Args) {
> > - auto FutureResAndSeqOrErr = appendCallNBWithSeq<Func>(C, Args...);
> > - if (FutureResAndSeqOrErr)
> > - return std::move(FutureResAndSeqOrErr->first);
> > - return FutureResAndSeqOrErr.takeError();
> > - }
> > +private:
> > + HandlerT Handler;
> > +};
> >
> > - /// The same as appendCallNB, except that it calls C.send to flush the
> > - /// channel after serializing the call.
> > - template <typename Func, typename... ArgTs>
> > - Expected<NonBlockingCallResult<Func>> callNB(ChannelT &C,
> > - const ArgTs &... Args) {
> > - auto FutureResAndSeqOrErr = callNBWithSeq<Func>(C, Args...);
> > - if (FutureResAndSeqOrErr)
> > - return std::move(FutureResAndSeqOrErr->first);
> > - return FutureResAndSeqOrErr.takeError();
> > +// ResponseHandler subclass for RPC functions with void returns.
> > +template <typename ChannelT, typename HandlerT>
> > +class ResponseHandlerImpl<ChannelT, void, HandlerT>
> > + : public ResponseHandler<ChannelT> {
> > +public:
> > + ResponseHandlerImpl(HandlerT Handler)
> > + : Handler(std::move(Handler)) {}
> > +
> > + // Handle the result (no actual value, just a notification that the function
> > + // has completed on the remote end) by calling the user-defined handler with
> > + // Error::success().
> > + Error handleResponse(ChannelT &C) override {
> > + if (auto Err = C.endReceiveMessage())
> > + return Err;
> > + return Handler(Error::success());
> > }
> >
> > - /// Call Func on Channel C. Blocks waiting for a result. Returns an Error
> > - /// for void functions or an Expected<T> for functions returning a T.
> > - ///
> > - /// This function is for use in threaded code where another thread is
> > - /// handling responses and incoming calls.
> > - template <typename Func, typename... ArgTs>
> > - typename Func::ErrorReturn callB(ChannelT &C, const ArgTs &... Args) {
> > - if (auto FutureResOrErr = callNBWithSeq<Func>(C, Args...)) {
> > - if (auto Err = C.send()) {
> > - abandonOutstandingResults();
> > - Func::consumeAbandoned(FutureResOrErr->first);
> > - return std::move(Err);
> > - }
> > - return FutureResOrErr->first.get();
> > - } else
> > - return FutureResOrErr.takeError();
> > + // Abandon this response by calling the handler with an 'abandoned response'
> > + // error.
> > + void abandon() override {
> > + if (auto Err = Handler(this->createAbandonedResponseError())) {
> > + // Handlers should not fail when passed an abandoned response error.
> > + report_fatal_error(std::move(Err));
> > + }
> > }
> >
> > - /// Call Func on Channel C. Block waiting for a result. While blocked, run
> > - /// HandleOther to handle incoming calls (Response calls will be handled
> > - /// implicitly before calling HandleOther). Returns an Error for void
> > - /// functions or an Expected<T> for functions returning a T.
> > - ///
> > - /// This function is for use in single threaded mode when the calling thread
> > - /// must act as both sender and receiver.
> > - template <typename Func, typename HandleFtor, typename... ArgTs>
> > - typename Func::ErrorReturn
> > - callSTHandling(ChannelT &C, HandleFtor &HandleOther, const ArgTs &... Args) {
> > - if (auto ResultAndSeqNoOrErr = callNBWithSeq<Func>(C, Args...)) {
> > - auto &ResultAndSeqNo = *ResultAndSeqNoOrErr;
> > - if (auto Err = waitForResult(C, ResultAndSeqNo.second, HandleOther))
> > - return std::move(Err);
> > - return ResultAndSeqNo.first.get();
> > - } else
> > - return ResultAndSeqNoOrErr.takeError();
> > +private:
> > + HandlerT Handler;
> > +};
> > +
> > +// Create a ResponseHandler from a given user handler.
> > +template <typename ChannelT, typename FuncRetT, typename HandlerT>
> > +std::unique_ptr<ResponseHandler<ChannelT>>
> > +createResponseHandler(HandlerT H) {
> > + return llvm::make_unique<
> > + ResponseHandlerImpl<ChannelT, FuncRetT, HandlerT>>(std::move(H));
> > +}
> > +
> > +// Helper for wrapping member functions up as functors. This is useful for
> > +// installing methods as result handlers.
> > +template <typename ClassT, typename RetT, typename... ArgTs>
> > +class MemberFnWrapper {
> > +public:
> > + using MethodT = RetT(ClassT::*)(ArgTs...);
> > + MemberFnWrapper(ClassT &Instance, MethodT Method)
> > + : Instance(Instance), Method(Method) {}
> > + RetT operator()(ArgTs &&... Args) {
> > + return (Instance.*Method)(std::move(Args)...);
> > }
> > +private:
> > + ClassT &Instance;
> > + MethodT Method;
> > +};
> >
> > - /// Call Func on Channel C. Block waiting for a result. Returns an Error for
> > - /// void functions or an Expected<T> for functions returning a T.
> > - template <typename Func, typename... ArgTs>
> > - typename Func::ErrorReturn callST(ChannelT &C, const ArgTs &... Args) {
> > - return callSTHandling<Func>(C, handleNone, Args...);
> > +// Helper that provides a Functor for deserializing arguments.
> > +template <typename... ArgTs> class ReadArgs {
> > +public:
> > + Error operator()() { return Error::success(); }
> > +};
> > +
> > +template <typename ArgT, typename... ArgTs>
> > +class ReadArgs<ArgT, ArgTs...> : public ReadArgs<ArgTs...> {
> > +public:
> > + ReadArgs(ArgT &Arg, ArgTs &... Args)
> > + : ReadArgs<ArgTs...>(Args...), Arg(Arg) {}
> > +
> > + Error operator()(ArgT &ArgVal, ArgTs &... ArgVals) {
> > + this->Arg = std::move(ArgVal);
> > + return ReadArgs<ArgTs...>::operator()(ArgVals...);
> > }
> > +private:
> > + ArgT &Arg;
> > +};
> >
> > - /// Start receiving a new function call.
> > - ///
> > - /// Calls startReceiveMessage on the channel, then deserializes a FunctionId
> > - /// into Id.
> > - Error startReceivingFunction(ChannelT &C, FunctionIdT &Id) {
> > - if (auto Err = startReceiveMessage(C))
> > - return Err;
> > +// Manage sequence numbers.
> > +template <typename SequenceNumberT>
> > +class SequenceNumberManager {
> > +public:
> > + // Reset, making all sequence numbers available.
> > + void reset() {
> > + std::lock_guard<std::mutex> Lock(SeqNoLock);
> > + NextSequenceNumber = 0;
> > + FreeSequenceNumbers.clear();
> > + }
> >
> > - return deserializeSeq(C, Id);
> > + // Get the next available sequence number. Will re-use numbers that have
> > + // been released.
> > + SequenceNumberT getSequenceNumber() {
> > + std::lock_guard<std::mutex> Lock(SeqNoLock);
> > + if (FreeSequenceNumbers.empty())
> > + return NextSequenceNumber++;
> > + auto SequenceNumber = FreeSequenceNumbers.back();
> > + FreeSequenceNumbers.pop_back();
> > + return SequenceNumber;
> > }
> >
> > - /// Deserialize args for Func from C and call Handler. The signature of
> > - /// handler must conform to 'Error(Args...)' where Args... matches
> > - /// the arguments used in the Func typedef.
> > - template <typename Func, typename HandlerT>
> > - static Error handle(ChannelT &C, HandlerT Handler) {
> > - return HandlerHelper<ChannelT, SequenceNumberT, Func>::handle(C, Handler);
> > + // Release a sequence number, making it available for re-use.
> > + void releaseSequenceNumber(SequenceNumberT SequenceNumber) {
> > + std::lock_guard<std::mutex> Lock(SeqNoLock);
> > + FreeSequenceNumbers.push_back(SequenceNumber);
> > }
> >
> > - /// Helper version of 'handle' for calling member functions.
> > - template <typename Func, typename ClassT, typename RetT, typename... ArgTs>
> > - static Error handle(ChannelT &C, ClassT &Instance,
> > - RetT (ClassT::*HandlerMethod)(ArgTs...)) {
> > - return handle<Func>(
> > - C, MemberFnWrapper<ClassT, RetT, ArgTs...>(Instance, HandlerMethod));
> > +private:
> > + std::mutex SeqNoLock;
> > + SequenceNumberT NextSequenceNumber = 0;
> > + std::vector<SequenceNumberT> FreeSequenceNumbers;
> > +};
> > +
> > +/// Contains primitive utilities for defining, calling and handling calls to
> > +/// remote procedures. ChannelT is a bidirectional stream conforming to the
> > +/// RPCChannel interface (see RPCChannel.h), FunctionIdT is a procedure
> > +/// identifier type that must be serializable on ChannelT, and SequenceNumberT
> > +/// is an integral type that will be used to number in-flight function calls.
> > +///
> > +/// These utilities support the construction of very primitive RPC utilities.
> > +/// Their intent is to ensure correct serialization and deserialization of
> > +/// procedure arguments, and to keep the client and server's view of the API in
> > +/// sync.
> > +template <typename ImplT, typename ChannelT, typename FunctionIdT,
> > + typename SequenceNumberT>
> > +class RPCBase {
> > +protected:
> > +
> > + class OrcRPCInvalid : public Function<OrcRPCInvalid, void()> {
> > + public:
> > + static const char *getName() { return "__orc_rpc$invalid"; }
> > + };
> > +
> > + class OrcRPCResponse : public Function<OrcRPCResponse, void()> {
> > + public:
> > + static const char *getName() { return "__orc_rpc$response"; }
> > + };
> > +
> > + class OrcRPCNegotiate
> > + : public Function<OrcRPCNegotiate, FunctionIdT(std::string)> {
> > + public:
> > + static const char *getName() { return "__orc_rpc$negotiate"; }
> > + };
> > +
> > +public:
> > +
> > + /// Construct an RPC instance on a channel.
> > + RPCBase(ChannelT &C, bool LazyAutoNegotiation)
> > + : C(C), LazyAutoNegotiation(LazyAutoNegotiation) {
> > + // Hold ResponseId in a special variable, since we expect Response to be
> > + // called relatively frequently, and want to avoid the map lookup.
> > + ResponseId = FnIdAllocator.getResponseId();
> > + RemoteFunctionIds[OrcRPCResponse::getPrototype()] = ResponseId;
> > +
> > + // Register the negotiate function id and handler.
> > + auto NegotiateId = FnIdAllocator.getNegotiateId();
> > + RemoteFunctionIds[OrcRPCNegotiate::getPrototype()] = NegotiateId;
> > + Handlers[NegotiateId] =
> > + wrapHandler<OrcRPCNegotiate>([this](const std::string &Name) {
> > + return handleNegotiate(Name);
> > + }, LaunchPolicy());
> > }
> >
> > - /// Deserialize a FunctionIdT from C and verify it matches the id for Func.
> > - /// If the id does match, deserialize the arguments and call the handler
> > - /// (similarly to handle).
> > - /// If the id does not match, return an unexpect RPC call error and do not
> > - /// deserialize any further bytes.
> > - template <typename Func, typename HandlerT>
> > - Error expect(ChannelT &C, HandlerT Handler) {
> > - FunctionIdT FuncId;
> > - if (auto Err = startReceivingFunction(C, FuncId))
> > + /// Append a call Func, does not call send on the channel.
> > + /// The first argument specifies a user-defined handler to be run when the
> > + /// function returns. The handler should take an Expected<Func::ReturnType>,
> > + /// or an Error (if Func::ReturnType is void). The handler will be called
> > + /// with an error if the return value is abandoned due to a channel error.
> > + template <typename Func, typename HandlerT, typename... ArgTs>
> > + Error appendCallAsync(HandlerT Handler, const ArgTs &... Args) {
> > + // Look up the function ID.
> > + FunctionIdT FnId;
> > + if (auto FnIdOrErr = getRemoteFunctionId<Func>())
> > + FnId = *FnIdOrErr;
> > + else {
> > + // This isn't a channel error so we don't want to abandon other pending
> > + // responses, but we still need to run the user handler with an error to
> > + // let them know the call failed.
> > + if (auto Err = Handler(orcError(OrcErrorCode::UnknownRPCFunction)))
> > + report_fatal_error(std::move(Err));
> > + return FnIdOrErr.takeError();
> > + }
> > +
> > + // Allocate a sequence number.
> > + auto SeqNo = SequenceNumberMgr.getSequenceNumber();
> > + assert(!PendingResponses.count(SeqNo) &&
> > + "Sequence number already allocated");
> > +
> > + // Install the user handler.
> > + PendingResponses[SeqNo] =
> > + detail::createResponseHandler<ChannelT, typename Func::ReturnType>(
> > + std::move(Handler));
> > +
> > + // Open the function call message.
> > + if (auto Err = C.startSendMessage(FnId, SeqNo)) {
> > + abandonPendingResponses();
> > + return joinErrors(std::move(Err), C.endSendMessage());
> > + }
> > +
> > + // Serialize the call arguments.
> > + if (auto Err =
> > + detail::HandlerTraits<typename Func::Type>::
> > + serializeArgs(C, Args...)) {
> > + abandonPendingResponses();
> > + return joinErrors(std::move(Err), C.endSendMessage());
> > + }
> > +
> > + // Close the function call messagee.
> > + if (auto Err = C.endSendMessage()) {
> > + abandonPendingResponses();
> > return std::move(Err);
> > - if (FuncId != Func::Id)
> > - return orcError(OrcErrorCode::UnexpectedRPCCall);
> > - return handle<Func>(C, Handler);
> > + }
> > +
> > + return Error::success();
> > }
> >
> > - /// Helper version of expect for calling member functions.
> > - template <typename Func, typename ClassT, typename... ArgTs>
> > - static Error expect(ChannelT &C, ClassT &Instance,
> > - Error (ClassT::*HandlerMethod)(ArgTs...)) {
> > - return expect<Func>(
> > - C, MemberFnWrapper<ClassT, ArgTs...>(Instance, HandlerMethod));
> > +
> > + template <typename Func, typename HandlerT, typename... ArgTs>
> > + Error callAsync(HandlerT Handler, const ArgTs &... Args) {
> > + if (auto Err = appendCallAsync<Func>(std::move(Handler), Args...))
> > + return Err;
> > + return C.send();
> > + }
> > +
> > + /// Handle one incoming call.
> > + Error handleOne() {
> > + FunctionIdT FnId;
> > + SequenceNumberT SeqNo;
> > + if (auto Err = C.startReceiveMessage(FnId, SeqNo))
> > + return Err;
> > + if (FnId == ResponseId)
> > + return handleResponse(SeqNo);
> > + auto I = Handlers.find(FnId);
> > + if (I != Handlers.end())
> > + return I->second(C, SeqNo);
> > +
> > + // else: No handler found. Report error to client?
> > + return orcError(OrcErrorCode::UnexpectedRPCCall);
> > }
> >
> > /// Helper for handling setter procedures - this method returns a functor that
> > @@ -621,160 +730,417 @@ public:
> > /// /* Handle Args */ ;
> > ///
> > template <typename... ArgTs>
> > - static ReadArgs<ArgTs...> readArgs(ArgTs &... Args) {
> > - return ReadArgs<ArgTs...>(Args...);
> > + static detail::ReadArgs<ArgTs...> readArgs(ArgTs &... Args) {
> > + return detail::ReadArgs<ArgTs...>(Args...);
> > }
> >
> > - /// Read a response from Channel.
> > - /// This should be called from the receive loop to retrieve results.
> > - Error handleResponse(ChannelT &C, SequenceNumberT *SeqNoRet = nullptr) {
> > - SequenceNumberT SeqNo;
> > - if (auto Err = deserializeSeq(C, SeqNo)) {
> > - abandonOutstandingResults();
> > - return Err;
> > - }
> > +protected:
> > + // The LaunchPolicy type allows a launch policy to be specified when adding
> > + // a function handler. See addHandlerImpl.
> > + using LaunchPolicy = std::function<Error(std::function<Error()>)>;
> > +
> > + /// Add the given handler to the handler map and make it available for
> > + /// autonegotiation and execution.
> > + template <typename Func, typename HandlerT>
> > + void addHandlerImpl(HandlerT Handler, LaunchPolicy Launch) {
> > + FunctionIdT NewFnId = FnIdAllocator.template allocate<Func>();
> > + LocalFunctionIds[Func::getPrototype()] = NewFnId;
> > + Handlers[NewFnId] = wrapHandler<Func>(std::move(Handler),
> > + std::move(Launch));
> > + }
> >
> > - if (SeqNoRet)
> > - *SeqNoRet = SeqNo;
> > + // Abandon all outstanding results.
> > + void abandonPendingResponses() {
> > + for (auto &KV : PendingResponses)
> > + KV.second->abandon();
> > + PendingResponses.clear();
> > + SequenceNumberMgr.reset();
> > + }
> >
> > - auto I = OutstandingResults.find(SeqNo);
> > - if (I == OutstandingResults.end()) {
> > - abandonOutstandingResults();
> > + Error handleResponse(SequenceNumberT SeqNo) {
> > + auto I = PendingResponses.find(SeqNo);
> > + if (I == PendingResponses.end()) {
> > + abandonPendingResponses();
> > return orcError(OrcErrorCode::UnexpectedRPCResponse);
> > }
> >
> > - if (auto Err = I->second->readResult(C)) {
> > - abandonOutstandingResults();
> > - // FIXME: Release sequence numbers?
> > + auto PRHandler = std::move(I->second);
> > + PendingResponses.erase(I);
> > + SequenceNumberMgr.releaseSequenceNumber(SeqNo);
> > +
> > + if (auto Err = PRHandler->handleResponse(C)) {
> > + abandonPendingResponses();
> > + SequenceNumberMgr.reset();
> > return Err;
> > }
> >
> > - OutstandingResults.erase(I);
> > - SequenceNumberMgr.releaseSequenceNumber(SeqNo);
> > -
> > return Error::success();
> > }
> >
> > - // Loop waiting for a result with the given sequence number.
> > - // This can be used as a receive loop if the user doesn't have a default.
> > - template <typename HandleOtherFtor>
> > - Error waitForResult(ChannelT &C, SequenceNumberT TgtSeqNo,
> > - HandleOtherFtor &HandleOther = handleNone) {
> > - bool GotTgtResult = false;
> > -
> > - while (!GotTgtResult) {
> > - FunctionIdT Id = RPCFunctionIdTraits<FunctionIdT>::InvalidId;
> > - if (auto Err = startReceivingFunction(C, Id))
> > - return Err;
> > - if (Id == RPCFunctionIdTraits<FunctionIdT>::ResponseId) {
> > - SequenceNumberT SeqNo;
> > - if (auto Err = handleResponse(C, &SeqNo))
> > + FunctionIdT handleNegotiate(const std::string &Name) {
> > + auto I = LocalFunctionIds.find(Name);
> > + if (I == LocalFunctionIds.end())
> > + return FnIdAllocator.getInvalidId();
> > + return I->second;
> > + }
> > +
> > + // Find the remote FunctionId for the given function, which must be in the
> > + // RemoteFunctionIds map.
> > + template <typename Func>
> > + Expected<FunctionIdT> getRemoteFunctionId() {
> > + // Try to find the id for the given function.
> > + auto I = RemoteFunctionIds.find(Func::getPrototype());
> > +
> > + // If we have it in the map, return it.
> > + if (I != RemoteFunctionIds.end())
> > + return I->second;
> > +
> > + // Otherwise, if we have auto-negotiation enabled, try to negotiate it.
> > + if (LazyAutoNegotiation) {
> > + auto &Impl = static_cast<ImplT&>(*this);
> > + if (auto RemoteIdOrErr =
> > + Impl.template callB<OrcRPCNegotiate>(Func::getPrototype())) {
> > + auto &RemoteId = *RemoteIdOrErr;
> > +
> > + // If autonegotiation indicates that the remote end doesn't support this
> > + // function, return an unknown function error.
> > + if (RemoteId == FnIdAllocator.getInvalidId())
> > + return orcError(OrcErrorCode::UnknownRPCFunction);
> > +
> > + // Autonegotiation succeeded and returned a valid id. Update the map and
> > + // return the id.
> > + RemoteFunctionIds[Func::getPrototype()] = RemoteId;
> > + return RemoteId;
> > + } else {
> > + // Autonegotiation failed. Return the error.
> > + return RemoteIdOrErr.takeError();
> > + }
> > + }
> > +
> > + // No key was available in the map and autonegotiation wasn't enabled.
> > + // Return an unknown function error.
> > + return orcError(OrcErrorCode::UnknownRPCFunction);
> > + }
> > +
> > + using WrappedHandlerFn = std::function<Error(ChannelT&, SequenceNumberT)>;
> > +
> > + // Wrap the given user handler in the necessary argument-deserialization code,
> > + // result-serialization code, and call to the launch policy (if present).
> > + template <typename Func, typename HandlerT>
> > + WrappedHandlerFn wrapHandler(HandlerT Handler, LaunchPolicy Launch) {
> > + return
> > + [this, Handler, Launch](ChannelT &Channel, SequenceNumberT SeqNo) -> Error {
> > + // Start by deserializing the arguments.
> > + auto Args =
> > + std::make_shared<typename detail::HandlerTraits<HandlerT>::ArgStorage>();
> > + if (auto Err = detail::HandlerTraits<typename Func::Type>::
> > + deserializeArgs(Channel, *Args))
> > return Err;
> > - GotTgtResult = (SeqNo == TgtSeqNo);
> > - } else if (auto Err = HandleOther(C, Id))
> > - return Err;
> > +
> > + // GCC 4.7 and 4.8 incorrectly issue a -Wunused-but-set-variable warning
> > + // for RPCArgs. Void cast RPCArgs to work around this for now.
> > + // FIXME: Remove this workaround once we can assume a working GCC version.
> > + (void)Args;
> > +
> > + // End receieve message, unlocking the channel for reading.
> > + if (auto Err = Channel.endReceiveMessage())
> > + return Err;
> > +
> > + // Build the handler/responder.
> > + auto Responder =
> > + [this, Handler, Args, &Channel, SeqNo]() mutable -> Error {
> > + using HTraits = detail::HandlerTraits<HandlerT>;
> > + using FuncReturn = typename Func::ReturnType;
> > + return detail::respond<FuncReturn>(Channel, ResponseId, SeqNo,
> > + HTraits::runHandler(Handler,
> > + *Args));
> > + };
> > +
> > + // If there is an explicit launch policy then use it to launch the
> > + // handler.
> > + if (Launch)
> > + return Launch(std::move(Responder));
> > +
> > + // Otherwise run the handler on the listener thread.
> > + return Responder();
> > + };
> > + }
> > +
> > + ChannelT &C;
> > +
> > + bool LazyAutoNegotiation;
> > +
> > + RPCFunctionIdAllocator<FunctionIdT> FnIdAllocator;
> > +
> > + FunctionIdT ResponseId;
> > + std::map<std::string, FunctionIdT> LocalFunctionIds;
> > + std::map<const char*, FunctionIdT> RemoteFunctionIds;
> > +
> > + std::map<FunctionIdT, WrappedHandlerFn> Handlers;
> > +
> > + detail::SequenceNumberManager<SequenceNumberT> SequenceNumberMgr;
> > + std::map<SequenceNumberT, std::unique_ptr<detail::ResponseHandler<ChannelT>>>
> > + PendingResponses;
> > +};
> > +
> > +} // end namespace detail
> > +
> > +
> > +template <typename ChannelT,
> > + typename FunctionIdT = uint32_t,
> > + typename SequenceNumberT = uint32_t>
> > +class MultiThreadedRPC
> > + : public detail::RPCBase<MultiThreadedRPC<ChannelT, FunctionIdT,
> > + SequenceNumberT>,
> > + ChannelT, FunctionIdT, SequenceNumberT> {
> > +private:
> > + using BaseClass =
> > + detail::RPCBase<MultiThreadedRPC<ChannelT, FunctionIdT, SequenceNumberT>,
> > + ChannelT, FunctionIdT, SequenceNumberT>;
> > +
> > +public:
> > +
> > + MultiThreadedRPC(ChannelT &C, bool LazyAutoNegotiation)
> > + : BaseClass(C, LazyAutoNegotiation) {}
> > +
> > + /// The LaunchPolicy type allows a launch policy to be specified when adding
> > + /// a function handler. See addHandler.
> > + using LaunchPolicy = typename BaseClass::LaunchPolicy;
> > +
> > + /// Add a handler for the given RPC function.
> > + /// This installs the given handler functor for the given RPC Function, and
> > + /// makes the RPC function available for negotiation/calling from the remote.
> > + ///
> > + /// The optional LaunchPolicy argument can be used to control how the handler
> > + /// is run when called:
> > + ///
> > + /// * If no LaunchPolicy is given, the handler code will be run on the RPC
> > + /// handler thread that is reading from the channel. This handler cannot
> > + /// make blocking RPC calls (since it would be blocking the thread used to
> > + /// get the result), but can make non-blocking calls.
> > + ///
> > + /// * If a LaunchPolicy is given, the user's handler will be wrapped in a
> > + /// call to serialize and send the result, and the resulting functor (with
> > + /// type 'Error()' will be passed to the LaunchPolicy. The user can then
> > + /// choose to add the wrapped handler to a work queue, spawn a new thread,
> > + /// or anything else.
> > + template <typename Func, typename HandlerT>
> > + void addHandler(HandlerT Handler, LaunchPolicy Launch = LaunchPolicy()) {
> > + return this->template addHandlerImpl<Func>(std::move(Handler),
> > + std::move(Launch));
> > + }
> > +
> > + /// Negotiate a function id for Func with the other end of the channel.
> > + template <typename Func>
> > + Error negotiateFunction() {
> > + using OrcRPCNegotiate = typename BaseClass::OrcRPCNegotiate;
> > +
> > + if (auto RemoteIdOrErr = callB<OrcRPCNegotiate>(Func::getPrototype())) {
> > + this->RemoteFunctionIds[Func::getPrototype()] = *RemoteIdOrErr;
> > + return Error::success();
> > + } else
> > + return RemoteIdOrErr.takeError();
> > + }
> > +
> > + /// Convenience method for negotiating multiple functions at once.
> > + template <typename Func>
> > + Error negotiateFunctions() {
> > + return negotiateFunction<Func>();
> > + }
> > +
> > + /// Convenience method for negotiating multiple functions at once.
> > + template <typename Func1, typename Func2, typename... Funcs>
> > + Error negotiateFunctions() {
> > + if (auto Err = negotiateFunction<Func1>())
> > + return Err;
> > + return negotiateFunctions<Func2, Funcs...>();
> > + }
> > +
> > + /// Return type for non-blocking call primitives.
> > + template <typename Func>
> > + using NonBlockingCallResult =
> > + typename detail::ResultTraits<typename Func::ReturnType>::ReturnFutureType;
> > +
> > + /// Call Func on Channel C. Does not block, does not call send. Returns a pair
> > + /// of a future result and the sequence number assigned to the result.
> > + ///
> > + /// This utility function is primarily used for single-threaded mode support,
> > + /// where the sequence number can be used to wait for the corresponding
> > + /// result. In multi-threaded mode the appendCallNB method, which does not
> > + /// return the sequence numeber, should be preferred.
> > + template <typename Func, typename... ArgTs>
> > + Expected<NonBlockingCallResult<Func>>
> > + appendCallNB(const ArgTs &... Args) {
> > + using RTraits = detail::ResultTraits<typename Func::ReturnType>;
> > + using ErrorReturn = typename RTraits::ErrorReturnType;
> > + using ErrorReturnPromise = typename RTraits::ReturnPromiseType;
> > +
> > + // FIXME: Stack allocate and move this into the handler once LLVM builds
> > + // with C++14.
> > + auto Promise = std::make_shared<ErrorReturnPromise>();
> > + auto FutureResult = Promise->get_future();
> > +
> > + if (auto Err = this->template appendCallAsync<Func>(
> > + [Promise](ErrorReturn RetOrErr) {
> > + Promise->set_value(std::move(RetOrErr));
> > + return Error::success();
> > + }, Args...)) {
> > + this->abandonPendingResponses();
> > + RTraits::consumeAbandoned(FutureResult.get());
> > + return std::move(Err);
> > }
> > + return std::move(FutureResult);
> > + }
> >
> > + /// The same as appendCallNBWithSeq, except that it calls C.send() to
> > + /// flush the channel after serializing the call.
> > + template <typename Func, typename... ArgTs>
> > + Expected<NonBlockingCallResult<Func>>
> > + callNB(const ArgTs &... Args) {
> > + auto Result = appendCallNB<Func>(Args...);
> > + if (!Result)
> > + return Result;
> > + if (auto Err = this->C.send()) {
> > + this->abandonPendingResponses();
> > + detail::ResultTraits<typename Func::ReturnType>::
> > + consumeAbandoned(std::move(Result->get()));
> > + return std::move(Err);
> > + }
> > + return Result;
> > + }
> > +
> > + /// Call Func on Channel C. Blocks waiting for a result. Returns an Error
> > + /// for void functions or an Expected<T> for functions returning a T.
> > + ///
> > + /// This function is for use in threaded code where another thread is
> > + /// handling responses and incoming calls.
> > + template <typename Func, typename... ArgTs,
> > + typename AltRetT = typename Func::ReturnType>
> > + typename detail::ResultTraits<AltRetT>::ErrorReturnType
> > + callB(const ArgTs &... Args) {
> > + if (auto FutureResOrErr = callNB<Func>(Args...)) {
> > + if (auto Err = this->C.send()) {
> > + this->abandonPendingResponses();
> > + detail::ResultTraits<typename Func::ReturnType>::
> > + consumeAbandoned(std::move(FutureResOrErr->get()));
> > + return std::move(Err);
> > + }
> > + return FutureResOrErr->get();
> > + } else
> > + return FutureResOrErr.takeError();
> > + }
> > +
> > + /// Handle incoming RPC calls.
> > + Error handlerLoop() {
> > + while (true)
> > + if (auto Err = this->handleOne())
> > + return Err;
> > return Error::success();
> > }
> >
> > - // Default handler for 'other' (non-response) functions when waiting for a
> > - // result from the channel.
> > - static Error handleNone(ChannelT &, FunctionIdT) {
> > - return orcError(OrcErrorCode::UnexpectedRPCCall);
> > - };
> > +};
> >
> > +template <typename ChannelT,
> > + typename FunctionIdT = uint32_t,
> > + typename SequenceNumberT = uint32_t>
> > +class SingleThreadedRPC
> > + : public detail::RPCBase<SingleThreadedRPC<ChannelT, FunctionIdT,
> > + SequenceNumberT>,
> > + ChannelT, FunctionIdT,
> > + SequenceNumberT> {
> > private:
> > - // Manage sequence numbers.
> > - class SequenceNumberManager {
> > - public:
> > - SequenceNumberManager() = default;
> >
> > - SequenceNumberManager(const SequenceNumberManager &) = delete;
> > - SequenceNumberManager &operator=(const SequenceNumberManager &) = delete;
> > + using BaseClass = detail::RPCBase<SingleThreadedRPC<ChannelT, FunctionIdT,
> > + SequenceNumberT>,
> > + ChannelT, FunctionIdT, SequenceNumberT>;
> >
> > - SequenceNumberManager(SequenceNumberManager &&Other)
> > - : NextSequenceNumber(std::move(Other.NextSequenceNumber)),
> > - FreeSequenceNumbers(std::move(Other.FreeSequenceNumbers)) {}
> > -
> > - SequenceNumberManager &operator=(SequenceNumberManager &&Other) {
> > - NextSequenceNumber = std::move(Other.NextSequenceNumber);
> > - FreeSequenceNumbers = std::move(Other.FreeSequenceNumbers);
> > - return *this;
> > - }
> > + using LaunchPolicy = typename BaseClass::LaunchPolicy;
> >
> > - void reset() {
> > - std::lock_guard<std::mutex> Lock(SeqNoLock);
> > - NextSequenceNumber = 0;
> > - FreeSequenceNumbers.clear();
> > - }
> > -
> > - SequenceNumberT getSequenceNumber() {
> > - std::lock_guard<std::mutex> Lock(SeqNoLock);
> > - if (FreeSequenceNumbers.empty())
> > - return NextSequenceNumber++;
> > - auto SequenceNumber = FreeSequenceNumbers.back();
> > - FreeSequenceNumbers.pop_back();
> > - return SequenceNumber;
> > - }
> > -
> > - void releaseSequenceNumber(SequenceNumberT SequenceNumber) {
> > - std::lock_guard<std::mutex> Lock(SeqNoLock);
> > - FreeSequenceNumbers.push_back(SequenceNumber);
> > - }
> > -
> > - private:
> > - std::mutex SeqNoLock;
> > - SequenceNumberT NextSequenceNumber = 0;
> > - std::vector<SequenceNumberT> FreeSequenceNumbers;
> > - };
> > +public:
> >
> > - // Base class for results that haven't been returned from the other end of the
> > - // RPC connection yet.
> > - class OutstandingResult {
> > - public:
> > - virtual ~OutstandingResult() {}
> > - virtual Error readResult(ChannelT &C) = 0;
> > - virtual void abandon() = 0;
> > - };
> > + SingleThreadedRPC(ChannelT &C, bool LazyAutoNegotiation)
> > + : BaseClass(C, LazyAutoNegotiation) {}
> >
> > - // Outstanding results for a specific function.
> > - template <typename Func>
> > - class OutstandingResultImpl : public OutstandingResult {
> > - private:
> > - public:
> > - OutstandingResultImpl(std::promise<typename Func::PErrorReturn> &&P)
> > - : P(std::move(P)) {}
> > + template <typename Func, typename HandlerT>
> > + void addHandler(HandlerT Handler) {
> > + return this->template addHandlerImpl<Func>(std::move(Handler),
> > + LaunchPolicy());
> > + }
> >
> > - Error readResult(ChannelT &C) override { return Func::readResult(C, P); }
> > + template <typename Func, typename ClassT, typename RetT, typename... ArgTs>
> > + void addHandler(ClassT &Object, RetT (ClassT::*Method)(ArgTs...)) {
> > + addHandler<Func>(
> > + detail::MemberFnWrapper<ClassT, RetT, ArgTs...>(Object, Method));
> > + }
> >
> > - void abandon() override { Func::abandon(P); }
> > + /// Negotiate a function id for Func with the other end of the channel.
> > + template <typename Func>
> > + Error negotiateFunction() {
> > + using OrcRPCNegotiate = typename BaseClass::OrcRPCNegotiate;
> >
> > - private:
> > - std::promise<typename Func::PErrorReturn> P;
> > - };
> > + if (auto RemoteIdOrErr = callB<OrcRPCNegotiate>(Func::getPrototype())) {
> > + this->RemoteFunctionIds[Func::getPrototype()] = *RemoteIdOrErr;
> > + return Error::success();
> > + } else
> > + return RemoteIdOrErr.takeError();
> > + }
> >
> > - // Create an outstanding result for the given function.
> > + /// Convenience method for negotiating multiple functions at once.
> > template <typename Func>
> > - std::unique_ptr<OutstandingResult>
> > - createOutstandingResult(std::promise<typename Func::PErrorReturn> &&P) {
> > - return llvm::make_unique<OutstandingResultImpl<Func>>(std::move(P));
> > + Error negotiateFunctions() {
> > + return negotiateFunction<Func>();
> > }
> >
> > - // Abandon all outstanding results.
> > - void abandonOutstandingResults() {
> > - for (auto &KV : OutstandingResults)
> > - KV.second->abandon();
> > - OutstandingResults.clear();
> > - SequenceNumberMgr.reset();
> > + /// Convenience method for negotiating multiple functions at once.
> > + template <typename Func1, typename Func2, typename... Funcs>
> > + Error negotiateFunctions() {
> > + if (auto Err = negotiateFunction<Func1>())
> > + return Err;
> > + return negotiateFunctions<Func2, Funcs...>();
> > }
> >
> > - SequenceNumberManager SequenceNumberMgr;
> > - std::map<SequenceNumberT, std::unique_ptr<OutstandingResult>>
> > - OutstandingResults;
> > + template <typename Func, typename... ArgTs,
> > + typename AltRetT = typename Func::ReturnType>
> > + typename detail::ResultTraits<AltRetT>::ErrorReturnType
> > + callB(const ArgTs &... Args) {
> > + bool ReceivedResponse = false;
> > + using ResultType =
> > + typename detail::ResultTraits<AltRetT>::ErrorReturnType;
> > + auto Result = detail::ResultTraits<AltRetT>::createBlankErrorReturnValue();
> > +
> > + // We have to 'Check' result (which we know is in a success state at this
> > + // point) so that it can be overwritten in the async handler.
> > + (void)!!Result;
> > +
> > + if (auto Err = this->template appendCallAsync<Func>(
> > + [&](ResultType R) {
> > + Result = std::move(R);
> > + ReceivedResponse = true;
> > + return Error::success();
> > + }, Args...)) {
> > + this->abandonPendingResponses();
> > + detail::ResultTraits<typename Func::ReturnType>::
> > + consumeAbandoned(std::move(Result));
> > + return std::move(Err);
> > + }
> > +
> > + while (!ReceivedResponse) {
> > + if (auto Err = this->handleOne()) {
> > + this->abandonPendingResponses();
> > + detail::ResultTraits<typename Func::ReturnType>::
> > + consumeAbandoned(std::move(Result));
> > + return std::move(Err);
> > + }
> > + }
> > +
> > + return Result;
> > + }
> > +
> > + //using detail::RPCBase<ChannelT, FunctionIdT, SequenceNumberT>::handleOne;
> > +
> > };
> >
> > -} // end namespace remote
> > +} // end namespace rpc
> > } // end namespace orc
> > } // end namespace llvm
> >
> >
> > Modified: llvm/trunk/lib/ExecutionEngine/Orc/CMakeLists.txt
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/lib/ExecutionEngine/Orc/CMakeLists.txt?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/lib/ExecutionEngine/Orc/CMakeLists.txt (original)
> > +++ llvm/trunk/lib/ExecutionEngine/Orc/CMakeLists.txt Fri Nov 11 15:42:09 2016
> > @@ -6,7 +6,6 @@ add_llvm_library(LLVMOrcJIT
> > OrcCBindings.cpp
> > OrcError.cpp
> > OrcMCJITReplacement.cpp
> > - OrcRemoteTargetRPCAPI.cpp
> >
> > ADDITIONAL_HEADER_DIRS
> > ${LLVM_MAIN_INCLUDE_DIR}/llvm/ExecutionEngine/Orc
> >
> > Modified: llvm/trunk/lib/ExecutionEngine/Orc/OrcError.cpp
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/lib/ExecutionEngine/Orc/OrcError.cpp?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/lib/ExecutionEngine/Orc/OrcError.cpp (original)
> > +++ llvm/trunk/lib/ExecutionEngine/Orc/OrcError.cpp Fri Nov 11 15:42:09 2016
> > @@ -43,6 +43,8 @@ public:
> > return "Unexpected RPC call";
> > case OrcErrorCode::UnexpectedRPCResponse:
> > return "Unexpected RPC response";
> > + case OrcErrorCode::UnknownRPCFunction:
> > + return "Unknown RPC function";
> > }
> > llvm_unreachable("Unhandled error code");
> > }
> >
> > Removed: llvm/trunk/lib/ExecutionEngine/Orc/OrcRemoteTargetRPCAPI.cpp
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/lib/ExecutionEngine/Orc/OrcRemoteTargetRPCAPI.cpp?rev=286638&view=auto
> > ==============================================================================
> > --- llvm/trunk/lib/ExecutionEngine/Orc/OrcRemoteTargetRPCAPI.cpp (original)
> > +++ llvm/trunk/lib/ExecutionEngine/Orc/OrcRemoteTargetRPCAPI.cpp (removed)
> > @@ -1,53 +0,0 @@
> > -//===------- OrcRemoteTargetRPCAPI.cpp - ORC Remote API utilities ---------===//
> > -//
> > -// The LLVM Compiler Infrastructure
> > -//
> > -// This file is distributed under the University of Illinois Open Source
> > -// License. See LICENSE.TXT for details.
> > -//
> > -//===----------------------------------------------------------------------===//
> > -
> > -#include "llvm/ExecutionEngine/Orc/OrcRemoteTargetRPCAPI.h"
> > -
> > -namespace llvm {
> > -namespace orc {
> > -namespace remote {
> > -
> > -#define FUNCNAME(X) \
> > - case X ## Id: \
> > - return #X
> > -
> > -const char *OrcRemoteTargetRPCAPI::getJITFuncIdName(JITFuncId Id) {
> > - switch (Id) {
> > - case InvalidId:
> > - return "*** Invalid JITFuncId ***";
> > - FUNCNAME(CallIntVoid);
> > - FUNCNAME(CallMain);
> > - FUNCNAME(CallVoidVoid);
> > - FUNCNAME(CreateRemoteAllocator);
> > - FUNCNAME(CreateIndirectStubsOwner);
> > - FUNCNAME(DeregisterEHFrames);
> > - FUNCNAME(DestroyRemoteAllocator);
> > - FUNCNAME(DestroyIndirectStubsOwner);
> > - FUNCNAME(EmitIndirectStubs);
> > - FUNCNAME(EmitResolverBlock);
> > - FUNCNAME(EmitTrampolineBlock);
> > - FUNCNAME(GetSymbolAddress);
> > - FUNCNAME(GetRemoteInfo);
> > - FUNCNAME(ReadMem);
> > - FUNCNAME(RegisterEHFrames);
> > - FUNCNAME(ReserveMem);
> > - FUNCNAME(RequestCompile);
> > - FUNCNAME(SetProtections);
> > - FUNCNAME(TerminateSession);
> > - FUNCNAME(WriteMem);
> > - FUNCNAME(WritePtr);
> > - };
> > - return nullptr;
> > -}
> > -
> > -#undef FUNCNAME
> > -
> > -} // end namespace remote
> > -} // end namespace orc
> > -} // end namespace llvm
> >
> > Modified: llvm/trunk/tools/lli/ChildTarget/ChildTarget.cpp
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/tools/lli/ChildTarget/ChildTarget.cpp?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/tools/lli/ChildTarget/ChildTarget.cpp (original)
> > +++ llvm/trunk/tools/lli/ChildTarget/ChildTarget.cpp Fri Nov 11 15:42:09 2016
> > @@ -53,23 +53,12 @@ int main(int argc, char *argv[]) {
> > RTDyldMemoryManager::deregisterEHFramesInProcess(Addr, Size);
> > };
> >
> > - FDRPCChannel Channel(InFD, OutFD);
> > - typedef remote::OrcRemoteTargetServer<FDRPCChannel, HostOrcArch> JITServer;
> > + FDRawChannel Channel(InFD, OutFD);
> > + typedef remote::OrcRemoteTargetServer<FDRawChannel, HostOrcArch> JITServer;
> > JITServer Server(Channel, SymbolLookup, RegisterEHFrames, DeregisterEHFrames);
> >
> > - while (1) {
> > - uint32_t RawId;
> > - ExitOnErr(Server.startReceivingFunction(Channel, RawId));
> > - auto Id = static_cast<JITServer::JITFuncId>(RawId);
> > - switch (Id) {
> > - case JITServer::TerminateSessionId:
> > - ExitOnErr(Server.handleTerminateSession());
> > - return 0;
> > - default:
> > - ExitOnErr(Server.handleKnownFunction(Id));
> > - break;
> > - }
> > - }
> > + while (!Server.receivedTerminate())
> > + ExitOnErr(Server.handleOne());
> >
> > close(InFD);
> > close(OutFD);
> >
> > Modified: llvm/trunk/tools/lli/RemoteJITUtils.h
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/tools/lli/RemoteJITUtils.h?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/tools/lli/RemoteJITUtils.h (original)
> > +++ llvm/trunk/tools/lli/RemoteJITUtils.h Fri Nov 11 15:42:09 2016
> > @@ -14,7 +14,7 @@
> > #ifndef LLVM_TOOLS_LLI_REMOTEJITUTILS_H
> > #define LLVM_TOOLS_LLI_REMOTEJITUTILS_H
> >
> > -#include "llvm/ExecutionEngine/Orc/RPCByteChannel.h"
> > +#include "llvm/ExecutionEngine/Orc/RawByteChannel.h"
> > #include "llvm/ExecutionEngine/RTDyldMemoryManager.h"
> > #include <mutex>
> >
> > @@ -25,9 +25,9 @@
> > #endif
> >
> > /// RPC channel that reads from and writes from file descriptors.
> > -class FDRPCChannel final : public llvm::orc::remote::RPCByteChannel {
> > +class FDRawChannel final : public llvm::orc::rpc::RawByteChannel {
> > public:
> > - FDRPCChannel(int InFD, int OutFD) : InFD(InFD), OutFD(OutFD) {}
> > + FDRawChannel(int InFD, int OutFD) : InFD(InFD), OutFD(OutFD) {}
> >
> > llvm::Error readBytes(char *Dst, unsigned Size) override {
> > assert(Dst && "Attempt to read into null.");
> > @@ -72,11 +72,12 @@ private:
> > };
> >
> > // launch the remote process (see lli.cpp) and return a channel to it.
> > -std::unique_ptr<FDRPCChannel> launchRemote();
> > +std::unique_ptr<FDRawChannel> launchRemote();
> >
> > namespace llvm {
> >
> > -// ForwardingMM - Adapter to connect MCJIT to Orc's Remote memory manager.
> > +// ForwardingMM - Adapter to connect MCJIT to Orc's Remote8
> > +// memory manager.
> > class ForwardingMemoryManager : public llvm::RTDyldMemoryManager {
> > public:
> > void setMemMgr(std::unique_ptr<RuntimeDyld::MemoryManager> MemMgr) {
> >
> > Modified: llvm/trunk/tools/lli/lli.cpp
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/tools/lli/lli.cpp?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/tools/lli/lli.cpp (original)
> > +++ llvm/trunk/tools/lli/lli.cpp Fri Nov 11 15:42:09 2016
> > @@ -654,20 +654,20 @@ int main(int argc, char **argv, char * c
> > // MCJIT itself. FIXME.
> >
> > // Lanch the remote process and get a channel to it.
> > - std::unique_ptr<FDRPCChannel> C = launchRemote();
> > + std::unique_ptr<FDRawChannel> C = launchRemote();
> > if (!C) {
> > errs() << "Failed to launch remote JIT.\n";
> > exit(1);
> > }
> >
> > // Create a remote target client running over the channel.
> > - typedef orc::remote::OrcRemoteTargetClient<orc::remote::RPCByteChannel>
> > + typedef orc::remote::OrcRemoteTargetClient<orc::rpc::RawByteChannel>
> > MyRemote;
> > - MyRemote R = ExitOnErr(MyRemote::Create(*C));
> > + auto R = ExitOnErr(MyRemote::Create(*C));
> >
> > // Create a remote memory manager.
> > std::unique_ptr<MyRemote::RCMemoryManager> RemoteMM;
> > - ExitOnErr(R.createRemoteMemoryManager(RemoteMM));
> > + ExitOnErr(R->createRemoteMemoryManager(RemoteMM));
> >
> > // Forward MCJIT's memory manager calls to the remote memory manager.
> > static_cast<ForwardingMemoryManager*>(RTDyldMM)->setMemMgr(
> > @@ -678,7 +678,7 @@ int main(int argc, char **argv, char * c
> > orc::createLambdaResolver(
> > [](const std::string &Name) { return nullptr; },
> > [&](const std::string &Name) {
> > - if (auto Addr = ExitOnErr(R.getSymbolAddress(Name)))
> > + if (auto Addr = ExitOnErr(R->getSymbolAddress(Name)))
> > return JITSymbol(Addr, JITSymbolFlags::Exported);
> > return JITSymbol(nullptr);
> > }
> > @@ -691,7 +691,7 @@ int main(int argc, char **argv, char * c
> > EE->finalizeObject();
> > DEBUG(dbgs() << "Executing '" << EntryFn->getName() << "' at 0x"
> > << format("%llx", Entry) << "\n");
> > - Result = ExitOnErr(R.callIntVoid(Entry));
> > + Result = ExitOnErr(R->callIntVoid(Entry));
> >
> > // Like static constructors, the remote target MCJIT support doesn't handle
> > // this yet. It could. FIXME.
> > @@ -702,13 +702,13 @@ int main(int argc, char **argv, char * c
> > EE.reset();
> >
> > // Signal the remote target that we're done JITing.
> > - ExitOnErr(R.terminateSession());
> > + ExitOnErr(R->terminateSession());
> > }
> >
> > return Result;
> > }
> >
> > -std::unique_ptr<FDRPCChannel> launchRemote() {
> > +std::unique_ptr<FDRawChannel> launchRemote() {
> > #ifndef LLVM_ON_UNIX
> > llvm_unreachable("launchRemote not supported on non-Unix platforms");
> > #else
> > @@ -758,6 +758,6 @@ std::unique_ptr<FDRPCChannel> launchRemo
> > close(PipeFD[1][1]);
> >
> > // Return an RPC channel connected to our end of the pipes.
> > - return llvm::make_unique<FDRPCChannel>(PipeFD[1][0], PipeFD[0][1]);
> > + return llvm::make_unique<FDRawChannel>(PipeFD[1][0], PipeFD[0][1]);
> > #endif
> > }
> >
> > Modified: llvm/trunk/unittests/ExecutionEngine/Orc/RPCUtilsTest.cpp
> > URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/unittests/ExecutionEngine/Orc/RPCUtilsTest.cpp?rev=286639&r1=286638&r2=286639&view=diff
> > ==============================================================================
> > --- llvm/trunk/unittests/ExecutionEngine/Orc/RPCUtilsTest.cpp (original)
> > +++ llvm/trunk/unittests/ExecutionEngine/Orc/RPCUtilsTest.cpp Fri Nov 11 15:42:09 2016
> > @@ -7,7 +7,7 @@
> > //
> > //===----------------------------------------------------------------------===//
> >
> > -#include "llvm/ExecutionEngine/Orc/RPCByteChannel.h"
> > +#include "llvm/ExecutionEngine/Orc/RawByteChannel.h"
> > #include "llvm/ExecutionEngine/Orc/RPCUtils.h"
> > #include "gtest/gtest.h"
> >
> > @@ -15,7 +15,7 @@
> >
> > using namespace llvm;
> > using namespace llvm::orc;
> > -using namespace llvm::orc::remote;
> > +using namespace llvm::orc::rpc;
> >
> > class Queue : public std::queue<char> {
> > public:
> > @@ -25,7 +25,7 @@ private:
> > std::mutex Lock;
> > };
> >
> > -class QueueChannel : public RPCByteChannel {
> > +class QueueChannel : public RawByteChannel {
> > public:
> > QueueChannel(Queue &InQueue, Queue &OutQueue)
> > : InQueue(InQueue), OutQueue(OutQueue) {}
> > @@ -61,126 +61,190 @@ private:
> > Queue &OutQueue;
> > };
> >
> > -class DummyRPC : public testing::Test, public RPC<QueueChannel> {
> > +class DummyRPCAPI {
> > public:
> > - enum FuncId : uint32_t {
> > - VoidBoolId = RPCFunctionIdTraits<FuncId>::FirstValidId,
> > - IntIntId,
> > - AllTheTypesId
> > +
> > + class VoidBool : public Function<VoidBool, void(bool)> {
> > + public:
> > + static const char* getName() { return "VoidBool"; }
> > + };
> > +
> > + class IntInt : public Function<IntInt, int32_t(int32_t)> {
> > + public:
> > + static const char* getName() { return "IntInt"; }
> > };
> >
> > - typedef Function<VoidBoolId, void(bool)> VoidBool;
> > - typedef Function<IntIntId, int32_t(int32_t)> IntInt;
> > - typedef Function<AllTheTypesId,
> > - void(int8_t, uint8_t, int16_t, uint16_t, int32_t, uint32_t,
> > - int64_t, uint64_t, bool, std::string, std::vector<int>)>
> > - AllTheTypes;
> > + class AllTheTypes
> > + : public Function<AllTheTypes,
> > + void(int8_t, uint8_t, int16_t, uint16_t, int32_t,
> > + uint32_t, int64_t, uint64_t, bool, std::string,
> > + std::vector<int>)> {
> > + public:
> > + static const char* getName() { return "AllTheTypes"; }
> > + };
> > +};
> > +
> > +class DummyRPCEndpoint : public DummyRPCAPI,
> > + public SingleThreadedRPC<QueueChannel> {
> > +public:
> > + DummyRPCEndpoint(Queue &Q1, Queue &Q2)
> > + : SingleThreadedRPC(C, true), C(Q1, Q2) {}
> > +private:
> > + QueueChannel C;
> > };
> >
> > -TEST_F(DummyRPC, TestAsyncVoidBool) {
> > +TEST(DummyRPC, TestAsyncVoidBool) {
> > Queue Q1, Q2;
> > - QueueChannel C1(Q1, Q2);
> > - QueueChannel C2(Q2, Q1);
> > + DummyRPCEndpoint Client(Q1, Q2);
> > + DummyRPCEndpoint Server(Q2, Q1);
> > +
> > + std::thread ServerThread([&]() {
> > + Server.addHandler<DummyRPCAPI::VoidBool>(
> > + [](bool B) {
> > + EXPECT_EQ(B, true)
> > + << "Server void(bool) received unexpected result";
> > + });
> > +
> > + {
> > + // Poke the server to handle the negotiate call.
> > + auto Err = Server.handleOne();
> > + EXPECT_FALSE(!!Err) << "Server failed to handle call to negotiate";
> > + }
> >
> > - // Make an async call.
> > - auto ResOrErr = callNBWithSeq<VoidBool>(C1, true);
> > - EXPECT_TRUE(!!ResOrErr) << "Simple call over queue failed";
> > + {
> > + // Poke the server to handle the VoidBool call.
> > + auto Err = Server.handleOne();
> > + EXPECT_FALSE(!!Err) << "Server failed to handle call to void(bool)";
> > + }
> > + });
> >
> > {
> > - // Expect a call to Proc1.
> > - auto EC = expect<VoidBool>(C2, [&](bool &B) {
> > - EXPECT_EQ(B, true) << "Bool serialization broken";
> > - return Error::success();
> > - });
> > - EXPECT_FALSE(EC) << "Simple expect over queue failed";
> > + // Make an async call.
> > + auto Err = Client.callAsync<DummyRPCAPI::VoidBool>(
> > + [](Error Err) {
> > + EXPECT_FALSE(!!Err) << "Async void(bool) response handler failed";
> > + return Error::success();
> > + }, true);
> > + EXPECT_FALSE(!!Err) << "Client.callAsync failed for void(bool)";
> > }
> >
> > {
> > - // Wait for the result.
> > - auto EC = waitForResult(C1, ResOrErr->second, handleNone);
> > - EXPECT_FALSE(EC) << "Could not read result.";
> > + // Poke the client to process the result of the void(bool) call.
> > + auto Err = Client.handleOne();
> > + EXPECT_FALSE(!!Err) << "Client failed to handle response from void(bool)";
> > }
> >
> > - // Verify that the function returned ok.
> > - auto Err = ResOrErr->first.get();
> > - EXPECT_FALSE(!!Err) << "Remote void function failed to execute.";
> > + ServerThread.join();
> > }
> >
> > -TEST_F(DummyRPC, TestAsyncIntInt) {
> > +TEST(DummyRPC, TestAsyncIntInt) {
> > Queue Q1, Q2;
> > - QueueChannel C1(Q1, Q2);
> > - QueueChannel C2(Q2, Q1);
> > + DummyRPCEndpoint Client(Q1, Q2);
> > + DummyRPCEndpoint Server(Q2, Q1);
> >
> > - // Make an async call.
> > - auto ResOrErr = callNBWithSeq<IntInt>(C1, 21);
> > - EXPECT_TRUE(!!ResOrErr) << "Simple call over queue failed";
> > + std::thread ServerThread([&]() {
> > + Server.addHandler<DummyRPCAPI::IntInt>(
> > + [](int X) -> int {
> > + EXPECT_EQ(X, 21) << "Server int(int) receieved unexpected result";
> > + return 2 * X;
> > + });
> > +
> > + {
> > + // Poke the server to handle the negotiate call.
> > + auto Err = Server.handleOne();
> > + EXPECT_FALSE(!!Err) << "Server failed to handle call to negotiate";
> > + }
> >
> > - {
> > - // Expect a call to Proc1.
> > - auto EC = expect<IntInt>(C2, [&](int32_t I) -> Expected<int32_t> {
> > - EXPECT_EQ(I, 21) << "Bool serialization broken";
> > - return 2 * I;
> > + {
> > + // Poke the server to handle the int(int) call.
> > + auto Err = Server.handleOne();
> > + EXPECT_FALSE(!!Err) << "Server failed to handle call to int(int)";
> > + }
> > });
> > - EXPECT_FALSE(EC) << "Simple expect over queue failed";
> > +
> > + {
> > + auto Err = Client.callAsync<DummyRPCAPI::IntInt>(
> > + [](Expected<int> Result) {
> > + EXPECT_TRUE(!!Result) << "Async int(int) response handler failed";
> > + EXPECT_EQ(*Result, 42)
> > + << "Async int(int) response handler received incorrect result";
> > + return Error::success();
> > + }, 21);
> > + EXPECT_FALSE(!!Err) << "Client.callAsync failed for int(int)";
> > }
> >
> > {
> > - // Wait for the result.
> > - auto EC = waitForResult(C1, ResOrErr->second, handleNone);
> > - EXPECT_FALSE(EC) << "Could not read result.";
> > + // Poke the client to process the result.
> > + auto Err = Client.handleOne();
> > + EXPECT_FALSE(!!Err) << "Client failed to handle response from void(bool)";
> > }
> >
> > - // Verify that the function returned ok.
> > - auto Val = ResOrErr->first.get();
> > - EXPECT_TRUE(!!Val) << "Remote int function failed to execute.";
> > - EXPECT_EQ(*Val, 42) << "Remote int function return wrong value.";
> > + ServerThread.join();
> > }
> >
> > -TEST_F(DummyRPC, TestSerialization) {
> > +TEST(DummyRPC, TestSerialization) {
> > Queue Q1, Q2;
> > - QueueChannel C1(Q1, Q2);
> > - QueueChannel C2(Q2, Q1);
> > + DummyRPCEndpoint Client(Q1, Q2);
> > + DummyRPCEndpoint Server(Q2, Q1);
> >
> > - // Make a call to Proc1.
> > - std::vector<int> v({42, 7});
> > - auto ResOrErr = callNBWithSeq<AllTheTypes>(
> > - C1, -101, 250, -10000, 10000, -1000000000, 1000000000, -10000000000,
> > - 10000000000, true, "foo", v);
> > - EXPECT_TRUE(!!ResOrErr) << "Big (serialization test) call over queue failed";
> > -
> > - {
> > - // Expect a call to Proc1.
> > - auto EC = expect<AllTheTypes>(
> > - C2, [&](int8_t &s8, uint8_t &u8, int16_t &s16, uint16_t &u16,
> > - int32_t &s32, uint32_t &u32, int64_t &s64, uint64_t &u64,
> > - bool &b, std::string &s, std::vector<int> &v) {
> > -
> > - EXPECT_EQ(s8, -101) << "int8_t serialization broken";
> > - EXPECT_EQ(u8, 250) << "uint8_t serialization broken";
> > - EXPECT_EQ(s16, -10000) << "int16_t serialization broken";
> > - EXPECT_EQ(u16, 10000) << "uint16_t serialization broken";
> > - EXPECT_EQ(s32, -1000000000) << "int32_t serialization broken";
> > - EXPECT_EQ(u32, 1000000000ULL) << "uint32_t serialization broken";
> > - EXPECT_EQ(s64, -10000000000) << "int64_t serialization broken";
> > - EXPECT_EQ(u64, 10000000000ULL) << "uint64_t serialization broken";
> > - EXPECT_EQ(b, true) << "bool serialization broken";
> > - EXPECT_EQ(s, "foo") << "std::string serialization broken";
> > - EXPECT_EQ(v, std::vector<int>({42, 7}))
> > + std::thread ServerThread([&]() {
> > + Server.addHandler<DummyRPCAPI::AllTheTypes>(
> > + [&](int8_t S8, uint8_t U8, int16_t S16, uint16_t U16,
> > + int32_t S32, uint32_t U32, int64_t S64, uint64_t U64,
> > + bool B, std::string S, std::vector<int> V) {
> > +
> > + EXPECT_EQ(S8, -101) << "int8_t serialization broken";
> > + EXPECT_EQ(U8, 250) << "uint8_t serialization broken";
> > + EXPECT_EQ(S16, -10000) << "int16_t serialization broken";
> > + EXPECT_EQ(U16, 10000) << "uint16_t serialization broken";
> > + EXPECT_EQ(S32, -1000000000) << "int32_t serialization broken";
> > + EXPECT_EQ(U32, 1000000000ULL) << "uint32_t serialization broken";
> > + EXPECT_EQ(S64, -10000000000) << "int64_t serialization broken";
> > + EXPECT_EQ(U64, 10000000000ULL) << "uint64_t serialization broken";
> > + EXPECT_EQ(B, true) << "bool serialization broken";
> > + EXPECT_EQ(S, "foo") << "std::string serialization broken";
> > + EXPECT_EQ(V, std::vector<int>({42, 7}))
> > << "std::vector serialization broken";
> > + return Error::success();
> > + });
> > +
> > + {
> > + // Poke the server to handle the negotiate call.
> > + auto Err = Server.handleOne();
> > + EXPECT_FALSE(!!Err) << "Server failed to handle call to negotiate";
> > + }
> > +
> > + {
> > + // Poke the server to handle the AllTheTypes call.
> > + auto Err = Server.handleOne();
> > + EXPECT_FALSE(!!Err) << "Server failed to handle call to void(bool)";
> > + }
> > + });
> > +
> > +
> > + {
> > + // Make an async call.
> > + std::vector<int> v({42, 7});
> > + auto Err = Client.callAsync<DummyRPCAPI::AllTheTypes>(
> > + [](Error Err) {
> > + EXPECT_FALSE(!!Err) << "Async AllTheTypes response handler failed";
> > return Error::success();
> > - });
> > - EXPECT_FALSE(EC) << "Big (serialization test) call over queue failed";
> > + },
> > + static_cast<int8_t>(-101), static_cast<uint8_t>(250),
> > + static_cast<int16_t>(-10000), static_cast<uint16_t>(10000),
> > + static_cast<int32_t>(-1000000000), static_cast<uint32_t>(1000000000),
> > + static_cast<int64_t>(-10000000000), static_cast<uint64_t>(10000000000),
> > + true, std::string("foo"), v);
> > + EXPECT_FALSE(!!Err) << "Client.callAsync failed for AllTheTypes";
> > }
> >
> > {
> > - // Wait for the result.
> > - auto EC = waitForResult(C1, ResOrErr->second, handleNone);
> > - EXPECT_FALSE(EC) << "Could not read result.";
> > + // Poke the client to process the result of the AllTheTypes call.
> > + auto Err = Client.handleOne();
> > + EXPECT_FALSE(!!Err) << "Client failed to handle response from AllTheTypes";
> > }
> >
> > - // Verify that the function returned ok.
> > - auto Err = ResOrErr->first.get();
> > - EXPECT_FALSE(!!Err) << "Remote void function failed to execute.";
> > + ServerThread.join();
> > }
> >
> > // Test the synchronous call API.
> >
> >
> > _______________________________________________
> > llvm-commits mailing list
> > llvm-commits at lists.llvm.org
> > http://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-commits
>
>
>
More information about the llvm-commits
mailing list