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4d7cea3d2e833209d06e201a273f97342035c196
clang-p2996/llvm/lib/ExecutionEngine/Orc/SimpleRemoteEPC.cpp
Lang Hames 4d7cea3d2e [ORC] Add optional RunPolicy to ExecutorProcessControl::callWrapperAsync. 
The callWrapperAsync and callSPSWrapperAsync methods take a handler object
that is run on the return value of the call when it is ready. The new RunPolicy
parameters allow clients to control how these handlers are run. If no policy is
specified then the handler will be packaged as a GenericNamedTask and dispatched
using the ExecutorProcessControl's TaskDispatch member. Callers can use the
ExecutorProcessControl::RunInPlace policy to cause the handler to be run
directly instead, which may be preferrable for simple handlers, or they can
write their own policy object (e.g. to dispatch as some other kind of Task,
rather than GenericNamedTask).
2021-10-10 20:41:59 -07:00

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//===------- SimpleRemoteEPC.cpp -- Simple remote executor control --------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "llvm/ExecutionEngine/Orc/SimpleRemoteEPC.h"
#include "llvm/ExecutionEngine/Orc/EPCGenericJITLinkMemoryManager.h"
#include "llvm/ExecutionEngine/Orc/EPCGenericMemoryAccess.h"
#include "llvm/ExecutionEngine/Orc/Shared/OrcRTBridge.h"
#include "llvm/Support/FormatVariadic.h"
#define DEBUG_TYPE "orc"
namespace llvm {
namespace orc {
SimpleRemoteEPC::~SimpleRemoteEPC() {
#ifndef NDEBUG
std::lock_guard<std::mutex> Lock(SimpleRemoteEPCMutex);
assert(Disconnected && "Destroyed without disconnection");
#endif // NDEBUG
}
Expected<tpctypes::DylibHandle>
SimpleRemoteEPC::loadDylib(const char *DylibPath) {
return DylibMgr->open(DylibPath, 0);
}
Expected<std::vector<tpctypes::LookupResult>>
SimpleRemoteEPC::lookupSymbols(ArrayRef<LookupRequest> Request) {
std::vector<tpctypes::LookupResult> Result;
for (auto &Element : Request) {
if (auto R = DylibMgr->lookup(Element.Handle, Element.Symbols)) {
Result.push_back({});
Result.back().reserve(R->size());
for (auto Addr : *R)
Result.back().push_back(Addr.getValue());
} else
return R.takeError();
}
return std::move(Result);
}
Expected<int32_t> SimpleRemoteEPC::runAsMain(ExecutorAddr MainFnAddr,
ArrayRef<std::string> Args) {
int64_t Result = 0;
if (auto Err = callSPSWrapper<rt::SPSRunAsMainSignature>(
RunAsMainAddr, Result, ExecutorAddr(MainFnAddr), Args))
return std::move(Err);
return Result;
}
void SimpleRemoteEPC::callWrapperAsync(ExecutorAddr WrapperFnAddr,
IncomingWFRHandler OnComplete,
ArrayRef<char> ArgBuffer) {
uint64_t SeqNo;
{
std::lock_guard<std::mutex> Lock(SimpleRemoteEPCMutex);
SeqNo = getNextSeqNo();
assert(!PendingCallWrapperResults.count(SeqNo) && "SeqNo already in use");
PendingCallWrapperResults[SeqNo] = std::move(OnComplete);
}
if (auto Err = sendMessage(SimpleRemoteEPCOpcode::CallWrapper, SeqNo,
WrapperFnAddr, ArgBuffer)) {
getExecutionSession().reportError(std::move(Err));
}
}
Error SimpleRemoteEPC::disconnect() {
T->disconnect();
std::unique_lock<std::mutex> Lock(SimpleRemoteEPCMutex);
DisconnectCV.wait(Lock, [this] { return Disconnected; });
return std::move(DisconnectErr);
}
Expected<SimpleRemoteEPCTransportClient::HandleMessageAction>
SimpleRemoteEPC::handleMessage(SimpleRemoteEPCOpcode OpC, uint64_t SeqNo,
ExecutorAddr TagAddr,
SimpleRemoteEPCArgBytesVector ArgBytes) {
LLVM_DEBUG({
dbgs() << "SimpleRemoteEPC::handleMessage: opc = ";
switch (OpC) {
case SimpleRemoteEPCOpcode::Setup:
dbgs() << "Setup";
assert(SeqNo == 0 && "Non-zero SeqNo for Setup?");
assert(TagAddr.getValue() == 0 && "Non-zero TagAddr for Setup?");
break;
case SimpleRemoteEPCOpcode::Hangup:
dbgs() << "Hangup";
assert(SeqNo == 0 && "Non-zero SeqNo for Hangup?");
assert(TagAddr.getValue() == 0 && "Non-zero TagAddr for Hangup?");
break;
case SimpleRemoteEPCOpcode::Result:
dbgs() << "Result";
assert(TagAddr.getValue() == 0 && "Non-zero TagAddr for Result?");
break;
case SimpleRemoteEPCOpcode::CallWrapper:
dbgs() << "CallWrapper";
break;
}
dbgs() << ", seqno = " << SeqNo
<< ", tag-addr = " << formatv("{0:x}", TagAddr.getValue())
<< ", arg-buffer = " << formatv("{0:x}", ArgBytes.size())
<< " bytes\n";
});
using UT = std::underlying_type_t<SimpleRemoteEPCOpcode>;
if (static_cast<UT>(OpC) > static_cast<UT>(SimpleRemoteEPCOpcode::LastOpC))
return make_error<StringError>("Unexpected opcode",
inconvertibleErrorCode());
switch (OpC) {
case SimpleRemoteEPCOpcode::Setup:
if (auto Err = handleSetup(SeqNo, TagAddr, std::move(ArgBytes)))
return std::move(Err);
break;
case SimpleRemoteEPCOpcode::Hangup:
return make_error<StringError>("Unexpected Hangup opcode",
inconvertibleErrorCode());
case SimpleRemoteEPCOpcode::Result:
if (auto Err = handleResult(SeqNo, TagAddr, std::move(ArgBytes)))
return std::move(Err);
break;
case SimpleRemoteEPCOpcode::CallWrapper:
handleCallWrapper(SeqNo, TagAddr, std::move(ArgBytes));
break;
}
return ContinueSession;
}
void SimpleRemoteEPC::handleDisconnect(Error Err) {
LLVM_DEBUG({
dbgs() << "SimpleRemoteEPC::handleDisconnect: "
<< (Err ? "failure" : "success") << "\n";
});
PendingCallWrapperResultsMap TmpPending;
{
std::lock_guard<std::mutex> Lock(SimpleRemoteEPCMutex);
std::swap(TmpPending, PendingCallWrapperResults);
}
for (auto &KV : TmpPending)
KV.second(
shared::WrapperFunctionResult::createOutOfBandError("disconnecting"));
std::lock_guard<std::mutex> Lock(SimpleRemoteEPCMutex);
DisconnectErr = joinErrors(std::move(DisconnectErr), std::move(Err));
Disconnected = true;
DisconnectCV.notify_all();
}
Expected<std::unique_ptr<jitlink::JITLinkMemoryManager>>
SimpleRemoteEPC::createMemoryManager() {
EPCGenericJITLinkMemoryManager::SymbolAddrs SAs;
if (auto Err = getBootstrapSymbols(
{{SAs.Allocator, rt::SimpleExecutorMemoryManagerInstanceName},
{SAs.Reserve, rt::SimpleExecutorMemoryManagerReserveWrapperName},
{SAs.Finalize, rt::SimpleExecutorMemoryManagerFinalizeWrapperName},
{SAs.Deallocate,
rt::SimpleExecutorMemoryManagerDeallocateWrapperName}}))
return std::move(Err);
return std::make_unique<EPCGenericJITLinkMemoryManager>(*this, SAs);
}
Expected<std::unique_ptr<ExecutorProcessControl::MemoryAccess>>
SimpleRemoteEPC::createMemoryAccess() {
return nullptr;
}
Error SimpleRemoteEPC::sendMessage(SimpleRemoteEPCOpcode OpC, uint64_t SeqNo,
ExecutorAddr TagAddr,
ArrayRef<char> ArgBytes) {
assert(OpC != SimpleRemoteEPCOpcode::Setup &&
"SimpleRemoteEPC sending Setup message? That's the wrong direction.");
LLVM_DEBUG({
dbgs() << "SimpleRemoteEPC::sendMessage: opc = ";
switch (OpC) {
case SimpleRemoteEPCOpcode::Hangup:
dbgs() << "Hangup";
assert(SeqNo == 0 && "Non-zero SeqNo for Hangup?");
assert(TagAddr.getValue() == 0 && "Non-zero TagAddr for Hangup?");
break;
case SimpleRemoteEPCOpcode::Result:
dbgs() << "Result";
assert(TagAddr.getValue() == 0 && "Non-zero TagAddr for Result?");
break;
case SimpleRemoteEPCOpcode::CallWrapper:
dbgs() << "CallWrapper";
break;
default:
llvm_unreachable("Invalid opcode");
}
dbgs() << ", seqno = " << SeqNo
<< ", tag-addr = " << formatv("{0:x}", TagAddr.getValue())
<< ", arg-buffer = " << formatv("{0:x}", ArgBytes.size())
<< " bytes\n";
});
auto Err = T->sendMessage(OpC, SeqNo, TagAddr, ArgBytes);
LLVM_DEBUG({
if (Err)
dbgs() << " \\--> SimpleRemoteEPC::sendMessage failed\n";
});
return Err;
}
Error SimpleRemoteEPC::handleSetup(uint64_t SeqNo, ExecutorAddr TagAddr,
SimpleRemoteEPCArgBytesVector ArgBytes) {
if (SeqNo != 0)
return make_error<StringError>("Setup packet SeqNo not zero",
inconvertibleErrorCode());
if (TagAddr)
return make_error<StringError>("Setup packet TagAddr not zero",
inconvertibleErrorCode());
std::lock_guard<std::mutex> Lock(SimpleRemoteEPCMutex);
auto I = PendingCallWrapperResults.find(0);
assert(PendingCallWrapperResults.size() == 1 &&
I != PendingCallWrapperResults.end() &&
"Setup message handler not connectly set up");
auto SetupMsgHandler = std::move(I->second);
PendingCallWrapperResults.erase(I);
auto WFR =
shared::WrapperFunctionResult::copyFrom(ArgBytes.data(), ArgBytes.size());
SetupMsgHandler(std::move(WFR));
return Error::success();
}
Error SimpleRemoteEPC::setup() {
using namespace SimpleRemoteEPCDefaultBootstrapSymbolNames;
std::promise<MSVCPExpected<SimpleRemoteEPCExecutorInfo>> EIP;
auto EIF = EIP.get_future();
// Prepare a handler for the setup packet.
PendingCallWrapperResults[0] =
RunInPlace()(
[&](shared::WrapperFunctionResult SetupMsgBytes) {
if (const char *ErrMsg = SetupMsgBytes.getOutOfBandError()) {
EIP.set_value(
make_error<StringError>(ErrMsg, inconvertibleErrorCode()));
return;
}
using SPSSerialize =
shared::SPSArgList<shared::SPSSimpleRemoteEPCExecutorInfo>;
shared::SPSInputBuffer IB(SetupMsgBytes.data(), SetupMsgBytes.size());
SimpleRemoteEPCExecutorInfo EI;
if (SPSSerialize::deserialize(IB, EI))
EIP.set_value(EI);
else
EIP.set_value(make_error<StringError>(
"Could not deserialize setup message", inconvertibleErrorCode()));
});
// Start the transport.
if (auto Err = T->start())
return Err;
// Wait for setup packet to arrive.
auto EI = EIF.get();
if (!EI) {
T->disconnect();
return EI.takeError();
}
LLVM_DEBUG({
dbgs() << "SimpleRemoteEPC received setup message:\n"
<< " Triple: " << EI->TargetTriple << "\n"
<< " Page size: " << EI->PageSize << "\n"
<< " Bootstrap symbols:\n";
for (const auto &KV : EI->BootstrapSymbols)
dbgs() << " " << KV.first() << ": "
<< formatv("{0:x16}", KV.second.getValue()) << "\n";
});
TargetTriple = Triple(EI->TargetTriple);
PageSize = EI->PageSize;
BootstrapSymbols = std::move(EI->BootstrapSymbols);
if (auto Err = getBootstrapSymbols(
{{JDI.JITDispatchContext, ExecutorSessionObjectName},
{JDI.JITDispatchFunction, DispatchFnName},
{RunAsMainAddr, rt::RunAsMainWrapperName}}))
return Err;
if (auto DM =
EPCGenericDylibManager::CreateWithDefaultBootstrapSymbols(*this))
DylibMgr = std::make_unique<EPCGenericDylibManager>(std::move(*DM));
else
return DM.takeError();
if (auto MemMgr = createMemoryManager()) {
OwnedMemMgr = std::move(*MemMgr);
this->MemMgr = OwnedMemMgr.get();
} else
return MemMgr.takeError();
if (auto MemAccess = createMemoryAccess()) {
OwnedMemAccess = std::move(*MemAccess);
this->MemAccess = OwnedMemAccess.get();
} else
return MemAccess.takeError();
return Error::success();
}
Error SimpleRemoteEPC::handleResult(uint64_t SeqNo, ExecutorAddr TagAddr,
SimpleRemoteEPCArgBytesVector ArgBytes) {
IncomingWFRHandler SendResult;
if (TagAddr)
return make_error<StringError>("Unexpected TagAddr in result message",
inconvertibleErrorCode());
{
std::lock_guard<std::mutex> Lock(SimpleRemoteEPCMutex);
auto I = PendingCallWrapperResults.find(SeqNo);
if (I == PendingCallWrapperResults.end())
return make_error<StringError>("No call for sequence number " +
Twine(SeqNo),
inconvertibleErrorCode());
SendResult = std::move(I->second);
PendingCallWrapperResults.erase(I);
releaseSeqNo(SeqNo);
}
auto WFR =
shared::WrapperFunctionResult::copyFrom(ArgBytes.data(), ArgBytes.size());
SendResult(std::move(WFR));
return Error::success();
}
void SimpleRemoteEPC::handleCallWrapper(
uint64_t RemoteSeqNo, ExecutorAddr TagAddr,
SimpleRemoteEPCArgBytesVector ArgBytes) {
assert(ES && "No ExecutionSession attached");
ES->runJITDispatchHandler(
[this, RemoteSeqNo](shared::WrapperFunctionResult WFR) {
if (auto Err = sendMessage(SimpleRemoteEPCOpcode::Result, RemoteSeqNo,
ExecutorAddr(), {WFR.data(), WFR.size()}))
getExecutionSession().reportError(std::move(Err));
},
TagAddr.getValue(), ArgBytes);
}
} // end namespace orc
} // end namespace llvm
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