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a397416183
This is a first step towards consistently using the term 'executor' for the
process that executes JIT'd code. I've opted for 'executor' as the preferred
term over 'target' as target is already heavily overloaded ("the target
machine for the executor" is much clearer than "the target machine for the
target").
154 lines
5.5 KiB
C++
154 lines
5.5 KiB
C++
//===---- ExecutorProcessControl.cpp -- Executor process control APIs -----===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ExecutionEngine/Orc/ExecutorProcessControl.h"
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#include "llvm/ExecutionEngine/Orc/Core.h"
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#include "llvm/ExecutionEngine/Orc/TargetProcess/TargetExecutionUtils.h"
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#include "llvm/Support/Host.h"
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#include "llvm/Support/Process.h"
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#include <mutex>
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namespace llvm {
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namespace orc {
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ExecutorProcessControl::MemoryAccess::~MemoryAccess() {}
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ExecutorProcessControl::~ExecutorProcessControl() {}
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SelfExecutorProcessControl::SelfExecutorProcessControl(
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std::shared_ptr<SymbolStringPool> SSP, Triple TargetTriple,
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unsigned PageSize, std::unique_ptr<jitlink::JITLinkMemoryManager> MemMgr)
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: ExecutorProcessControl(std::move(SSP)) {
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OwnedMemMgr = std::move(MemMgr);
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if (!OwnedMemMgr)
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OwnedMemMgr = std::make_unique<jitlink::InProcessMemoryManager>();
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this->TargetTriple = std::move(TargetTriple);
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this->PageSize = PageSize;
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this->MemMgr = OwnedMemMgr.get();
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this->MemAccess = this;
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if (this->TargetTriple.isOSBinFormatMachO())
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GlobalManglingPrefix = '_';
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}
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Expected<std::unique_ptr<SelfExecutorProcessControl>>
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SelfExecutorProcessControl::Create(
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std::shared_ptr<SymbolStringPool> SSP,
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std::unique_ptr<jitlink::JITLinkMemoryManager> MemMgr) {
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auto PageSize = sys::Process::getPageSize();
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if (!PageSize)
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return PageSize.takeError();
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Triple TT(sys::getProcessTriple());
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return std::make_unique<SelfExecutorProcessControl>(
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std::move(SSP), std::move(TT), *PageSize, std::move(MemMgr));
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}
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Expected<tpctypes::DylibHandle>
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SelfExecutorProcessControl::loadDylib(const char *DylibPath) {
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std::string ErrMsg;
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auto Dylib = std::make_unique<sys::DynamicLibrary>(
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sys::DynamicLibrary::getPermanentLibrary(DylibPath, &ErrMsg));
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if (!Dylib->isValid())
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return make_error<StringError>(std::move(ErrMsg), inconvertibleErrorCode());
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DynamicLibraries.push_back(std::move(Dylib));
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return pointerToJITTargetAddress(DynamicLibraries.back().get());
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}
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Expected<std::vector<tpctypes::LookupResult>>
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SelfExecutorProcessControl::lookupSymbols(ArrayRef<LookupRequest> Request) {
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std::vector<tpctypes::LookupResult> R;
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for (auto &Elem : Request) {
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auto *Dylib = jitTargetAddressToPointer<sys::DynamicLibrary *>(Elem.Handle);
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assert(llvm::any_of(DynamicLibraries,
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[=](const std::unique_ptr<sys::DynamicLibrary> &DL) {
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return DL.get() == Dylib;
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}) &&
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"Invalid handle");
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R.push_back(std::vector<JITTargetAddress>());
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for (auto &KV : Elem.Symbols) {
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auto &Sym = KV.first;
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std::string Tmp((*Sym).data() + !!GlobalManglingPrefix,
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(*Sym).size() - !!GlobalManglingPrefix);
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void *Addr = Dylib->getAddressOfSymbol(Tmp.c_str());
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if (!Addr && KV.second == SymbolLookupFlags::RequiredSymbol) {
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// FIXME: Collect all failing symbols before erroring out.
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SymbolNameVector MissingSymbols;
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MissingSymbols.push_back(Sym);
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return make_error<SymbolsNotFound>(std::move(MissingSymbols));
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}
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R.back().push_back(pointerToJITTargetAddress(Addr));
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}
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}
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return R;
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}
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Expected<int32_t>
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SelfExecutorProcessControl::runAsMain(JITTargetAddress MainFnAddr,
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ArrayRef<std::string> Args) {
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using MainTy = int (*)(int, char *[]);
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return orc::runAsMain(jitTargetAddressToFunction<MainTy>(MainFnAddr), Args);
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}
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Expected<shared::WrapperFunctionResult>
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SelfExecutorProcessControl::runWrapper(JITTargetAddress WrapperFnAddr,
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ArrayRef<char> ArgBuffer) {
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using WrapperFnTy = shared::detail::CWrapperFunctionResult (*)(
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const char *Data, uint64_t Size);
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auto *WrapperFn = jitTargetAddressToFunction<WrapperFnTy>(WrapperFnAddr);
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return WrapperFn(ArgBuffer.data(), ArgBuffer.size());
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}
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Error SelfExecutorProcessControl::disconnect() { return Error::success(); }
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void SelfExecutorProcessControl::writeUInt8s(ArrayRef<tpctypes::UInt8Write> Ws,
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WriteResultFn OnWriteComplete) {
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for (auto &W : Ws)
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*jitTargetAddressToPointer<uint8_t *>(W.Address) = W.Value;
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OnWriteComplete(Error::success());
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}
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void SelfExecutorProcessControl::writeUInt16s(
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ArrayRef<tpctypes::UInt16Write> Ws, WriteResultFn OnWriteComplete) {
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for (auto &W : Ws)
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*jitTargetAddressToPointer<uint16_t *>(W.Address) = W.Value;
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OnWriteComplete(Error::success());
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}
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void SelfExecutorProcessControl::writeUInt32s(
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ArrayRef<tpctypes::UInt32Write> Ws, WriteResultFn OnWriteComplete) {
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for (auto &W : Ws)
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*jitTargetAddressToPointer<uint32_t *>(W.Address) = W.Value;
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OnWriteComplete(Error::success());
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}
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void SelfExecutorProcessControl::writeUInt64s(
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ArrayRef<tpctypes::UInt64Write> Ws, WriteResultFn OnWriteComplete) {
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for (auto &W : Ws)
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*jitTargetAddressToPointer<uint64_t *>(W.Address) = W.Value;
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OnWriteComplete(Error::success());
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}
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void SelfExecutorProcessControl::writeBuffers(
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ArrayRef<tpctypes::BufferWrite> Ws, WriteResultFn OnWriteComplete) {
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for (auto &W : Ws)
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memcpy(jitTargetAddressToPointer<char *>(W.Address), W.Buffer.data(),
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W.Buffer.size());
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OnWriteComplete(Error::success());
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}
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} // end namespace orc
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} // end namespace llvm
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