LLVM 22.0.0git
EPCIndirectionUtils.cpp
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1//===------- EPCIndirectionUtils.cpp -- EPC based indirection APIs --------===//
2//
3// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4// See https://llvm.org/LICENSE.txt for license information.
5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6//
7//===----------------------------------------------------------------------===//
8
9#include "llvm/ExecutionEngine/Orc/EPCIndirectionUtils.h"
10
11#include "llvm/ExecutionEngine/Orc/ExecutorProcessControl.h"
12#include "llvm/Support/MathExtras.h"
13
14#include <future>
15
16using namespace llvm;
17using namespace llvm::orc;
18
19namespace llvm {
20namespace orc {
21
22class EPCIndirectionUtilsAccess {
23public:
24 using IndirectStubInfo = EPCIndirectionUtils::IndirectStubInfo;
25 using IndirectStubInfoVector = EPCIndirectionUtils::IndirectStubInfoVector;
26
27 static Expected<IndirectStubInfoVector>
28 getIndirectStubs(EPCIndirectionUtils &EPCIU, unsigned NumStubs) {
29 return EPCIU.getIndirectStubs(NumStubs);
30 };
31};
32
33} // end namespace orc
34} // end namespace llvm
35
36namespace {
37
38class EPCTrampolinePool : public TrampolinePool {
39public:
40 EPCTrampolinePool(EPCIndirectionUtils &EPCIU);
41 Error deallocatePool();
42
43protected:
44 Error grow() override;
45
46 using FinalizedAlloc = jitlink::JITLinkMemoryManager::FinalizedAlloc;
47
48 EPCIndirectionUtils &EPCIU;
49 unsigned TrampolineSize = 0;
50 unsigned TrampolinesPerPage = 0;
51 std::vector<FinalizedAlloc> TrampolineBlocks;
52};
53
54class EPCIndirectStubsManager : public IndirectStubsManager,
55 private EPCIndirectionUtilsAccess {
56public:
57 EPCIndirectStubsManager(EPCIndirectionUtils &EPCIU) : EPCIU(EPCIU) {}
58
59 Error deallocateStubs();
60
61 Error createStub(StringRef StubName, ExecutorAddr StubAddr,
62 JITSymbolFlags StubFlags) override;
63
64 Error createStubs(const StubInitsMap &StubInits) override;
65
66 ExecutorSymbolDef findStub(StringRef Name, bool ExportedStubsOnly) override;
67
68 ExecutorSymbolDef findPointer(StringRef Name) override;
69
70 Error updatePointer(StringRef Name, ExecutorAddr NewAddr) override;
71
72private:
73 using StubInfo = std::pair<IndirectStubInfo, JITSymbolFlags>;
74
75 std::mutex ISMMutex;
76 EPCIndirectionUtils &EPCIU;
77 StringMap<StubInfo> StubInfos;
78};
79
80EPCTrampolinePool::EPCTrampolinePool(EPCIndirectionUtils &EPCIU)
81 : EPCIU(EPCIU) {
82 auto &EPC = EPCIU.getExecutorProcessControl();
83 auto &ABI = EPCIU.getABISupport();
84
85 TrampolineSize = ABI.getTrampolineSize();
86 TrampolinesPerPage =
87 (EPC.getPageSize() - ABI.getPointerSize()) / TrampolineSize;
88}
89
90Error EPCTrampolinePool::deallocatePool() {
91 std::promise<MSVCPError> DeallocResultP;
92 auto DeallocResultF = DeallocResultP.get_future();
93
94 EPCIU.getExecutorProcessControl().getMemMgr().deallocate(
95 std::move(TrampolineBlocks),
96 [&](Error Err) { DeallocResultP.set_value(std::move(Err)); });
97
98 return DeallocResultF.get();
99}
100
101Error EPCTrampolinePool::grow() {
102 using namespace jitlink;
103
104 assert(AvailableTrampolines.empty() &&
105 "Grow called with trampolines still available");
106
107 auto ResolverAddress = EPCIU.getResolverBlockAddress();
108 assert(ResolverAddress && "Resolver address can not be null");
109
110 auto &EPC = EPCIU.getExecutorProcessControl();
111 auto PageSize = EPC.getPageSize();
112 auto Alloc = SimpleSegmentAlloc::Create(
113 EPC.getMemMgr(), EPC.getSymbolStringPool(), EPC.getTargetTriple(),
114 nullptr, {{MemProt::Read | MemProt::Exec, {PageSize, Align(PageSize)}}});
115 if (!Alloc)
116 return Alloc.takeError();
117
118 unsigned NumTrampolines = TrampolinesPerPage;
119
120 auto SegInfo = Alloc->getSegInfo(MemProt::Read | MemProt::Exec);
121 EPCIU.getABISupport().writeTrampolines(
122 SegInfo.WorkingMem.data(), SegInfo.Addr, ResolverAddress, NumTrampolines);
123 for (unsigned I = 0; I < NumTrampolines; ++I)
124 AvailableTrampolines.push_back(SegInfo.Addr + (I * TrampolineSize));
125
126 auto FA = Alloc->finalize();
127 if (!FA)
128 return FA.takeError();
129
130 TrampolineBlocks.push_back(std::move(*FA));
131
132 return Error::success();
133}
134
135Error EPCIndirectStubsManager::createStub(StringRef StubName,
136 ExecutorAddr StubAddr,
137 JITSymbolFlags StubFlags) {
138 StubInitsMap SIM;
139 SIM[StubName] = std::make_pair(StubAddr, StubFlags);
140 return createStubs(SIM);
141}
142
143Error EPCIndirectStubsManager::createStubs(const StubInitsMap &StubInits) {
144 auto AvailableStubInfos = getIndirectStubs(EPCIU, StubInits.size());
145 if (!AvailableStubInfos)
146 return AvailableStubInfos.takeError();
147
148 {
149 std::lock_guard<std::mutex> Lock(ISMMutex);
150 unsigned ASIdx = 0;
151 for (auto &SI : StubInits) {
152 auto &A = (*AvailableStubInfos)[ASIdx++];
153 StubInfos[SI.first()] = std::make_pair(A, SI.second.second);
154 }
155 }
156
157 auto &MemAccess = EPCIU.getExecutorProcessControl().getMemoryAccess();
158 switch (EPCIU.getABISupport().getPointerSize()) {
159 case 4: {
160 unsigned ASIdx = 0;
161 std::vector<tpctypes::UInt32Write> PtrUpdates;
162 for (auto &SI : StubInits)
163 PtrUpdates.push_back({(*AvailableStubInfos)[ASIdx++].PointerAddress,
164 static_cast<uint32_t>(SI.second.first.getValue())});
165 return MemAccess.writeUInt32s(PtrUpdates);
166 }
167 case 8: {
168 unsigned ASIdx = 0;
169 std::vector<tpctypes::UInt64Write> PtrUpdates;
170 for (auto &SI : StubInits)
171 PtrUpdates.push_back({(*AvailableStubInfos)[ASIdx++].PointerAddress,
172 SI.second.first.getValue()});
173 return MemAccess.writeUInt64s(PtrUpdates);
174 }
175 default:
176 return make_error<StringError>("Unsupported pointer size",
177 inconvertibleErrorCode());
178 }
179}
180
181ExecutorSymbolDef EPCIndirectStubsManager::findStub(StringRef Name,
182 bool ExportedStubsOnly) {
183 std::lock_guard<std::mutex> Lock(ISMMutex);
184 auto I = StubInfos.find(Name);
185 if (I == StubInfos.end())
186 return ExecutorSymbolDef();
187 return {I->second.first.StubAddress, I->second.second};
188}
189
190ExecutorSymbolDef EPCIndirectStubsManager::findPointer(StringRef Name) {
191 std::lock_guard<std::mutex> Lock(ISMMutex);
192 auto I = StubInfos.find(Name);
193 if (I == StubInfos.end())
194 return ExecutorSymbolDef();
195 return {I->second.first.PointerAddress, I->second.second};
196}
197
198Error EPCIndirectStubsManager::updatePointer(StringRef Name,
199 ExecutorAddr NewAddr) {
200
201 ExecutorAddr PtrAddr;
202 {
203 std::lock_guard<std::mutex> Lock(ISMMutex);
204 auto I = StubInfos.find(Name);
205 if (I == StubInfos.end())
206 return make_error<StringError>("Unknown stub name",
207 inconvertibleErrorCode());
208 PtrAddr = I->second.first.PointerAddress;
209 }
210
211 auto &MemAccess = EPCIU.getExecutorProcessControl().getMemoryAccess();
212 switch (EPCIU.getABISupport().getPointerSize()) {
213 case 4: {
214 tpctypes::UInt32Write PUpdate(PtrAddr, NewAddr.getValue());
215 return MemAccess.writeUInt32s(PUpdate);
216 }
217 case 8: {
218 tpctypes::UInt64Write PUpdate(PtrAddr, NewAddr.getValue());
219 return MemAccess.writeUInt64s(PUpdate);
220 }
221 default:
222 return make_error<StringError>("Unsupported pointer size",
223 inconvertibleErrorCode());
224 }
225}
226
227} // end anonymous namespace.
228
229namespace llvm {
230namespace orc {
231
232EPCIndirectionUtils::ABISupport::~ABISupport() = default;
233
234Expected<std::unique_ptr<EPCIndirectionUtils>>
235EPCIndirectionUtils::Create(ExecutorProcessControl &EPC) {
236 const auto &TT = EPC.getTargetTriple();
237 switch (TT.getArch()) {
238 default:
239 return make_error<StringError>(
240 std::string("No EPCIndirectionUtils available for ") + TT.str(),
241 inconvertibleErrorCode());
242 case Triple::aarch64:
243 case Triple::aarch64_32:
244 return CreateWithABI<OrcAArch64>(EPC);
245
246 case Triple::x86:
247 return CreateWithABI<OrcI386>(EPC);
248
249 case Triple::loongarch64:
250 return CreateWithABI<OrcLoongArch64>(EPC);
251
252 case Triple::mips:
253 return CreateWithABI<OrcMips32Be>(EPC);
254
255 case Triple::mipsel:
256 return CreateWithABI<OrcMips32Le>(EPC);
257
258 case Triple::mips64:
259 case Triple::mips64el:
260 return CreateWithABI<OrcMips64>(EPC);
261
262 case Triple::riscv64:
263 return CreateWithABI<OrcRiscv64>(EPC);
264
265 case Triple::x86_64:
266 if (TT.getOS() == Triple::OSType::Win32)
267 return CreateWithABI<OrcX86_64_Win32>(EPC);
268 else
269 return CreateWithABI<OrcX86_64_SysV>(EPC);
270 }
271}
272
273Error EPCIndirectionUtils::cleanup() {
274
275 auto &MemMgr = EPC.getMemMgr();
276 auto Err = MemMgr.deallocate(std::move(IndirectStubAllocs));
277
278 if (TP)
279 Err = joinErrors(std::move(Err),
280 static_cast<EPCTrampolinePool &>(*TP).deallocatePool());
281
282 if (ResolverBlock)
283 Err =
284 joinErrors(std::move(Err), MemMgr.deallocate(std::move(ResolverBlock)));
285
286 return Err;
287}
288
289Expected<ExecutorAddr>
290EPCIndirectionUtils::writeResolverBlock(ExecutorAddr ReentryFnAddr,
291 ExecutorAddr ReentryCtxAddr) {
292 using namespace jitlink;
293
294 assert(ABI && "ABI can not be null");
295 auto ResolverSize = ABI->getResolverCodeSize();
296
297 auto Alloc =
298 SimpleSegmentAlloc::Create(EPC.getMemMgr(), EPC.getSymbolStringPool(),
299 EPC.getTargetTriple(), nullptr,
300 {{MemProt::Read | MemProt::Exec,
301 {ResolverSize, Align(EPC.getPageSize())}}});
302
303 if (!Alloc)
304 return Alloc.takeError();
305
306 auto SegInfo = Alloc->getSegInfo(MemProt::Read | MemProt::Exec);
307 ResolverBlockAddr = SegInfo.Addr;
308 ABI->writeResolverCode(SegInfo.WorkingMem.data(), ResolverBlockAddr,
309 ReentryFnAddr, ReentryCtxAddr);
310
311 auto FA = Alloc->finalize();
312 if (!FA)
313 return FA.takeError();
314
315 ResolverBlock = std::move(*FA);
316 return ResolverBlockAddr;
317}
318
319std::unique_ptr<IndirectStubsManager>
320EPCIndirectionUtils::createIndirectStubsManager() {
321 return std::make_unique<EPCIndirectStubsManager>(*this);
322}
323
324TrampolinePool &EPCIndirectionUtils::getTrampolinePool() {
325 if (!TP)
326 TP = std::make_unique<EPCTrampolinePool>(*this);
327 return *TP;
328}
329
330LazyCallThroughManager &EPCIndirectionUtils::createLazyCallThroughManager(
331 ExecutionSession &ES, ExecutorAddr ErrorHandlerAddr) {
332 assert(!LCTM &&
333 "createLazyCallThroughManager can not have been called before");
334 LCTM = std::make_unique<LazyCallThroughManager>(ES, ErrorHandlerAddr,
335 &getTrampolinePool());
336 return *LCTM;
337}
338
339EPCIndirectionUtils::EPCIndirectionUtils(ExecutorProcessControl &EPC,
340 std::unique_ptr<ABISupport> ABI)
341 : EPC(EPC), ABI(std::move(ABI)) {
342 assert(this->ABI && "ABI can not be null");
343
344 assert(EPC.getPageSize() > getABISupport().getStubSize() &&
345 "Stubs larger than one page are not supported");
346}
347
348Expected<EPCIndirectionUtils::IndirectStubInfoVector>
349EPCIndirectionUtils::getIndirectStubs(unsigned NumStubs) {
350 using namespace jitlink;
351
352 std::lock_guard<std::mutex> Lock(EPCUIMutex);
353
354 // If there aren't enough stubs available then allocate some more.
355 if (NumStubs > AvailableIndirectStubs.size()) {
356 auto NumStubsToAllocate = NumStubs;
357 auto PageSize = EPC.getPageSize();
358 auto StubBytes = alignTo(NumStubsToAllocate * ABI->getStubSize(), PageSize);
359 NumStubsToAllocate = StubBytes / ABI->getStubSize();
360 auto PtrBytes =
361 alignTo(NumStubsToAllocate * ABI->getPointerSize(), PageSize);
362
363 auto StubProt = MemProt::Read | MemProt::Exec;
364 auto PtrProt = MemProt::Read | MemProt::Write;
365
366 auto Alloc = SimpleSegmentAlloc::Create(
367 EPC.getMemMgr(), EPC.getSymbolStringPool(), EPC.getTargetTriple(),
368 nullptr,
369 {{StubProt, {static_cast<size_t>(StubBytes), Align(PageSize)}},
370 {PtrProt, {static_cast<size_t>(PtrBytes), Align(PageSize)}}});
371
372 if (!Alloc)
373 return Alloc.takeError();
374
375 auto StubSeg = Alloc->getSegInfo(StubProt);
376 auto PtrSeg = Alloc->getSegInfo(PtrProt);
377
378 ABI->writeIndirectStubsBlock(StubSeg.WorkingMem.data(), StubSeg.Addr,
379 PtrSeg.Addr, NumStubsToAllocate);
380
381 auto FA = Alloc->finalize();
382 if (!FA)
383 return FA.takeError();
384
385 IndirectStubAllocs.push_back(std::move(*FA));
386
387 auto StubExecutorAddr = StubSeg.Addr;
388 auto PtrExecutorAddr = PtrSeg.Addr;
389 for (unsigned I = 0; I != NumStubsToAllocate; ++I) {
390 AvailableIndirectStubs.push_back(
391 IndirectStubInfo(StubExecutorAddr, PtrExecutorAddr));
392 StubExecutorAddr += ABI->getStubSize();
393 PtrExecutorAddr += ABI->getPointerSize();
394 }
395 }
396
397 assert(NumStubs <= AvailableIndirectStubs.size() &&
398 "Sufficient stubs should have been allocated above");
399
400 IndirectStubInfoVector Result;
401 while (NumStubs--) {
402 Result.push_back(AvailableIndirectStubs.back());
403 AvailableIndirectStubs.pop_back();
404 }
405
406 return std::move(Result);
407}
408
409static JITTargetAddress reentry(JITTargetAddress LCTMAddr,
410 JITTargetAddress TrampolineAddr) {
411 auto &LCTM = *jitTargetAddressToPointer<LazyCallThroughManager *>(LCTMAddr);
412 std::promise<ExecutorAddr> LandingAddrP;
413 auto LandingAddrF = LandingAddrP.get_future();
414 LCTM.resolveTrampolineLandingAddress(
415 ExecutorAddr(TrampolineAddr),
416 [&](ExecutorAddr Addr) { LandingAddrP.set_value(Addr); });
417 return LandingAddrF.get().getValue();
418}
419
420Error setUpInProcessLCTMReentryViaEPCIU(EPCIndirectionUtils &EPCIU) {
421 auto &LCTM = EPCIU.getLazyCallThroughManager();
422 return EPCIU
423 .writeResolverBlock(ExecutorAddr::fromPtr(&reentry),
424 ExecutorAddr::fromPtr(&LCTM))
425 .takeError();
426}
427
428} // end namespace orc
429} // end namespace llvm
assert
assert(UImm &&(UImm !=~static_cast< T >(0)) &&"Invalid immediate!")
A
static GCRegistry::Add< ErlangGC > A("erlang", "erlang-compatible garbage collector")
PageSize
static cl::opt< int > PageSize("imp-null-check-page-size", cl::desc("The page size of the target in bytes"), cl::init(4096), cl::Hidden)
I
#define I(x, y, z)
Definition MD5.cpp:58
llvm::Error
Lightweight error class with error context and mandatory checking.
Definition Error.h:159
llvm::Error::success
static ErrorSuccess success()
Create a success value.
Definition Error.h:336
llvm::Expected
Tagged union holding either a T or a Error.
Definition Error.h:485
llvm::Triple::loongarch64
@ loongarch64
Definition Triple.h:65
llvm::orc::EPCIndirectionUtilsAccess::IndirectStubInfo
EPCIndirectionUtils::IndirectStubInfo IndirectStubInfo
Definition EPCIndirectionUtils.cpp:24
llvm::orc::EPCIndirectionUtilsAccess::getIndirectStubs
static Expected< IndirectStubInfoVector > getIndirectStubs(EPCIndirectionUtils &EPCIU, unsigned NumStubs)
Definition EPCIndirectionUtils.cpp:28
llvm::orc::EPCIndirectionUtilsAccess::IndirectStubInfoVector
EPCIndirectionUtils::IndirectStubInfoVector IndirectStubInfoVector
Definition EPCIndirectionUtils.cpp:25
llvm::orc::EPCIndirectionUtils::ABISupport::writeTrampolines
virtual void writeTrampolines(char *TrampolineBlockWorkingMem, ExecutorAddr TrampolineBlockTragetAddr, ExecutorAddr ResolverAddr, unsigned NumTrampolines) const =0
llvm::orc::EPCIndirectionUtils
Provides ExecutorProcessControl based indirect stubs, trampoline pool and lazy call through manager.
Definition EPCIndirectionUtils.h:31
llvm::orc::EPCIndirectionUtils::createIndirectStubsManager
LLVM_ABI std::unique_ptr< IndirectStubsManager > createIndirectStubsManager()
Create an IndirectStubsManager for the executor process.
Definition EPCIndirectionUtils.cpp:320
llvm::orc::EPCIndirectionUtils::writeResolverBlock
LLVM_ABI Expected< ExecutorAddr > writeResolverBlock(ExecutorAddr ReentryFnAddr, ExecutorAddr ReentryCtxAddr)
Write resolver code to the executor process and return its address.
Definition EPCIndirectionUtils.cpp:290
llvm::orc::EPCIndirectionUtils::getLazyCallThroughManager
LazyCallThroughManager & getLazyCallThroughManager()
Create a LazyCallThroughManager for the executor process.
Definition EPCIndirectionUtils.h:127
llvm::orc::EPCIndirectionUtils::CreateWithABI
static std::unique_ptr< EPCIndirectionUtils > CreateWithABI(ExecutorProcessControl &EPC)
Create using the given ABI class.
Definition EPCIndirectionUtils.h:217
llvm::orc::EPCIndirectionUtils::getExecutorProcessControl
ExecutorProcessControl & getExecutorProcessControl() const
Return a reference to the ExecutorProcessControl object.
Definition EPCIndirectionUtils.h:95
llvm::orc::EPCIndirectionUtils::createLazyCallThroughManager
LLVM_ABI LazyCallThroughManager & createLazyCallThroughManager(ExecutionSession &ES, ExecutorAddr ErrorHandlerAddr)
Create a LazyCallThroughManager.
Definition EPCIndirectionUtils.cpp:330
llvm::orc::EPCIndirectionUtils::cleanup
LLVM_ABI Error cleanup()
Release memory for resources held by this instance.
Definition EPCIndirectionUtils.cpp:273
llvm::orc::EPCIndirectionUtils::getTrampolinePool
LLVM_ABI TrampolinePool & getTrampolinePool()
Create a TrampolinePool for the executor process.
Definition EPCIndirectionUtils.cpp:324
llvm::orc::EPCIndirectionUtils::Create
static LLVM_ABI Expected< std::unique_ptr< EPCIndirectionUtils > > Create(ExecutorProcessControl &EPC)
Create based on the ExecutorProcessControl triple.
Definition EPCIndirectionUtils.cpp:235
llvm::orc::EPCIndirectionUtils::getABISupport
ABISupport & getABISupport() const
Return a reference to the ABISupport object for this instance.
Definition EPCIndirectionUtils.h:98
llvm::orc::EPCIndirectionUtils::getResolverBlockAddress
ExecutorAddr getResolverBlockAddress() const
Returns the address of the Resolver block.
Definition EPCIndirectionUtils.h:112
llvm::orc::ExecutionSession
An ExecutionSession represents a running JIT program.
Definition Core.h:1355
llvm::orc::ExecutorAddr
Represents an address in the executor process.
Definition ExecutorAddress.h:34
llvm::orc::ExecutorAddr::getValue
uint64_t getValue() const
Definition ExecutorAddress.h:136
llvm::orc::ExecutorAddr::fromPtr
static ExecutorAddr fromPtr(T *Ptr, UnwrapFn &&Unwrap=UnwrapFn())
Create an ExecutorAddr from the given pointer.
Definition ExecutorAddress.h:111
llvm::orc::ExecutorProcessControl
ExecutorProcessControl supports interaction with a JIT target process.
Definition ExecutorProcessControl.h:38
llvm::orc::ExecutorProcessControl::getMemMgr
jitlink::JITLinkMemoryManager & getMemMgr() const
Return a JITLinkMemoryManager for the target process.
Definition ExecutorProcessControl.h:144
llvm::orc::ExecutorProcessControl::getTargetTriple
const Triple & getTargetTriple() const
Return the Triple for the target process.
Definition ExecutorProcessControl.h:129
llvm::orc::ExecutorProcessControl::getSymbolStringPool
std::shared_ptr< SymbolStringPool > getSymbolStringPool() const
Return a shared pointer to the SymbolStringPool for this instance.
Definition ExecutorProcessControl.h:124
llvm::orc::ExecutorProcessControl::getPageSize
unsigned getPageSize() const
Get the page size for the target process.
Definition ExecutorProcessControl.h:132
llvm::orc::ExecutorProcessControl::getMemoryAccess
MemoryAccess & getMemoryAccess() const
Return a MemoryAccess object for the target process.
Definition ExecutorProcessControl.h:138
llvm::orc::ExecutorSymbolDef
Represents a defining location for a JIT symbol.
Definition ExecutorSymbolDef.h:24
llvm::orc::IndirectStubsManager
Base class for managing collections of named indirect stubs.
Definition IndirectionUtils.h:283
llvm::orc::LazyCallThroughManager
Manages a set of 'lazy call-through' trampolines.
Definition LazyReexports.h:40
llvm::orc::TrampolinePool
Base class for pools of compiler re-entry trampolines.
Definition IndirectionUtils.h:65
llvm::orc::tpctypes::UInt64Write
UIntWrite< uint64_t > UInt64Write
Describes a write to a uint64_t.
Definition TargetProcessControlTypes.h:90
llvm::orc::tpctypes::UInt32Write
UIntWrite< uint32_t > UInt32Write
Describes a write to a uint32_t.
Definition TargetProcessControlTypes.h:87
llvm::orc::setUpInProcessLCTMReentryViaEPCIU
LLVM_ABI Error setUpInProcessLCTMReentryViaEPCIU(EPCIndirectionUtils &EPCIU)
This will call writeResolver on the given EPCIndirectionUtils instance to set up re-entry via a funct...
Definition EPCIndirectionUtils.cpp:420
llvm::orc::reentry
static JITTargetAddress reentry(JITTargetAddress LCTMAddr, JITTargetAddress TrampolineAddr)
Definition EPCIndirectionUtils.cpp:409
llvm
This is an optimization pass for GlobalISel generic memory operations.
Definition AddressRanges.h:18
llvm::inconvertibleErrorCode
LLVM_ABI std::error_code inconvertibleErrorCode()
The value returned by this function can be returned from convertToErrorCode for Error values where no...
Definition Error.cpp:98
llvm::jitTargetAddressToPointer
T jitTargetAddressToPointer(JITTargetAddress Addr)
Convert a JITTargetAddress to a pointer.
Definition JITSymbol.h:51
llvm::joinErrors
Error joinErrors(Error E1, Error E2)
Concatenate errors.
Definition Error.h:442
llvm::JITTargetAddress
uint64_t JITTargetAddress
Represents an address in the target process's address space.
Definition JITSymbol.h:43
llvm::make_error
Error make_error(ArgTs &&... Args)
Make a Error instance representing failure using the given error info type.
Definition Error.h:340
llvm::alignTo
uint64_t alignTo(uint64_t Size, Align A)
Returns a multiple of A needed to store Size bytes.
Definition Alignment.h:155
llvm::move
OutputIt move(R &&Range, OutputIt Out)
Provide wrappers to std::move which take ranges instead of having to pass begin/end explicitly.
Definition STLExtras.h:1869
std
Implement std::hash so that hash_code can be used in STL containers.
Definition BitVector.h:851
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