EPCGenericRTDyldMemoryManager.cpp source code [llvm/lib/ExecutionEngine/Orc/EPCGenericRTDyldMemoryManager.cpp]

1	//===----- EPCGenericRTDyldMemoryManager.cpp - EPC-bbasde MemMgr -----===//
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/EPCGenericRTDyldMemoryManager.h"
10	#include "llvm/ExecutionEngine/Orc/EPCGenericMemoryAccess.h"
11	#include "llvm/ExecutionEngine/Orc/Shared/OrcRTBridge.h"
12	#include "llvm/Support/Alignment.h"
13	#include "llvm/Support/FormatVariadic.h"
14
15	#define DEBUG_TYPE "orc"
16
17	using namespace llvm::orc::shared;
18
19	namespace llvm {
20	namespace orc {
21
22	Expected<std::unique_ptr<EPCGenericRTDyldMemoryManager>>
23	EPCGenericRTDyldMemoryManager::CreateWithDefaultBootstrapSymbols(
24	ExecutorProcessControl &EPC) {
25	SymbolAddrs SAs;
26	if (auto Err = EPC.getBootstrapSymbols(
27	Pairs: {{SAs.Instance, rt::SimpleExecutorMemoryManagerInstanceName},
28	{SAs.Reserve, rt::SimpleExecutorMemoryManagerReserveWrapperName},
29	{SAs.Finalize, rt::SimpleExecutorMemoryManagerFinalizeWrapperName},
30	{SAs.Deallocate,
31	rt::SimpleExecutorMemoryManagerDeallocateWrapperName},
32	{SAs.RegisterEHFrame, rt::RegisterEHFrameSectionWrapperName},
33	{SAs.DeregisterEHFrame, rt::DeregisterEHFrameSectionWrapperName}}))
34	return std::move(Err);
35	return std::make_unique<EPCGenericRTDyldMemoryManager>(args&: EPC, args: std::move(SAs));
36	}
37
38	EPCGenericRTDyldMemoryManager::EPCGenericRTDyldMemoryManager(
39	ExecutorProcessControl &EPC, SymbolAddrs SAs)
40	: EPC(EPC), SAs (std::move(SAs)) {
41	LLVM_DEBUG(dbgs() << "Created remote allocator " << (void )this* << "\n");
42	}
43
44	EPCGenericRTDyldMemoryManager::~EPCGenericRTDyldMemoryManager() {
45	LLVM_DEBUG(dbgs() << "Destroyed remote allocator " << (void )this* << "\n");
46	if (!ErrMsg.empty())
47	errs() << "Destroying with existing errors:\n" << ErrMsg << "\n";
48
49	Error Err = Error::success();
50	if (auto Err2 = EPC.callSPSWrapper<
51	rt::SPSSimpleExecutorMemoryManagerDeallocateSignature>(
52	WrapperFnAddr: SAs.Reserve, WrapperCallArgs&: Err, WrapperCallArgs&: SAs.Instance, WrapperCallArgs&: FinalizedAllocs)) {
53	// FIXME: Report errors through EPC once that functionality is available.
54	logAllUnhandledErrors(E: std::move(Err2), OS&: errs(), ErrorBanner: "");
55	return;
56	}
57
58	if (Err)
59	logAllUnhandledErrors(E: std::move(Err), OS&: errs(), ErrorBanner: "");
60	}
61
62	uint8_t *EPCGenericRTDyldMemoryManager::allocateCodeSection(
63	uintptr_t Size, unsigned Alignment, unsigned SectionID,
64	StringRef SectionName) {
65	std::lock_guard<std::mutex> Lock(M);
66	LLVM_DEBUG({
67	dbgs() << "Allocator " << (void )this* << " allocating code section "
68	<< SectionName << ": size = " << formatv("{0:x}", Size)
69	<< " bytes, alignment = " << Alignment << "\n";
70	});
71	auto &Seg = Unmapped.back().CodeAllocs;
72	Seg.emplace_back(args&: Size, args&: Alignment);
73	return reinterpret_cast<uint8_t *>(
74	alignAddr(Addr: Seg.back().Contents.get(), Alignment: Align (Alignment)));
75	}
76
77	uint8_t *EPCGenericRTDyldMemoryManager::allocateDataSection(
78	uintptr_t Size, unsigned Alignment, unsigned SectionID,
79	StringRef SectionName, bool IsReadOnly) {
80	std::lock_guard<std::mutex> Lock(M);
81	LLVM_DEBUG({
82	dbgs() << "Allocator " << (void )this* << " allocating "
83	<< (IsReadOnly ? "ro" : "rw") << "-data section " << SectionName
84	<< ": size = " << formatv("{0:x}", Size) << " bytes, alignment "
85	<< Alignment << ")\n";
86	});
87
88	auto &Seg =
89	IsReadOnly ? Unmapped.back().RODataAllocs : Unmapped.back().RWDataAllocs;
90
91	Seg.emplace_back(args&: Size, args&: Alignment);
92	return reinterpret_cast<uint8_t *>(
93	alignAddr(Addr: Seg.back().Contents.get(), Alignment: Align (Alignment)));
94	}
95
96	void EPCGenericRTDyldMemoryManager::reserveAllocationSpace(
97	uintptr_t CodeSize, Align CodeAlign, uintptr_t RODataSize,
98	Align RODataAlign, uintptr_t RWDataSize, Align RWDataAlign) {
99
100	{
101	std::lock_guard<std::mutex> Lock(M);
102	// If there's already an error then bail out.
103	if (!ErrMsg.empty())
104	return;
105
106	if (CodeAlign > EPC.getPageSize()) {
107	ErrMsg = "Invalid code alignment in reserveAllocationSpace";
108	return;
109	}
110	if (RODataAlign > EPC.getPageSize()) {
111	ErrMsg = "Invalid ro-data alignment in reserveAllocationSpace";
112	return;
113	}
114	if (RWDataAlign > EPC.getPageSize()) {
115	ErrMsg = "Invalid rw-data alignment in reserveAllocationSpace";
116	return;
117	}
118	}
119
120	uint64_t TotalSize = `0`;
121	TotalSize += alignTo(Value: CodeSize, Align: EPC.getPageSize());
122	TotalSize += alignTo(Value: RODataSize, Align: EPC.getPageSize());
123	TotalSize += alignTo(Value: RWDataSize, Align: EPC.getPageSize());
124
125	LLVM_DEBUG({
126	dbgs() << "Allocator " << (void )this* << " reserving "
127	<< formatv("{0:x}", TotalSize) << " bytes.\n";
128	});
129
130	Expected<ExecutorAddr> TargetAllocAddr((ExecutorAddr ()));
131	if (auto Err = EPC.callSPSWrapper<
132	rt::SPSSimpleExecutorMemoryManagerReserveSignature>(
133	WrapperFnAddr: SAs.Reserve, WrapperCallArgs&: TargetAllocAddr, WrapperCallArgs&: SAs.Instance, WrapperCallArgs&: TotalSize)) {
134	std::lock_guard<std::mutex> Lock(M);
135	ErrMsg = toString(E: std::move(Err));
136	return;
137	}
138	if (!TargetAllocAddr) {
139	std::lock_guard<std::mutex> Lock(M);
140	ErrMsg = toString(E: TargetAllocAddr.takeError());
141	return;
142	}
143
144	std::lock_guard<std::mutex> Lock(M);
145	Unmapped.push_back(x: SectionAllocGroup ());
146	Unmapped.back().RemoteCode = {
147	*TargetAllocAddr, ExecutorAddrDiff(alignTo(Value: CodeSize, Align: EPC.getPageSize()))};
148	Unmapped.back().RemoteROData = {
149	Unmapped.back().RemoteCode.End,
150	ExecutorAddrDiff(alignTo(Value: RODataSize, Align: EPC.getPageSize()))};
151	Unmapped.back().RemoteRWData = {
152	Unmapped.back().RemoteROData.End,
153	ExecutorAddrDiff(alignTo(Value: RWDataSize, Align: EPC.getPageSize()))};
154	}
155
156	bool EPCGenericRTDyldMemoryManager::needsToReserveAllocationSpace() {
157	return true;
158	}
159
160	void EPCGenericRTDyldMemoryManager::registerEHFrames(uint8_t *Addr,
161	uint64_t LoadAddr,
162	size_t Size) {
163	LLVM_DEBUG({
164	dbgs() << "Allocator " << (void )this* << " added unfinalized eh-frame "
165	<< formatv("[ {0:x} {1:x} ]", LoadAddr, LoadAddr + Size) << "\n";
166	});
167	std::lock_guard<std::mutex> Lock(M);
168	// Bail out early if there's already an error.
169	if (!ErrMsg.empty())
170	return;
171
172	ExecutorAddr LA(LoadAddr);
173	for (auto &SecAllocGroup : llvm::reverse(C&: Unfinalized)) {
174	if (SecAllocGroup.RemoteCode.contains(Addr: LA) \|\|
175	SecAllocGroup.RemoteROData.contains(Addr: LA) \|\|
176	SecAllocGroup.RemoteRWData.contains(Addr: LA)) {
177	SecAllocGroup.UnfinalizedEHFrames.push_back(x: {LA, Size});
178	return;
179	}
180	}
181	ErrMsg = "eh-frame does not lie inside unfinalized alloc";
182	}
183
184	void EPCGenericRTDyldMemoryManager::deregisterEHFrames() {
185	// This is a no-op for us: We've registered a deallocation action for it.
186	}
187
188	void EPCGenericRTDyldMemoryManager::notifyObjectLoaded(
189	RuntimeDyld &Dyld, const object::ObjectFile &Obj) {
190	std::lock_guard<std::mutex> Lock(M);
191	LLVM_DEBUG(dbgs() << "Allocator " << (void )this* << " applied mappings:\n");
192	for (auto &ObjAllocs : Unmapped) {
193	mapAllocsToRemoteAddrs(Dyld, SecAllocs&: ObjAllocs.CodeAllocs,
194	NextAddr: ObjAllocs.RemoteCode.Start);
195	mapAllocsToRemoteAddrs(Dyld, SecAllocs&: ObjAllocs.RODataAllocs,
196	NextAddr: ObjAllocs.RemoteROData.Start);
197	mapAllocsToRemoteAddrs(Dyld, SecAllocs&: ObjAllocs.RWDataAllocs,
198	NextAddr: ObjAllocs.RemoteRWData.Start);
199	Unfinalized.push_back(x: std::move(ObjAllocs));
200	}
201	Unmapped.clear();
202	}
203
204	bool EPCGenericRTDyldMemoryManager::finalizeMemory(std::string *ErrMsg) {
205	LLVM_DEBUG(dbgs() << "Allocator " << (void )this* << " finalizing:\n");
206
207	// If there's an error then bail out here.
208	std::vector<SectionAllocGroup> SecAllocGroups;
209	{
210	std::lock_guard<std::mutex> Lock(M);
211	if (ErrMsg && !this->ErrMsg.empty()) {
212	ErrMsg = std::move(this*->ErrMsg);
213	return true;
214	}
215	std::swap(x&: SecAllocGroups, y&: Unfinalized);
216	}
217
218	// Loop over unfinalized objects to make finalization requests.
219	for (auto &SecAllocGroup : SecAllocGroups) {
220
221	MemProt SegMemProts[`3`] = {MemProt::Read \| MemProt::Exec, MemProt::Read,
222	MemProt::Read \| MemProt::Write};
223
224	ExecutorAddrRange *RemoteAddrs[`3`] = {&SecAllocGroup.RemoteCode,
225	&SecAllocGroup.RemoteROData,
226	&SecAllocGroup.RemoteRWData};
227
228	std::vector<SectionAlloc> *SegSections[`3`] = {&SecAllocGroup.CodeAllocs,
229	&SecAllocGroup.RODataAllocs,
230	&SecAllocGroup.RWDataAllocs};
231
232	tpctypes::FinalizeRequest FR;
233	std::unique_ptr<char[]> AggregateContents[`3`];
234
235	for (unsigned I = `0`; I != `3`; ++I) {
236	FR.Segments.push_back(x: {});
237	auto &Seg = FR.Segments.back();
238	Seg.RAG = SegMemProts[I];
239	Seg.Addr = RemoteAddrs[I]->Start;
240	for (auto &SecAlloc : *SegSections[I]) {
241	Seg.Size = alignTo(Value: Seg.Size, Align: SecAlloc.Align);
242	Seg.Size += SecAlloc.Size;
243	}
244	AggregateContents[I] = std::make_unique<char[]>(num: Seg.Size);
245	size_t SecOffset = `0`;
246	for (auto &SecAlloc : *SegSections[I]) {
247	SecOffset = alignTo(Value: SecOffset, Align: SecAlloc.Align);
248	memcpy(dest: &AggregateContents[I][SecOffset],
249	src: reinterpret_cast<const char *>(
250	alignAddr(Addr: SecAlloc.Contents.get(), Alignment: Align (SecAlloc.Align))),
251	n: SecAlloc.Size);
252	SecOffset += SecAlloc.Size;
253	// FIXME: Can we reset SecAlloc.Content here, now that it's copied into
254	// the aggregated content?
255	}
256	Seg.Content = {AggregateContents[I].get(), SecOffset};
257	}
258
259	for (auto &Frame : SecAllocGroup.UnfinalizedEHFrames)
260	FR.Actions.push_back(
261	x: {.Finalize: cantFail(
262	ValOrErr: WrapperFunctionCall::Create<SPSArgList<SPSExecutorAddrRange>>(
263	FnAddr: SAs.RegisterEHFrame, Args: Frame)),
264	.Dealloc: cantFail(
265	ValOrErr: WrapperFunctionCall::Create<SPSArgList<SPSExecutorAddrRange>>(
266	FnAddr: SAs.DeregisterEHFrame, Args: Frame))});
267
268	// We'll also need to make an extra allocation for the eh-frame wrapper call
269	// arguments.
270	Error FinalizeErr = Error::success();
271	if (auto Err = EPC.callSPSWrapper<
272	rt::SPSSimpleExecutorMemoryManagerFinalizeSignature>(
273	WrapperFnAddr: SAs.Finalize, WrapperCallArgs&: FinalizeErr, WrapperCallArgs&: SAs.Instance, WrapperCallArgs: std::move(FR))) {
274	std::lock_guard<std::mutex> Lock(M);
275	this->ErrMsg = toString(E: std::move(Err));
276	dbgs() << "Serialization error: " << this->ErrMsg << "\n";
277	if (ErrMsg)
278	ErrMsg = this*->ErrMsg;
279	return true;
280	}
281	if (FinalizeErr) {
282	std::lock_guard<std::mutex> Lock(M);
283	this->ErrMsg = toString(E: std::move(FinalizeErr));
284	dbgs() << "Finalization error: " << this->ErrMsg << "\n";
285	if (ErrMsg)
286	ErrMsg = this*->ErrMsg;
287	return true;
288	}
289	}
290
291	return false;
292	}
293
294	void EPCGenericRTDyldMemoryManager::mapAllocsToRemoteAddrs(
295	RuntimeDyld &Dyld, std::vector<SectionAlloc> &Allocs,
296	ExecutorAddr NextAddr) {
297	for (auto &Alloc : Allocs) {
298	NextAddr.setValue(alignTo(Value: NextAddr.getValue(), Align: Alloc.Align));
299	LLVM_DEBUG({
300	dbgs() << " " << static_cast<void *>(Alloc.Contents.get()) << " -> "
301	<< format("0x%016" PRIx64, NextAddr.getValue()) << "\n";
302	});
303	Dyld.mapSectionAddress(LocalAddress: reinterpret_cast<const void *>(alignAddr(
304	Addr: Alloc.Contents.get(), Alignment: Align (Alloc.Align))),
305	TargetAddress: NextAddr.getValue());
306	Alloc.RemoteAddr = NextAddr;
307	// Only advance NextAddr if it was non-null to begin with,
308	// otherwise leave it as null.
309	if (NextAddr)
310	NextAddr += ExecutorAddrDiff(Alloc.Size);
311	}
312	}
313
314	} // end namespace orc
315	} // end namespace llvm
316

source code of llvm/lib/ExecutionEngine/Orc/EPCGenericRTDyldMemoryManager.cpp