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

1	//===----- CompileOnDemandLayer.cpp - Lazily emit IR on first call --------===//
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/CompileOnDemandLayer.h"
10	#include "llvm/ADT/Hashing.h"
11	#include "llvm/ExecutionEngine/Orc/ExecutionUtils.h"
12	#include "llvm/IR/Mangler.h"
13	#include "llvm/IR/Module.h"
14	#include "llvm/Support/FormatVariadic.h"
15	#include <string>
16
17	using namespace llvm;
18	using namespace llvm::orc;
19
20	static ThreadSafeModule extractSubModule(ThreadSafeModule &TSM,
21	StringRef Suffix,
22	GVPredicate ShouldExtract) {
23
24	auto DeleteExtractedDefs = [](GlobalValue &GV) {
25	// Bump the linkage: this global will be provided by the external module.
26	GV.setLinkage(GlobalValue::ExternalLinkage);
27
28	// Delete the definition in the source module.
29	if (isa<Function>(Val: GV)) {
30	auto &F = cast<Function>(Val&: GV);
31	F.deleteBody();
32	F.setPersonalityFn(nullptr);
33	} else if (isa<GlobalVariable>(Val: GV)) {
34	cast<GlobalVariable>(Val&: GV).setInitializer(nullptr);
35	} else if (isa<GlobalAlias>(Val: GV)) {
36	// We need to turn deleted aliases into function or variable decls based
37	// on the type of their aliasee.
38	auto &A = cast<GlobalAlias>(Val&: GV);
39	Constant *Aliasee = A.getAliasee();
40	assert(A.hasName() && "Anonymous alias?");
41	assert(Aliasee->hasName() && "Anonymous aliasee");
42	std::string AliasName = std::string (A.getName());
43
44	if (isa<Function>(Val: Aliasee)) {
45	auto F = cloneFunctionDecl(Dst&: A.getParent(), F: *cast<Function>(Val: Aliasee));
46	A.replaceAllUsesWith(V: F);
47	A.eraseFromParent();
48	F->setName(AliasName);
49	} else if (isa<GlobalVariable>(Val: Aliasee)) {
50	auto G = cloneGlobalVariableDecl(Dst&: A.getParent(),
51	GV: *cast<GlobalVariable>(Val: Aliasee));
52	A.replaceAllUsesWith(V: G);
53	A.eraseFromParent();
54	G->setName(AliasName);
55	} else
56	llvm_unreachable("Alias to unsupported type");
57	} else
58	llvm_unreachable("Unsupported global type");
59	};
60
61	auto NewTSM = cloneToNewContext(TSMW: TSM, ShouldCloneDef: ShouldExtract, UpdateClonedDefSource: DeleteExtractedDefs);
62	NewTSM.withModuleDo(F: [&](Module &M) {
63	M.setModuleIdentifier((M.getModuleIdentifier() + Suffix).str());
64	});
65
66	return NewTSM;
67	}
68
69	namespace llvm {
70	namespace orc {
71
72	class PartitioningIRMaterializationUnit : public IRMaterializationUnit {
73	public:
74	PartitioningIRMaterializationUnit(ExecutionSession &ES,
75	const IRSymbolMapper::ManglingOptions &MO,
76	ThreadSafeModule TSM,
77	CompileOnDemandLayer &Parent)
78	: IRMaterializationUnit (ES, MO, std::move(TSM)), Parent(Parent) {}
79
80	PartitioningIRMaterializationUnit(
81	ThreadSafeModule TSM, Interface I,
82	SymbolNameToDefinitionMap SymbolToDefinition,
83	CompileOnDemandLayer &Parent)
84	: IRMaterializationUnit (std::move(TSM), std::move(I),
85	std::move(SymbolToDefinition)),
86	Parent(Parent) {}
87
88	private:
89	void materialize(std::unique_ptr<MaterializationResponsibility> R) override {
90	Parent.emitPartition(R: std::move(R), TSM: std::move(TSM),
91	Defs: std::move(SymbolToDefinition));
92	}
93
94	void discard(const JITDylib &V, const SymbolStringPtr &Name) override {
95	// All original symbols were materialized by the CODLayer and should be
96	// final. The function bodies provided by M should never be overridden.
97	llvm_unreachable("Discard should never be called on an "
98	"ExtractingIRMaterializationUnit");
99	}
100
101	mutable std::mutex SourceModuleMutex;
102	CompileOnDemandLayer &Parent;
103	};
104
105	std::optional<CompileOnDemandLayer::GlobalValueSet>
106	CompileOnDemandLayer::compileRequested(GlobalValueSet Requested) {
107	return std::move(Requested);
108	}
109
110	std::optional<CompileOnDemandLayer::GlobalValueSet>
111	CompileOnDemandLayer::compileWholeModule(GlobalValueSet Requested) {
112	return std::nullopt;
113	}
114
115	CompileOnDemandLayer::CompileOnDemandLayer(
116	ExecutionSession &ES, IRLayer &BaseLayer, LazyCallThroughManager &LCTMgr,
117	IndirectStubsManagerBuilder BuildIndirectStubsManager)
118	: IRLayer (ES, BaseLayer.getManglingOptions()), BaseLayer(BaseLayer),
119	LCTMgr(LCTMgr),
120	BuildIndirectStubsManager (std::move(BuildIndirectStubsManager)) {}
121
122	void CompileOnDemandLayer::setPartitionFunction(PartitionFunction Partition) {
123	this->Partition = std::move(Partition);
124	}
125
126	void CompileOnDemandLayer::setImplMap(ImplSymbolMap *Imp) {
127	this->AliaseeImpls = Imp;
128	}
129	void CompileOnDemandLayer::emit(
130	std::unique_ptr<MaterializationResponsibility> R, ThreadSafeModule TSM) {
131	assert(TSM && "Null module");
132
133	auto &ES = getExecutionSession();
134
135	// Sort the callables and non-callables, build re-exports and lodge the
136	// actual module with the implementation dylib.
137	auto &PDR = getPerDylibResources(TargetD&: R ->getTargetJITDylib());
138
139	SymbolAliasMap NonCallables;
140	SymbolAliasMap Callables;
141	TSM.withModuleDo(F: [&](Module &M) {
142	// First, do some cleanup on the module:
143	cleanUpModule(M);
144	});
145
146	for (auto &KV : R ->getSymbols()) {
147	auto &Name = KV.first;
148	auto &Flags = KV.second;
149	if (Flags.isCallable())
150	Callables [Name] = SymbolAliasMapEntry (Name, Flags);
151	else
152	NonCallables [Name] = SymbolAliasMapEntry (Name, Flags);
153	}
154
155	// Create a partitioning materialization unit and lodge it with the
156	// implementation dylib.
157	if (auto Err = PDR.getImplDylib().define(
158	MU: std::make_unique<PartitioningIRMaterializationUnit>(
159	args&: ES, args: getManglingOptions(), args: std::move(TSM), args&: this))) {
160	ES.reportError(Err: std::move(Err));
161	R ->failMaterialization();
162	return;
163	}
164
165	if (!NonCallables.empty())
166	if (auto Err =
167	R ->replace(MU: reexports(SourceJD&: PDR.getImplDylib(), Aliases: std::move(NonCallables),
168	SourceJDLookupFlags: JITDylibLookupFlags::MatchAllSymbols))) {
169	getExecutionSession().reportError(Err: std::move(Err));
170	R ->failMaterialization();
171	return;
172	}
173	if (!Callables.empty()) {
174	if (auto Err = R ->replace(
175	MU: lazyReexports(LCTManager&: LCTMgr, ISManager&: PDR.getISManager(), SourceJD&: PDR.getImplDylib(),
176	CallableAliases: std::move(Callables), SrcJDLoc: AliaseeImpls))) {
177	getExecutionSession().reportError(Err: std::move(Err));
178	R ->failMaterialization();
179	return;
180	}
181	}
182	}
183
184	CompileOnDemandLayer::PerDylibResources &
185	CompileOnDemandLayer::getPerDylibResources(JITDylib &TargetD) {
186	std::lock_guard<std::mutex> Lock(CODLayerMutex);
187
188	auto I = DylibResources.find(x: &TargetD);
189	if (I == DylibResources.end()) {
190	auto &ImplD =
191	getExecutionSession().createBareJITDylib(Name: TargetD.getName() + ".impl");
192	JITDylibSearchOrder NewLinkOrder;
193	TargetD.withLinkOrderDo(F: [&](const JITDylibSearchOrder &TargetLinkOrder) {
194	NewLinkOrder = TargetLinkOrder;
195	});
196
197	assert(!NewLinkOrder.empty() && NewLinkOrder.front().first == &TargetD &&
198	NewLinkOrder.front().second ==
199	JITDylibLookupFlags::MatchAllSymbols &&
200	"TargetD must be at the front of its own search order and match "
201	"non-exported symbol");
202	NewLinkOrder.insert(position: std::next(x: NewLinkOrder.begin()),
203	x: {&ImplD, JITDylibLookupFlags::MatchAllSymbols});
204	ImplD.setLinkOrder(NewSearchOrder: NewLinkOrder, LinkAgainstThisJITDylibFirst: false);
205	TargetD.setLinkOrder(NewSearchOrder: std::move(NewLinkOrder), LinkAgainstThisJITDylibFirst: false);
206
207	PerDylibResources PDR(ImplD, BuildIndirectStubsManager ());
208	I = DylibResources.insert(x: std::make_pair(x: &TargetD, y: std::move(PDR))).first;
209	}
210
211	return I ->second;
212	}
213
214	void CompileOnDemandLayer::cleanUpModule(Module &M) {
215	for (auto &F : M.functions()) {
216	if (F.isDeclaration())
217	continue;
218
219	if (F.hasAvailableExternallyLinkage()) {
220	F.deleteBody();
221	F.setPersonalityFn(nullptr);
222	continue;
223	}
224	}
225	}
226
227	void CompileOnDemandLayer::expandPartition(GlobalValueSet &Partition) {
228	// Expands the partition to ensure the following rules hold:
229	// (1) If any alias is in the partition, its aliasee is also in the partition.
230	// (2) If any aliasee is in the partition, its aliases are also in the
231	// partiton.
232	// (3) If any global variable is in the partition then all global variables
233	// are in the partition.
234	assert(!Partition.empty() && "Unexpected empty partition");
235
236	const Module &M = (Partition.begin())->getParent();
237	bool ContainsGlobalVariables = false;
238	std::vector<const GlobalValue *> GVsToAdd;
239
240	for (const auto *GV : Partition)
241	if (isa<GlobalAlias>(Val: GV))
242	GVsToAdd.push_back(
243	x: cast<GlobalValue>(Val: cast<GlobalAlias>(Val: GV)->getAliasee()));
244	else if (isa<GlobalVariable>(Val: GV))
245	ContainsGlobalVariables = true;
246
247	for (auto &A : M.aliases())
248	if (Partition.count(x: cast<GlobalValue>(Val: A.getAliasee())))
249	GVsToAdd.push_back(x: &A);
250
251	if (ContainsGlobalVariables)
252	for (auto &G : M.globals())
253	GVsToAdd.push_back(x: &G);
254
255	for (const auto *GV : GVsToAdd)
256	Partition.insert(x: GV);
257	}
258
259	void CompileOnDemandLayer::emitPartition(
260	std::unique_ptr<MaterializationResponsibility> R, ThreadSafeModule TSM,
261	IRMaterializationUnit::SymbolNameToDefinitionMap Defs) {
262
263	// FIXME: Need a 'notify lazy-extracting/emitting' callback to tie the
264	// extracted module key, extracted module, and source module key
265	// together. This could be used, for example, to provide a specific
266	// memory manager instance to the linking layer.
267
268	auto &ES = getExecutionSession();
269	GlobalValueSet RequestedGVs;
270	for (auto &Name : R ->getRequestedSymbols()) {
271	if (Name == R ->getInitializerSymbol())
272	TSM.withModuleDo(F: [&](Module &M) {
273	for (auto &GV : getStaticInitGVs(M))
274	RequestedGVs.insert(x: &GV);
275	});
276	else {
277	assert(Defs.count(Name) && "No definition for symbol");
278	RequestedGVs.insert(x: Defs [Name]);
279	}
280	}
281
282	/// Perform partitioning with the context lock held, since the partition
283	/// function is allowed to access the globals to compute the partition.
284	auto GVsToExtract =
285	TSM.withModuleDo(F: [&](Module &M) { return Partition (RequestedGVs); });
286
287	// Take a 'None' partition to mean the whole module (as opposed to an empty
288	// partition, which means "materialize nothing"). Emit the whole module
289	// unmodified to the base layer.
290	if (GVsToExtract == std::nullopt) {
291	Defs.clear();
292	BaseLayer.emit(R: std::move(R), TSM: std::move(TSM));
293	return;
294	}
295
296	// If the partition is empty, return the whole module to the symbol table.
297	if (GVsToExtract ->empty()) {
298	if (auto Err =
299	R ->replace(MU: std::make_unique<PartitioningIRMaterializationUnit>(
300	args: std::move(TSM),
301	args: MaterializationUnit::Interface (R ->getSymbols(),
302	R ->getInitializerSymbol()),
303	args: std::move(Defs), args&: *this))) {
304	getExecutionSession().reportError(Err: std::move(Err));
305	R ->failMaterialization();
306	return;
307	}
308	return;
309	}
310
311	// Ok -- we actually need to partition the symbols. Promote the symbol
312	// linkages/names, expand the partition to include any required symbols
313	// (i.e. symbols that can't be separated from our partition), and
314	// then extract the partition.
315	//
316	// FIXME: We apply this promotion once per partitioning. It's safe, but
317	// overkill.
318	auto ExtractedTSM =
319	TSM.withModuleDo(F: [&](Module &M) -> Expected<ThreadSafeModule> {
320	auto PromotedGlobals = PromoteSymbols (M);
321	if (!PromotedGlobals.empty()) {
322
323	MangleAndInterner Mangle(ES, M.getDataLayout());
324	SymbolFlagsMap SymbolFlags;
325	IRSymbolMapper::add(ES, MO: *getManglingOptions(),
326	GVs: PromotedGlobals, SymbolFlags);
327
328	if (auto Err = R ->defineMaterializing(SymbolFlags))
329	return std::move(Err);
330	}
331
332	expandPartition(Partition&: *GVsToExtract);
333
334	// Submodule name is given by hashing the names of the globals.
335	std::string SubModuleName;
336	{
337	std::vector<const GlobalValue*> HashGVs;
338	HashGVs.reserve(n: GVsToExtract ->size());
339	for (const auto GV : GVsToExtract)
340	HashGVs.push_back(x: GV);
341	llvm::sort(C&: HashGVs, Comp: [](const GlobalValue LHS, const* GlobalValue *RHS) {
342	return LHS->getName() < RHS->getName();
343	});
344	hash_code HC(`0`);
345	for (const auto *GV : HashGVs) {
346	assert(GV->hasName() && "All GVs to extract should be named by now");
347	auto GVName = GV->getName();
348	HC = hash_combine(args: HC, args: hash_combine_range(first: GVName.begin(), last: GVName.end()));
349	}
350	raw_string_ostream (SubModuleName)
351	<< ".submodule."
352	<< formatv(Fmt: sizeof(size_t) == `8` ? "{0:x16}" : "{0:x8}",
353	Vals: static_cast<size_t>(HC))
354	<< ".ll";
355	}
356
357	// Extract the requested partiton (plus any necessary aliases) and
358	// put the rest back into the impl dylib.
359	auto ShouldExtract = [&](const GlobalValue &GV) -> bool {
360	return GVsToExtract ->count(x: &GV);
361	};
362
363	return extractSubModule(TSM, Suffix: SubModuleName , ShouldExtract);
364	});
365
366	if (!ExtractedTSM) {
367	ES.reportError(Err: ExtractedTSM.takeError());
368	R ->failMaterialization();
369	return;
370	}
371
372	if (auto Err = R ->replace(MU: std::make_unique<PartitioningIRMaterializationUnit>(
373	args&: ES, args: getManglingOptions(), args: std::move(TSM), args&: this))) {
374	ES.reportError(Err: std::move(Err));
375	R ->failMaterialization();
376	return;
377	}
378	BaseLayer.emit(R: std::move(R), TSM: std::move(*ExtractedTSM));
379	}
380
381	} // end namespace orc
382	} // end namespace llvm
383

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