DependencyTracker.h source code [llvm/lib/DWARFLinker/Parallel/DependencyTracker.h]

1	//===- "DependencyTracker.h" ------------------------------------- C++ --===//
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	#ifndef LLVM_LIB_DWARFLINKER_PARALLEL_DEPENDENCYTRACKER_H
10	#define LLVM_LIB_DWARFLINKER_PARALLEL_DEPENDENCYTRACKER_H
11
12	#include "DWARFLinkerCompileUnit.h"
13	#include "llvm/ADT/PointerIntPair.h"
14	#include "llvm/ADT/SmallVector.h"
15
16	namespace llvm {
17	class DWARFDebugInfoEntry;
18	class DWARFDie;
19
20	namespace dwarf_linker {
21	namespace parallel {
22
23	/// This class discovers DIEs dependencies: marks "live" DIEs, marks DIE
24	/// locations (whether DIE should be cloned as regular DIE or it should be put
25	/// into the artificial type unit).
26	class DependencyTracker {
27	public:
28	DependencyTracker(CompileUnit &CU) : CU(CU) {}
29
30	/// Recursively walk the \p DIE tree and look for DIEs to keep. Store that
31	/// information in \p CU's DIEInfo.
32	///
33	/// This function is the entry point of the DIE selection algorithm. It is
34	/// expected to walk the DIE tree and(through the mediation of
35	/// Context.File.Addresses) ask for relocation adjustment value on each
36	/// DIE that might be a 'root DIE'(f.e. subprograms, variables).
37	///
38	/// Returns true if all dependencies are correctly discovered. Inter-CU
39	/// dependencies cannot be discovered if referenced CU is not analyzed yet.
40	/// If that is the case this method returns false.
41	bool resolveDependenciesAndMarkLiveness(
42	bool InterCUProcessingStarted,
43	std::atomic<bool> &HasNewInterconnectedCUs);
44
45	/// Check if dependencies have incompatible placement.
46	/// If that is the case modify placement to be compatible.
47	/// \returns true if any placement was updated, otherwise returns false.
48	/// This method should be called as a followup processing after
49	/// resolveDependenciesAndMarkLiveness().
50	bool updateDependenciesCompleteness();
51
52	/// Recursively walk the \p DIE tree and check "keepness" and "placement"
53	/// information. It is an error if parent node does not have "keep" flag,
54	/// while child has one. It is an error if parent node has "TypeTable"
55	/// placement while child has "PlainDwarf" placement. This function dump error
56	/// at stderr in that case.
57	void verifyKeepChain();
58
59	protected:
60	enum class LiveRootWorklistActionTy : uint8_t {
61	/// Mark current item as live entry.
62	MarkSingleLiveEntry = `0`,
63
64	/// Mark current item as type entry.
65	MarkSingleTypeEntry,
66
67	/// Mark current item and all its children as live entry.
68	MarkLiveEntryRec,
69
70	/// Mark current item and all its children as type entry.
71	MarkTypeEntryRec,
72
73	/// Mark all children of current item as live entry.
74	MarkLiveChildrenRec,
75
76	/// Mark all children of current item as type entry.
77	MarkTypeChildrenRec,
78	};
79
80	/// \returns true if the specified action is for the "PlainDwarf".
81	bool isLiveAction(LiveRootWorklistActionTy Action) {
82	switch (Action) {
83	default:
84	return false;
85
86	case LiveRootWorklistActionTy::MarkSingleLiveEntry:
87	case LiveRootWorklistActionTy::MarkLiveEntryRec:
88	case LiveRootWorklistActionTy::MarkLiveChildrenRec:
89	return true;
90	}
91	}
92
93	/// \returns true if the specified action is for the "TypeTable".
94	bool isTypeAction(LiveRootWorklistActionTy Action) {
95	switch (Action) {
96	default:
97	return false;
98
99	case LiveRootWorklistActionTy::MarkSingleTypeEntry:
100	case LiveRootWorklistActionTy::MarkTypeEntryRec:
101	case LiveRootWorklistActionTy::MarkTypeChildrenRec:
102	return true;
103	}
104	}
105
106	/// \returns true if the specified action affects only Root entry
107	/// itself and does not affect it`s children.
108	bool isSingleAction(LiveRootWorklistActionTy Action) {
109	switch (Action) {
110	default:
111	return false;
112
113	case LiveRootWorklistActionTy::MarkSingleLiveEntry:
114	case LiveRootWorklistActionTy::MarkSingleTypeEntry:
115	return true;
116	}
117	}
118
119	/// \returns true if the specified action affects only Root entry
120	/// itself and does not affect it`s children.
121	bool isChildrenAction(LiveRootWorklistActionTy Action) {
122	switch (Action) {
123	default:
124	return false;
125
126	case LiveRootWorklistActionTy::MarkLiveChildrenRec:
127	case LiveRootWorklistActionTy::MarkTypeChildrenRec:
128	return true;
129	}
130	}
131
132	/// Class keeping live worklist item data.
133	class LiveRootWorklistItemTy {
134	public:
135	LiveRootWorklistItemTy() = default;
136	LiveRootWorklistItemTy(const LiveRootWorklistItemTy &) = default;
137	LiveRootWorklistItemTy(LiveRootWorklistActionTy Action,
138	UnitEntryPairTy RootEntry) {
139	RootCU.setInt(Action);
140	RootCU.setPointer(RootEntry.CU);
141
142	RootDieEntry = RootEntry.DieEntry;
143	}
144	LiveRootWorklistItemTy(LiveRootWorklistActionTy Action,
145	UnitEntryPairTy RootEntry,
146	UnitEntryPairTy ReferencedBy) {
147	RootCU.setPointer(RootEntry.CU);
148	RootCU.setInt(Action);
149	RootDieEntry = RootEntry.DieEntry;
150
151	ReferencedByCU = ReferencedBy.CU;
152	ReferencedByDieEntry = ReferencedBy.DieEntry;
153	}
154
155	UnitEntryPairTy getRootEntry() const {
156	return UnitEntryPairTy {RootCU.getPointer(), RootDieEntry};
157	}
158
159	CompileUnit::DieOutputPlacement getPlacement() const {
160	return static_cast<CompileUnit::DieOutputPlacement>(RootCU.getInt());
161	}
162
163	bool hasReferencedByOtherEntry() const { return ReferencedByCU != nullptr; }
164
165	UnitEntryPairTy getReferencedByEntry() const {
166	assert(ReferencedByCU);
167	assert(ReferencedByDieEntry);
168	return UnitEntryPairTy {ReferencedByCU, ReferencedByDieEntry};
169	}
170
171	LiveRootWorklistActionTy getAction() const {
172	return static_cast<LiveRootWorklistActionTy>(RootCU.getInt());
173	}
174
175	protected:
176	/// Root entry.
177	/// ASSUMPTION: 3 bits are used to store LiveRootWorklistActionTy value.
178	/// Thus LiveRootWorklistActionTy should have no more eight elements.
179
180	/// Pointer traits for CompileUnit.
181	struct CompileUnitPointerTraits {
182	static inline void getAsVoidPointer(CompileUnit P) { return P; }
183	static inline CompileUnit getFromVoidPointer(void* *P) {
184	return (CompileUnit *)P;
185	}
186	static constexpr int NumLowBitsAvailable = `3`;
187	static_assert(
188	alignof(CompileUnit) >= (`1` << NumLowBitsAvailable),
189	"CompileUnit insufficiently aligned to have enough low bits.");
190	};
191
192	PointerIntPair<CompileUnit *, `3`, LiveRootWorklistActionTy,
193	CompileUnitPointerTraits>
194	RootCU;
195	const DWARFDebugInfoEntry RootDieEntry = nullptr*;
196
197	/// Another root entry which references this RootDieEntry.
198	/// ReferencedByDieEntry is kept to update placement.
199	/// if RootDieEntry has placement incompatible with placement
200	/// of ReferencedByDieEntry then it should be updated.
201	CompileUnit ReferencedByCU = nullptr*;
202	const DWARFDebugInfoEntry ReferencedByDieEntry = nullptr*;
203	};
204
205	using RootEntriesListTy = SmallVector<LiveRootWorklistItemTy>;
206
207	/// This function navigates DIEs tree starting from specified \p Entry.
208	/// It puts found 'root DIE' into the worklist. The \p CollectLiveEntries
209	/// instructs to collect either live roots(like subprograms having live
210	/// DW_AT_low_pc) or otherwise roots which is not live(they need to be
211	/// collected if they are imported f.e. by DW_TAG_imported_module).
212	void collectRootsToKeep(const UnitEntryPairTy &Entry,
213	std::optional<UnitEntryPairTy> ReferencedBy,
214	bool IsLiveParent);
215
216	/// Returns true if specified variable references live code section.
217	static bool isLiveVariableEntry(const UnitEntryPairTy &Entry,
218	bool IsLiveParent);
219
220	/// Returns true if specified subprogram references live code section.
221	static bool isLiveSubprogramEntry(const UnitEntryPairTy &Entry);
222
223	/// Examine worklist and mark all 'root DIE's as kept and set "Placement"
224	/// property.
225	bool markCollectedLiveRootsAsKept(bool InterCUProcessingStarted,
226	std::atomic<bool> &HasNewInterconnectedCUs);
227
228	/// Mark whole DIE tree as kept recursively.
229	bool markDIEEntryAsKeptRec(LiveRootWorklistActionTy Action,
230	const UnitEntryPairTy &RootEntry,
231	const UnitEntryPairTy &Entry,
232	bool InterCUProcessingStarted,
233	std::atomic<bool> &HasNewInterconnectedCUs);
234
235	/// Mark parents as keeping children.
236	void markParentsAsKeepingChildren(const UnitEntryPairTy &Entry);
237
238	/// Mark whole DIE tree as placed in "PlainDwarf".
239	void setPlainDwarfPlacementRec(const UnitEntryPairTy &Entry);
240
241	/// Check referenced DIEs and add them into the worklist.
242	bool maybeAddReferencedRoots(LiveRootWorklistActionTy Action,
243	const UnitEntryPairTy &RootEntry,
244	const UnitEntryPairTy &Entry,
245	bool InterCUProcessingStarted,
246	std::atomic<bool> &HasNewInterconnectedCUs);
247
248	/// \returns true if \p DIEEntry can possibly be put into the artificial type
249	/// unit.
250	bool isTypeTableCandidate(const DWARFDebugInfoEntry *DIEEntry);
251
252	/// \returns root for the specified \p Entry.
253	UnitEntryPairTy getRootForSpecifiedEntry(UnitEntryPairTy Entry);
254
255	/// Add action item to the work list.
256	void
257	addActionToRootEntriesWorkList(LiveRootWorklistActionTy Action,
258	const UnitEntryPairTy &Entry,
259	std::optional<UnitEntryPairTy> ReferencedBy);
260
261	CompileUnit &CU;
262
263	/// List of entries which are 'root DIE's.
264	RootEntriesListTy RootEntriesWorkList;
265
266	/// List of entries dependencies.
267	RootEntriesListTy Dependencies;
268	};
269
270	} // end of namespace parallel
271	} // end of namespace dwarf_linker
272	} // end of namespace llvm
273
274	#endif // LLVM_LIB_DWARFLINKER_PARALLEL_DEPENDENCYTRACKER_H
275

source code of llvm/lib/DWARFLinker/Parallel/DependencyTracker.h