xref: /freebsd/contrib/llvm-project/clang/lib/CodeGen/EHScopeStack.h (revision a18b956b73cee784e5c422d20fd0e4dabebd7eee)
1 //===-- EHScopeStack.h - Stack for cleanup IR generation --------*- 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 // These classes should be the minimum interface required for other parts of
10 // CodeGen to emit cleanups.  The implementation is in CGCleanup.cpp and other
11 // implemenentation details that are not widely needed are in CGCleanup.h.
12 //
13 //===----------------------------------------------------------------------===//
14 
15 #ifndef LLVM_CLANG_LIB_CODEGEN_EHSCOPESTACK_H
16 #define LLVM_CLANG_LIB_CODEGEN_EHSCOPESTACK_H
17 
18 #include "clang/Basic/LLVM.h"
19 #include "llvm/ADT/STLExtras.h"
20 #include "llvm/ADT/SmallVector.h"
21 #include "llvm/IR/BasicBlock.h"
22 #include "llvm/IR/Instructions.h"
23 #include "llvm/IR/Value.h"
24 
25 namespace clang {
26 namespace CodeGen {
27 
28 class CodeGenFunction;
29 
30 /// A branch fixup.  These are required when emitting a goto to a
31 /// label which hasn't been emitted yet.  The goto is optimistically
32 /// emitted as a branch to the basic block for the label, and (if it
33 /// occurs in a scope with non-trivial cleanups) a fixup is added to
34 /// the innermost cleanup.  When a (normal) cleanup is popped, any
35 /// unresolved fixups in that scope are threaded through the cleanup.
36 struct BranchFixup {
37   /// The block containing the terminator which needs to be modified
38   /// into a switch if this fixup is resolved into the current scope.
39   /// If null, LatestBranch points directly to the destination.
40   llvm::BasicBlock *OptimisticBranchBlock;
41 
42   /// The ultimate destination of the branch.
43   ///
44   /// This can be set to null to indicate that this fixup was
45   /// successfully resolved.
46   llvm::BasicBlock *Destination;
47 
48   /// The destination index value.
49   unsigned DestinationIndex;
50 
51   /// The initial branch of the fixup.
52   llvm::BranchInst *InitialBranch;
53 };
54 
55 template <class T> struct InvariantValue {
56   typedef T type;
57   typedef T saved_type;
58   static bool needsSaving(type value) { return false; }
59   static saved_type save(CodeGenFunction &CGF, type value) { return value; }
60   static type restore(CodeGenFunction &CGF, saved_type value) { return value; }
61 };
62 
63 /// A metaprogramming class for ensuring that a value will dominate an
64 /// arbitrary position in a function.
65 template <class T> struct DominatingValue : InvariantValue<T> {};
66 
67 template <class T, bool mightBeInstruction =
68             std::is_base_of<llvm::Value, T>::value &&
69             !std::is_base_of<llvm::Constant, T>::value &&
70             !std::is_base_of<llvm::BasicBlock, T>::value>
71 struct DominatingPointer;
72 template <class T> struct DominatingPointer<T,false> : InvariantValue<T*> {};
73 // template <class T> struct DominatingPointer<T,true> at end of file
74 
75 template <class T> struct DominatingValue<T*> : DominatingPointer<T> {};
76 
77 enum CleanupKind : unsigned {
78   /// Denotes a cleanup that should run when a scope is exited using exceptional
79   /// control flow (a throw statement leading to stack unwinding, ).
80   EHCleanup = 0x1,
81 
82   /// Denotes a cleanup that should run when a scope is exited using normal
83   /// control flow (falling off the end of the scope, return, goto, ...).
84   NormalCleanup = 0x2,
85 
86   NormalAndEHCleanup = EHCleanup | NormalCleanup,
87 
88   LifetimeMarker = 0x8,
89   NormalEHLifetimeMarker = LifetimeMarker | NormalAndEHCleanup,
90 };
91 
92 /// A stack of scopes which respond to exceptions, including cleanups
93 /// and catch blocks.
94 class EHScopeStack {
95 public:
96   /* Should switch to alignof(uint64_t) instead of 8, when EHCleanupScope can */
97   enum { ScopeStackAlignment = 8 };
98 
99   /// A saved depth on the scope stack.  This is necessary because
100   /// pushing scopes onto the stack invalidates iterators.
101   class stable_iterator {
102     friend class EHScopeStack;
103 
104     /// Offset from StartOfData to EndOfBuffer.
105     ptrdiff_t Size;
106 
107     stable_iterator(ptrdiff_t Size) : Size(Size) {}
108 
109   public:
110     static stable_iterator invalid() { return stable_iterator(-1); }
111     stable_iterator() : Size(-1) {}
112 
113     bool isValid() const { return Size >= 0; }
114 
115     /// Returns true if this scope encloses I.
116     /// Returns false if I is invalid.
117     /// This scope must be valid.
118     bool encloses(stable_iterator I) const { return Size <= I.Size; }
119 
120     /// Returns true if this scope strictly encloses I: that is,
121     /// if it encloses I and is not I.
122     /// Returns false is I is invalid.
123     /// This scope must be valid.
124     bool strictlyEncloses(stable_iterator I) const { return Size < I.Size; }
125 
126     friend bool operator==(stable_iterator A, stable_iterator B) {
127       return A.Size == B.Size;
128     }
129     friend bool operator!=(stable_iterator A, stable_iterator B) {
130       return A.Size != B.Size;
131     }
132   };
133 
134   /// Information for lazily generating a cleanup.  Subclasses must be
135   /// POD-like: cleanups will not be destructed, and they will be
136   /// allocated on the cleanup stack and freely copied and moved
137   /// around.
138   ///
139   /// Cleanup implementations should generally be declared in an
140   /// anonymous namespace.
141   class Cleanup {
142     // Anchor the construction vtable.
143     virtual void anchor();
144 
145   protected:
146     ~Cleanup() = default;
147 
148   public:
149     Cleanup(const Cleanup &) = default;
150     Cleanup(Cleanup &&) {}
151     Cleanup() = default;
152 
153     virtual bool isRedundantBeforeReturn() { return false; }
154 
155     /// Generation flags.
156     class Flags {
157       enum {
158         F_IsForEH = 0x1,
159         F_IsNormalCleanupKind = 0x2,
160         F_IsEHCleanupKind = 0x4,
161         F_HasExitSwitch = 0x8,
162       };
163       unsigned flags;
164 
165     public:
166       Flags() : flags(0) {}
167 
168       /// isForEH - true if the current emission is for an EH cleanup.
169       bool isForEHCleanup() const { return flags & F_IsForEH; }
170       bool isForNormalCleanup() const { return !isForEHCleanup(); }
171       void setIsForEHCleanup() { flags |= F_IsForEH; }
172 
173       bool isNormalCleanupKind() const { return flags & F_IsNormalCleanupKind; }
174       void setIsNormalCleanupKind() { flags |= F_IsNormalCleanupKind; }
175 
176       /// isEHCleanupKind - true if the cleanup was pushed as an EH
177       /// cleanup.
178       bool isEHCleanupKind() const { return flags & F_IsEHCleanupKind; }
179       void setIsEHCleanupKind() { flags |= F_IsEHCleanupKind; }
180 
181       bool hasExitSwitch() const { return flags & F_HasExitSwitch; }
182       void setHasExitSwitch() { flags |= F_HasExitSwitch; }
183     };
184 
185     /// Emit the cleanup.  For normal cleanups, this is run in the
186     /// same EH context as when the cleanup was pushed, i.e. the
187     /// immediately-enclosing context of the cleanup scope.  For
188     /// EH cleanups, this is run in a terminate context.
189     ///
190     // \param flags cleanup kind.
191     virtual void Emit(CodeGenFunction &CGF, Flags flags) = 0;
192   };
193 
194   /// ConditionalCleanup stores the saved form of its parameters,
195   /// then restores them and performs the cleanup.
196   template <class T, class... As>
197   class ConditionalCleanup final : public Cleanup {
198     typedef std::tuple<typename DominatingValue<As>::saved_type...> SavedTuple;
199     SavedTuple Saved;
200 
201     template <std::size_t... Is>
202     T restore(CodeGenFunction &CGF, std::index_sequence<Is...>) {
203       // It's important that the restores are emitted in order. The braced init
204       // list guarantees that.
205       return T{DominatingValue<As>::restore(CGF, std::get<Is>(Saved))...};
206     }
207 
208     void Emit(CodeGenFunction &CGF, Flags flags) override {
209       restore(CGF, std::index_sequence_for<As...>()).Emit(CGF, flags);
210     }
211 
212   public:
213     ConditionalCleanup(typename DominatingValue<As>::saved_type... A)
214         : Saved(A...) {}
215 
216     ConditionalCleanup(SavedTuple Tuple) : Saved(std::move(Tuple)) {}
217   };
218 
219 private:
220   // The implementation for this class is in CGException.h and
221   // CGException.cpp; the definition is here because it's used as a
222   // member of CodeGenFunction.
223 
224   /// The start of the scope-stack buffer, i.e. the allocated pointer
225   /// for the buffer.  All of these pointers are either simultaneously
226   /// null or simultaneously valid.
227   char *StartOfBuffer;
228 
229   /// The end of the buffer.
230   char *EndOfBuffer;
231 
232   /// The first valid entry in the buffer.
233   char *StartOfData;
234 
235   /// The innermost normal cleanup on the stack.
236   stable_iterator InnermostNormalCleanup;
237 
238   /// The innermost EH scope on the stack.
239   stable_iterator InnermostEHScope;
240 
241   /// The CGF this Stack belong to
242   CodeGenFunction* CGF;
243 
244   /// The current set of branch fixups.  A branch fixup is a jump to
245   /// an as-yet unemitted label, i.e. a label for which we don't yet
246   /// know the EH stack depth.  Whenever we pop a cleanup, we have
247   /// to thread all the current branch fixups through it.
248   ///
249   /// Fixups are recorded as the Use of the respective branch or
250   /// switch statement.  The use points to the final destination.
251   /// When popping out of a cleanup, these uses are threaded through
252   /// the cleanup and adjusted to point to the new cleanup.
253   ///
254   /// Note that branches are allowed to jump into protected scopes
255   /// in certain situations;  e.g. the following code is legal:
256   ///     struct A { ~A(); }; // trivial ctor, non-trivial dtor
257   ///     goto foo;
258   ///     A a;
259   ///    foo:
260   ///     bar();
261   SmallVector<BranchFixup, 8> BranchFixups;
262 
263   char *allocate(size_t Size);
264   void deallocate(size_t Size);
265 
266   void *pushCleanup(CleanupKind K, size_t DataSize);
267 
268 public:
269   EHScopeStack()
270     : StartOfBuffer(nullptr), EndOfBuffer(nullptr), StartOfData(nullptr),
271       InnermostNormalCleanup(stable_end()), InnermostEHScope(stable_end()),
272       CGF(nullptr) {}
273   ~EHScopeStack() { delete[] StartOfBuffer; }
274 
275   /// Push a lazily-created cleanup on the stack.
276   template <class T, class... As> void pushCleanup(CleanupKind Kind, As... A) {
277     static_assert(alignof(T) <= ScopeStackAlignment,
278                   "Cleanup's alignment is too large.");
279     void *Buffer = pushCleanup(Kind, sizeof(T));
280     Cleanup *Obj = new (Buffer) T(A...);
281     (void) Obj;
282   }
283 
284   /// Push a lazily-created cleanup on the stack. Tuple version.
285   template <class T, class... As>
286   void pushCleanupTuple(CleanupKind Kind, std::tuple<As...> A) {
287     static_assert(alignof(T) <= ScopeStackAlignment,
288                   "Cleanup's alignment is too large.");
289     void *Buffer = pushCleanup(Kind, sizeof(T));
290     Cleanup *Obj = new (Buffer) T(std::move(A));
291     (void) Obj;
292   }
293 
294   // Feel free to add more variants of the following:
295 
296   /// Push a cleanup with non-constant storage requirements on the
297   /// stack.  The cleanup type must provide an additional static method:
298   ///   static size_t getExtraSize(size_t);
299   /// The argument to this method will be the value N, which will also
300   /// be passed as the first argument to the constructor.
301   ///
302   /// The data stored in the extra storage must obey the same
303   /// restrictions as normal cleanup member data.
304   ///
305   /// The pointer returned from this method is valid until the cleanup
306   /// stack is modified.
307   template <class T, class... As>
308   T *pushCleanupWithExtra(CleanupKind Kind, size_t N, As... A) {
309     static_assert(alignof(T) <= ScopeStackAlignment,
310                   "Cleanup's alignment is too large.");
311     void *Buffer = pushCleanup(Kind, sizeof(T) + T::getExtraSize(N));
312     return new (Buffer) T(N, A...);
313   }
314 
315   void pushCopyOfCleanup(CleanupKind Kind, const void *Cleanup, size_t Size) {
316     void *Buffer = pushCleanup(Kind, Size);
317     std::memcpy(Buffer, Cleanup, Size);
318   }
319 
320   void setCGF(CodeGenFunction *inCGF) { CGF = inCGF; }
321 
322   /// Pops a cleanup scope off the stack.  This is private to CGCleanup.cpp.
323   void popCleanup();
324 
325   /// Push a set of catch handlers on the stack.  The catch is
326   /// uninitialized and will need to have the given number of handlers
327   /// set on it.
328   class EHCatchScope *pushCatch(unsigned NumHandlers);
329 
330   /// Pops a catch scope off the stack.  This is private to CGException.cpp.
331   void popCatch();
332 
333   /// Push an exceptions filter on the stack.
334   class EHFilterScope *pushFilter(unsigned NumFilters);
335 
336   /// Pops an exceptions filter off the stack.
337   void popFilter();
338 
339   /// Push a terminate handler on the stack.
340   void pushTerminate();
341 
342   /// Pops a terminate handler off the stack.
343   void popTerminate();
344 
345   // Returns true iff the current scope is either empty or contains only
346   // lifetime markers, i.e. no real cleanup code
347   bool containsOnlyLifetimeMarkers(stable_iterator Old) const;
348 
349   /// Determines whether the exception-scopes stack is empty.
350   bool empty() const { return StartOfData == EndOfBuffer; }
351 
352   bool requiresLandingPad() const;
353 
354   /// Determines whether there are any normal cleanups on the stack.
355   bool hasNormalCleanups() const {
356     return InnermostNormalCleanup != stable_end();
357   }
358 
359   /// Returns the innermost normal cleanup on the stack, or
360   /// stable_end() if there are no normal cleanups.
361   stable_iterator getInnermostNormalCleanup() const {
362     return InnermostNormalCleanup;
363   }
364   stable_iterator getInnermostActiveNormalCleanup() const;
365 
366   stable_iterator getInnermostEHScope() const {
367     return InnermostEHScope;
368   }
369 
370 
371   /// An unstable reference to a scope-stack depth.  Invalidated by
372   /// pushes but not pops.
373   class iterator;
374 
375   /// Returns an iterator pointing to the innermost EH scope.
376   iterator begin() const;
377 
378   /// Returns an iterator pointing to the outermost EH scope.
379   iterator end() const;
380 
381   /// Create a stable reference to the top of the EH stack.  The
382   /// returned reference is valid until that scope is popped off the
383   /// stack.
384   stable_iterator stable_begin() const {
385     return stable_iterator(EndOfBuffer - StartOfData);
386   }
387 
388   /// Create a stable reference to the bottom of the EH stack.
389   static stable_iterator stable_end() {
390     return stable_iterator(0);
391   }
392 
393   /// Translates an iterator into a stable_iterator.
394   stable_iterator stabilize(iterator it) const;
395 
396   /// Turn a stable reference to a scope depth into a unstable pointer
397   /// to the EH stack.
398   iterator find(stable_iterator save) const;
399 
400   /// Add a branch fixup to the current cleanup scope.
401   BranchFixup &addBranchFixup() {
402     assert(hasNormalCleanups() && "adding fixup in scope without cleanups");
403     BranchFixups.push_back(BranchFixup());
404     return BranchFixups.back();
405   }
406 
407   unsigned getNumBranchFixups() const { return BranchFixups.size(); }
408   BranchFixup &getBranchFixup(unsigned I) {
409     assert(I < getNumBranchFixups());
410     return BranchFixups[I];
411   }
412 
413   /// Pops lazily-removed fixups from the end of the list.  This
414   /// should only be called by procedures which have just popped a
415   /// cleanup or resolved one or more fixups.
416   void popNullFixups();
417 
418   /// Clears the branch-fixups list.  This should only be called by
419   /// ResolveAllBranchFixups.
420   void clearFixups() { BranchFixups.clear(); }
421 };
422 
423 } // namespace CodeGen
424 } // namespace clang
425 
426 #endif
427