/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: set ts=8 sts=4 et sw=4 tw=99: * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef js_Utility_h #define js_Utility_h #include "mozilla/Assertions.h" #include "mozilla/Attributes.h" #include "mozilla/Compiler.h" #include "mozilla/Move.h" #include "mozilla/Scoped.h" #include "mozilla/TemplateLib.h" #include "mozilla/UniquePtr.h" #include #include #ifdef JS_OOM_DO_BACKTRACES #include #include #endif #include "jstypes.h" /* The public JS engine namespace. */ namespace JS {} /* The mozilla-shared reusable template/utility namespace. */ namespace mozilla {} /* The private JS engine namespace. */ namespace js {} /* * Patterns used by SpiderMonkey to overwrite unused memory. If you are * accessing an object with one of these pattern, you probably have a dangling * pointer. */ #define JS_FRESH_NURSERY_PATTERN 0x2F #define JS_SWEPT_NURSERY_PATTERN 0x2B #define JS_ALLOCATED_NURSERY_PATTERN 0x2D #define JS_FRESH_TENURED_PATTERN 0x4F #define JS_MOVED_TENURED_PATTERN 0x49 #define JS_SWEPT_TENURED_PATTERN 0x4B #define JS_ALLOCATED_TENURED_PATTERN 0x4D #define JS_EMPTY_STOREBUFFER_PATTERN 0x1B #define JS_SWEPT_CODE_PATTERN 0x3B #define JS_SWEPT_FRAME_PATTERN 0x5B #define JS_STATIC_ASSERT(cond) static_assert(cond, "JS_STATIC_ASSERT") #define JS_STATIC_ASSERT_IF(cond, expr) MOZ_STATIC_ASSERT_IF(cond, expr, "JS_STATIC_ASSERT_IF") extern MOZ_NORETURN MOZ_COLD JS_PUBLIC_API(void) JS_Assert(const char *s, const char *file, int ln); /* * Custom allocator support for SpiderMonkey */ #if defined JS_USE_CUSTOM_ALLOCATOR # include "jscustomallocator.h" #else # if defined(DEBUG) || defined(JS_OOM_BREAKPOINT) /* * In order to test OOM conditions, when the testing function * oomAfterAllocations COUNT is passed, we fail continuously after the NUM'th * allocation from now. */ extern JS_PUBLIC_DATA(uint32_t) OOM_maxAllocations; /* set in builtin/TestingFunctions.cpp */ extern JS_PUBLIC_DATA(uint32_t) OOM_counter; /* data race, who cares. */ #ifdef JS_OOM_BREAKPOINT static MOZ_NEVER_INLINE void js_failedAllocBreakpoint() { asm(""); } #define JS_OOM_CALL_BP_FUNC() js_failedAllocBreakpoint() #else #define JS_OOM_CALL_BP_FUNC() do {} while(0) #endif # define JS_OOM_POSSIBLY_FAIL() \ do \ { \ if (++OOM_counter > OOM_maxAllocations) { \ JS_OOM_CALL_BP_FUNC();\ return nullptr; \ } \ } while (0) # define JS_OOM_POSSIBLY_FAIL_BOOL() \ do \ { \ if (++OOM_counter > OOM_maxAllocations) { \ JS_OOM_CALL_BP_FUNC();\ return false; \ } \ } while (0) # else # define JS_OOM_POSSIBLY_FAIL() do {} while(0) # define JS_OOM_POSSIBLY_FAIL_BOOL() do {} while(0) # endif /* DEBUG || JS_OOM_BREAKPOINT */ static inline void* js_malloc(size_t bytes) { JS_OOM_POSSIBLY_FAIL(); return malloc(bytes); } static inline void* js_calloc(size_t bytes) { JS_OOM_POSSIBLY_FAIL(); return calloc(bytes, 1); } static inline void* js_calloc(size_t nmemb, size_t size) { JS_OOM_POSSIBLY_FAIL(); return calloc(nmemb, size); } static inline void* js_realloc(void* p, size_t bytes) { JS_OOM_POSSIBLY_FAIL(); return realloc(p, bytes); } static inline void js_free(void* p) { free(p); } static inline char* js_strdup(const char* s) { JS_OOM_POSSIBLY_FAIL(); return strdup(s); } #endif/* JS_USE_CUSTOM_ALLOCATOR */ #include /* * Low-level memory management in SpiderMonkey: * * ** Do not use the standard malloc/free/realloc: SpiderMonkey allows these * to be redefined (via JS_USE_CUSTOM_ALLOCATOR) and Gecko even #define's * these symbols. * * ** Do not use the builtin C++ operator new and delete: these throw on * error and we cannot override them not to. * * Allocation: * * - If the lifetime of the allocation is tied to the lifetime of a GC-thing * (that is, finalizing the GC-thing will free the allocation), call one of * the following functions: * * JSContext::{malloc_,realloc_,calloc_,new_} * JSRuntime::{malloc_,realloc_,calloc_,new_} * * These functions accumulate the number of bytes allocated which is used as * part of the GC-triggering heuristic. * * The difference between the JSContext and JSRuntime versions is that the * cx version reports an out-of-memory error on OOM. (This follows from the * general SpiderMonkey idiom that a JSContext-taking function reports its * own errors.) * * - Otherwise, use js_malloc/js_realloc/js_calloc/js_free/js_new * * Deallocation: * * - Ordinarily, use js_free/js_delete. * * - For deallocations during GC finalization, use one of the following * operations on the FreeOp provided to the finalizer: * * FreeOp::{free_,delete_} * * The advantage of these operations is that the memory is batched and freed * on another thread. */ #define JS_NEW_BODY(allocator, t, parms) \ void *memory = allocator(sizeof(t)); \ return memory ? new(memory) t parms : nullptr; #define JS_MAKE_BODY(newname, T, parms) \ T *ptr = newname parms; \ return mozilla::UniquePtr>(ptr); /* * Given a class which should provide 'new' methods, add * JS_DECLARE_NEW_METHODS (see JSContext for a usage example). This * adds news with up to 12 parameters. Add more versions of new below if * you need more than 12 parameters. * * Note: Do not add a ; at the end of a use of JS_DECLARE_NEW_METHODS, * or the build will break. */ #define JS_DECLARE_NEW_METHODS(NEWNAME, ALLOCATOR, QUALIFIERS)\ template \ QUALIFIERS T *NEWNAME() MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T, ())\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1)))\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1, P2 &&p2) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2)))\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1, P2 &&p2, P3 &&p3) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3)))\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4)))\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5)))\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6)))\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7)))\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7, P8 &&p8) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7),\ mozilla::Forward(p8)))\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7, P8 &&p8, P9 &&p9) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7),\ mozilla::Forward(p8),\ mozilla::Forward(p9)))\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7, P8 &&p8, P9 &&p9, P10 &&p10) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7),\ mozilla::Forward(p8),\ mozilla::Forward(p9),\ mozilla::Forward(p10)))\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7, P8 &&p8, P9 &&p9, P10 &&p10, P11 &&p11) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7),\ mozilla::Forward(p8),\ mozilla::Forward(p9),\ mozilla::Forward(p10),\ mozilla::Forward(p11)))\ }\ \ template \ QUALIFIERS T *NEWNAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7, P8 &&p8, P9 &&p9, P10 &&p10, P11 &&p11, P12 &&p12) MOZ_HEAP_ALLOCATOR {\ JS_NEW_BODY(ALLOCATOR, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7),\ mozilla::Forward(p8),\ mozilla::Forward(p9),\ mozilla::Forward(p10),\ mozilla::Forward(p11),\ mozilla::Forward(p12)))\ }\ /* * Given a class which should provide 'make' methods, add * JS_DECLARE_MAKE_METHODS (see JSContext for a usage example). This method * is functionally the same as JS_DECLARE_NEW_METHODS: it just declares methods * that return mozilla::UniquePtr instances that will singly-manage ownership * of the created object. This adds makes with up to 12 parameters. Add more * versions below if you need more than 12 parameters. * * Note: Do not add a ; at the end of a use of JS_DECLARE_MAKE_METHODS, * or the build will break. */ #define JS_DECLARE_MAKE_METHODS(MAKENAME, NEWNAME, QUALIFIERS)\ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME() MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T, ())\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1)))\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1, P2 &&p2) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2)))\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1, P2 &&p2, P3 &&p3) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3)))\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4)))\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5)))\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6)))\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7)))\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7, P8 &&p8) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7),\ mozilla::Forward(p8)))\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7, P8 &&p8, P9 &&p9) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7),\ mozilla::Forward(p8),\ mozilla::Forward(p9)))\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7, P8 &&p8, P9 &&p9, P10 &&p10) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7),\ mozilla::Forward(p8),\ mozilla::Forward(p9),\ mozilla::Forward(p10)))\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7, P8 &&p8, P9 &&p9, P10 &&p10, P11 &&p11) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7),\ mozilla::Forward(p8),\ mozilla::Forward(p9),\ mozilla::Forward(p10),\ mozilla::Forward(p11)))\ }\ \ template \ QUALIFIERS \ mozilla::UniquePtr> \ MAKENAME(P1 &&p1, P2 &&p2, P3 &&p3, P4 &&p4, P5 &&p5, P6 &&p6, P7 &&p7, P8 &&p8, P9 &&p9, P10 &&p10, P11 &&p11, P12 &&p12) MOZ_HEAP_ALLOCATOR {\ JS_MAKE_BODY(NEWNAME, T,\ (mozilla::Forward(p1),\ mozilla::Forward(p2),\ mozilla::Forward(p3),\ mozilla::Forward(p4),\ mozilla::Forward(p5),\ mozilla::Forward(p6),\ mozilla::Forward(p7),\ mozilla::Forward(p8),\ mozilla::Forward(p9),\ mozilla::Forward(p10),\ mozilla::Forward(p11),\ mozilla::Forward(p12)))\ }\ JS_DECLARE_NEW_METHODS(js_new, js_malloc, static MOZ_ALWAYS_INLINE) template static MOZ_ALWAYS_INLINE void js_delete(T *p) { if (p) { p->~T(); js_free(p); } } template static MOZ_ALWAYS_INLINE void js_delete_poison(T *p) { if (p) { p->~T(); memset(p, 0x3B, sizeof(T)); js_free(p); } } template static MOZ_ALWAYS_INLINE T * js_pod_malloc() { return (T *)js_malloc(sizeof(T)); } template static MOZ_ALWAYS_INLINE T * js_pod_calloc() { return (T *)js_calloc(sizeof(T)); } template static MOZ_ALWAYS_INLINE T * js_pod_malloc(size_t numElems) { if (numElems & mozilla::tl::MulOverflowMask::value) return nullptr; return (T *)js_malloc(numElems * sizeof(T)); } template static MOZ_ALWAYS_INLINE T * js_pod_calloc(size_t numElems) { if (numElems & mozilla::tl::MulOverflowMask::value) return nullptr; return (T *)js_calloc(numElems * sizeof(T)); } template static MOZ_ALWAYS_INLINE T * js_pod_realloc(T *prior, size_t oldSize, size_t newSize) { MOZ_ASSERT(!(oldSize & mozilla::tl::MulOverflowMask::value)); if (newSize & mozilla::tl::MulOverflowMask::value) return nullptr; return (T *)js_realloc(prior, newSize * sizeof(T)); } namespace js { template struct ScopedFreePtrTraits { typedef T* type; static T* empty() { return nullptr; } static void release(T* ptr) { js_free(ptr); } }; SCOPED_TEMPLATE(ScopedJSFreePtr, ScopedFreePtrTraits) template struct ScopedDeletePtrTraits : public ScopedFreePtrTraits { static void release(T *ptr) { js_delete(ptr); } }; SCOPED_TEMPLATE(ScopedJSDeletePtr, ScopedDeletePtrTraits) template struct ScopedReleasePtrTraits : public ScopedFreePtrTraits { static void release(T *ptr) { if (ptr) ptr->release(); } }; SCOPED_TEMPLATE(ScopedReleasePtr, ScopedReleasePtrTraits) } /* namespace js */ namespace JS { template struct DeletePolicy { void operator()(T* ptr) { js_delete(ptr); } }; struct FreePolicy { void operator()(void* ptr) { js_free(ptr); } }; } // namespace JS namespace js { /* Integral types for all hash functions. */ typedef uint32_t HashNumber; const unsigned HashNumberSizeBits = 32; typedef mozilla::UniquePtr UniqueChars; static inline UniqueChars make_string_copy(const char* str) { return UniqueChars(js_strdup(str)); } namespace detail { /* * Given a raw hash code, h, return a number that can be used to select a hash * bucket. * * This function aims to produce as uniform an output distribution as possible, * especially in the most significant (leftmost) bits, even though the input * distribution may be highly nonrandom, given the constraints that this must * be deterministic and quick to compute. * * Since the leftmost bits of the result are best, the hash bucket index is * computed by doing ScrambleHashCode(h) / (2^32/N) or the equivalent * right-shift, not ScrambleHashCode(h) % N or the equivalent bit-mask. * * FIXME: OrderedHashTable uses a bit-mask; see bug 775896. */ inline HashNumber ScrambleHashCode(HashNumber h) { /* * Simply returning h would not cause any hash tables to produce wrong * answers. But it can produce pathologically bad performance: The caller * right-shifts the result, keeping only the highest bits. The high bits of * hash codes are very often completely entropy-free. (So are the lowest * bits.) * * So we use Fibonacci hashing, as described in Knuth, The Art of Computer * Programming, 6.4. This mixes all the bits of the input hash code h. * * The value of goldenRatio is taken from the hex * expansion of the golden ratio, which starts 1.9E3779B9.... * This value is especially good if values with consecutive hash codes * are stored in a hash table; see Knuth for details. */ static const HashNumber goldenRatio = 0x9E3779B9U; return h * goldenRatio; } } /* namespace detail */ } /* namespace js */ namespace JS { /* * Methods for poisoning GC heap pointer words and checking for poisoned words. * These are in this file for use in Value methods and so forth. * * If the moving GC hazard analysis is in use and detects a non-rooted stack * pointer to a GC thing, one byte of that pointer is poisoned to refer to an * invalid location. For both 32 bit and 64 bit systems, the fourth byte of the * pointer is overwritten, to reduce the likelihood of accidentally changing * a live integer value. */ inline void PoisonPtr(void *v) { #if defined(JSGC_ROOT_ANALYSIS) && defined(JS_DEBUG) uint8_t *ptr = (uint8_t *) v + 3; *ptr = JS_FREE_PATTERN; #endif } template inline bool IsPoisonedPtr(T *v) { #if defined(JSGC_ROOT_ANALYSIS) && defined(JS_DEBUG) uint32_t mask = uintptr_t(v) & 0xff000000; return mask == uint32_t(JS_FREE_PATTERN << 24); #else return false; #endif } } /* sixgill annotation defines */ #ifndef HAVE_STATIC_ANNOTATIONS # define HAVE_STATIC_ANNOTATIONS # ifdef XGILL_PLUGIN # define STATIC_PRECONDITION(COND) __attribute__((precondition(#COND))) # define STATIC_PRECONDITION_ASSUME(COND) __attribute__((precondition_assume(#COND))) # define STATIC_POSTCONDITION(COND) __attribute__((postcondition(#COND))) # define STATIC_POSTCONDITION_ASSUME(COND) __attribute__((postcondition_assume(#COND))) # define STATIC_INVARIANT(COND) __attribute__((invariant(#COND))) # define STATIC_INVARIANT_ASSUME(COND) __attribute__((invariant_assume(#COND))) # define STATIC_PASTE2(X,Y) X ## Y # define STATIC_PASTE1(X,Y) STATIC_PASTE2(X,Y) # define STATIC_ASSERT(COND) \ JS_BEGIN_MACRO \ __attribute__((assert_static(#COND), unused)) \ int STATIC_PASTE1(assert_static_, __COUNTER__); \ JS_END_MACRO # define STATIC_ASSUME(COND) \ JS_BEGIN_MACRO \ __attribute__((assume_static(#COND), unused)) \ int STATIC_PASTE1(assume_static_, __COUNTER__); \ JS_END_MACRO # define STATIC_ASSERT_RUNTIME(COND) \ JS_BEGIN_MACRO \ __attribute__((assert_static_runtime(#COND), unused)) \ int STATIC_PASTE1(assert_static_runtime_, __COUNTER__); \ JS_END_MACRO # else /* XGILL_PLUGIN */ # define STATIC_PRECONDITION(COND) /* nothing */ # define STATIC_PRECONDITION_ASSUME(COND) /* nothing */ # define STATIC_POSTCONDITION(COND) /* nothing */ # define STATIC_POSTCONDITION_ASSUME(COND) /* nothing */ # define STATIC_INVARIANT(COND) /* nothing */ # define STATIC_INVARIANT_ASSUME(COND) /* nothing */ # define STATIC_ASSERT(COND) JS_BEGIN_MACRO /* nothing */ JS_END_MACRO # define STATIC_ASSUME(COND) JS_BEGIN_MACRO /* nothing */ JS_END_MACRO # define STATIC_ASSERT_RUNTIME(COND) JS_BEGIN_MACRO /* nothing */ JS_END_MACRO # endif /* XGILL_PLUGIN */ # define STATIC_SKIP_INFERENCE STATIC_INVARIANT(skip_inference()) #endif /* HAVE_STATIC_ANNOTATIONS */ #endif /* js_Utility_h */