/* Poison symbols at compile time. Copyright (C) 2017-2018 Free Software Foundation, Inc. This file is part of GDB. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #ifndef COMMON_POISON_H #define COMMON_POISON_H #include "traits.h" /* Poison memset of non-POD types. The idea is catching invalid initialization of non-POD structs that is easy to be introduced as side effect of refactoring. For example, say this: struct S { VEC(foo_s) *m_data; }; is converted to this at some point: struct S { S() { m_data.reserve (10); } std::vector m_data; }; and old code was initializing S objects like this: struct S s; memset (&s, 0, sizeof (S)); // whoops, now wipes vector. Declaring memset as deleted for non-POD types makes the memset above be a compile-time error. */ /* Helper for SFINAE. True if "T *" is memsettable. I.e., if T is either void, or POD. */ template struct IsMemsettable : gdb::Or, std::is_pod> {}; template >>> void *memset (T *s, int c, size_t n) = delete; #if HAVE_IS_TRIVIALLY_COPYABLE /* Similarly, poison memcpy and memmove of non trivially-copyable types, which is undefined. */ /* True if "T *" is relocatable. I.e., copyable with memcpy/memmove. I.e., T is either trivially copyable, or void. */ template struct IsRelocatable : gdb::Or, std::is_trivially_copyable> {}; /* True if both source and destination are relocatable. */ template using BothAreRelocatable = gdb::And, IsRelocatable>; template >>> void *memcpy (D *dest, const S *src, size_t n) = delete; template >>> void *memmove (D *dest, const S *src, size_t n) = delete; #endif /* HAVE_IS_TRIVIALLY_COPYABLE */ /* Poison XNEW and friends to catch usages of malloc-style allocations on objects that require new/delete. */ template using IsMallocable = std::is_pod; template using IsFreeable = gdb::Or, std::is_void>; template >>> void free (T *ptr) = delete; template static T * xnew () { static_assert (IsMallocable::value, "Trying to use XNEW with a non-POD \ data type. Use operator new instead."); return XNEW (T); } #undef XNEW #define XNEW(T) xnew() template static T * xcnew () { static_assert (IsMallocable::value, "Trying to use XCNEW with a non-POD \ data type. Use operator new instead."); return XCNEW (T); } #undef XCNEW #define XCNEW(T) xcnew() template static void xdelete (T *p) { static_assert (IsFreeable::value, "Trying to use XDELETE with a non-POD \ data type. Use operator delete instead."); XDELETE (p); } #undef XDELETE #define XDELETE(P) xdelete (P) template static T * xnewvec (size_t n) { static_assert (IsMallocable::value, "Trying to use XNEWVEC with a \ non-POD data type. Use operator new[] (or std::vector) instead."); return XNEWVEC (T, n); } #undef XNEWVEC #define XNEWVEC(T, N) xnewvec (N) template static T * xcnewvec (size_t n) { static_assert (IsMallocable::value, "Trying to use XCNEWVEC with a \ non-POD data type. Use operator new[] (or std::vector) instead."); return XCNEWVEC (T, n); } #undef XCNEWVEC #define XCNEWVEC(T, N) xcnewvec (N) template static T * xresizevec (T *p, size_t n) { static_assert (IsMallocable::value, "Trying to use XRESIZEVEC with a \ non-POD data type."); return XRESIZEVEC (T, p, n); } #undef XRESIZEVEC #define XRESIZEVEC(T, P, N) xresizevec (P, N) template static void xdeletevec (T *p) { static_assert (IsFreeable::value, "Trying to use XDELETEVEC with a \ non-POD data type. Use operator delete[] (or std::vector) instead."); XDELETEVEC (p); } #undef XDELETEVEC #define XDELETEVEC(P) xdeletevec (P) template static T * xnewvar (size_t s) { static_assert (IsMallocable::value, "Trying to use XNEWVAR with a \ non-POD data type."); return XNEWVAR (T, s);; } #undef XNEWVAR #define XNEWVAR(T, S) xnewvar (S) template static T * xcnewvar (size_t s) { static_assert (IsMallocable::value, "Trying to use XCNEWVAR with a \ non-POD data type."); return XCNEWVAR (T, s); } #undef XCNEWVAR #define XCNEWVAR(T, S) xcnewvar (S) template static T * xresizevar (T *p, size_t s) { static_assert (IsMallocable::value, "Trying to use XRESIZEVAR with a \ non-POD data type."); return XRESIZEVAR (T, p, s); } #undef XRESIZEVAR #define XRESIZEVAR(T, P, S) xresizevar (P, S) #endif /* COMMON_POISON_H */