/* * Copyright (c) 2015, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code 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 * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ #ifndef SHARE_VM_MEMORY_GUARDED_MEMORY_HPP #define SHARE_VM_MEMORY_GUARDED_MEMORY_HPP #include "memory/allocation.hpp" #include "utilities/globalDefinitions.hpp" /** * Guarded memory for detecting buffer overrun. * * Allows allocations to be wrapped with padded bytes of a known byte pattern, * that is a "guard". Guard patterns may be verified to detect buffer overruns. * * Primarily used by "debug malloc" and "checked JNI". * * Memory layout: * * |Offset | Content | Description | * |------------------------------------------------------------ * |base_addr | 0xABABABABABABABAB | Head guard | * |+16 | | User data size | * |+sizeof(uintptr_t) | | Tag word | * |+sizeof(void*) | 0xF1 ( | User data | * |+user_size | 0xABABABABABABABAB | Tail guard | * ------------------------------------------------------------- * * Where: * - guard padding uses "badResourceValue" (0xAB) * - tag word is general purpose * - user data * -- initially padded with "uninitBlockPad" (0xF1), * -- to "freeBlockPad" (0xBA), when freed * * Usage: * * * Allocations: one may wrap allocations with guard memory: * * Thing* alloc_thing() { * void* mem = user_alloc_fn(GuardedMemory::get_total_size(sizeof(thing))); * GuardedMemory guarded(mem, sizeof(thing)); * return (Thing*) guarded.get_user_ptr(); * } * * * Verify: memory guards are still in tact * * bool verify_thing(Thing* thing) { * GuardedMemory guarded((void*)thing); * return guarded.verify_guards(); * } * * * Free: one may mark bytes as freed (further debugging support) * * void free_thing(Thing* thing) { * GuardedMemory guarded((void*)thing); * assert(guarded.verify_guards(), "Corrupt thing"); * user_free_fn(guards.release_for_freeing(); * } * */ class GuardedMemory : StackObj { // Wrapper on stack // Private inner classes for memory layout... protected: /** * Guard class for header and trailer known pattern to test for overwrites. */ class Guard { // Class for raw memory (no vtbl allowed) friend class GuardedMemory; protected: enum { GUARD_SIZE = 16 }; u_char _guard[GUARD_SIZE]; public: void build() { u_char* c = _guard; // Possibly unaligned if tail guard u_char* end = c + GUARD_SIZE; while (c < end) { *c = badResourceValue; c++; } } bool verify() const { u_char* c = (u_char*) _guard; u_char* end = c + GUARD_SIZE; while (c < end) { if (*c != badResourceValue) { return false; } c++; } return true; } }; // GuardedMemory::Guard /** * Header guard and size */ class GuardHeader : Guard { friend class GuardedMemory; protected: // Take care in modifying fields here, will effect alignment // e.g. x86 ABI 16 byte stack alignment union { uintptr_t __unused_full_word1; size_t _user_size; }; void* _tag; public: void set_user_size(const size_t usz) { _user_size = usz; } size_t get_user_size() const { return _user_size; } void set_tag(const void* tag) { _tag = (void*) tag; } void* get_tag() const { return _tag; } }; // GuardedMemory::GuardHeader // Guarded Memory... protected: u_char* _base_addr; public: /** * Create new guarded memory. * * Wraps, starting at the given "base_ptr" with guards. Use "get_user_ptr()" * to return a pointer suitable for user data. * * @param base_ptr allocation wishing to be wrapped, must be at least "GuardedMemory::get_total_size()" bytes. * @param user_size the size of the user data to be wrapped. * @param tag optional general purpose tag. */ GuardedMemory(void* base_ptr, const size_t user_size, const void* tag = NULL) { wrap_with_guards(base_ptr, user_size, tag); } /** * Wrap existing guarded memory. * * To use this constructor, one must have created guarded memory with * "GuardedMemory(void*, size_t, void*)" (or indirectly via helper, e.g. "wrap_copy()"). * * @param user_p existing wrapped memory. */ GuardedMemory(void* userp) { u_char* user_ptr = (u_char*) userp; assert((uintptr_t)user_ptr > (sizeof(GuardHeader) + 0x1000), "Invalid pointer"); _base_addr = (user_ptr - sizeof(GuardHeader)); } /** * Create new guarded memory. * * Wraps, starting at the given "base_ptr" with guards. Allows reuse of stack allocated helper. * * @param base_ptr allocation wishing to be wrapped, must be at least "GuardedMemory::get_total_size()" bytes. * @param user_size the size of the user data to be wrapped. * @param tag optional general purpose tag. * * @return user data pointer (inner pointer to supplied "base_ptr"). */ void* wrap_with_guards(void* base_ptr, size_t user_size, const void* tag = NULL) { assert(base_ptr != NULL, "Attempt to wrap NULL with memory guard"); _base_addr = (u_char*)base_ptr; get_head_guard()->build(); get_head_guard()->set_user_size(user_size); get_tail_guard()->build(); set_tag(tag); set_user_bytes(uninitBlockPad); assert(verify_guards(), "Expected valid memory guards"); return get_user_ptr(); } /** * Verify head and tail guards. * * @return true if guards are intact, false would indicate a buffer overrun. */ bool verify_guards() const { if (_base_addr != NULL) { return (get_head_guard()->verify() && get_tail_guard()->verify()); } return false; } /** * Set the general purpose tag. * * @param tag general purpose tag. */ void set_tag(const void* tag) { get_head_guard()->set_tag(tag); } /** * Return the general purpose tag. * * @return the general purpose tag, defaults to NULL. */ void* get_tag() const { return get_head_guard()->get_tag(); } /** * Return the size of the user data. * * @return the size of the user data. */ size_t get_user_size() const { assert(_base_addr != NULL, "Not wrapping any memory"); return get_head_guard()->get_user_size(); } /** * Return the user data pointer. * * @return the user data pointer. */ u_char* get_user_ptr() const { assert(_base_addr != NULL, "Not wrapping any memory"); return _base_addr + sizeof(GuardHeader); } /** * Release the wrapped pointer for resource freeing. * * Pads the user data with "freeBlockPad", and dis-associates the helper. * * @return the original base pointer used to wrap the data. */ void* release_for_freeing() { set_user_bytes(freeBlockPad); return release(); } /** * Dis-associate the help from the original base address. * * @return the original base pointer used to wrap the data. */ void* release() { void* p = (void*) _base_addr; _base_addr = NULL; return p; } virtual void print_on(outputStream* st) const; protected: GuardHeader* get_head_guard() const { return (GuardHeader*) _base_addr; } Guard* get_tail_guard() const { return (Guard*) (get_user_ptr() + get_user_size()); }; void set_user_bytes(u_char ch) { memset(get_user_ptr(), ch, get_user_size()); } public: /** * Return the total size required for wrapping the given user size. * * @return the total size required for wrapping the given user size. */ static size_t get_total_size(size_t user_size) { size_t total_size = sizeof(GuardHeader) + user_size + sizeof(Guard); assert(total_size > user_size, "Unexpected wrap-around"); return total_size; } // Helper functions... /** * Wrap a copy of size "len" of "ptr". * * @param ptr the memory to be copied * @param len the length of the copy * @param tag optional general purpose tag (see GuardedMemory::get_tag()) * * @return guarded wrapped memory pointer to the user area, or NULL if OOM. */ static void* wrap_copy(const void* p, const size_t len, const void* tag = NULL); /** * Free wrapped copy. * * Frees memory copied with "wrap_copy()". * * @param p memory returned by "wrap_copy()". * * @return true if guards were verified as intact. false indicates a buffer overrun. */ static bool free_copy(void* p); // Testing... #ifndef PRODUCT static void test_guarded_memory(void); #endif }; // GuardedMemory #endif // SHARE_VM_MEMORY_GUARDED_MEMORY_HPP