/************************************************************************** * * Copyright 2008 VMware, Inc. * All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sub license, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice (including the * next paragraph) shall be included in all copies or substantial portions * of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. * IN NO EVENT SHALL VMWARE AND/OR ITS SUPPLIERS BE LIABLE FOR * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * **************************************************************************/ /** * @file * Memory debugging. * * @author José Fonseca */ #include "pipe/p_config.h" #define DEBUG_MEMORY_IMPLEMENTATION #include "os/os_memory.h" #include "os/os_memory_debug.h" #include "os/os_thread.h" #include "util/u_debug.h" #include "util/u_debug_stack.h" #include "util/u_double_list.h" #define DEBUG_MEMORY_MAGIC 0x6e34090aU #define DEBUG_MEMORY_STACK 0 /* XXX: disabled until we have symbol lookup */ /** * Set to 1 to enable checking of freed blocks of memory. * Basically, don't really deallocate freed memory; keep it in the list * but mark it as freed and do extra checking in debug_memory_check(). * This can detect some cases of use-after-free. But note that since we * never really free anything this will use a lot of memory. */ #define DEBUG_FREED_MEMORY 0 #define DEBUG_FREED_BYTE 0x33 struct debug_memory_header { struct list_head head; unsigned long no; const char *file; unsigned line; const char *function; #if DEBUG_MEMORY_STACK struct debug_stack_frame backtrace[DEBUG_MEMORY_STACK]; #endif size_t size; #if DEBUG_FREED_MEMORY boolean freed; /**< Is this a freed block? */ #endif unsigned magic; unsigned tag; }; struct debug_memory_footer { unsigned magic; }; static struct list_head list = { &list, &list }; pipe_static_mutex(list_mutex); static unsigned long last_no = 0; static INLINE struct debug_memory_header * header_from_data(void *data) { if(data) return (struct debug_memory_header *)((char *)data - sizeof(struct debug_memory_header)); else return NULL; } static INLINE void * data_from_header(struct debug_memory_header *hdr) { if(hdr) return (void *)((char *)hdr + sizeof(struct debug_memory_header)); else return NULL; } static INLINE struct debug_memory_footer * footer_from_header(struct debug_memory_header *hdr) { if(hdr) return (struct debug_memory_footer *)((char *)hdr + sizeof(struct debug_memory_header) + hdr->size); else return NULL; } void * debug_malloc(const char *file, unsigned line, const char *function, size_t size) { struct debug_memory_header *hdr; struct debug_memory_footer *ftr; hdr = os_malloc(sizeof(*hdr) + size + sizeof(*ftr)); if(!hdr) { debug_printf("%s:%u:%s: out of memory when trying to allocate %lu bytes\n", file, line, function, (long unsigned)size); return NULL; } hdr->no = last_no++; hdr->file = file; hdr->line = line; hdr->function = function; hdr->size = size; hdr->magic = DEBUG_MEMORY_MAGIC; hdr->tag = 0; #if DEBUG_FREED_MEMORY hdr->freed = FALSE; #endif #if DEBUG_MEMORY_STACK debug_backtrace_capture(hdr->backtrace, 0, DEBUG_MEMORY_STACK); #endif ftr = footer_from_header(hdr); ftr->magic = DEBUG_MEMORY_MAGIC; pipe_mutex_lock(list_mutex); LIST_ADDTAIL(&hdr->head, &list); pipe_mutex_unlock(list_mutex); return data_from_header(hdr); } void debug_free(const char *file, unsigned line, const char *function, void *ptr) { struct debug_memory_header *hdr; struct debug_memory_footer *ftr; if(!ptr) return; hdr = header_from_data(ptr); if(hdr->magic != DEBUG_MEMORY_MAGIC) { debug_printf("%s:%u:%s: freeing bad or corrupted memory %p\n", file, line, function, ptr); debug_assert(0); return; } ftr = footer_from_header(hdr); if(ftr->magic != DEBUG_MEMORY_MAGIC) { debug_printf("%s:%u:%s: buffer overflow %p\n", hdr->file, hdr->line, hdr->function, ptr); debug_assert(0); } #if DEBUG_FREED_MEMORY /* Check for double-free */ assert(!hdr->freed); /* Mark the block as freed but don't really free it */ hdr->freed = TRUE; /* Save file/line where freed */ hdr->file = file; hdr->line = line; /* set freed memory to special value */ memset(ptr, DEBUG_FREED_BYTE, hdr->size); #else pipe_mutex_lock(list_mutex); LIST_DEL(&hdr->head); pipe_mutex_unlock(list_mutex); hdr->magic = 0; ftr->magic = 0; os_free(hdr); #endif } void * debug_calloc(const char *file, unsigned line, const char *function, size_t count, size_t size ) { void *ptr = debug_malloc( file, line, function, count * size ); if( ptr ) memset( ptr, 0, count * size ); return ptr; } void * debug_realloc(const char *file, unsigned line, const char *function, void *old_ptr, size_t old_size, size_t new_size ) { struct debug_memory_header *old_hdr, *new_hdr; struct debug_memory_footer *old_ftr, *new_ftr; void *new_ptr; if(!old_ptr) return debug_malloc( file, line, function, new_size ); if(!new_size) { debug_free( file, line, function, old_ptr ); return NULL; } old_hdr = header_from_data(old_ptr); if(old_hdr->magic != DEBUG_MEMORY_MAGIC) { debug_printf("%s:%u:%s: reallocating bad or corrupted memory %p\n", file, line, function, old_ptr); debug_assert(0); return NULL; } old_ftr = footer_from_header(old_hdr); if(old_ftr->magic != DEBUG_MEMORY_MAGIC) { debug_printf("%s:%u:%s: buffer overflow %p\n", old_hdr->file, old_hdr->line, old_hdr->function, old_ptr); debug_assert(0); } /* alloc new */ new_hdr = os_malloc(sizeof(*new_hdr) + new_size + sizeof(*new_ftr)); if(!new_hdr) { debug_printf("%s:%u:%s: out of memory when trying to allocate %lu bytes\n", file, line, function, (long unsigned)new_size); return NULL; } new_hdr->no = old_hdr->no; new_hdr->file = old_hdr->file; new_hdr->line = old_hdr->line; new_hdr->function = old_hdr->function; new_hdr->size = new_size; new_hdr->magic = DEBUG_MEMORY_MAGIC; new_hdr->tag = 0; #if DEBUG_FREED_MEMORY new_hdr->freed = FALSE; #endif new_ftr = footer_from_header(new_hdr); new_ftr->magic = DEBUG_MEMORY_MAGIC; pipe_mutex_lock(list_mutex); LIST_REPLACE(&old_hdr->head, &new_hdr->head); pipe_mutex_unlock(list_mutex); /* copy data */ new_ptr = data_from_header(new_hdr); memcpy( new_ptr, old_ptr, old_size < new_size ? old_size : new_size ); /* free old */ old_hdr->magic = 0; old_ftr->magic = 0; os_free(old_hdr); return new_ptr; } unsigned long debug_memory_begin(void) { return last_no; } void debug_memory_end(unsigned long start_no) { size_t total_size = 0; struct list_head *entry; if(start_no == last_no) return; entry = list.prev; for (; entry != &list; entry = entry->prev) { struct debug_memory_header *hdr; void *ptr; struct debug_memory_footer *ftr; hdr = LIST_ENTRY(struct debug_memory_header, entry, head); ptr = data_from_header(hdr); ftr = footer_from_header(hdr); if(hdr->magic != DEBUG_MEMORY_MAGIC) { debug_printf("%s:%u:%s: bad or corrupted memory %p\n", hdr->file, hdr->line, hdr->function, ptr); debug_assert(0); } if((start_no <= hdr->no && hdr->no < last_no) || (last_no < start_no && (hdr->no < last_no || start_no <= hdr->no))) { debug_printf("%s:%u:%s: %lu bytes at %p not freed\n", hdr->file, hdr->line, hdr->function, (unsigned long) hdr->size, ptr); #if DEBUG_MEMORY_STACK debug_backtrace_dump(hdr->backtrace, DEBUG_MEMORY_STACK); #endif total_size += hdr->size; } if(ftr->magic != DEBUG_MEMORY_MAGIC) { debug_printf("%s:%u:%s: buffer overflow %p\n", hdr->file, hdr->line, hdr->function, ptr); debug_assert(0); } } if(total_size) { debug_printf("Total of %lu KB of system memory apparently leaked\n", (unsigned long) (total_size + 1023)/1024); } else { debug_printf("No memory leaks detected.\n"); } } /** * Put a tag (arbitrary integer) on a memory block. * Can be useful for debugging. */ void debug_memory_tag(void *ptr, unsigned tag) { struct debug_memory_header *hdr; if (!ptr) return; hdr = header_from_data(ptr); if (hdr->magic != DEBUG_MEMORY_MAGIC) { debug_printf("%s corrupted memory at %p\n", __FUNCTION__, ptr); debug_assert(0); } hdr->tag = tag; } /** * Check the given block of memory for validity/corruption. */ void debug_memory_check_block(void *ptr) { struct debug_memory_header *hdr; struct debug_memory_footer *ftr; if (!ptr) return; hdr = header_from_data(ptr); ftr = footer_from_header(hdr); if (hdr->magic != DEBUG_MEMORY_MAGIC) { debug_printf("%s:%u:%s: bad or corrupted memory %p\n", hdr->file, hdr->line, hdr->function, ptr); debug_assert(0); } if (ftr->magic != DEBUG_MEMORY_MAGIC) { debug_printf("%s:%u:%s: buffer overflow %p\n", hdr->file, hdr->line, hdr->function, ptr); debug_assert(0); } } /** * We can periodically call this from elsewhere to do a basic sanity * check of the heap memory we've allocated. */ void debug_memory_check(void) { struct list_head *entry; entry = list.prev; for (; entry != &list; entry = entry->prev) { struct debug_memory_header *hdr; struct debug_memory_footer *ftr; const char *ptr; hdr = LIST_ENTRY(struct debug_memory_header, entry, head); ftr = footer_from_header(hdr); ptr = (const char *) data_from_header(hdr); if (hdr->magic != DEBUG_MEMORY_MAGIC) { debug_printf("%s:%u:%s: bad or corrupted memory %p\n", hdr->file, hdr->line, hdr->function, ptr); debug_assert(0); } if (ftr->magic != DEBUG_MEMORY_MAGIC) { debug_printf("%s:%u:%s: buffer overflow %p\n", hdr->file, hdr->line, hdr->function, ptr); debug_assert(0); } #if DEBUG_FREED_MEMORY /* If this block is marked as freed, check that it hasn't been touched */ if (hdr->freed) { int i; for (i = 0; i < hdr->size; i++) { if (ptr[i] != DEBUG_FREED_BYTE) { debug_printf("Memory error: byte %d of block at %p of size %d is 0x%x\n", i, ptr, hdr->size, ptr[i]); debug_printf("Block was freed at %s:%d\n", hdr->file, hdr->line); } assert(ptr[i] == DEBUG_FREED_BYTE); } } #endif } }