/* $OpenBSD: kern_malloc_debug.c,v 1.23 2004/06/20 01:04:28 art Exp $ */ /* * Copyright (c) 1999, 2000 Artur Grabowski * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL * THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * This really belongs in kern/kern_malloc.c, but it was too much pollution. */ /* * It's only possible to debug one type/size at a time. The question is * if this is a limitation or a feature. We never want to run this as the * default malloc because we'll run out of memory really fast. Adding * more types will also add to the complexity of the code. * * This is really simple. Every malloc() allocates two virtual pages, * the second page is left unmapped, and the value returned is aligned * so that it ends at (or very close to) the page boundary to catch overflows. * Every free() changes the protection of the first page to VM_PROT_NONE so * that we can catch any dangling writes to it. * To minimize the risk of writes to recycled chunks we keep an LRU of latest * freed chunks. The length of it is controlled by MALLOC_DEBUG_CHUNKS. * * Don't expect any performance. * * TODO: * - support for size >= PAGE_SIZE * - add support to the fault handler to give better diagnostics if we fail. */ #include #include #include #include #include #include #include /* * debug_malloc_type and debug_malloc_size define the type and size of * memory to be debugged. Use 0 for a wildcard. debug_malloc_size_lo * is the lower limit and debug_malloc_size_hi the upper limit of sizes * being debugged; 0 will not work as a wildcard for the upper limit. * For any debugging to take place, type must be != -1, size must be >= 0, * and if the limits are being used, size must be set to 0. * See /usr/src/sys/sys/malloc.h and malloc(9) for a list of types. * * Although those are variables, it's a really bad idea to change the type * if any memory chunks of this type are used. It's ok to change the size * in runtime. */ int debug_malloc_type = -1; int debug_malloc_size = -1; int debug_malloc_size_lo = -1; int debug_malloc_size_hi = -1; /* * MALLOC_DEBUG_CHUNKS is the number of memory chunks we require on the * freelist before we reuse them. */ #define MALLOC_DEBUG_CHUNKS 16 void debug_malloc_allocate_free(int); struct debug_malloc_entry { TAILQ_ENTRY(debug_malloc_entry) md_list; vaddr_t md_va; paddr_t md_pa; size_t md_size; int md_type; }; TAILQ_HEAD(,debug_malloc_entry) debug_malloc_freelist; TAILQ_HEAD(,debug_malloc_entry) debug_malloc_usedlist; int debug_malloc_allocs; int debug_malloc_frees; int debug_malloc_pages; int debug_malloc_chunks_on_freelist; int debug_malloc_initialized; struct pool debug_malloc_pool; int debug_malloc(unsigned long size, int type, int flags, void **addr) { struct debug_malloc_entry *md = NULL; int s, wait = (flags & M_NOWAIT) == 0; /* Careful not to compare unsigned long to int -1 */ if (((type != debug_malloc_type && debug_malloc_type != 0) || (size != debug_malloc_size && debug_malloc_size != 0) || (debug_malloc_size_lo != -1 && size < debug_malloc_size_lo) || (debug_malloc_size_hi != -1 && size > debug_malloc_size_hi) || !debug_malloc_initialized) && type != M_DEBUG) return (0); /* XXX - fix later */ if (size > PAGE_SIZE) return (0); s = splvm(); if (debug_malloc_chunks_on_freelist < MALLOC_DEBUG_CHUNKS) debug_malloc_allocate_free(wait); md = TAILQ_FIRST(&debug_malloc_freelist); if (md == NULL) { splx(s); return (0); } TAILQ_REMOVE(&debug_malloc_freelist, md, md_list); debug_malloc_chunks_on_freelist--; TAILQ_INSERT_HEAD(&debug_malloc_usedlist, md, md_list); debug_malloc_allocs++; splx(s); pmap_kenter_pa(md->md_va, md->md_pa, VM_PROT_READ|VM_PROT_WRITE); pmap_update(pmap_kernel()); md->md_size = size; md->md_type = type; /* * Align the returned addr so that it ends where the first page * ends. roundup to get decent alignment. */ *addr = (void *)(md->md_va + PAGE_SIZE - roundup(size, sizeof(long))); return (1); } int debug_free(void *addr, int type) { struct debug_malloc_entry *md; vaddr_t va; int s; if (type != debug_malloc_type && debug_malloc_type != 0 && type != M_DEBUG) return (0); /* * trunc_page to get the address of the page. */ va = trunc_page((vaddr_t)addr); s = splvm(); TAILQ_FOREACH(md, &debug_malloc_usedlist, md_list) if (md->md_va == va) break; /* * If we are not responsible for this entry, let the normal free * handle it */ if (md == NULL) { /* * sanity check. Check for multiple frees. */ TAILQ_FOREACH(md, &debug_malloc_freelist, md_list) if (md->md_va == va) panic("debug_free: already free"); splx(s); return (0); } debug_malloc_frees++; TAILQ_REMOVE(&debug_malloc_usedlist, md, md_list); TAILQ_INSERT_TAIL(&debug_malloc_freelist, md, md_list); debug_malloc_chunks_on_freelist++; /* * unmap the page. */ pmap_kremove(md->md_va, PAGE_SIZE); pmap_update(pmap_kernel()); splx(s); return (1); } void debug_malloc_init(void) { TAILQ_INIT(&debug_malloc_freelist); TAILQ_INIT(&debug_malloc_usedlist); debug_malloc_allocs = 0; debug_malloc_frees = 0; debug_malloc_pages = 0; debug_malloc_chunks_on_freelist = 0; pool_init(&debug_malloc_pool, sizeof(struct debug_malloc_entry), 0, 0, 0, "mdbepl", NULL); debug_malloc_initialized = 1; } /* * Add one chunk to the freelist. * * called at splvm. */ void debug_malloc_allocate_free(int wait) { vaddr_t va, offset; struct vm_page *pg; struct debug_malloc_entry *md; splassert(IPL_VM); md = pool_get(&debug_malloc_pool, wait ? PR_WAITOK : PR_NOWAIT); if (md == NULL) return; va = uvm_km_kmemalloc(kmem_map, uvmexp.kmem_object, PAGE_SIZE * 2, UVM_KMF_VALLOC | (wait ? 0: UVM_KMF_NOWAIT)); if (va == 0) { pool_put(&debug_malloc_pool, md); return; } offset = va - vm_map_min(kernel_map); for (;;) { simple_lock(&uvmexp.kmem_object->vmobjlock); pg = uvm_pagealloc(uvmexp.kmem_object, offset, NULL, 0); if (pg) { pg->flags &= ~PG_BUSY; /* new page */ UVM_PAGE_OWN(pg, NULL); } simple_unlock(&uvmexp.kmem_object->vmobjlock); if (pg) break; if (wait == 0) { uvm_unmap(kmem_map, va, va + PAGE_SIZE * 2); pool_put(&debug_malloc_pool, md); return; } uvm_wait("debug_malloc"); } md->md_va = va; md->md_pa = VM_PAGE_TO_PHYS(pg); debug_malloc_pages++; TAILQ_INSERT_HEAD(&debug_malloc_freelist, md, md_list); debug_malloc_chunks_on_freelist++; } void debug_malloc_print(void) { debug_malloc_printit(printf, NULL); } void debug_malloc_assert_allocated(void *addr, const char *func) { struct debug_malloc_entry *md; vaddr_t va = (vaddr_t)addr; TAILQ_FOREACH(md, &debug_malloc_freelist, md_list) { if (va >= md->md_va && va < md->md_va + 2 * PAGE_SIZE) panic("debug_malloc: (%s): %p - freed", func, addr); } TAILQ_FOREACH(md, &debug_malloc_usedlist, md_list) { if (va >= md->md_va + PAGE_SIZE && va < md->md_va + 2 * PAGE_SIZE) panic("debug_malloc: (%s): %p - overflow", func, addr); } } void debug_malloc_printit(int (*pr)(const char *, ...), vaddr_t addr) { struct debug_malloc_entry *md; if (addr) { TAILQ_FOREACH(md, &debug_malloc_freelist, md_list) { if (addr >= md->md_va && addr < md->md_va + 2 * PAGE_SIZE) { (*pr)("Memory at address 0x%x is in a freed " "area. type %d, size: %d\n ", addr, md->md_type, md->md_size); return; } } TAILQ_FOREACH(md, &debug_malloc_usedlist, md_list) { if (addr >= md->md_va + PAGE_SIZE && addr < md->md_va + 2 * PAGE_SIZE) { (*pr)("Memory at address 0x%x is just outside " "an allocated area. type %d, size: %d\n", addr, md->md_type, md->md_size); return; } } (*pr)("Memory at address 0x%x is outside debugged malloc.\n"); return; } (*pr)("allocs: %d\n", debug_malloc_allocs); (*pr)("frees: %d\n", debug_malloc_frees); (*pr)("pages used: %d\n", debug_malloc_pages); (*pr)("chunks on freelist: %d\n", debug_malloc_chunks_on_freelist); (*pr)("\taddr:\tsize:\n"); (*pr)("free chunks:\n"); TAILQ_FOREACH(md, &debug_malloc_freelist, md_list) (*pr)("\t0x%x\t0x%x\t%d\n", md->md_va, md->md_size, md->md_type); (*pr)("used chunks:\n"); TAILQ_FOREACH(md, &debug_malloc_usedlist, md_list) (*pr)("\t0x%x\t0x%x\t%d\n", md->md_va, md->md_size, md->md_type); }