/* * Copyright (C) 2012 The Android Open Source Project * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "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 * COPYRIGHT OWNER OR CONTRIBUTORS 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. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "dlmalloc.h" #include "logd.h" #include "malloc_debug_common.h" #include "malloc_debug_check_mapinfo.h" static mapinfo *milist; /* libc.debug.malloc.backlog */ extern unsigned int malloc_double_free_backlog; #define MAX_BACKTRACE_DEPTH 15 #define ALLOCATION_TAG 0x1ee7d00d #define BACKLOG_TAG 0xbabecafe #define FREE_POISON 0xa5 #define BACKLOG_DEFAULT_LEN 100 #define FRONT_GUARD 0xaa #define FRONT_GUARD_LEN (1<<5) #define REAR_GUARD 0xbb #define REAR_GUARD_LEN (1<<5) static void print_backtrace(const intptr_t *bt, unsigned int depth); static void log_message(const char* format, ...) { extern pthread_mutex_t gAllocationsMutex; extern const MallocDebug __libc_malloc_default_dispatch; extern const MallocDebug* __libc_malloc_dispatch; va_list args; pthread_mutex_lock(&gAllocationsMutex); { const MallocDebug* current_dispatch = __libc_malloc_dispatch; __libc_malloc_dispatch = &__libc_malloc_default_dispatch; va_start(args, format); __libc_android_log_vprint(ANDROID_LOG_ERROR, "libc", format, args); va_end(args); __libc_malloc_dispatch = current_dispatch; } pthread_mutex_unlock(&gAllocationsMutex); } struct hdr { uint32_t tag; struct hdr *prev; struct hdr *next; intptr_t bt[MAX_BACKTRACE_DEPTH]; int bt_depth; intptr_t freed_bt[MAX_BACKTRACE_DEPTH]; int freed_bt_depth; size_t size; char front_guard[FRONT_GUARD_LEN]; } __attribute__((packed)); struct ftr { char rear_guard[REAR_GUARD_LEN]; } __attribute__((packed)); static inline struct ftr * to_ftr(struct hdr *hdr) { return (struct ftr *)(((char *)(hdr + 1)) + hdr->size); } static inline void *user(struct hdr *hdr) { return hdr + 1; } static inline struct hdr *meta(void *user) { return ((struct hdr *)user) - 1; } /* Call this on exit() to get leaked memory */ void free_leaked_memory(void); static unsigned num; static struct hdr *tail; static struct hdr *head; static pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER; static unsigned backlog_num; static struct hdr *backlog_tail; static struct hdr *backlog_head; static pthread_mutex_t backlog_lock = PTHREAD_MUTEX_INITIALIZER; extern __LIBC_HIDDEN__ int get_backtrace(intptr_t* addrs, size_t max_entries); static void print_backtrace(const intptr_t *bt, unsigned int depth) { const mapinfo *mi; unsigned int cnt; unsigned int rel_pc; intptr_t self_bt[MAX_BACKTRACE_DEPTH]; if (!bt) { depth = get_backtrace(self_bt, MAX_BACKTRACE_DEPTH); bt = self_bt; } log_message("*** *** *** *** *** *** *** *** *** *** *** *** *** *** *** ***\n"); for (cnt = 0; cnt < depth && cnt < MAX_BACKTRACE_DEPTH; cnt++) { mi = pc_to_mapinfo(milist, bt[cnt], &rel_pc); log_message("\t#%02d pc %08x %s\n", cnt, mi ? (intptr_t)rel_pc : bt[cnt], mi ? mi->name : "(unknown)"); } } static inline void init_front_guard(struct hdr *hdr) { memset(hdr->front_guard, FRONT_GUARD, FRONT_GUARD_LEN); } static inline bool is_front_guard_valid(struct hdr *hdr) { unsigned i; for (i = 0; i < FRONT_GUARD_LEN; i++) if (hdr->front_guard[i] != FRONT_GUARD) return 0; return 1; } static inline void init_rear_guard(struct hdr *hdr) { struct ftr *ftr = to_ftr(hdr); memset(ftr->rear_guard, REAR_GUARD, REAR_GUARD_LEN); } static inline bool is_rear_guard_valid(struct hdr *hdr) { unsigned i; int valid = 1; int first_mismatch = -1; struct ftr *ftr = to_ftr(hdr); for (i = 0; i < REAR_GUARD_LEN; i++) { if (ftr->rear_guard[i] != REAR_GUARD) { if (first_mismatch < 0) first_mismatch = i; valid = 0; } else if (first_mismatch >= 0) { log_message("+++ REAR GUARD MISMATCH [%d, %d)\n", first_mismatch, i); first_mismatch = -1; } } if (first_mismatch >= 0) log_message("+++ REAR GUARD MISMATCH [%d, %d)\n", first_mismatch, i); return valid; } static inline void add_locked(struct hdr *hdr, struct hdr **tail, struct hdr **head) { hdr->prev = NULL; hdr->next = *head; if (*head) (*head)->prev = hdr; else *tail = hdr; *head = hdr; } static inline int del_locked(struct hdr *hdr, struct hdr **tail, struct hdr **head) { if (hdr->prev) hdr->prev->next = hdr->next; else *head = hdr->next; if (hdr->next) hdr->next->prev = hdr->prev; else *tail = hdr->prev; return 0; } static inline void add(struct hdr *hdr, size_t size) { pthread_mutex_lock(&lock); hdr->tag = ALLOCATION_TAG; hdr->size = size; init_front_guard(hdr); init_rear_guard(hdr); num++; add_locked(hdr, &tail, &head); pthread_mutex_unlock(&lock); } static inline int del(struct hdr *hdr) { if (hdr->tag != ALLOCATION_TAG) return -1; pthread_mutex_lock(&lock); del_locked(hdr, &tail, &head); num--; pthread_mutex_unlock(&lock); return 0; } static inline void poison(struct hdr *hdr) { memset(user(hdr), FREE_POISON, hdr->size); } static int was_used_after_free(struct hdr *hdr) { unsigned i; const char *data = (const char *)user(hdr); for (i = 0; i < hdr->size; i++) if (data[i] != FREE_POISON) return 1; return 0; } /* returns 1 if valid, *safe == 1 if safe to dump stack */ static inline int check_guards(struct hdr *hdr, int *safe) { *safe = 1; if (!is_front_guard_valid(hdr)) { if (hdr->front_guard[0] == FRONT_GUARD) { log_message("+++ ALLOCATION %p SIZE %d HAS A CORRUPTED FRONT GUARD\n", user(hdr), hdr->size); } else { log_message("+++ ALLOCATION %p HAS A CORRUPTED FRONT GUARD "\ "(NOT DUMPING STACKTRACE)\n", user(hdr)); /* Allocation header is probably corrupt, do not print stack trace */ *safe = 0; } return 0; } if (!is_rear_guard_valid(hdr)) { log_message("+++ ALLOCATION %p SIZE %d HAS A CORRUPTED REAR GUARD\n", user(hdr), hdr->size); return 0; } return 1; } /* returns 1 if valid, *safe == 1 if safe to dump stack */ static inline int check_allocation_locked(struct hdr *hdr, int *safe) { int valid = 1; *safe = 1; if (hdr->tag != ALLOCATION_TAG && hdr->tag != BACKLOG_TAG) { log_message("+++ ALLOCATION %p HAS INVALID TAG %08x (NOT DUMPING STACKTRACE)\n", user(hdr), hdr->tag); /* Allocation header is probably corrupt, do not dequeue or dump stack * trace. */ *safe = 0; return 0; } if (hdr->tag == BACKLOG_TAG && was_used_after_free(hdr)) { log_message("+++ ALLOCATION %p SIZE %d WAS USED AFTER BEING FREED\n", user(hdr), hdr->size); valid = 0; /* check the guards to see if it's safe to dump a stack trace */ (void)check_guards(hdr, safe); } else valid = check_guards(hdr, safe); if (!valid && *safe) { log_message("+++ ALLOCATION %p SIZE %d ALLOCATED HERE:\n", user(hdr), hdr->size); print_backtrace(hdr->bt, hdr->bt_depth); if (hdr->tag == BACKLOG_TAG) { log_message("+++ ALLOCATION %p SIZE %d FREED HERE:\n", user(hdr), hdr->size); print_backtrace(hdr->freed_bt, hdr->freed_bt_depth); } } return valid; } static inline int del_and_check_locked(struct hdr *hdr, struct hdr **tail, struct hdr **head, unsigned *cnt, int *safe) { int valid; valid = check_allocation_locked(hdr, safe); if (safe) { (*cnt)--; del_locked(hdr, tail, head); } return valid; } static inline void del_from_backlog_locked(struct hdr *hdr) { int safe; (void)del_and_check_locked(hdr, &backlog_tail, &backlog_head, &backlog_num, &safe); hdr->tag = 0; /* clear the tag */ } static inline void del_from_backlog(struct hdr *hdr) { pthread_mutex_lock(&backlog_lock); del_from_backlog_locked(hdr); pthread_mutex_unlock(&backlog_lock); } static inline int del_leak(struct hdr *hdr, int *safe) { int valid; pthread_mutex_lock(&lock); valid = del_and_check_locked(hdr, &tail, &head, &num, safe); pthread_mutex_unlock(&lock); return valid; } static inline void add_to_backlog(struct hdr *hdr) { pthread_mutex_lock(&backlog_lock); hdr->tag = BACKLOG_TAG; backlog_num++; add_locked(hdr, &backlog_tail, &backlog_head); poison(hdr); /* If we've exceeded the maximum backlog, clear it up */ while (backlog_num > malloc_double_free_backlog) { struct hdr *gone = backlog_tail; del_from_backlog_locked(gone); dlfree(gone); } pthread_mutex_unlock(&backlog_lock); } void* chk_malloc(size_t size) { struct hdr *hdr; // log_message("%s: %s\n", __FILE__, __FUNCTION__); hdr = dlmalloc(sizeof(struct hdr) + size + sizeof(struct ftr)); if (hdr) { hdr->bt_depth = get_backtrace(hdr->bt, MAX_BACKTRACE_DEPTH); add(hdr, size); return user(hdr); } return NULL; } void* chk_memalign(size_t alignment, size_t bytes) { // log_message("%s: %s\n", __FILE__, __FUNCTION__); // XXX: it's better to use malloc, than being wrong return chk_malloc(bytes); } void chk_free(void *ptr) { struct hdr *hdr; // log_message("%s: %s\n", __FILE__, __FUNCTION__); if (!ptr) /* ignore free(NULL) */ return; hdr = meta(ptr); if (del(hdr) < 0) { intptr_t bt[MAX_BACKTRACE_DEPTH]; int depth; depth = get_backtrace(bt, MAX_BACKTRACE_DEPTH); if (hdr->tag == BACKLOG_TAG) { log_message("+++ ALLOCATION %p SIZE %d BYTES MULTIPLY FREED!\n", user(hdr), hdr->size); log_message("+++ ALLOCATION %p SIZE %d ALLOCATED HERE:\n", user(hdr), hdr->size); print_backtrace(hdr->bt, hdr->bt_depth); /* hdr->freed_bt_depth should be nonzero here */ log_message("+++ ALLOCATION %p SIZE %d FIRST FREED HERE:\n", user(hdr), hdr->size); print_backtrace(hdr->freed_bt, hdr->freed_bt_depth); log_message("+++ ALLOCATION %p SIZE %d NOW BEING FREED HERE:\n", user(hdr), hdr->size); print_backtrace(bt, depth); } else { log_message("+++ ALLOCATION %p IS CORRUPTED OR NOT ALLOCATED VIA TRACKER!\n", user(hdr)); print_backtrace(bt, depth); /* Leak here so that we do not crash */ //dlfree(user(hdr)); } } else { hdr->freed_bt_depth = get_backtrace(hdr->freed_bt, MAX_BACKTRACE_DEPTH); add_to_backlog(hdr); } } void *chk_realloc(void *ptr, size_t size) { struct hdr *hdr; // log_message("%s: %s\n", __FILE__, __FUNCTION__); if (!size) { chk_free(ptr); return NULL; } if (!ptr) return chk_malloc(size); hdr = meta(ptr); if (del(hdr) < 0) { intptr_t bt[MAX_BACKTRACE_DEPTH]; int depth; depth = get_backtrace(bt, MAX_BACKTRACE_DEPTH); if (hdr->tag == BACKLOG_TAG) { log_message("+++ REALLOCATION %p SIZE %d OF FREED MEMORY!\n", user(hdr), size, hdr->size); log_message("+++ ALLOCATION %p SIZE %d ALLOCATED HERE:\n", user(hdr), hdr->size); print_backtrace(hdr->bt, hdr->bt_depth); /* hdr->freed_bt_depth should be nonzero here */ log_message("+++ ALLOCATION %p SIZE %d FIRST FREED HERE:\n", user(hdr), hdr->size); print_backtrace(hdr->freed_bt, hdr->freed_bt_depth); log_message("+++ ALLOCATION %p SIZE %d NOW BEING REALLOCATED HERE:\n", user(hdr), hdr->size); print_backtrace(bt, depth); /* We take the memory out of the backlog and fall through so the * reallocation below succeeds. Since we didn't really free it, we * can default to this behavior. */ del_from_backlog(hdr); } else { log_message("+++ REALLOCATION %p SIZE %d IS CORRUPTED OR NOT ALLOCATED VIA TRACKER!\n", user(hdr), size); print_backtrace(bt, depth); // just get a whole new allocation and leak the old one return dlrealloc(0, size); // return dlrealloc(user(hdr), size); // assuming it was allocated externally } } hdr = dlrealloc(hdr, sizeof(struct hdr) + size + sizeof(struct ftr)); if (hdr) { hdr->bt_depth = get_backtrace(hdr->bt, MAX_BACKTRACE_DEPTH); add(hdr, size); return user(hdr); } return NULL; } void *chk_calloc(int nmemb, size_t size) { // log_message("%s: %s\n", __FILE__, __FUNCTION__); struct hdr *hdr; size_t total_size = nmemb * size; hdr = dlcalloc(1, sizeof(struct hdr) + total_size + sizeof(struct ftr)); if (hdr) { hdr->bt_depth = get_backtrace( hdr->bt, MAX_BACKTRACE_DEPTH); add(hdr, total_size); return user(hdr); } return NULL; } static void heaptracker_free_leaked_memory(void) { struct hdr *del; int cnt; if (num) log_message("+++ THERE ARE %d LEAKED ALLOCATIONS\n", num); while (head) { int safe; del = head; log_message("+++ DELETING %d BYTES OF LEAKED MEMORY AT %p (%d REMAINING)\n", del->size, user(del), num); if (del_leak(del, &safe)) { /* safe == 1, because the allocation is valid */ log_message("+++ ALLOCATION %p SIZE %d ALLOCATED HERE:\n", user(del), del->size); print_backtrace(del->bt, del->bt_depth); } dlfree(del); } // log_message("+++ DELETING %d BACKLOGGED ALLOCATIONS\n", backlog_num); while (backlog_head) { del = backlog_tail; del_from_backlog(del); dlfree(del); } } /* Initializes malloc debugging framework. * See comments on MallocDebugInit in malloc_debug_common.h */ int malloc_debug_initialize(void) { if (!malloc_double_free_backlog) malloc_double_free_backlog = BACKLOG_DEFAULT_LEN; milist = init_mapinfo(getpid()); return 0; } void malloc_debug_finalize(void) { heaptracker_free_leaked_memory(); deinit_mapinfo(milist); }