/* Wrappers around malloc and memory debugging support. Copyright (C) 2005 Free Software Foundation, Inc. This file is part of GNU Wget. GNU Wget 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 2 of the License, or (at your option) any later version. GNU Wget 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 Wget; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. In addition, as a special exception, the Free Software Foundation gives permission to link the code of its release of Wget with the OpenSSL project's "OpenSSL" library (or with modified versions of it that use the same license as the "OpenSSL" library), and distribute the linked executables. You must obey the GNU General Public License in all respects for all of the code used other than "OpenSSL". If you modify this file, you may extend this exception to your version of the file, but you are not obligated to do so. If you do not wish to do so, delete this exception statement from your version. */ #include #include #include #ifdef HAVE_STRING_H # include #else /* not HAVE_STRING_H */ # include #endif /* not HAVE_STRING_H */ #include #include #include #include "wget.h" #include "xmalloc.h" #include "hash.h" /* for hash_pointer */ #ifndef errno extern int errno; #endif /* This file implements several wrappers around the basic allocation routines. This is done for two reasons: first, so that the callers of these functions need not check for errors, which is easy to forget. If there is not enough virtual memory for running Wget, something is seriously wrong, and Wget exits with an appropriate error message. The second reason why these are useful is that, if DEBUG_MALLOC is defined, they also provide a handy (if crude) malloc debugging interface that checks for memory leaks. */ /* Croak the fatal memory error and bail out with non-zero exit status. */ static void memfatal (const char *context, long attempted_size) { /* Make sure we don't try to store part of the log line, and thus call malloc. */ log_set_save_context (0); logprintf (LOG_ALWAYS, _("%s: %s: Failed to allocate %ld bytes; memory exhausted.\n"), exec_name, context, attempted_size); exit (1); } /* These functions end with _real because they need to be distinguished from the debugging functions, and from the macros. Explanation follows: If memory debugging is not turned on, xmalloc.h defines these: #define xmalloc checking_malloc #define xmalloc0 checking_malloc0 #define xrealloc checking_realloc #define xstrdup checking_strdup #define xfree checking_free In case of memory debugging, the definitions are a bit more complex, because we want to provide more information, *and* we want to call the debugging code. (The former is the reason why xmalloc and friends need to be macros in the first place.) Then it looks like this: #define xmalloc(a) debugging_malloc (a, __FILE__, __LINE__) #define xmalloc0(a) debugging_malloc0 (a, __FILE__, __LINE__) #define xrealloc(a, b) debugging_realloc (a, b, __FILE__, __LINE__) #define xstrdup(a) debugging_strdup (a, __FILE__, __LINE__) #define xfree(a) debugging_free (a, __FILE__, __LINE__) Each of the debugging_* functions does its magic and calls the corresponding checking_* one. */ #ifdef DEBUG_MALLOC # define STATIC_IF_DEBUG static #else # define STATIC_IF_DEBUG #endif STATIC_IF_DEBUG void * checking_malloc (size_t size) { void *ptr = malloc (size); if (!ptr) memfatal ("malloc", size); return ptr; } STATIC_IF_DEBUG void * checking_malloc0 (size_t size) { /* Using calloc can be faster than malloc+memset because some calloc implementations know when they're dealing with zeroed-out memory from the system and can avoid unnecessary memset. */ void *ptr = calloc (1, size); if (!ptr) memfatal ("calloc", size); return ptr; } STATIC_IF_DEBUG void * checking_realloc (void *ptr, size_t newsize) { void *newptr; /* Not all Un*xes have the feature of realloc() that calling it with a NULL-pointer is the same as malloc(), but it is easy to simulate. */ if (ptr) newptr = realloc (ptr, newsize); else newptr = malloc (newsize); if (!newptr) memfatal ("realloc", newsize); return newptr; } STATIC_IF_DEBUG char * checking_strdup (const char *s) { char *copy; #ifndef HAVE_STRDUP int l = strlen (s); copy = malloc (l + 1); if (!copy) memfatal ("strdup", l + 1); memcpy (copy, s, l + 1); #else /* HAVE_STRDUP */ copy = strdup (s); if (!copy) memfatal ("strdup", 1 + strlen (s)); #endif /* HAVE_STRDUP */ return copy; } STATIC_IF_DEBUG void checking_free (void *ptr) { /* Wget's xfree() must not be passed a NULL pointer. This is for historical reasons: pre-C89 systems were reported to bomb at free(NULL), and Wget was careful to not call xfree when there was a possibility of PTR being NULL. (It might have been better to simply have xfree() do nothing if ptr==NULL.) Since the code is already written that way, this assert simply enforces the existing constraint. The benefit is double-checking the logic: code that thinks it can't be passed a NULL pointer, while it in fact can, aborts here. If you trip on this, either the code has a pointer handling bug or should have called xfree_null instead of xfree. Correctly written code should never trigger this assertion. The downside is that the uninitiated might not expect xfree(NULL) to abort. If the assertion proves to be too much of a hassle, it can be removed and a check that makes NULL a no-op placed in its stead. If that is done, xfree_null is no longer needed and should be removed. */ assert (ptr != NULL); free (ptr); } #ifdef DEBUG_MALLOC /* Crude home-grown routines for debugging some malloc-related problems. Featured: * Counting the number of malloc and free invocations, and reporting the "balance", i.e. how many times more malloc was called than it was the case with free. * Making malloc store its entry into a simple array and free remove stuff from that array. At the end, print the pointers which have not been freed, along with the source file and the line number. * Checking for "invalid frees", where free is called on a pointer not obtained with malloc, or where the same pointer is freed twice. Note that this kind of memory leak checking strongly depends on every malloc() being followed by a free(), even if the program is about to finish. Wget is careful to free the data structure it allocated in init.c. */ static int malloc_count, free_count; /* Home-grown hash table of mallocs: */ #define SZ 100003 /* Prime just over 100,000. Increase it to debug larger Wget runs. */ static struct { const void *ptr; const char *file; int line; } malloc_table[SZ]; /* Find PTR's position in malloc_table. If PTR is not found, return the next available position. */ static inline int ptr_position (const void *ptr) { int i = hash_pointer (ptr) % SZ; for (; malloc_table[i].ptr != NULL; i = (i + 1) % SZ) if (malloc_table[i].ptr == ptr) return i; return i; } /* Register PTR in malloc_table. Abort if this is not possible (presumably due to the number of current allocations exceeding the size of malloc_table.) */ static void register_ptr (const void *ptr, const char *file, int line) { int i; if (malloc_count - free_count > SZ) { fprintf (stderr, "Increase SZ to a larger value and recompile.\n"); fflush (stderr); abort (); } i = ptr_position (ptr); malloc_table[i].ptr = ptr; malloc_table[i].file = file; malloc_table[i].line = line; } /* Unregister PTR from malloc_table. Return 0 if PTR is not present in malloc_table. */ static int unregister_ptr (void *ptr) { int i = ptr_position (ptr); if (malloc_table[i].ptr == NULL) return 0; malloc_table[i].ptr = NULL; /* Relocate malloc_table entries immediately following PTR. */ for (i = (i + 1) % SZ; malloc_table[i].ptr != NULL; i = (i + 1) % SZ) { const void *ptr2 = malloc_table[i].ptr; /* Find the new location for the key. */ int j = hash_pointer (ptr2) % SZ; for (; malloc_table[j].ptr != NULL; j = (j + 1) % SZ) if (ptr2 == malloc_table[j].ptr) /* No need to relocate entry at [i]; it's already at or near its hash position. */ goto cont_outer; malloc_table[j] = malloc_table[i]; malloc_table[i].ptr = NULL; cont_outer: ; } return 1; } /* Print the malloc debug stats gathered from the above information. Currently this is the count of mallocs, frees, the difference between the two, and the dump of the contents of malloc_table. The last part are the memory leaks. */ void print_malloc_debug_stats (void) { int i; printf ("\nMalloc: %d\nFree: %d\nBalance: %d\n\n", malloc_count, free_count, malloc_count - free_count); for (i = 0; i < SZ; i++) if (malloc_table[i].ptr != NULL) printf ("0x%0*lx: %s:%d\n", PTR_FORMAT (malloc_table[i].ptr), malloc_table[i].file, malloc_table[i].line); } void * debugging_malloc (size_t size, const char *source_file, int source_line) { void *ptr = checking_malloc (size); ++malloc_count; register_ptr (ptr, source_file, source_line); return ptr; } void * debugging_malloc0 (size_t size, const char *source_file, int source_line) { void *ptr = checking_malloc0 (size); ++malloc_count; register_ptr (ptr, source_file, source_line); return ptr; } void * debugging_realloc (void *ptr, size_t newsize, const char *source_file, int source_line) { void *newptr = checking_realloc (ptr, newsize); if (!ptr) { ++malloc_count; register_ptr (newptr, source_file, source_line); } else if (newptr != ptr) { unregister_ptr (ptr); register_ptr (newptr, source_file, source_line); } return newptr; } char * debugging_strdup (const char *s, const char *source_file, int source_line) { char *copy = checking_strdup (s); ++malloc_count; register_ptr (copy, source_file, source_line); return copy; } void debugging_free (void *ptr, const char *source_file, int source_line) { /* See checking_free for rationale of this abort. We repeat it here because we can print the file and the line where the offending free occurred. */ if (ptr == NULL) { fprintf (stderr, "%s: xfree(NULL) at %s:%d\n", exec_name, source_file, source_line); abort (); } if (!unregister_ptr (ptr)) { fprintf (stderr, "%s: bad xfree(0x%0*lx) at %s:%d\n", exec_name, PTR_FORMAT (ptr), source_file, source_line); abort (); } ++free_count; checking_free (ptr); } #endif /* DEBUG_MALLOC */