/******************************************************************************* * Copyright (c) 2009, 2020 IBM Corp. * * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v2.0 * and Eclipse Distribution License v1.0 which accompany this distribution. * * The Eclipse Public License is available at * https://www.eclipse.org/legal/epl-2.0/ * and the Eclipse Distribution License is available at * http://www.eclipse.org/org/documents/edl-v10.php. * * Contributors: * Ian Craggs - initial API and implementation and/or initial documentation * Ian Craggs - use tree data structure instead of list * Ian Craggs - change roundup to Heap_roundup to avoid macro name clash on MacOSX *******************************************************************************/ /** * @file * \brief functions to manage the heap with the goal of eliminating memory leaks * * For any module to use these functions transparently, simply include the Heap.h * header file. Malloc and free will be redefined, but will behave in exactly the same * way as normal, so no recoding is necessary. * * */ #include "Tree.h" #include "Log.h" #include "StackTrace.h" #include "Thread.h" #if defined(HEAP_UNIT_TESTS) char* Broker_recordFFDC(char* symptoms); #endif /* HEAP_UNIT_TESTS */ #include #include #include #include #include "Heap.h" #if !defined(NO_HEAP_TRACKING) #undef malloc #undef realloc #undef free #if defined(_WIN32) || defined(_WIN64) mutex_type heap_mutex; #else static pthread_mutex_t heap_mutex_store = PTHREAD_MUTEX_INITIALIZER; static mutex_type heap_mutex = &heap_mutex_store; #endif static heap_info state = {0, 0}; /**< global heap state information */ typedef double eyecatcherType; static eyecatcherType eyecatcher = (eyecatcherType)0x8888888888888888; /*#define HEAP_STACK 1 */ /** * Each item on the heap is recorded with this structure. */ typedef struct { char* file; /**< the name of the source file where the storage was allocated */ int line; /**< the line no in the source file where it was allocated */ void* ptr; /**< pointer to the allocated storage */ size_t size; /**< size of the allocated storage */ #if defined(HEAP_STACK) char* stack; #endif } storageElement; static Tree heap; /**< Tree that holds the allocation records */ static const char *errmsg = "Memory allocation error"; static size_t Heap_roundup(size_t size); static int ptrCompare(void* a, void* b, int value); /*static void Heap_check(char* string, void* ptr);*/ static void checkEyecatchers(char* file, int line, void* p, size_t size); static int Internal_heap_unlink(char* file, int line, void* p); static void HeapScan(enum LOG_LEVELS log_level); /** * Round allocation size up to a multiple of the size of an int. Apart from possibly reducing fragmentation, * on the old v3 gcc compilers I was hitting some weird behaviour, which might have been errors in * sizeof() used on structures and related to packing. In any case, this fixes that too. * @param size the size actually needed * @return the rounded up size */ static size_t Heap_roundup(size_t size) { static int multsize = 4*sizeof(int); if (size % multsize != 0) size += multsize - (size % multsize); return size; } /** * List callback function for comparing storage elements * @param a pointer to the current content in the tree (storageElement*) * @param b pointer to the memory to free * @return boolean indicating whether a and b are equal */ static int ptrCompare(void* a, void* b, int value) { a = ((storageElement*)a)->ptr; if (value) b = ((storageElement*)b)->ptr; return (a > b) ? -1 : (a == b) ? 0 : 1; } /* static void Heap_check(char* string, void* ptr) { Node* curnode = NULL; storageElement* prev, *s = NULL; printf("Heap_check start %p\n", ptr); while ((curnode = TreeNextElement(&heap, curnode)) != NULL) { prev = s; s = (storageElement*)(curnode->content); if (prev) { if (ptrCompare(s, prev, 1) != -1) { printf("%s: heap order error %d %p %p\n", string, ptrCompare(s, prev, 1), prev->ptr, s->ptr); exit(99); } else printf("%s: heap order good %d %p %p\n", string, ptrCompare(s, prev, 1), prev->ptr, s->ptr); } } }*/ /** * Allocates a block of memory. A direct replacement for malloc, but keeps track of items * allocated in a list, so that free can check that a item is being freed correctly and that * we can check that all memory is freed at shutdown. * @param file use the __FILE__ macro to indicate which file this item was allocated in * @param line use the __LINE__ macro to indicate which line this item was allocated at * @param size the size of the item to be allocated * @return pointer to the allocated item, or NULL if there was an error */ void* mymalloc(char* file, int line, size_t size) { storageElement* s = NULL; size_t space = sizeof(storageElement); size_t filenamelen = strlen(file)+1; void* rc = NULL; Thread_lock_mutex(heap_mutex); size = Heap_roundup(size); if ((s = malloc(sizeof(storageElement))) == NULL) { Log(LOG_ERROR, 13, errmsg); goto exit; } memset(s, 0, sizeof(storageElement)); s->size = size; /* size without eyecatchers */ if ((s->file = malloc(filenamelen)) == NULL) { Log(LOG_ERROR, 13, errmsg); free(s); goto exit; } memset(s->file, 0, sizeof(filenamelen)); space += filenamelen; strcpy(s->file, file); #if defined(HEAP_STACK) #define STACK_LEN 300 if ((s->stack = malloc(STACK_LEN)) == NULL) { Log(LOG_ERROR, 13, errmsg); free(s->file); free(s); goto exit; } memset(s->stack, 0, sizeof(filenamelen)); StackTrace_get(Thread_getid(), s->stack, STACK_LEN); #endif s->line = line; /* Add space for eyecatcher at each end */ if ((s->ptr = malloc(size + 2*sizeof(eyecatcherType))) == NULL) { Log(LOG_ERROR, 13, errmsg); free(s->file); free(s); goto exit; } memset(s->ptr, 0, size + 2*sizeof(eyecatcherType)); space += size + 2*sizeof(eyecatcherType); *(eyecatcherType*)(s->ptr) = eyecatcher; /* start eyecatcher */ *(eyecatcherType*)(((char*)(s->ptr)) + (sizeof(eyecatcherType) + size)) = eyecatcher; /* end eyecatcher */ Log(TRACE_MAX, -1, "Allocating %d bytes in heap at file %s line %d ptr %p\n", (int)size, file, line, s->ptr); TreeAdd(&heap, s, space); state.current_size += size; if (state.current_size > state.max_size) state.max_size = state.current_size; rc = ((eyecatcherType*)(s->ptr)) + 1; /* skip start eyecatcher */ exit: Thread_unlock_mutex(heap_mutex); return rc; } static void checkEyecatchers(char* file, int line, void* p, size_t size) { eyecatcherType *sp = (eyecatcherType*)p; char *cp = (char*)p; eyecatcherType us; static const char *msg = "Invalid %s eyecatcher %d in heap item at file %s line %d"; if ((us = *--sp) != eyecatcher) Log(LOG_ERROR, 13, msg, "start", us, file, line); cp += size; if ((us = *(eyecatcherType*)cp) != eyecatcher) Log(LOG_ERROR, 13, msg, "end", us, file, line); } /** * Remove an item from the recorded heap without actually freeing it. * Use sparingly! * @param file use the __FILE__ macro to indicate which file this item was allocated in * @param line use the __LINE__ macro to indicate which line this item was allocated at * @param p pointer to the item to be removed */ static int Internal_heap_unlink(char* file, int line, void* p) { Node* e = NULL; int rc = 0; e = TreeFind(&heap, ((eyecatcherType*)p)-1); if (e == NULL) Log(LOG_ERROR, 13, "Failed to remove heap item at file %s line %d", file, line); else { storageElement* s = (storageElement*)(e->content); Log(TRACE_MAX, -1, "Freeing %d bytes in heap at file %s line %d, heap use now %d bytes\n", (int)s->size, file, line, (int)state.current_size); checkEyecatchers(file, line, p, s->size); /* free(s->ptr); */ free(s->file); state.current_size -= s->size; TreeRemoveNodeIndex(&heap, e, 0); free(s); rc = 1; } return rc; } /** * Frees a block of memory. A direct replacement for free, but checks that a item is in * the allocates list first. * @param file use the __FILE__ macro to indicate which file this item was allocated in * @param line use the __LINE__ macro to indicate which line this item was allocated at * @param p pointer to the item to be freed */ void myfree(char* file, int line, void* p) { if (p) /* it is legal und usual to call free(NULL) */ { Thread_lock_mutex(heap_mutex); if (Internal_heap_unlink(file, line, p)) free(((eyecatcherType*)p)-1); Thread_unlock_mutex(heap_mutex); } else { Log(LOG_ERROR, -1, "Call of free(NULL) in %s,%d",file,line); } } /** * Remove an item from the recorded heap without actually freeing it. * Use sparingly! * @param file use the __FILE__ macro to indicate which file this item was allocated in * @param line use the __LINE__ macro to indicate which line this item was allocated at * @param p pointer to the item to be removed */ void Heap_unlink(char* file, int line, void* p) { Thread_lock_mutex(heap_mutex); Internal_heap_unlink(file, line, p); Thread_unlock_mutex(heap_mutex); } /** * Reallocates a block of memory. A direct replacement for realloc, but keeps track of items * allocated in a list, so that free can check that a item is being freed correctly and that * we can check that all memory is freed at shutdown. * We have to remove the item from the tree, as the memory is in order and so it needs to * be reinserted in the correct place. * @param file use the __FILE__ macro to indicate which file this item was reallocated in * @param line use the __LINE__ macro to indicate which line this item was reallocated at * @param p pointer to the item to be reallocated * @param size the new size of the item * @return pointer to the allocated item, or NULL if there was an error */ void *myrealloc(char* file, int line, void* p, size_t size) { void* rc = NULL; storageElement* s = NULL; Thread_lock_mutex(heap_mutex); s = TreeRemoveKey(&heap, ((eyecatcherType*)p)-1); if (s == NULL) Log(LOG_ERROR, 13, "Failed to reallocate heap item at file %s line %d", file, line); else { size_t space = sizeof(storageElement); size_t filenamelen = strlen(file)+1; checkEyecatchers(file, line, p, s->size); size = Heap_roundup(size); state.current_size += size - s->size; if (state.current_size > state.max_size) state.max_size = state.current_size; if ((s->ptr = realloc(s->ptr, size + 2*sizeof(eyecatcherType))) == NULL) { Log(LOG_ERROR, 13, errmsg); goto exit; } space += size + 2*sizeof(eyecatcherType) - s->size; *(eyecatcherType*)(s->ptr) = eyecatcher; /* start eyecatcher */ *(eyecatcherType*)(((char*)(s->ptr)) + (sizeof(eyecatcherType) + size)) = eyecatcher; /* end eyecatcher */ s->size = size; space -= strlen(s->file); s->file = realloc(s->file, filenamelen); space += filenamelen; strcpy(s->file, file); s->line = line; rc = s->ptr; TreeAdd(&heap, s, space); } exit: Thread_unlock_mutex(heap_mutex); return (rc == NULL) ? NULL : ((eyecatcherType*)(rc)) + 1; /* skip start eyecatcher */ } /** * Utility to find an item in the heap. Lets you know if the heap already contains * the memory location in question. * @param p pointer to a memory location * @return pointer to the storage element if found, or NULL */ void* Heap_findItem(void* p) { Node* e = NULL; Thread_lock_mutex(heap_mutex); e = TreeFind(&heap, ((eyecatcherType*)p)-1); Thread_unlock_mutex(heap_mutex); return (e == NULL) ? NULL : e->content; } /** * Scans the heap and reports any items currently allocated. * To be used at shutdown if any heap items have not been freed. */ static void HeapScan(enum LOG_LEVELS log_level) { Node* current = NULL; Thread_lock_mutex(heap_mutex); Log(log_level, -1, "Heap scan start, total %d bytes", (int)state.current_size); while ((current = TreeNextElement(&heap, current)) != NULL) { storageElement* s = (storageElement*)(current->content); Log(log_level, -1, "Heap element size %d, line %d, file %s, ptr %p", (int)s->size, s->line, s->file, s->ptr); Log(log_level, -1, " Content %.*s", (10 > current->size) ? (int)s->size : 10, (char*)(((eyecatcherType*)s->ptr) + 1)); #if defined(HEAP_STACK) Log(log_level, -1, " Stack:\n%s", s->stack); #endif } Log(log_level, -1, "Heap scan end"); Thread_unlock_mutex(heap_mutex); } /** * Heap initialization. */ int Heap_initialize(void) { TreeInitializeNoMalloc(&heap, ptrCompare); heap.heap_tracking = 0; /* no recursive heap tracking! */ return 0; } /** * Heap termination. */ void Heap_terminate(void) { Log(TRACE_MIN, -1, "Maximum heap use was %d bytes", (int)state.max_size); if (state.current_size > 20) /* One log list is freed after this function is called */ { Log(LOG_ERROR, -1, "Some memory not freed at shutdown, possible memory leak"); HeapScan(LOG_ERROR); } } /** * Access to heap state * @return pointer to the heap state structure */ heap_info* Heap_get_info(void) { return &state; } /** * Dump a string from the heap so that it can be displayed conveniently * @param file file handle to dump the heap contents to * @param str the string to dump, could be NULL */ int HeapDumpString(FILE* file, char* str) { int rc = 0; size_t len = str ? strlen(str) + 1 : 0; /* include the trailing null */ if (fwrite(&(str), sizeof(char*), 1, file) != 1) rc = -1; else if (fwrite(&(len), sizeof(int), 1 ,file) != 1) rc = -1; else if (len > 0 && fwrite(str, len, 1, file) != 1) rc = -1; return rc; } /** * Dump the state of the heap * @param file file handle to dump the heap contents to */ int HeapDump(FILE* file) { int rc = 0; Node* current = NULL; while (rc == 0 && (current = TreeNextElement(&heap, current))) { storageElement* s = (storageElement*)(current->content); if (fwrite(&(s->ptr), sizeof(s->ptr), 1, file) != 1) rc = -1; else if (fwrite(&(current->size), sizeof(current->size), 1, file) != 1) rc = -1; else if (fwrite(s->ptr, current->size, 1, file) != 1) rc = -1; } return rc; } #endif #if defined(HEAP_UNIT_TESTS) void Log(enum LOG_LEVELS log_level, int msgno, char* format, ...) { printf("Log %s", format); } char* Broker_recordFFDC(char* symptoms) { printf("recordFFDC"); return ""; } #define malloc(x) mymalloc(__FILE__, __LINE__, x) #define realloc(a, b) myrealloc(__FILE__, __LINE__, a, b) #define free(x) myfree(__FILE__, __LINE__, x) int main(int argc, char *argv[]) { char* h = NULL; Heap_initialize(); h = malloc(12); free(h); printf("freed h\n"); h = malloc(12); h = realloc(h, 14); h = realloc(h, 25); h = realloc(h, 255); h = realloc(h, 2225); h = realloc(h, 22225); printf("freeing h\n"); free(h); Heap_terminate(); printf("Finishing\n"); return 0; } #endif /* HEAP_UNIT_TESTS */ /* Local Variables: */ /* indent-tabs-mode: t */ /* c-basic-offset: 8 */ /* End: */