Mercurial > dropbear
view dbmalloc.c @ 1457:32f990cc96b1 fuzz
fix bad assertion
| author | Matt Johnston <matt@ucc.asn.au> |
|---|---|
| date | Tue, 23 Jan 2018 23:27:40 +0800 |
| parents | 7209a6e30932 |
| children | c42e8ff42bd1 |
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#include "dbmalloc.h" #include "dbutil.h" struct dbmalloc_header { unsigned int epoch; struct dbmalloc_header *prev; struct dbmalloc_header *next; }; static void put_alloc(struct dbmalloc_header *header); static void remove_alloc(struct dbmalloc_header *header); /* end of the linked list */ static struct dbmalloc_header* staple; unsigned int current_epoch = 0; void m_malloc_set_epoch(unsigned int epoch) { current_epoch = epoch; } void m_malloc_free_epoch(unsigned int epoch, int dofree) { struct dbmalloc_header* header; struct dbmalloc_header* nextheader = NULL; struct dbmalloc_header* oldstaple = staple; staple = NULL; /* free allocations from this epoch, create a new staple-anchored list from the remainder */ for (header = oldstaple; header; header = nextheader) { nextheader = header->next; if (header->epoch == epoch) { if (dofree) { free(header); } } else { header->prev = NULL; header->next = NULL; put_alloc(header); } } } static void put_alloc(struct dbmalloc_header *header) { assert(header->next == NULL); assert(header->prev == NULL); if (staple) { staple->prev = header; } header->next = staple; staple = header; } static void remove_alloc(struct dbmalloc_header *header) { if (header->prev) { header->prev->next = header->next; } if (header->next) { header->next->prev = header->prev; } if (staple == header) { staple = header->next; } header->prev = NULL; header->next = NULL; } static struct dbmalloc_header* get_header(void* ptr) { char* bptr = ptr; return (struct dbmalloc_header*)&bptr[-sizeof(struct dbmalloc_header)]; } void * m_malloc(size_t size) { char* mem = NULL; struct dbmalloc_header* header = NULL; if (size == 0 || size > 1e9) { dropbear_exit("m_malloc failed"); } size = size + sizeof(struct dbmalloc_header); mem = calloc(1, size); if (mem == NULL) { dropbear_exit("m_malloc failed"); } header = (struct dbmalloc_header*)mem; put_alloc(header); header->epoch = current_epoch; return &mem[sizeof(struct dbmalloc_header)]; } void * m_calloc(size_t nmemb, size_t size) { if (SIZE_T_MAX / nmemb < size) { dropbear_exit("m_calloc failed"); } return m_malloc(nmemb*size); } void * m_realloc(void* ptr, size_t size) { char* mem = NULL; struct dbmalloc_header* header = NULL; if (size == 0 || size > 1e9) { dropbear_exit("m_realloc failed"); } header = get_header(ptr); remove_alloc(header); size = size + sizeof(struct dbmalloc_header); mem = realloc(header, size); if (mem == NULL) { dropbear_exit("m_realloc failed"); } header = (struct dbmalloc_header*)mem; put_alloc(header); return &mem[sizeof(struct dbmalloc_header)]; } void m_free_direct(void* ptr) { struct dbmalloc_header* header = NULL; if (!ptr) { return; } header = get_header(ptr); remove_alloc(header); free(header); } void * m_strdup(const char * str) { char* ret; unsigned int len; len = strlen(str); ret = m_malloc(len+1); if (ret == NULL) { dropbear_exit("m_strdup failed"); } memcpy(ret, str, len+1); return ret; }