#ifdef TEST # include # include # define XCACHE_DEBUG typedef int zend_bool; # define ZEND_ATTRIBUTE_PTR_FORMAT(a, b, c) # define zend_error(type, error) fprintf(stderr, "%s", error) #else # include #endif #ifdef XCACHE_DEBUG # define ALLOC_DEBUG_BLOCK_CHECK #endif #include #include #include #define XC_MEMBLOCK_IMPL _xc_mem_block_t #define XC_MEM_IMPL _xc_mem_mem_t #include "xc_shm.h" #include "util/xc_align.h" #include "util/xc_trace.h" #if 0 #undef ALLOC_DEBUG_BLOCK_CHECK #endif #define CHAR_PTR(p) ((char *) (p)) #define PADD(p, a) (CHAR_PTR(p) + a) #define PSUB(p1, p2) (CHAR_PTR(p1) - CHAR_PTR(p2)) /* {{{ mem */ struct _xc_mem_block_t { #ifdef ALLOC_DEBUG_BLOCK_CHECK unsigned int magic; #endif xc_memsize_t size; /* reserved even after alloc */ xc_block_t *next; /* not used after alloc */ }; struct _xc_mem_mem_t { const xc_mem_handlers_t *handlers; xc_shm_t *shm; xc_memsize_t size; xc_memsize_t avail; /* total free */ xc_block_t headblock[1]; /* just as a pointer to first block*/ }; #ifndef XtOffsetOf # include # define XtOffsetOf(s_type, field) offsetof(s_type, field) #endif #define SizeOf(type, field) sizeof( ((type *) 0)->field ) #define BLOCK_HEADER_SIZE() (ALIGN( XtOffsetOf(xc_block_t, size) + SizeOf(xc_block_t, size) )) #define BLOCK_MAGIC ((unsigned int) 0x87655678) /* }}} */ static inline void xc_block_setup(xc_block_t *b, xc_memsize_t size, xc_block_t *next) /* {{{ */ { #ifdef ALLOC_DEBUG_BLOCK_CHECK b->magic = BLOCK_MAGIC; #endif b->size = size; b->next = next; } /* }}} */ #ifdef ALLOC_DEBUG_BLOCK_CHECK static void xc_block_check(xc_block_t *b) /* {{{ */ { if (b->magic != BLOCK_MAGIC) { fprintf(stderr, "0x%X != 0x%X magic wrong \n", b->magic, BLOCK_MAGIC); } } /* }}} */ #else # define xc_block_check(b) do { } while(0) #endif static XC_MEM_MALLOC(xc_mem_malloc) /* {{{ */ { xc_block_t *prev, *cur; xc_block_t *newb, *b; xc_memsize_t realsize; xc_memsize_t minsize; void *p; /* [xc_block_t:size|size] */ realsize = BLOCK_HEADER_SIZE() + size; /* realsize is ALIGNed so next block start at ALIGNed address */ realsize = ALIGN(realsize); TRACE("avail: %lu (%luKB). Allocate size: %lu realsize: %lu (%luKB)" , mem->avail, mem->avail / 1024 , size , realsize, realsize / 1024 ); do { p = NULL; if (mem->avail < realsize) { TRACE("%s", " oom"); break; } b = NULL; minsize = ULONG_MAX; /* prev|cur */ for (prev = mem->headblock; prev->next; prev = cur) { /* while (prev->next != 0) { */ cur = prev->next; xc_block_check(cur); if (cur->size == realsize) { /* found a perfect fit, stop searching */ b = prev; break; } /* make sure we can split on the block */ else if (cur->size > (sizeof(xc_block_t) + realsize) && cur->size < minsize) { /* cur is acceptable and memller */ b = prev; minsize = cur->size; } prev = cur; } if (b == NULL) { TRACE("%s", " no fit chunk"); break; } prev = b; cur = prev->next; p = PADD(cur, BLOCK_HEADER_SIZE()); /* update the block header */ mem->avail -= realsize; /* perfect fit, just unlink */ if (cur->size == realsize) { prev->next = cur->next; TRACE(" perfect fit. Got: %p", p); break; } /* make new free block after alloced space */ /* save, as it might be overwrited by newb (cur->size is ok) */ b = cur->next; /* prev|cur |next=b */ newb = (xc_block_t *)PADD(cur, realsize); xc_block_setup(newb, cur->size - realsize, b); cur->size = realsize; /* prev|cur|newb|next * `--^ */ TRACE(" -> avail: %lu (%luKB). new next: %p offset: %lu %luKB. Got: %p" , mem->avail, mem->avail / 1024 , newb , PSUB(newb, mem), PSUB(newb, mem) / 1024 , p ); prev->next = newb; /* prev|cur|newb|next * `-----^ */ } while (0); return p; } /* }}} */ static XC_MEM_FREE(xc_mem_free) /* {{{ return block size freed */ { xc_block_t *cur, *b; int size; cur = (xc_block_t *) (CHAR_PTR(p) - BLOCK_HEADER_SIZE()); TRACE("freeing: %p, size=%lu", p, cur->size); xc_block_check(cur); assert((char*)mem < (char*)cur && (char*)cur < (char*)mem + mem->size); /* find free block right before the p */ b = mem->headblock; while (b->next != 0 && b->next < cur) { b = b->next; } /* restore block */ cur->next = b->next; b->next = cur; size = cur->size; TRACE(" avail %lu (%luKB)", mem->avail, mem->avail / 1024); mem->avail += size; /* combine prev|cur */ if (PADD(b, b->size) == (char *)cur) { b->size += cur->size; b->next = cur->next; cur = b; TRACE("%s", " combine prev"); } /* combine cur|next */ b = cur->next; if (PADD(cur, cur->size) == (char *)b) { cur->size += b->size; cur->next = b->next; TRACE("%s", " combine next"); } TRACE(" -> avail %lu (%luKB)", mem->avail, mem->avail / 1024); return size; } /* }}} */ static XC_MEM_CALLOC(xc_mem_calloc) /* {{{ */ { xc_memsize_t realsize = memb * size; void *p = xc_mem_malloc(mem, realsize); if (p) { memset(p, 0, realsize); } return p; } /* }}} */ static XC_MEM_REALLOC(xc_mem_realloc) /* {{{ */ { void *newp = xc_mem_malloc(mem, size); if (p && newp) { memcpy(newp, p, size); xc_mem_free(mem, p); } return newp; } /* }}} */ static XC_MEM_STRNDUP(xc_mem_strndup) /* {{{ */ { void *p = xc_mem_malloc(mem, len + 1); if (p) { memcpy(p, str, len + 1); } return p; } /* }}} */ static XC_MEM_STRDUP(xc_mem_strdup) /* {{{ */ { return xc_mem_strndup(mem, str, strlen(str)); } /* }}} */ static XC_MEM_AVAIL(xc_mem_avail) /* {{{ */ { return mem->avail; } /* }}} */ static XC_MEM_SIZE(xc_mem_size) /* {{{ */ { return mem->size; } /* }}} */ static XC_MEM_FREEBLOCK_FIRST(xc_mem_freeblock_first) /* {{{ */ { return mem->headblock->next; } /* }}} */ XC_MEM_FREEBLOCK_NEXT(xc_mem_freeblock_next) /* {{{ */ { return block->next; } /* }}} */ XC_MEM_BLOCK_SIZE(xc_mem_block_size) /* {{{ */ { return block->size; } /* }}} */ XC_MEM_BLOCK_OFFSET(xc_mem_block_offset) /* {{{ */ { return ((char *) block) - ((char *) mem); } /* }}} */ static XC_MEM_INIT(xc_mem_init) /* {{{ */ { xc_block_t *b; #define MINSIZE (ALIGN(sizeof(xc_mem_t)) + sizeof(xc_block_t)) /* requires at least the header and 1 tail block */ if (size < MINSIZE) { fprintf(stderr, "xc_mem_init requires %lu bytes at least\n", (unsigned long) MINSIZE); return NULL; } TRACE("size=%lu", size); mem->shm = shm; mem->size = size; mem->avail = size - MINSIZE; /* pointer to first block, right after ALIGNed header */ b = mem->headblock; xc_block_setup(b, 0, (xc_block_t *) PADD(mem, ALIGN(sizeof(xc_mem_t)))); /* first block*/ b = b->next; xc_block_setup(b, mem->avail, 0); #undef MINSIZE return mem; } /* }}} */ static XC_MEM_DESTROY(xc_mem_destroy) /* {{{ */ { } /* }}} */ #ifdef TEST /* {{{ testing */ #undef CHECK #define CHECK(a, msg) do { \ if (!(a)) { \ fprintf(stderr, "%s\n", msg); return -1; \ } \ } while (0) #include int main() { int count = 0; void *p; void *memory; xc_mem_t *mem; void **ptrs; int size, i; #if 0 fprintf(stderr, "%s", "Input test size: "); scanf("%d", &size); #else size = 1024; #endif CHECK(memory = malloc(size), "OOM"); CHECK(ptrs = malloc(size * sizeof(void *)), "OOM"); mem = (xc_mem_t *) memory; CHECK(mem = xc_mem_init(NULL, mem, size), "Failed init memory allocator"); while ((p = xc_mem_malloc(mem, 1))) { ptrs[count ++] = p; } fprintf(stderr, "count=%d, random freeing\n", count); srandom(time(NULL)); while (count) { i = (random() % count); fprintf(stderr, "freeing %d: ", i); xc_mem_free(mem, ptrs[i]); ptrs[i] = ptrs[count - 1]; count --; } free(ptrs); free(memory); return 0; } /* }}} */ #endif typedef struct { const char *name; const xc_mem_handlers_t *handlers; } xc_mem_scheme_t; static xc_mem_scheme_t xc_mem_schemes[10]; int xc_mem_scheme_register(const char *name, const xc_mem_handlers_t *handlers) /* {{{ */ { int i; for (i = 0; i < 10; i ++) { if (!xc_mem_schemes[i].name) { xc_mem_schemes[i].name = name; xc_mem_schemes[i].handlers = handlers; return 1; } } return 0; } /* }}} */ const xc_mem_handlers_t *xc_mem_scheme_find(const char *name) /* {{{ */ { int i; for (i = 0; i < 10 && xc_mem_schemes[i].name; i ++) { if (strcmp(xc_mem_schemes[i].name, name) == 0) { return xc_mem_schemes[i].handlers; } } return NULL; } /* }}} */ static xc_mem_handlers_t xc_mem_mem_handlers = XC_MEM_HANDLERS(mem); void xc_shm_mem_init() /* {{{ */ { memset(xc_mem_schemes, 0, sizeof(xc_mem_schemes)); if (xc_mem_scheme_register("mem", &xc_mem_mem_handlers) == 0) { zend_error(E_ERROR, "XCache: failed to register mem mem_scheme"); } } /* }}} */