/* * BIRD Resource Manager * * (c) 1998--1999 Martin Mares * (c) 2021 Maria Matejka * * Can be freely distributed and used under the terms of the GNU GPL. */ #ifndef _BIRD_RESOURCE_H_ #define _BIRD_RESOURCE_H_ #include "lib/locking.h" #include "lib/tlists.h" #include struct resmem { size_t effective; /* Memory actually used for data storage */ size_t overhead; /* Overhead memory imposed by allocator strategies */ }; /* Resource */ #define TLIST_PREFIX resource #define TLIST_TYPE struct resource #define TLIST_ITEM n #define TLIST_WANT_WALK #define TLIST_WANT_ADD_TAIL #define TLIST_WANT_UPDATE_NODE typedef struct resource { TLIST_DEFAULT_NODE; /* Inside resource pool */ const struct resclass *class; /* Resource class */ } resource; #include "lib/tlists.h" /* Resource class */ struct resclass { char *name; /* Resource class name */ unsigned size; /* Standard size of single resource */ void (*free)(resource *); /* Freeing function */ void (*dump)(resource *, unsigned indent); /* Dump to debug output */ resource *(*lookup)(resource *, unsigned long); /* Look up address (only for debugging) */ struct resmem (*memsize)(resource *); /* Return size of memory used by the resource, may be NULL */ }; /* Estimate of system allocator overhead per item, for memory consumtion stats */ #define ALLOC_OVERHEAD 16 /* Generic resource manipulation */ typedef struct pool { resource r; TLIST_LIST(resource) inside; struct domain_generic *domain; const char *name; } pool; void resource_init(void); void rfree(void *); /* Free single resource */ void rdump(void *, unsigned indent); /* Dump to debug output */ struct resmem rmemsize(void *res); /* Return size of memory used by the resource */ void rlookup(unsigned long); /* Look up address (only for debugging) */ void rmove(void *, pool *); /* Move to a different pool */ void *ralloc(pool *, struct resclass *); pool *rp_new(pool *, struct domain_generic *, const char *); /* Create a new pool */ pool *rp_newf(pool *, struct domain_generic *, const char *, ...); /* Create a new pool with a formatted string as its name */ pool *rp_vnewf(pool *, struct domain_generic *, const char *, va_list); /* Create a new pool with a formatted string as its name */ void rp_free(pool *p); /* Free the whole pool */ extern pool root_pool; static inline pool *resource_parent(resource *r) { return SKIP_BACK(pool, inside, resource_enlisted(r)); } /* Normal memory blocks */ void *mb_alloc(pool *, unsigned size); void *mb_allocz(pool *, unsigned size); void *mb_realloc(void *m, unsigned size); void mb_free(void *); /* Memory pools with linear allocation */ typedef struct linpool linpool; typedef struct lp_state { struct linpool *p; void *current, *large; uint total_large; } lp_state; linpool *lp_new(pool *); void *lp_alloc(linpool *, unsigned size); /* Aligned */ void *lp_allocu(linpool *, unsigned size); /* Unaligned */ void *lp_allocz(linpool *, unsigned size); /* With clear */ void lp_flush(linpool *); /* Free everything, but leave linpool */ lp_state *lp_save(linpool *m); /* Save state */ void lp_restore(linpool *m, lp_state *p); /* Restore state */ static inline void lp_saved_cleanup(struct lp_state **lps) { if (*lps) lp_restore((*lps)->p, (*lps)); } #define LP_SAVED(m) for (CLEANUP(lp_saved_cleanup) struct lp_state *_lp_state = lp_save(m); _lp_state; lp_restore(m, _lp_state), _lp_state = NULL) #define lp_new_default lp_new /* Thread-local temporary linpools */ extern _Thread_local linpool *tmp_linpool; #define tmp_alloc(sz) lp_alloc(tmp_linpool, sz) #define tmp_allocu(sz) lp_allocu(tmp_linpool, sz) #define tmp_allocz(sz) lp_allocz(tmp_linpool, sz) #define TMP_SAVED LP_SAVED(tmp_linpool) void tmp_init(pool *p); void tmp_flush(void); /* Slabs */ typedef struct slab slab; slab *sl_new(pool *, unsigned size); void *sl_alloc(slab *); void *sl_allocz(slab *); void sl_free(void *); void sl_delete(slab *); /* * Low-level memory allocation functions, please don't use * outside resource manager and possibly sysdep code. */ void buffer_realloc(void **buf, unsigned *size, unsigned need, unsigned item_size); /* Allocator of whole pages; for use in slabs and other high-level allocators. */ #define PAGE_HEAD(x) ((void *) (((uintptr_t) (x)) & ~(page_size-1))) extern long page_size; extern _Atomic int pages_kept; extern _Atomic int pages_kept_locally; void *alloc_page(void); void free_page(void *); void flush_local_pages(void); void resource_sys_init(void); #ifdef HAVE_LIBDMALLOC /* * The standard dmalloc macros tend to produce lots of namespace * conflicts and we use only xmalloc, xrealloc and xfree, so we * can define the stubs ourselves. */ #define DMALLOC_DISABLE #include #define xmalloc(size) \ dmalloc_malloc(__FILE__, __LINE__, (size), DMALLOC_FUNC_MALLOC, 0, 1) #define xrealloc(ptr, size) \ dmalloc_realloc(__FILE__, __LINE__, (ptr), (size), DMALLOC_FUNC_REALLOC, 1) #define xfree(ptr) \ dmalloc_free(__FILE__, __LINE__, (ptr), DMALLOC_FUNC_FREE) #else /* * Unfortunately, several libraries we might want to link to define * their own xmalloc and we don't want to interfere with them, hence * the renaming. */ #define xmalloc bird_xmalloc #define xrealloc bird_xrealloc void *xmalloc(unsigned); void *xrealloc(void *, unsigned); #define xfree(x) free(x) #endif #endif