d476592013-06-12Arne Goedeke #include "global.h" #include "pike_error.h" #include "pike_memory.h" #include "block_allocator.h" #include "bitvector.h"
aa432a2013-08-01Arne Goedeke #include <stdlib.h> #define BA_BLOCKN(l, p, n) ((struct ba_block_header *)((char*)(p) + (l).doffset + (n)*((l).block_size))) #define BA_LASTBLOCK(l, p) ((struct ba_block_header*)((char*)(p) + (l).doffset + (l).offset)) #define BA_CHECK_PTR(l, p, ptr) ((size_t)((char*)(ptr) - (char*)(p)) <= (l).offset + (l).doffset)
d476592013-06-12Arne Goedeke  #define BA_ONE ((struct ba_block_header *)1)
aa432a2013-08-01Arne Goedeke static void print_allocator(const struct block_allocator * a);
d476592013-06-12Arne Goedeke  static INLINE void ba_dec_layout(struct ba_layout * l, int i) { l->blocks >>= i; l->offset += l->block_size; l->offset >>= i; l->offset -= l->block_size; } static INLINE void ba_inc_layout(struct ba_layout * l, int i) { l->blocks <<= i; l->offset += l->block_size; l->offset <<= i; l->offset -= l->block_size; } static INLINE void ba_double_layout(struct ba_layout * l) { ba_inc_layout(l, 1); } static INLINE void ba_half_layout(struct ba_layout * l) { ba_dec_layout(l, 1); } static INLINE struct ba_layout ba_get_layout(const struct block_allocator * a, int i) { struct ba_layout l = a->l; ba_inc_layout(&l, i); return l; } struct ba_block_header { struct ba_block_header * next; }; static struct ba_page * ba_alloc_page(struct block_allocator * a, int i) { struct ba_layout l = ba_get_layout(a, i);
aa432a2013-08-01Arne Goedeke  size_t n = l.offset + l.block_size + l.doffset;
0e26b62013-07-01Arne Goedeke  struct ba_page * p;
aa432a2013-08-01Arne Goedeke  if (l.alignment) { p = (struct ba_page*)aligned_alloc(n, l.alignment); } else {
0e26b62013-07-01Arne Goedeke #ifdef DEBUG_MALLOC
aa432a2013-08-01Arne Goedeke  /* In debug malloc mode, calling xalloc from the block alloc may result * in a deadlock, since xalloc will call ba_alloc, which in turn may call xalloc. */ p = (struct ba_page*)system_malloc(n); if (!p) { fprintf(stderr, "Fatal: Out of memory.\n"); exit(17); }
0e26b62013-07-01Arne Goedeke #else
aa432a2013-08-01Arne Goedeke  p = (struct ba_page*)xalloc(n);
0e26b62013-07-01Arne Goedeke #endif
aa432a2013-08-01Arne Goedeke  }
d476592013-06-12Arne Goedeke  p->h.first = BA_BLOCKN(a->l, p, 0); p->h.first->next = BA_ONE; p->h.used = 0;
411bb52013-08-02Arne Goedeke  PIKE_MEM_NA_RANGE((char*)p + l.doffset, n - l.doffset);
d476592013-06-12Arne Goedeke  return p; }
aa432a2013-08-01Arne Goedeke  PMOD_EXPORT void ba_init_aligned(struct block_allocator * a, unsigned INT32 block_size, unsigned INT32 blocks, unsigned INT32 alignment) {
d476592013-06-12Arne Goedeke  block_size = MAXIMUM(block_size, sizeof(struct ba_block_header));
aa432a2013-08-01Arne Goedeke  if (alignment) { if (alignment & (alignment - 1)) Pike_fatal("Block allocator alignment is not a power of 2.\n"); if (block_size & (alignment-1)) Pike_fatal("Block allocator block size is not aligned.\n"); a->l.doffset = PIKE_ALIGNTO(sizeof(struct ba_page), alignment); } else { a->l.doffset = sizeof(struct ba_page); }
d476592013-06-12Arne Goedeke  blocks = round_up32(blocks); a->alloc = a->last_free = 0; a->size = 1; a->l.block_size = block_size; a->l.blocks = blocks; a->l.offset = block_size * (blocks-1);
aa432a2013-08-01Arne Goedeke  a->l.alignment = alignment;
d476592013-06-12Arne Goedeke  memset(a->pages, 0, sizeof(a->pages)); a->pages[0] = ba_alloc_page(a, 0);
411bb52013-08-02Arne Goedeke  PIKE_MEMPOOL_CREATE(a);
d476592013-06-12Arne Goedeke } PMOD_EXPORT void ba_destroy(struct block_allocator * a) { int i; for (i = 0; i < a->size; i++) { if (a->pages[i]) {
0e26b62013-07-01Arne Goedeke #ifdef DEBUG_MALLOC system_free(a->pages[i]); #else
d476592013-06-12Arne Goedeke  free(a->pages[i]);
0e26b62013-07-01Arne Goedeke #endif
d476592013-06-12Arne Goedeke  a->pages[i] = NULL; } } a->size = 0; a->alloc = 0; a->last_free = 0; } PMOD_EXPORT size_t ba_count(const struct block_allocator * a) { size_t c = 0; unsigned int i; for (i = 0; i < a->size; i++) { c += a->pages[i]->h.used; } return c; } PMOD_EXPORT void ba_count_all(const struct block_allocator * a, size_t * num, size_t * size) {
0ec53e2013-09-13Per Hedbor  size_t n = 0, b = sizeof( struct block_allocator ); unsigned int i; for( i=0; i<a->size; i++ ) { struct ba_layout l = ba_get_layout( a, i ); b += l.offset + l.block_size + l.doffset; n += a->pages[i]->h.used;
0e4e932013-06-13Arne Goedeke  }
0ec53e2013-09-13Per Hedbor  *num = n; *size = b;
d476592013-06-12Arne Goedeke } static void ba_low_alloc(struct block_allocator * a) { if (a->l.offset) { unsigned int i; for (i = 1; i <= a->size; i++) { struct ba_page * p = a->pages[a->size - i]; if (p->h.first) { a->alloc = a->size - i; return; } } if (a->size == (sizeof(a->pages)/sizeof(a->pages[0]))) { Pike_error("Out of memory."); } a->pages[a->size] = ba_alloc_page(a, a->size); a->alloc = a->size; a->size++; } else {
aa432a2013-08-01Arne Goedeke  ba_init_aligned(a, a->l.block_size, a->l.blocks, a->l.alignment);
d476592013-06-12Arne Goedeke  } } ATTRIBUTE((malloc)) PMOD_EXPORT void * ba_alloc(struct block_allocator * a) { struct ba_page * p = a->pages[a->alloc]; struct ba_block_header * ptr; if (!p || !p->h.first) { ba_low_alloc(a); p = a->pages[a->alloc]; } ptr = p->h.first;
411bb52013-08-02Arne Goedeke  PIKE_MEMPOOL_ALLOC(a, ptr, a->l.block_size); PIKE_MEM_RW_RANGE(ptr, sizeof(struct ba_block_header));
d476592013-06-12Arne Goedeke  p->h.used++;
aa432a2013-08-01Arne Goedeke #ifdef PIKE_DEBUG { struct ba_layout l = ba_get_layout(a, a->alloc); if (!BA_CHECK_PTR(l, p, ptr)) { print_allocator(a); Pike_fatal("about to return pointer from hell: %p\n", ptr); } } #endif
d476592013-06-12Arne Goedeke  if (ptr->next == BA_ONE) { struct ba_layout l = ba_get_layout(a, a->alloc); p->h.first = (struct ba_block_header*)((char*)ptr + a->l.block_size);
411bb52013-08-02Arne Goedeke  PIKE_MEMPOOL_ALLOC(a, p->h.first, a->l.block_size);
d476592013-06-12Arne Goedeke  p->h.first->next = (struct ba_block_header*)(ptrdiff_t)!(p->h.first == BA_LASTBLOCK(l, p));
411bb52013-08-02Arne Goedeke  PIKE_MEMPOOL_FREE(a, p->h.first, a->l.block_size);
d476592013-06-12Arne Goedeke  } else { p->h.first = ptr->next; }
411bb52013-08-02Arne Goedeke  PIKE_MEM_WO_RANGE(ptr, sizeof(struct ba_block_header));
aa432a2013-08-01Arne Goedeke  #if PIKE_DEBUG if (a->l.alignment && (size_t)ptr & (a->l.alignment - 1)) { print_allocator(a); Pike_fatal("Returning unaligned pointer.\n"); }
88924f2013-06-16Arne Goedeke #endif
d476592013-06-12Arne Goedeke  return ptr; } PMOD_EXPORT void ba_free(struct block_allocator * a, void * ptr) { int i = a->last_free; struct ba_page * p = a->pages[i]; struct ba_layout l = ba_get_layout(a, i);
aa432a2013-08-01Arne Goedeke #if PIKE_DEBUG if (a->l.alignment && (size_t)ptr & (a->l.alignment - 1)) { print_allocator(a); Pike_fatal("Returning unaligned pointer.\n"); } #endif
d476592013-06-12Arne Goedeke  if (BA_CHECK_PTR(l, p, ptr)) goto found;
aa432a2013-08-01Arne Goedeke #ifdef PIKE_DEBUG
d476592013-06-12Arne Goedeke  p = NULL;
aa432a2013-08-01Arne Goedeke #endif
d476592013-06-12Arne Goedeke  for (i = a->size-1, l = ba_get_layout(a, i); i >= 0; i--, ba_half_layout(&l)) { if (BA_CHECK_PTR(l, a->pages[i], ptr)) { a->last_free = i; p = a->pages[i]; break; } } found: #ifdef PIKE_DEBUG if (p) { #endif { struct ba_block_header * b = (struct ba_block_header*)ptr; b->next = p->h.first; p->h.first = b; #ifdef PIKE_DEBUG if (!p->h.used) {
aa432a2013-08-01Arne Goedeke  print_allocator(a); Pike_fatal("freeing from empty page %p\n", p);
d476592013-06-12Arne Goedeke  } #endif if (!(--p->h.used) && i+1 == a->size) { while (i >= 0 && !(p->h.used)) {
0e26b62013-07-01Arne Goedeke #ifdef DEBUG_MALLOC system_free(p); #else
d476592013-06-12Arne Goedeke  free(p);
0e26b62013-07-01Arne Goedeke #endif
d476592013-06-12Arne Goedeke  a->pages[i] = NULL; p = a->pages[--i]; } a->size = i+1; a->alloc = a->last_free = MAXIMUM(0, i); } } #ifdef PIKE_DEBUG } else {
aa432a2013-08-01Arne Goedeke  print_allocator(a);
d476592013-06-12Arne Goedeke  Pike_fatal("ptr %p not in any page.\n", ptr); } #endif
411bb52013-08-02Arne Goedeke  PIKE_MEMPOOL_FREE(a, ptr, a->l.block_size);
d476592013-06-12Arne Goedeke }
aa432a2013-08-01Arne Goedeke  static void print_allocator(const struct block_allocator * a) { int i; struct ba_layout l; for (i = a->size-1, l = ba_get_layout(a, i); i >= 0; ba_half_layout(&l), i--) { struct ba_page * p = a->pages[i]; fprintf(stderr, "page: %p used: %u/%u last: %p p+offset: %p\n", a->pages[i], p->h.used, l.blocks, BA_BLOCKN(l, p, l.blocks-1), BA_LASTBLOCK(l, p)); } }