X-Git-Url: http://repo.macrolet.net/gitweb/?a=blobdiff_plain;f=src%2Fruntime%2Fgencgc.c;h=acc79f5f2028adcddc63197d370b2deff8446828;hb=26b063e941624112ea53eacc7ad1f4fb158d1cca;hp=3eb134fd787a66eef9b67d815ec6ba66222899b4;hpb=1e161456a066b34e4a764fd351217dafc4f4f787;p=sbcl.git diff --git a/src/runtime/gencgc.c b/src/runtime/gencgc.c index 3eb134f..acc79f5 100644 --- a/src/runtime/gencgc.c +++ b/src/runtime/gencgc.c @@ -79,11 +79,11 @@ boolean enable_page_protection = 1; /* the minimum size (in bytes) for a large object*/ #if (GENCGC_ALLOC_GRANULARITY >= PAGE_BYTES) && (GENCGC_ALLOC_GRANULARITY >= GENCGC_CARD_BYTES) -long large_object_size = 4 * GENCGC_ALLOC_GRANULARITY; +os_vm_size_t large_object_size = 4 * GENCGC_ALLOC_GRANULARITY; #elif (GENCGC_CARD_BYTES >= PAGE_BYTES) && (GENCGC_CARD_BYTES >= GENCGC_ALLOC_GRANULARITY) -long large_object_size = 4 * GENCGC_CARD_BYTES; +os_vm_size_t large_object_size = 4 * GENCGC_CARD_BYTES; #else -long large_object_size = 4 * PAGE_BYTES; +os_vm_size_t large_object_size = 4 * PAGE_BYTES; #endif @@ -254,8 +254,8 @@ npage_bytes(page_index_t npages) /* Check that X is a higher address than Y and return offset from Y to * X in bytes. */ -static inline -size_t void_diff(void *x, void *y) +static inline os_vm_size_t +void_diff(void *x, void *y) { gc_assert(x >= y); return (pointer_sized_uint_t)x - (pointer_sized_uint_t)y; @@ -872,15 +872,11 @@ gc_alloc_new_region(long nbytes, int page_type_flag, struct alloc_region *alloc_ /* we can do this after releasing free_pages_lock */ if (gencgc_zero_check) { - long *p; - for (p = (long *)alloc_region->start_addr; - p < (long *)alloc_region->end_addr; p++) { + word_t *p; + for (p = (word_t *)alloc_region->start_addr; + p < (word_t *)alloc_region->end_addr; p++) { if (*p != 0) { - /* KLUDGE: It would be nice to use %lx and explicit casts - * (long) in code like this, so that it is less likely to - * break randomly when running on a machine with different - * word sizes. -- WHN 19991129 */ - lose("The new region at %x is not zero (start=%p, end=%p).\n", + lose("The new region is not zero at %p (start=%p, end=%p).\n", p, alloc_region->start_addr, alloc_region->end_addr); } } @@ -988,13 +984,13 @@ add_new_area(page_index_t first_page, size_t offset, size_t size) void gc_alloc_update_page_tables(int page_type_flag, struct alloc_region *alloc_region) { - int more; + boolean more; page_index_t first_page; page_index_t next_page; - unsigned long bytes_used; - unsigned long orig_first_page_bytes_used; - unsigned long region_size; - unsigned long byte_cnt; + os_vm_size_t bytes_used; + os_vm_size_t region_size; + os_vm_size_t byte_cnt; + page_bytes_t orig_first_page_bytes_used; int ret; @@ -1120,13 +1116,11 @@ static inline void *gc_quick_alloc(long nbytes); void * gc_alloc_large(long nbytes, int page_type_flag, struct alloc_region *alloc_region) { - page_index_t first_page; - page_index_t last_page; - int orig_first_page_bytes_used; - long byte_cnt; - int more; - unsigned long bytes_used; - page_index_t next_page; + boolean more; + page_index_t first_page, next_page, last_page; + page_bytes_t orig_first_page_bytes_used; + os_vm_size_t byte_cnt; + os_vm_size_t bytes_used; int ret; ret = thread_mutex_lock(&free_pages_lock); @@ -1414,12 +1408,6 @@ gc_quick_alloc(long nbytes) } static inline void * -gc_quick_alloc_large(long nbytes) -{ - return gc_general_alloc(nbytes, BOXED_PAGE_FLAG ,ALLOC_QUICK); -} - -static inline void * gc_alloc_unboxed(long nbytes) { return gc_general_alloc(nbytes, UNBOXED_PAGE_FLAG, 0); @@ -1430,22 +1418,15 @@ gc_quick_alloc_unboxed(long nbytes) { return gc_general_alloc(nbytes, UNBOXED_PAGE_FLAG, ALLOC_QUICK); } - -static inline void * -gc_quick_alloc_large_unboxed(long nbytes) -{ - return gc_general_alloc(nbytes, UNBOXED_PAGE_FLAG, ALLOC_QUICK); -} - -/* Copy a large boxed object. If the object is in a large object - * region then it is simply promoted, else it is copied. If it's large - * enough then it's copied to a large object region. +/* Copy a large object. If the object is in a large object region then + * it is simply promoted, else it is copied. If it's large enough then + * it's copied to a large object region. * - * Vectors may have shrunk. If the object is not copied the space - * needs to be reclaimed, and the page_tables corrected. */ -lispobj -copy_large_object(lispobj object, long nwords) + * Bignums and vectors may have shrunk. If the object is not copied + * the space needs to be reclaimed, and the page_tables corrected. */ +static lispobj +general_copy_large_object(lispobj object, long nwords, boolean boxedp) { int tag; lispobj *new; @@ -1455,54 +1436,71 @@ copy_large_object(lispobj object, long nwords) gc_assert(from_space_p(object)); gc_assert((nwords & 0x01) == 0); + if ((nwords > 1024*1024) && gencgc_verbose) { + FSHOW((stderr, "/general_copy_large_object: %d bytes\n", + nwords*N_WORD_BYTES)); + } - /* Check whether it's in a large object region. */ + /* Check whether it's a large object. */ first_page = find_page_index((void *)object); gc_assert(first_page >= 0); if (page_table[first_page].large_object) { - - /* Promote the object. */ - - unsigned long remaining_bytes; + /* Promote the object. Note: Unboxed objects may have been + * allocated to a BOXED region so it may be necessary to + * change the region to UNBOXED. */ + os_vm_size_t remaining_bytes; + os_vm_size_t bytes_freed; page_index_t next_page; - unsigned long bytes_freed; - unsigned long old_bytes_used; + page_bytes_t old_bytes_used; - /* Note: Any page write-protection must be removed, else a + /* FIXME: This comment is somewhat stale. + * + * Note: Any page write-protection must be removed, else a * later scavenge_newspace may incorrectly not scavenge these * pages. This would not be necessary if they are added to the * new areas, but let's do it for them all (they'll probably * be written anyway?). */ gc_assert(page_table[first_page].region_start_offset == 0); - next_page = first_page; remaining_bytes = nwords*N_WORD_BYTES; + while (remaining_bytes > GENCGC_CARD_BYTES) { gc_assert(page_table[next_page].gen == from_space); - gc_assert(page_boxed_p(next_page)); gc_assert(page_table[next_page].large_object); gc_assert(page_table[next_page].region_start_offset == npage_bytes(next_page-first_page)); gc_assert(page_table[next_page].bytes_used == GENCGC_CARD_BYTES); - /* Should have been unprotected by unprotect_oldspace(). */ - gc_assert(page_table[next_page].write_protected == 0); - + /* Should have been unprotected by unprotect_oldspace() + * for boxed objects, and after promotion unboxed ones + * should not be on protected pages at all. */ + gc_assert(!page_table[next_page].write_protected); + + if (boxedp) + gc_assert(page_boxed_p(next_page)); + else { + gc_assert(page_allocated_no_region_p(next_page)); + page_table[next_page].allocated = UNBOXED_PAGE_FLAG; + } page_table[next_page].gen = new_space; remaining_bytes -= GENCGC_CARD_BYTES; next_page++; } - /* Now only one page remains, but the object may have shrunk - * so there may be more unused pages which will be freed. */ + /* Now only one page remains, but the object may have shrunk so + * there may be more unused pages which will be freed. */ - /* The object may have shrunk but shouldn't have grown. */ + /* Object may have shrunk but shouldn't have grown - check. */ gc_assert(page_table[next_page].bytes_used >= remaining_bytes); page_table[next_page].gen = new_space; - gc_assert(page_boxed_p(next_page)); + + if (boxedp) + gc_assert(page_boxed_p(next_page)); + else + page_table[next_page].allocated = UNBOXED_PAGE_FLAG; /* Adjust the bytes_used. */ old_bytes_used = page_table[next_page].bytes_used; @@ -1514,14 +1512,21 @@ copy_large_object(lispobj object, long nwords) next_page++; while ((old_bytes_used == GENCGC_CARD_BYTES) && (page_table[next_page].gen == from_space) && - page_boxed_p(next_page) && + /* FIXME: It is not obvious to me why this is necessary + * as a loop condition: it seems to me that the + * region_start_offset test should be sufficient, but + * experimentally that is not the case. --NS + * 2011-11-28 */ + (boxedp ? + page_boxed_p(next_page) : + page_allocated_no_region_p(next_page)) && page_table[next_page].large_object && (page_table[next_page].region_start_offset == npage_bytes(next_page - first_page))) { - /* Checks out OK, free the page. Don't need to bother zeroing + /* Checks out OK, free the page. Don't need to both zeroing * pages as this should have been done before shrinking the - * object. These pages shouldn't be write-protected as they - * should be zero filled. */ + * object. These pages shouldn't be write-protected, even if + * boxed they should be zero filled. */ gc_assert(page_table[next_page].write_protected == 0); old_bytes_used = page_table[next_page].bytes_used; @@ -1531,22 +1536,33 @@ copy_large_object(lispobj object, long nwords) next_page++; } - generations[from_space].bytes_allocated -= N_WORD_BYTES*nwords + if ((bytes_freed > 0) && gencgc_verbose) { + FSHOW((stderr, + "/general_copy_large_object bytes_freed=%"OS_VM_SIZE_FMT"\n", + bytes_freed)); + } + + generations[from_space].bytes_allocated -= nwords*N_WORD_BYTES + bytes_freed; - generations[new_space].bytes_allocated += N_WORD_BYTES*nwords; + generations[new_space].bytes_allocated += nwords*N_WORD_BYTES; bytes_allocated -= bytes_freed; /* Add the region to the new_areas if requested. */ - add_new_area(first_page,0,nwords*N_WORD_BYTES); + if (boxedp) + add_new_area(first_page,0,nwords*N_WORD_BYTES); return(object); + } else { /* Get tag of object. */ tag = lowtag_of(object); /* Allocate space. */ - new = gc_quick_alloc_large(nwords*N_WORD_BYTES); + new = gc_general_alloc(nwords*N_WORD_BYTES, + (boxedp ? BOXED_PAGE_FLAG : UNBOXED_PAGE_FLAG), + ALLOC_QUICK); + /* Copy the object. */ memcpy(new,native_pointer(object),nwords*N_WORD_BYTES); /* Return Lisp pointer of new object. */ @@ -1554,6 +1570,18 @@ copy_large_object(lispobj object, long nwords) } } +lispobj +copy_large_object(lispobj object, long nwords) +{ + return general_copy_large_object(object, nwords, 1); +} + +lispobj +copy_large_unboxed_object(lispobj object, long nwords) +{ + return general_copy_large_object(object, nwords, 0); +} + /* to copy unboxed objects */ lispobj copy_unboxed_object(lispobj object, long nwords) @@ -1576,131 +1604,6 @@ copy_unboxed_object(lispobj object, long nwords) /* Return Lisp pointer of new object. */ return ((lispobj) new) | tag; } - -/* to copy large unboxed objects - * - * If the object is in a large object region then it is simply - * promoted, else it is copied. If it's large enough then it's copied - * to a large object region. - * - * Bignums and vectors may have shrunk. If the object is not copied - * the space needs to be reclaimed, and the page_tables corrected. - * - * KLUDGE: There's a lot of cut-and-paste duplication between this - * function and copy_large_object(..). -- WHN 20000619 */ -lispobj -copy_large_unboxed_object(lispobj object, long nwords) -{ - int tag; - lispobj *new; - page_index_t first_page; - - gc_assert(is_lisp_pointer(object)); - gc_assert(from_space_p(object)); - gc_assert((nwords & 0x01) == 0); - - if ((nwords > 1024*1024) && gencgc_verbose) { - FSHOW((stderr, "/copy_large_unboxed_object: %d bytes\n", - nwords*N_WORD_BYTES)); - } - - /* Check whether it's a large object. */ - first_page = find_page_index((void *)object); - gc_assert(first_page >= 0); - - if (page_table[first_page].large_object) { - /* Promote the object. Note: Unboxed objects may have been - * allocated to a BOXED region so it may be necessary to - * change the region to UNBOXED. */ - unsigned long remaining_bytes; - page_index_t next_page; - unsigned long bytes_freed; - unsigned long old_bytes_used; - - gc_assert(page_table[first_page].region_start_offset == 0); - - next_page = first_page; - remaining_bytes = nwords*N_WORD_BYTES; - while (remaining_bytes > GENCGC_CARD_BYTES) { - gc_assert(page_table[next_page].gen == from_space); - gc_assert(page_allocated_no_region_p(next_page)); - gc_assert(page_table[next_page].large_object); - gc_assert(page_table[next_page].region_start_offset == - npage_bytes(next_page-first_page)); - gc_assert(page_table[next_page].bytes_used == GENCGC_CARD_BYTES); - - page_table[next_page].gen = new_space; - page_table[next_page].allocated = UNBOXED_PAGE_FLAG; - remaining_bytes -= GENCGC_CARD_BYTES; - next_page++; - } - - /* Now only one page remains, but the object may have shrunk so - * there may be more unused pages which will be freed. */ - - /* Object may have shrunk but shouldn't have grown - check. */ - gc_assert(page_table[next_page].bytes_used >= remaining_bytes); - - page_table[next_page].gen = new_space; - page_table[next_page].allocated = UNBOXED_PAGE_FLAG; - - /* Adjust the bytes_used. */ - old_bytes_used = page_table[next_page].bytes_used; - page_table[next_page].bytes_used = remaining_bytes; - - bytes_freed = old_bytes_used - remaining_bytes; - - /* Free any remaining pages; needs care. */ - next_page++; - while ((old_bytes_used == GENCGC_CARD_BYTES) && - (page_table[next_page].gen == from_space) && - page_allocated_no_region_p(next_page) && - page_table[next_page].large_object && - (page_table[next_page].region_start_offset == - npage_bytes(next_page - first_page))) { - /* Checks out OK, free the page. Don't need to both zeroing - * pages as this should have been done before shrinking the - * object. These pages shouldn't be write-protected, even if - * boxed they should be zero filled. */ - gc_assert(page_table[next_page].write_protected == 0); - - old_bytes_used = page_table[next_page].bytes_used; - page_table[next_page].allocated = FREE_PAGE_FLAG; - page_table[next_page].bytes_used = 0; - bytes_freed += old_bytes_used; - next_page++; - } - - if ((bytes_freed > 0) && gencgc_verbose) { - FSHOW((stderr, - "/copy_large_unboxed bytes_freed=%d\n", - bytes_freed)); - } - - generations[from_space].bytes_allocated -= - nwords*N_WORD_BYTES + bytes_freed; - generations[new_space].bytes_allocated += nwords*N_WORD_BYTES; - bytes_allocated -= bytes_freed; - - return(object); - } - else { - /* Get tag of object. */ - tag = lowtag_of(object); - - /* Allocate space. */ - new = gc_quick_alloc_large_unboxed(nwords*N_WORD_BYTES); - - /* Copy the object. */ - memcpy(new,native_pointer(object),nwords*N_WORD_BYTES); - - /* Return Lisp pointer of new object. */ - return ((lispobj) new) | tag; - } -} - - - /* @@ -3962,7 +3865,7 @@ collect_garbage(generation_index_t last_gen) auto_gc_trigger = bytes_allocated + bytes_consed_between_gcs; if(gencgc_verbose) - fprintf(stderr,"Next gc when %ld bytes have been consed\n", + fprintf(stderr,"Next gc when %"OS_VM_SIZE_FMT" bytes have been consed\n", auto_gc_trigger); /* If we did a big GC (arbitrarily defined as gen > 1), release memory