/* * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers * Copyright (c) 1991 by Xerox Corporation. All rights reserved. * * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. * * Permission is hereby granted to copy this garbage collector for any purpose, * provided the above notices are retained on all copies. */ #define DEBUG #undef DEBUG #include #include "gc_private.h" /**/ /* allocate/free routines for heap blocks /* Note that everything called from outside the garbage collector /* should be prepared to abort at any point as the result of a signal. /**/ /* * Free heap blocks are kept on a list sorted by address. * The hb_hdr.hbh_sz field of a free heap block contains the length * (in bytes) of the entire block. * Neighbors are coalesced. */ # define MAX_BLACK_LIST_ALLOC (2*HBLKSIZE) /* largest block we will allocate starting on a black */ /* listed block. Must be >= HBLKSIZE. */ struct hblk * GC_hblkfreelist = 0; struct hblk *GC_savhbp = (struct hblk *)0; /* heap block preceding next */ /* block to be examined by */ /* GC_allochblk. */ /* Initialize hdr for a block containing the indicated size and */ /* kind of objects. */ static setup_header(hhdr, sz, kind) register hdr * hhdr; word sz; /* object size in words */ int kind; { /* Set size, kind and mark proc fields */ hhdr -> hb_sz = sz; hhdr -> hb_obj_kind = kind; hhdr -> hb_mark_proc = GC_obj_kinds[kind].ok_mark_proc; /* Add description of valid object pointers */ GC_add_map_entry(sz); hhdr -> hb_map = GC_obj_map[sz > MAXOBJSZ? 0 : sz]; /* Clear mark bits */ GC_clear_hdr_marks(hhdr); } /* * Allocate (and return pointer to) a heap block * for objects of size |sz| words. * * NOTE: We set obj_map field in header correctly. * Caller is resposnsible for building an object freelist in block. * * We clear the block if it is destined for large objects, and if * kind requires that newly allocated objects be cleared. */ struct hblk * GC_allochblk(sz, kind) word sz; int kind; { register struct hblk *thishbp; register hdr * thishdr; /* Header corr. to thishbp */ register struct hblk *hbp; register hdr * hhdr; /* Header corr. to hbp */ struct hblk *prevhbp; register hdr * phdr; /* Header corr. to prevhbp */ signed_word size_needed; /* number of bytes in requested objects */ signed_word size_avail; /* bytes available in this block */ bool first_time = TRUE; size_needed = WORDS_TO_BYTES(sz); size_needed = (size_needed+HDR_BYTES+HBLKSIZE-1) & ~HBLKMASK; /* search for a big enough block in free list */ hbp = GC_savhbp; hhdr = HDR(hbp); for(;;) { prevhbp = hbp; phdr = hhdr; hbp = (prevhbp == 0? GC_hblkfreelist : phdr->hb_next); hhdr = HDR(hbp); if( prevhbp == GC_savhbp && !first_time) { return(0); } first_time = FALSE; if( hbp == 0 ) continue; size_avail = hhdr->hb_sz; if (size_avail < size_needed) continue; /* If the next heap block is obviously better, go on. */ /* This prevents us from disassembling a single large block */ /* to get tiny blocks. */ { word next_size; thishbp = hhdr -> hb_next; if (thishbp == 0) thishbp = GC_hblkfreelist; thishdr = HDR(thishbp); next_size = thishdr -> hb_sz; if (next_size < size_avail && next_size >= size_needed && !GC_is_black_listed(thishbp, (word)size_needed)) { continue; } } if ( kind != PTRFREE || size_needed > MAX_BLACK_LIST_ALLOC) { struct hblk * lasthbp = hbp; while (size_avail >= size_needed && (thishbp = GC_is_black_listed(lasthbp, (word)size_needed))) { lasthbp = thishbp; } size_avail -= (ptr_t)lasthbp - (ptr_t)hbp; thishbp = lasthbp; if (size_avail >= size_needed && thishbp != hbp) { /* Split the block at thishbp */ GC_install_header(thishbp); thishdr = HDR(thishbp); /* GC_invalidate_map not needed, since we will */ /* allocate this block. */ thishdr -> hb_next = hhdr -> hb_next; thishdr -> hb_sz = size_avail; hhdr -> hb_sz = (ptr_t)thishbp - (ptr_t)hbp; hhdr -> hb_next = thishbp; /* Advance to thishbp */ prevhbp = hbp; phdr = hhdr; hbp = thishbp; hhdr = thishdr; } else if (size_avail == 0 && size_needed == HBLKSIZE && prevhbp != 0) { static unsigned count = 0; /* The block is completely blacklisted. We need */ /* to drop some such blocks, since otherwise we spend */ /* all our time traversing them if pointerfree */ /* blocks are unpopular. */ /* A dropped block will be reconsidered at next GC. */ if ((++count & 3) == 0) { /* Allocate and drop the block */ phdr -> hb_next = hhdr -> hb_next; GC_install_counts(hbp, hhdr->hb_sz); setup_header(hhdr, BYTES_TO_WORDS(hhdr->hb_sz - HDR_BYTES), PTRFREE); if (GC_savhbp == hbp) GC_savhbp = prevhbp; /* Restore hbp to point at free block */ hbp = prevhbp; hhdr = phdr; if (hbp == GC_savhbp) first_time = TRUE; } } } if( size_avail >= size_needed ) { /* found a big enough block */ /* let thishbp --> the block */ /* set prevhbp, hbp to bracket it */ thishbp = hbp; thishdr = hhdr; if( size_avail == size_needed ) { hbp = hhdr->hb_next; hhdr = HDR(hbp); } else { hbp = (struct hblk *) (((unsigned)thishbp) + size_needed); GC_install_header(hbp); hhdr = HDR(hbp); GC_invalidate_map(hhdr); hhdr->hb_next = thishdr->hb_next; hhdr->hb_sz = size_avail - size_needed; } /* remove *thishbp from hblk freelist */ if( prevhbp == 0 ) { GC_hblkfreelist = hbp; } else { phdr->hb_next = hbp; } /* save current list search position */ GC_savhbp = hbp; break; } } /* Clear block if necessary */ if (sz > MAXOBJSZ && GC_obj_kinds[kind].ok_init) { bzero((char *)thishbp + HDR_BYTES, (int)(size_needed - HDR_BYTES)); } /* Set up header */ setup_header(thishdr, sz, kind); /* Add it to map of valid blocks */ GC_install_counts(thishbp, (word)size_needed); return( thishbp ); } /* * Free a heap block. * * Coalesce the block with its neighbors if possible. * * All mark words are assumed to be cleared. */ void GC_freehblk(p) register struct hblk *p; { register hdr *phdr; /* Header corresponding to p */ register struct hblk *hbp, *prevhbp; register hdr *hhdr, *prevhdr; register signed_word size; /* GC_savhbp may become invalid due to coalescing. Clear it. */ GC_savhbp = (struct hblk *)0; phdr = HDR(p); size = phdr->hb_sz; size = ((WORDS_TO_BYTES(size)+HDR_BYTES+HBLKSIZE-1) & (~HBLKMASK)); GC_remove_counts(p, (word)size); phdr->hb_sz = size; GC_invalidate_map(phdr); prevhbp = 0; hbp = GC_hblkfreelist; hhdr = HDR(hbp); while( (hbp != 0) && (hbp < p) ) { prevhbp = hbp; prevhdr = hhdr; hbp = hhdr->hb_next; hhdr = HDR(hbp); } /* Check for duplicate deallocation in the easy case */ if (hbp != 0 && (ptr_t)p + size > (ptr_t)hbp || prevhbp != 0 && (ptr_t)prevhbp + prevhdr->hb_sz > (ptr_t)p) { GC_printf1("Duplicate large block deallocation of 0x%lx\n", (unsigned long) p); GC_printf2("Surrounding free blocks are 0x%lx and 0x%lx\n", (unsigned long) prevhbp, (unsigned long) hbp); } /* Coalesce with successor, if possible */ if( (((word)p)+size) == ((word)hbp) ) { phdr->hb_next = hhdr->hb_next; phdr->hb_sz += hhdr->hb_sz; GC_remove_header(hbp); } else { phdr->hb_next = hbp; } if( prevhbp == 0 ) { GC_hblkfreelist = p; } else if( (((word)prevhbp) + prevhdr->hb_sz) == ((word)p) ) { /* Coalesce with predecessor */ prevhdr->hb_next = phdr->hb_next; prevhdr->hb_sz += phdr->hb_sz; GC_remove_header(p); } else { prevhdr->hb_next = p; } }