libast/vmalloc/vmlast.c

/***********************************************************************
*                                                                      *
*               This software is part of the ast package               *
*          Copyright (c) 1985-2012 AT&T Intellectual Property          *
*                      and is licensed under the                       *
*                 Eclipse Public License, Version 1.0                  *
*                    by AT&T Intellectual Property                     *
*                                                                      *
*                A copy of the License is available at                 *
*          http://www.eclipse.org/org/documents/epl-v10.html           *
*         (with md5 checksum b35adb5213ca9657e911e9befb180842)         *
*                                                                      *
*              Information and Software Systems Research               *
*                            AT&T Research                             *
*                           Florham Park NJ                            *
*                                                                      *
*                 Glenn Fowler <gsf@research.att.com>                  *
*                  David Korn <dgk@research.att.com>                   *
*                   Phong Vo <kpv@research.att.com>                    *
*                                                                      *
***********************************************************************/
#if defined(_UWIN) && defined(_BLD_ast)

void _STUB_vmlast(){}

#else

#include    "vmhdr.h"

/*  Allocation with freeing and reallocing of last allocated block only.
**
**  Written by Kiem-Phong Vo, kpv@research.att.com, 01/16/94.
*/

#if __STD_C
static Void_t* lastalloc(Vmalloc_t* vm, size_t size, int local)
#else
static Void_t* lastalloc(vm, size, local)
Vmalloc_t*  vm;
size_t      size;
int     local;
#endif
{
    Block_t     *tp, *next;
    Seg_t       *seg, *last;
    size_t      s;
    Vmdata_t    *vd = vm->data;
    size_t      orgsize = size;

    SETLOCK(vm, local);

    size = size < ALIGN ? ALIGN : ROUND(size,ALIGN);
    for(last = NIL(Seg_t*), seg = vd->seg; seg; last = seg, seg = seg->next)
    {   if(!(tp = seg->free) || (SIZE(tp)+sizeof(Head_t)) < size)
            continue;
        if(last)
        {   last->next = seg->next;
            seg->next = vd->seg;
            vd->seg = seg;
        }
        goto got_block;
    }

    /* there is no usable free space in region, try extending */
    if((tp = (*_Vmextend)(vm,size,NIL(Vmsearch_f))) )
    {   seg = SEG(tp);
        goto got_block;
    }
    else    goto done;

got_block:
    if((s = SIZE(tp)) >= size)
    {   next = (Block_t*)((Vmuchar_t*)tp+size);
        SIZE(next) = s - size;
        SEG(next) = seg;
        seg->free = next;
    }
    else    seg->free = NIL(Block_t*);

    vd->free = seg->last = tp;

    if(!local && (vd->mode&VM_TRACE) && _Vmtrace)
        (*_Vmtrace)(vm, NIL(Vmuchar_t*), (Vmuchar_t*)tp, orgsize, 0);

done:
    CLRLOCK(vm, local);

    return (Void_t*)tp;
}

#if __STD_C
static int lastfree(Vmalloc_t* vm, reg Void_t* data, int local )
#else
static int lastfree(vm, data, local)
Vmalloc_t*  vm;
Void_t*     data;
int     local;
#endif
{
    Seg_t       *seg;
    Block_t     *fp;
    size_t      s;
    Vmdata_t    *vd = vm->data;

    if(!data)
        return 0;

    SETLOCK(vm, local);

    if(data != (Void_t*)vd->free)
        data = NIL(Void_t*); /* signaling an error */
    else
    {   seg = vd->seg;
        if(!local && (vd->mode&VM_TRACE) && _Vmtrace)
        {   if(seg->free )
                s = (Vmuchar_t*)(seg->free) - (Vmuchar_t*)data;
            else    s = (Vmuchar_t*)BLOCK(seg->baddr) - (Vmuchar_t*)data;
            (*_Vmtrace)(vm, (Vmuchar_t*)data, NIL(Vmuchar_t*), s, 0);
        }

        vd->free = NIL(Block_t*);
        fp = (Block_t*)data;
        SEG(fp)  = seg;
        SIZE(fp) = ((Vmuchar_t*)BLOCK(seg->baddr) - (Vmuchar_t*)data) - sizeof(Head_t);
        seg->free = fp;
        seg->last = NIL(Block_t*);
    }

    CLRLOCK(vm, local);

    return data ? 0 : -1;
}

#if __STD_C
static Void_t* lastresize(Vmalloc_t* vm, reg Void_t* data, size_t size, int type, int local)
#else
static Void_t* lastresize(vm, data, size, type, local )
Vmalloc_t*  vm;
reg Void_t* data;
size_t      size;
int     type;
int     local;
#endif
{
    Block_t     *tp;
    Seg_t       *seg;
    ssize_t     s, ds;
    Void_t      *addr;
    size_t      oldsize = 0;
    Void_t      *orgdata = data;
    size_t      orgsize = size;
    Vmdata_t    *vd = vm->data;

    if(!data)
    {   data = lastalloc(vm, size, local);
        if(data && (type&VM_RSZERO) )
            memset(data, 0, size);
        return data;
    }
    if(size <= 0)
    {   (void)lastfree(vm, data, local);
        return NIL(Void_t*);
    }

    SETLOCK(vm, local);

    if(data == (Void_t*)vd->free)
        seg = vd->seg;
    else
    {   /* see if it was one of ours */
        for(seg = vd->seg; seg; seg = seg->next)
            if(data >= seg->addr && data < (Void_t*)seg->baddr)
                break;
        if(!seg || (VLONG(data)%ALIGN) != 0 ||
           (seg->last && (Vmuchar_t*)data > (Vmuchar_t*)seg->last) )
        {   data = NIL(Void_t*);
            goto done;
        }
    }

    /* set 's' to be the current available space */
    if(data != seg->last)
    {   if(seg->last && (Vmuchar_t*)data < (Vmuchar_t*)seg->last)
            oldsize = (Vmuchar_t*)seg->last - (Vmuchar_t*)data;
        else    oldsize = (Vmuchar_t*)BLOCK(seg->baddr) - (Vmuchar_t*)data;
        s = -1;
    }
    else
    {   s = (Vmuchar_t*)BLOCK(seg->baddr) - (Vmuchar_t*)data;
        if(!(tp = seg->free) )
            oldsize = s;
        else
        {   oldsize = (Vmuchar_t*)tp - (Vmuchar_t*)data;
            seg->free = NIL(Block_t*);
        }
    }

    size = size < ALIGN ? ALIGN : ROUND(size,ALIGN);
    if(s < 0 || (ssize_t)size > s)
    {   if(s >= 0) /* amount to extend */
        {   ds = size-s; ds = ROUND(ds,vd->incr);
            addr = (*vm->disc->memoryf)(vm, seg->addr, seg->extent,
                            seg->extent+ds, vm->disc);
            if(addr == seg->addr)
            {   s += ds;
                seg->size += ds;
                seg->extent += ds;
                seg->baddr += ds;
                SIZE(BLOCK(seg->baddr)) = BUSY;
            }
            else    goto do_alloc;
        }
        else
        { do_alloc:
            if(!(type&(VM_RSMOVE|VM_RSCOPY)) )
                data = NIL(Void_t*);
            else
            {   tp = vd->free;
                if(!(addr = KPVALLOC(vm,size,lastalloc)) )
                {   vd->free = tp;
                    data = NIL(Void_t*);
                }
                else
                {   if(type&VM_RSCOPY)
                    {   ds = oldsize < size ? oldsize : size;
                        memcpy(addr, data, ds);
                    }

                    if(s >= 0 && seg != vd->seg)
                    {   tp = (Block_t*)data;
                        SEG(tp) = seg;
                        SIZE(tp) = s - sizeof(Head_t);
                        seg->free = tp;
                    }

                    /* new block and size */
                    data = addr;
                    seg = vd->seg;
                    s = (Vmuchar_t*)BLOCK(seg->baddr) -
                        (Vmuchar_t*)data;
                    seg->free = NIL(Block_t*);
                }
            }
        }
    }

    if(data)
    {   if(s >= (ssize_t)(size+sizeof(Head_t)) )
        {   tp = (Block_t*)((Vmuchar_t*)data + size);
            SEG(tp) = seg;
            SIZE(tp) = (s - size) - sizeof(Head_t);
            seg->free = tp;
        }

        vd->free = seg->last = (Block_t*)data;

        if(!local && (vd->mode&VM_TRACE) && _Vmtrace)
            (*_Vmtrace)(vm,(Vmuchar_t*)orgdata,(Vmuchar_t*)data,orgsize,0);

        if((type&VM_RSZERO) && size > oldsize)
            memset((Void_t*)((Vmuchar_t*)data + oldsize), 0, size-oldsize);
    }

done:   CLRLOCK(vm, local);

    return data;
}


#if __STD_C
static long lastaddr(Vmalloc_t* vm, Void_t* addr, int local)
#else
static long lastaddr(vm, addr, local)
Vmalloc_t*  vm;
Void_t*     addr;
int     local;
#endif
{
    long        offset;
    Vmdata_t    *vd = vm->data;

    SETLOCK(vm, local);

    if(!vd->free || addr < (Void_t*)vd->free || addr >= (Void_t*)vd->seg->baddr)
        offset = -1L;
    else    offset = (long)((Vmuchar_t*)addr - (Vmuchar_t*)vd->free);

    CLRLOCK(vm, local);

    return offset;
}

#if __STD_C
static long lastsize(Vmalloc_t* vm, Void_t* addr, int local)
#else
static long lastsize(vm, addr, local)
Vmalloc_t*  vm;
Void_t*     addr;
int     local;
#endif
{
    long        size;
    Vmdata_t    *vd = vm->data;

    SETLOCK(vm, local);

    if(!vd->free || addr != (Void_t*)vd->free )
        size = -1L;
    else if(vd->seg->free)
        size = (long)((Vmuchar_t*)vd->seg->free - (Vmuchar_t*)addr);
    else    size = (long)((Vmuchar_t*)vd->seg->baddr - (Vmuchar_t*)addr - sizeof(Head_t));

    CLRLOCK(vm, local);

    return size;
}

#if __STD_C
static int lastcompact(Vmalloc_t* vm, int local)
#else
static int lastcompact(vm, local)
Vmalloc_t*  vm;
int     local;
#endif
{
    ssize_t     s;
    Block_t     *fp;
    Seg_t       *seg, *next;
    Vmdata_t    *vd = vm->data;

    SETLOCK(vm, local);

    for(seg = vd->seg; seg; seg = next)
    {   next = seg->next;

        if(!(fp = seg->free))
            continue;

        seg->free = NIL(Block_t*);
        if(seg->size == (s = SIZE(fp)&~BITS))
            s = seg->extent;
        else    s += sizeof(Head_t);

        if((*_Vmtruncate)(vm,seg,s,1) == s)
            seg->free = fp;
    }

    if((vd->mode&VM_TRACE) && _Vmtrace)
        (*_Vmtrace)(vm,(Vmuchar_t*)0,(Vmuchar_t*)0,0,0);

    CLRLOCK(vm, local);
    return 0;
}

#if __STD_C
static Void_t* lastalign(Vmalloc_t* vm, size_t size, size_t align, int local)
#else
static Void_t* lastalign(vm, size, align, local)
Vmalloc_t*  vm;
size_t      size;
size_t      align;
int     local;
#endif
{
    Vmuchar_t   *data;
    Seg_t       *seg;
    Block_t     *next;
    size_t      s, orgsize = size, orgalign = align;
    Vmdata_t    *vd = vm->data;

    if(size <= 0 || align <= 0)
        return NIL(Void_t*);

    SETLOCK(vm, local);

    size = size <= TINYSIZE ? TINYSIZE : ROUND(size,ALIGN);
    align = MULTIPLE(align,ALIGN);

    s = size + align;
    if(!(data = (Vmuchar_t*)KPVALLOC(vm,s,lastalloc)) )
        goto done;

    /* find the segment containing this block */
    for(seg = vd->seg; seg; seg = seg->next)
        if(seg->last == (Block_t*)data)
            break;
    /**/ASSERT(seg);

    /* get a suitably aligned address */
    if((s = (size_t)(VLONG(data)%align)) != 0)
        data += align-s; /**/ASSERT((VLONG(data)%align) == 0);

    /* free the unused tail */
    next = (Block_t*)(data+size);
    if((s = (seg->baddr - (Vmuchar_t*)next)) >= sizeof(Block_t))
    {   SEG(next) = seg;
        SIZE(next) = s - sizeof(Head_t);
        seg->free = next;
    }

    vd->free = seg->last = (Block_t*)data;

    if(!local && (vd->mode&VM_TRACE) && _Vmtrace)
        (*_Vmtrace)(vm,NIL(Vmuchar_t*),data,orgsize,orgalign);

done:
    CLRLOCK(vm, local);

    return (Void_t*)data;
}

/* Public method for free-1 allocation */
static Vmethod_t _Vmlast =
{
    lastalloc,
    lastresize,
    lastfree,
    lastaddr,
    lastsize,
    lastcompact,
    lastalign,
    VM_MTLAST
};

__DEFINE__(Vmethod_t*,Vmlast,&_Vmlast);

#ifdef NoF
NoF(vmlast)
#endif

#endif