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|
/*
* %CopyrightBegin%
*
* Copyright Ericsson AB 1996-2010. All Rights Reserved.
*
* The contents of this file are subject to the Erlang Public License,
* Version 1.1, (the "License"); you may not use this file except in
* compliance with the License. You should have received a copy of the
* Erlang Public License along with this software. If not, it can be
* retrieved online at http://www.erlang.org/.
*
* Software distributed under the License is distributed on an "AS IS"
* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
* the License for the specific language governing rights and limitations
* under the License.
*
* %CopyrightEnd%
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include "sys.h"
#include "erl_vm.h"
#include "global.h"
#include "erl_process.h"
#include "erl_gc.h"
#include "erl_nmgc.h"
#include "big.h"
#include "erl_binary.h"
#include "erl_bits.h"
#ifdef HYBRID
MA_STACK_DECLARE(src);
MA_STACK_DECLARE(dst);
MA_STACK_DECLARE(offset);
#endif
static void move_one_frag(Eterm** hpp, Eterm* src, Uint src_sz, ErlOffHeap*);
void
init_copy(void)
{
#ifdef HYBRID
MA_STACK_ALLOC(src);
MA_STACK_ALLOC(dst);
MA_STACK_ALLOC(offset);
#endif
}
/*
* Copy object "obj" to process p.
*/
Eterm
copy_object(Eterm obj, Process* to)
{
Uint size = size_object(obj);
Eterm* hp = HAlloc(to, size);
Eterm res;
res = copy_struct(obj, size, &hp, &to->off_heap);
#ifdef DEBUG
if (eq(obj, res) == 0) {
erl_exit(ERTS_ABORT_EXIT, "copy not equal to source\n");
}
#endif
return res;
}
/*
* Return the "flat" size of the object.
*/
Uint
size_object(Eterm obj)
{
Uint sum = 0;
Eterm* ptr;
int arity;
DECLARE_ESTACK(s);
for (;;) {
switch (primary_tag(obj)) {
case TAG_PRIMARY_LIST:
sum += 2;
ptr = list_val(obj);
obj = *ptr++;
if (!IS_CONST(obj)) {
ESTACK_PUSH(s, obj);
}
obj = *ptr;
break;
case TAG_PRIMARY_BOXED:
{
Eterm hdr = *boxed_val(obj);
ASSERT(is_header(hdr));
switch (hdr & _TAG_HEADER_MASK) {
case ARITYVAL_SUBTAG:
ptr = tuple_val(obj);
arity = header_arity(hdr);
sum += arity + 1;
if (arity == 0) { /* Empty tuple -- unusual. */
goto pop_next;
}
while (arity-- > 1) {
obj = *++ptr;
if (!IS_CONST(obj)) {
ESTACK_PUSH(s, obj);
}
}
obj = *++ptr;
break;
case FUN_SUBTAG:
{
Eterm* bptr = fun_val(obj);
ErlFunThing* funp = (ErlFunThing *) bptr;
unsigned eterms = 1 /* creator */ + funp->num_free;
unsigned sz = thing_arityval(hdr);
sum += 1 /* header */ + sz + eterms;
bptr += 1 /* header */ + sz;
while (eterms-- > 1) {
obj = *bptr++;
if (!IS_CONST(obj)) {
ESTACK_PUSH(s, obj);
}
}
obj = *bptr;
break;
}
case SUB_BINARY_SUBTAG:
{
Eterm real_bin;
Uint offset; /* Not used. */
Uint bitsize;
Uint bitoffs;
Uint extra_bytes;
Eterm hdr;
ERTS_GET_REAL_BIN(obj, real_bin, offset, bitoffs, bitsize);
if ((bitsize + bitoffs) > 8) {
sum += ERL_SUB_BIN_SIZE;
extra_bytes = 2;
} else if ((bitsize + bitoffs) > 0) {
sum += ERL_SUB_BIN_SIZE;
extra_bytes = 1;
} else {
extra_bytes = 0;
}
hdr = *binary_val(real_bin);
if (thing_subtag(hdr) == REFC_BINARY_SUBTAG) {
sum += PROC_BIN_SIZE;
} else {
sum += heap_bin_size(binary_size(obj)+extra_bytes);
}
goto pop_next;
}
break;
case BIN_MATCHSTATE_SUBTAG:
erl_exit(ERTS_ABORT_EXIT,
"size_object: matchstate term not allowed");
default:
sum += thing_arityval(hdr) + 1;
goto pop_next;
}
}
break;
case TAG_PRIMARY_IMMED1:
pop_next:
if (ESTACK_ISEMPTY(s)) {
DESTROY_ESTACK(s);
return sum;
}
obj = ESTACK_POP(s);
break;
default:
erl_exit(ERTS_ABORT_EXIT, "size_object: bad tag for %#x\n", obj);
}
}
}
/*
* Copy a structure to a heap.
*/
Eterm
copy_struct(Eterm obj, Uint sz, Eterm** hpp, ErlOffHeap* off_heap)
{
char* hstart;
Uint hsize;
Eterm* htop;
Eterm* hbot;
Eterm* hp;
Eterm* objp;
Eterm* tp;
Eterm res;
Eterm elem;
Eterm* tailp;
Eterm* argp;
Eterm* const_tuple;
Eterm hdr;
int i;
#ifdef DEBUG
Eterm org_obj = obj;
Uint org_sz = sz;
#endif
if (IS_CONST(obj))
return obj;
hp = htop = *hpp;
hbot = htop + sz;
hstart = (char *)htop;
hsize = (char*) hbot - hstart;
const_tuple = 0;
/* Copy the object onto the heap */
switch (primary_tag(obj)) {
case TAG_PRIMARY_LIST: argp = &res; goto L_copy_list;
case TAG_PRIMARY_BOXED: argp = &res; goto L_copy_boxed;
default:
erl_exit(ERTS_ABORT_EXIT,
"%s, line %d: Internal error in copy_struct: 0x%08x\n",
__FILE__, __LINE__,obj);
}
L_copy:
while (hp != htop) {
obj = *hp;
switch (primary_tag(obj)) {
case TAG_PRIMARY_IMMED1:
hp++;
break;
case TAG_PRIMARY_LIST:
objp = list_val(obj);
if (in_area(objp,hstart,hsize)) {
hp++;
break;
}
argp = hp++;
/* Fall through */
L_copy_list:
tailp = argp;
while (is_list(obj)) {
objp = list_val(obj);
tp = tailp;
elem = *objp;
if (IS_CONST(elem)) {
*(hbot-2) = elem;
tailp = hbot-1;
hbot -= 2;
}
else {
*htop = elem;
tailp = htop+1;
htop += 2;
}
*tp = make_list(tailp - 1);
obj = *(objp+1);
}
switch (primary_tag(obj)) {
case TAG_PRIMARY_IMMED1: *tailp = obj; goto L_copy;
case TAG_PRIMARY_BOXED: argp = tailp; goto L_copy_boxed;
default:
erl_exit(ERTS_ABORT_EXIT,
"%s, line %d: Internal error in copy_struct: 0x%08x\n",
__FILE__, __LINE__,obj);
}
case TAG_PRIMARY_BOXED:
if (in_area(boxed_val(obj),hstart,hsize)) {
hp++;
break;
}
argp = hp++;
L_copy_boxed:
objp = boxed_val(obj);
hdr = *objp;
switch (hdr & _TAG_HEADER_MASK) {
case ARITYVAL_SUBTAG:
{
int const_flag = 1; /* assume constant tuple */
i = arityval(hdr);
*argp = make_tuple(htop);
tp = htop; /* tp is pointer to new arity value */
*htop++ = *objp++; /* copy arity value */
while (i--) {
elem = *objp++;
if (!IS_CONST(elem)) {
const_flag = 0;
}
*htop++ = elem;
}
if (const_flag) {
const_tuple = tp; /* this is the latest const_tuple */
}
}
break;
case REFC_BINARY_SUBTAG:
{
ProcBin* pb;
pb = (ProcBin *) objp;
if (pb->flags) {
erts_emasculate_writable_binary(pb);
}
i = thing_arityval(*objp) + 1;
hbot -= i;
tp = hbot;
while (i--) {
*tp++ = *objp++;
}
*argp = make_binary(hbot);
pb = (ProcBin*) hbot;
erts_refc_inc(&pb->val->refc, 2);
pb->next = off_heap->mso;
pb->flags = 0;
off_heap->mso = pb;
off_heap->overhead += pb->size / sizeof(Eterm);
}
break;
case SUB_BINARY_SUBTAG:
{
ErlSubBin* sb = (ErlSubBin *) objp;
Eterm real_bin = sb->orig;
Uint bit_offset = sb->bitoffs;
Uint bit_size = sb -> bitsize;
Uint offset = sb->offs;
size_t size = sb->size;
Uint extra_bytes;
Uint real_size;
if ((bit_size + bit_offset) > 8) {
extra_bytes = 2;
} else if ((bit_size + bit_offset) > 0) {
extra_bytes = 1;
} else {
extra_bytes = 0;
}
real_size = size+extra_bytes;
objp = binary_val(real_bin);
if (thing_subtag(*objp) == HEAP_BINARY_SUBTAG) {
ErlHeapBin* from = (ErlHeapBin *) objp;
ErlHeapBin* to;
i = heap_bin_size(real_size);
hbot -= i;
to = (ErlHeapBin *) hbot;
to->thing_word = header_heap_bin(real_size);
to->size = real_size;
sys_memcpy(to->data, ((byte *)from->data)+offset, real_size);
} else {
ProcBin* from = (ProcBin *) objp;
ProcBin* to;
ASSERT(thing_subtag(*objp) == REFC_BINARY_SUBTAG);
if (from->flags) {
erts_emasculate_writable_binary(from);
}
hbot -= PROC_BIN_SIZE;
to = (ProcBin *) hbot;
to->thing_word = HEADER_PROC_BIN;
to->size = real_size;
to->val = from->val;
erts_refc_inc(&to->val->refc, 2);
to->bytes = from->bytes + offset;
to->next = off_heap->mso;
to->flags = 0;
off_heap->mso = to;
off_heap->overhead += to->size / sizeof(Eterm);
}
*argp = make_binary(hbot);
if (extra_bytes != 0) {
ErlSubBin* res;
hbot -= ERL_SUB_BIN_SIZE;
res = (ErlSubBin *) hbot;
res->thing_word = HEADER_SUB_BIN;
res->size = size;
res->bitsize = bit_size;
res->bitoffs = bit_offset;
res->offs = 0;
res->is_writable = 0;
res->orig = *argp;
*argp = make_binary(hbot);
}
break;
}
break;
case FUN_SUBTAG:
{
ErlFunThing* funp = (ErlFunThing *) objp;
i = thing_arityval(hdr) + 2 + funp->num_free;
tp = htop;
while (i--) {
*htop++ = *objp++;
}
#ifndef HYBRID /* FIND ME! */
funp = (ErlFunThing *) tp;
funp->next = off_heap->funs;
off_heap->funs = funp;
erts_refc_inc(&funp->fe->refc, 2);
#endif
*argp = make_fun(tp);
}
break;
case EXTERNAL_PID_SUBTAG:
case EXTERNAL_PORT_SUBTAG:
case EXTERNAL_REF_SUBTAG:
{
ExternalThing *etp = (ExternalThing *) htop;
i = thing_arityval(hdr) + 1;
tp = htop;
while (i--) {
*htop++ = *objp++;
}
etp->next = off_heap->externals;
off_heap->externals = etp;
erts_refc_inc(&etp->node->refc, 2);
*argp = make_external(tp);
}
break;
case BIN_MATCHSTATE_SUBTAG:
erl_exit(ERTS_ABORT_EXIT,
"copy_struct: matchstate term not allowed");
default:
i = thing_arityval(hdr)+1;
hbot -= i;
tp = hbot;
*argp = make_boxed(hbot);
while (i--) {
*tp++ = *objp++;
}
}
break;
case TAG_PRIMARY_HEADER:
if (header_is_thing(obj) || hp == const_tuple) {
hp += header_arity(obj) + 1;
} else {
hp++;
}
break;
}
}
#ifdef DEBUG
if (htop != hbot)
erl_exit(ERTS_ABORT_EXIT,
"Internal error in copy_struct() when copying %T:"
" htop=%p != hbot=%p (sz=%bpu)\n",
org_obj, htop, hbot, org_sz);
#else
if (htop > hbot) {
erl_exit(ERTS_ABORT_EXIT,
"Internal error in copy_struct(): htop, hbot overrun\n");
}
#endif
*hpp = (Eterm *) (hstart+hsize);
return res;
}
#ifdef HYBRID
#ifdef BM_MESSAGE_SIZES
# define BM_ADD(var,val) (var) += (val);
#else
# define BM_ADD(var,val)
#endif
#ifdef DEBUG
# define CLEARMEM(PTR,SIZE) memset(PTR,0,SIZE*sizeof(Eterm))
#else
# define CLEARMEM(PTR,SIZE)
#endif
#ifdef INCREMENTAL
#define GlobalAlloc(p, need, hp) \
do { \
Uint n = (need); \
BM_ADD(words_copied,n); \
BM_SWAP_TIMER(copy,system); \
/* If a new collection cycle is started during copy, the message * \
* will end up in the old generation and all allocations * \
* thereafter must go directly into the old generation. */ \
if (alloc_old) { \
erts_incremental_gc((p),n,&dest,1); \
(hp) = erts_inc_alloc(n); \
} else { \
(hp) = IncAlloc((p),n,&dest,1); \
if (ma_gc_flags & GC_CYCLE_START) { \
alloc_old = 1; \
global_htop = global_heap; \
(hp) = erts_inc_alloc(n); \
} \
} \
CLEARMEM((hp),(n)); \
BM_SWAP_TIMER(system,copy); \
} while(0)
#else /* no INCREMELNTAL */
#define GlobalAlloc(p, need, hp) \
do { \
Uint n = (need); \
total_need += n; \
if (total_need >= global_heap_sz) \
erl_exit(ERTS_ABORT_EXIT, "Copying a message (%d words) larger than the nursery simply won't work...\n", total_need); \
if (global_hend - n < global_htop) { \
BM_SWAP_TIMER(copy,system); \
erts_global_garbage_collect((p),total_need,NULL,0); \
BM_SWAP_TIMER(system,copy); \
total_need = 0; \
ma_src_top = 0; \
ma_dst_top = 0; \
ma_offset_top = 0; \
goto copy_start; \
} \
(hp) = global_htop; \
global_htop += n; \
BM_ADD(words_copied,n); \
} while(0)
#endif /* INCREMENTAL */
/* Copy a message to the message area. */
Eterm copy_struct_lazy(Process *from, Eterm orig, Uint offs)
{
Eterm obj;
Eterm dest;
#ifdef INCREMENTAL
int alloc_old = 0;
#else
int total_need = 0;
#endif
VERBOSE(DEBUG_MESSAGES,
("COPY START; %T is sending a message @ 0x%016x\n%T\n",
from->id, orig, orig));
#ifndef INCREMENTAL
copy_start:
#endif
MA_STACK_PUSH(src,orig);
MA_STACK_PUSH(dst,&dest);
MA_STACK_PUSH(offset,offs);
while (ma_src_top > 0) {
obj = MA_STACK_POP(src);
/* copy_struct_lazy should never be called with something that
* do not need to be copied. Within the loop, nothing that do
* not need copying should be placed in the src-stack.
*/
ASSERT(!NO_COPY(obj));
switch (primary_tag(obj)) {
case TAG_PRIMARY_LIST: {
Eterm *hp;
Eterm *objp;
GlobalAlloc(from,2,hp);
objp = list_val(obj);
MA_STACK_UPDATE(dst,MA_STACK_POP(offset),make_list(hp));
MA_STACK_POP(dst);
/* TODO: Byt ordningen nedan så att CDR pushas först. */
if (NO_COPY(*objp)) {
hp[0] = *objp;
#ifdef INCREMENTAL
if (ptr_within(ptr_val(*objp),inc_fromspc,inc_fromend))
INC_STORE(gray,hp,2);
#endif
} else {
MA_STACK_PUSH(src,*objp);
MA_STACK_PUSH(dst,hp);
MA_STACK_PUSH(offset,0);
}
objp++;
if (NO_COPY(*objp)) {
hp[1] = *objp;
#ifdef INCREMENTAL
if (ptr_within(ptr_val(*objp),inc_fromspc,inc_fromend))
INC_STORE(gray,hp,2);
#endif
}
else {
MA_STACK_PUSH(src,*objp);
MA_STACK_PUSH(dst,hp);
MA_STACK_PUSH(offset,1);
}
continue;
}
case TAG_PRIMARY_BOXED: {
Eterm *objp = boxed_val(obj);
switch (*objp & _TAG_HEADER_MASK) {
case ARITYVAL_SUBTAG: {
Uint ari = arityval(*objp);
Uint i;
Eterm *hp;
GlobalAlloc(from,ari + 1,hp);
/* A GC above might invalidate the value of objp */
objp = boxed_val(obj);
MA_STACK_UPDATE(dst,MA_STACK_POP(offset),make_tuple(hp));
MA_STACK_POP(dst);
*hp = *objp++;
for (i = 1; i <= ari; i++) {
switch (primary_tag(*objp)) {
case TAG_PRIMARY_LIST:
case TAG_PRIMARY_BOXED:
if (NO_COPY(*objp)) {
hp[i] = *objp;
#ifdef INCREMENTAL
if (ptr_within(ptr_val(*objp),
inc_fromspc,inc_fromend))
INC_STORE(gray,hp,BOXED_NEED(hp,*hp));
#endif
objp++;
} else {
MA_STACK_PUSH(src,*objp++);
MA_STACK_PUSH(dst,hp);
MA_STACK_PUSH(offset,i);
}
break;
default:
hp[i] = *objp++;
}
}
continue;
}
case REFC_BINARY_SUBTAG: {
ProcBin *pb;
Uint i = thing_arityval(*objp) + 1;
Eterm *hp;
GlobalAlloc(from,i,hp);
/* A GC above might invalidate the value of objp */
objp = boxed_val(obj);
MA_STACK_UPDATE(dst,MA_STACK_POP(offset),make_binary(hp));
MA_STACK_POP(dst);
pb = (ProcBin*) hp;
while (i--) {
*hp++ = *objp++;
}
erts_refc_inc(&pb->val->refc, 2);
pb->next = erts_global_offheap.mso;
erts_global_offheap.mso = pb;
erts_global_offheap.overhead += pb->size / sizeof(Eterm);
continue;
}
case FUN_SUBTAG: {
ErlFunThing *funp = (ErlFunThing*) objp;
Uint i = thing_arityval(*objp) + 1;
Uint j = i + 1 + funp->num_free;
Uint k = i;
Eterm *hp, *hp_start;
GlobalAlloc(from,j,hp);
/* A GC above might invalidate the value of objp */
objp = boxed_val(obj);
hp_start = hp;
MA_STACK_UPDATE(dst,MA_STACK_POP(offset),make_fun(hp));
MA_STACK_POP(dst);
funp = (ErlFunThing*) hp;
while (i--) {
*hp++ = *objp++;
}
#ifndef HYBRID // FIND ME!
funp->next = erts_global_offheap.funs;
erts_global_offheap.funs = funp;
erts_refc_inc(&funp->fe->refc, 2);
#endif
for (i = k; i < j; i++) {
switch (primary_tag(*objp)) {
case TAG_PRIMARY_LIST:
case TAG_PRIMARY_BOXED:
if (NO_COPY(*objp)) {
#ifdef INCREMENTAL
if (ptr_within(ptr_val(*objp),
inc_fromspc,inc_fromend))
INC_STORE(gray,hp,BOXED_NEED(hp,*hp));
#endif
*hp++ = *objp++;
} else {
MA_STACK_PUSH(src,*objp++);
MA_STACK_PUSH(dst,hp_start);
MA_STACK_PUSH(offset,i);
hp++;
}
break;
default:
*hp++ = *objp++;
}
}
continue;
}
case EXTERNAL_PID_SUBTAG:
case EXTERNAL_PORT_SUBTAG:
case EXTERNAL_REF_SUBTAG: {
ExternalThing *etp;
Uint i = thing_arityval(*objp) + 1;
Eterm *hp;
GlobalAlloc(from,i,hp);
/* A GC above might invalidate the value of objp */
objp = boxed_val(obj);
MA_STACK_UPDATE(dst,MA_STACK_POP(offset),make_external(hp));
MA_STACK_POP(dst);
etp = (ExternalThing*) hp;
while (i--) {
*hp++ = *objp++;
}
etp->next = erts_global_offheap.externals;
erts_global_offheap.externals = etp;
erts_refc_inc(&etp->node->refc, 2);
continue;
}
case SUB_BINARY_SUBTAG: {
ErlSubBin *sb = (ErlSubBin *) objp;
Eterm *hp;
Eterm res_binary;
Eterm real_bin = sb->orig;
Uint bit_offset = sb->bitoffs;
Uint bit_size = sb -> bitsize;
Uint sub_offset = sb->offs;
size_t size = sb->size;
Uint extra_bytes;
Uint real_size;
Uint sub_binary_heapneed;
if ((bit_size + bit_offset) > 8) {
extra_bytes = 2;
sub_binary_heapneed = ERL_SUB_BIN_SIZE;
} else if ((bit_size + bit_offset) > 0) {
extra_bytes = 1;
sub_binary_heapneed = ERL_SUB_BIN_SIZE;
} else {
extra_bytes = 0;
sub_binary_heapneed = 0;
}
real_size = size+extra_bytes;
objp = binary_val(real_bin);
if (thing_subtag(*objp) == HEAP_BINARY_SUBTAG) {
ErlHeapBin *from_bin;
ErlHeapBin *to_bin;
Uint i = heap_bin_size(real_size);
GlobalAlloc(from,i+sub_binary_heapneed,hp);
from_bin = (ErlHeapBin *) objp;
to_bin = (ErlHeapBin *) hp;
to_bin->thing_word = header_heap_bin(real_size);
to_bin->size = real_size;
sys_memcpy(to_bin->data, ((byte *)from_bin->data) +
sub_offset, real_size);
res_binary = make_binary(to_bin);
hp += i;
} else {
ProcBin *from_bin;
ProcBin *to_bin;
ASSERT(thing_subtag(*objp) == REFC_BINARY_SUBTAG);
from_bin = (ProcBin *) objp;
erts_refc_inc(&from_bin->val->refc, 2);
GlobalAlloc(from,PROC_BIN_SIZE+sub_binary_heapneed,hp);
to_bin = (ProcBin *) hp;
to_bin->thing_word = HEADER_PROC_BIN;
to_bin->size = real_size;
to_bin->val = from_bin->val;
to_bin->bytes = from_bin->bytes + sub_offset;
to_bin->next = erts_global_offheap.mso;
erts_global_offheap.mso = to_bin;
erts_global_offheap.overhead += to_bin->size / sizeof(Eterm);
res_binary=make_binary(to_bin);
hp += PROC_BIN_SIZE;
}
if (extra_bytes != 0) {
ErlSubBin* res;
res = (ErlSubBin *) hp;
res->thing_word = HEADER_SUB_BIN;
res->size = size;
res->bitsize = bit_size;
res->bitoffs = bit_offset;
res->offs = 0;
res->is_writable = 0;
res->orig = res_binary;
res_binary = make_binary(hp);
}
MA_STACK_UPDATE(dst,MA_STACK_POP(offset),res_binary);
MA_STACK_POP(dst);
continue;
}
case BIN_MATCHSTATE_SUBTAG:
erl_exit(ERTS_ABORT_EXIT,
"copy_struct_lazy: matchstate term not allowed");
default: {
Uint size = thing_arityval(*objp) + 1;
Eterm *hp;
GlobalAlloc(from,size,hp);
/* A GC above might invalidate the value of objp */
objp = boxed_val(obj);
MA_STACK_UPDATE(dst,MA_STACK_POP(offset),make_boxed(hp));
MA_STACK_POP(dst);
while (size--) {
*hp++ = *objp++;
}
continue;
}
}
continue;
}
case TAG_PRIMARY_HEADER:
ASSERT((obj & _TAG_HEADER_MASK) == ARITYVAL_SUBTAG);
{
Eterm *objp = &obj;
Uint ari = arityval(obj);
Uint i;
Eterm *hp;
GlobalAlloc(from,ari + 1,hp);
MA_STACK_UPDATE(dst,MA_STACK_POP(offset),make_tuple(hp));
MA_STACK_POP(dst);
*hp = *objp++;
for (i = 1; i <= ari; i++) {
switch (primary_tag(*objp)) {
case TAG_PRIMARY_LIST:
case TAG_PRIMARY_BOXED:
if (NO_COPY(*objp)) {
#ifdef INCREMENTAL
if (ptr_within(ptr_val(*objp),inc_fromspc,inc_fromend))
INC_STORE(gray,hp,ari + 1);
#endif
hp[i] = *objp++;
} else {
MA_STACK_PUSH(src,*objp++);
MA_STACK_PUSH(dst,hp);
MA_STACK_PUSH(offset,i);
}
break;
default:
hp[i] = *objp++;
}
}
continue;
}
default:
erl_exit(ERTS_ABORT_EXIT,
"%s, line %d: Internal error in copy_struct_lazy: 0x%08x\n",
__FILE__, __LINE__,obj);
}
}
VERBOSE(DEBUG_MESSAGES,
("Copy allocated @ 0x%08lx:\n%T\n",
(unsigned long)ptr_val(dest),dest));
ma_gc_flags &= ~GC_CYCLE_START;
ASSERT(eq(orig, dest));
ASSERT(ma_src_top == 0);
ASSERT(ma_dst_top == 0);
ASSERT(ma_offset_top == 0);
return dest;
}
#undef NO_COPY
#endif /* HYBRID */
/*
* Copy a term that is guaranteed to be contained in a single
* heap block. The heap block is copied word by word, and any
* pointers are offsetted to point correctly in the new location.
*
* Typically used to copy a term from an ets table.
*
* NOTE: Assumes that term is a tuple (ptr is an untagged tuple ptr).
*/
Eterm
copy_shallow(Eterm* ptr, Uint sz, Eterm** hpp, ErlOffHeap* off_heap)
{
Eterm* tp = ptr;
Eterm* hp = *hpp;
Sint offs = hp - tp;
while (sz--) {
Eterm val = *tp++;
switch (primary_tag(val)) {
case TAG_PRIMARY_IMMED1:
*hp++ = val;
break;
case TAG_PRIMARY_LIST:
case TAG_PRIMARY_BOXED:
*hp++ = offset_ptr(val, offs);
break;
case TAG_PRIMARY_HEADER:
*hp++ = val;
switch (val & _HEADER_SUBTAG_MASK) {
case ARITYVAL_SUBTAG:
break;
case REFC_BINARY_SUBTAG:
{
ProcBin* pb = (ProcBin *) (hp-1);
int tari = thing_arityval(val);
sz -= tari;
while (tari--) {
*hp++ = *tp++;
}
erts_refc_inc(&pb->val->refc, 2);
pb->next = off_heap->mso;
off_heap->mso = pb;
off_heap->overhead += pb->size / sizeof(Eterm);
}
break;
case FUN_SUBTAG:
{
#ifndef HYBRID /* FIND ME! */
ErlFunThing* funp = (ErlFunThing *) (hp-1);
#endif
int tari = thing_arityval(val);
sz -= tari;
while (tari--) {
*hp++ = *tp++;
}
#ifndef HYBRID /* FIND ME! */
funp->next = off_heap->funs;
off_heap->funs = funp;
erts_refc_inc(&funp->fe->refc, 2);
#endif
}
break;
case EXTERNAL_PID_SUBTAG:
case EXTERNAL_PORT_SUBTAG:
case EXTERNAL_REF_SUBTAG:
{
ExternalThing* etp = (ExternalThing *) (hp-1);
int tari = thing_arityval(val);
sz -= tari;
while (tari--) {
*hp++ = *tp++;
}
etp->next = off_heap->externals;
off_heap->externals = etp;
erts_refc_inc(&etp->node->refc, 2);
}
break;
default:
{
int tari = header_arity(val);
sz -= tari;
while (tari--) {
*hp++ = *tp++;
}
}
break;
}
break;
}
}
*hpp = hp;
return make_tuple(ptr + offs);
}
/* Move all terms in heap fragments into heap. The terms must be guaranteed to
* be contained within the fragments. The source terms are destructed with
* move markers.
* Typically used to copy a multi-fragmented message (from NIF).
*/
void move_multi_frags(Eterm** hpp, ErlOffHeap* off_heap, ErlHeapFragment* first,
Eterm* refs, unsigned nrefs)
{
ErlHeapFragment* bp;
Eterm* hp_start = *hpp;
Eterm* hp_end;
Eterm* hp;
unsigned i;
for (bp=first; bp!=NULL; bp=bp->next) {
move_one_frag(hpp, bp->mem, bp->used_size, off_heap);
off_heap->overhead += bp->off_heap.overhead;
}
hp_end = *hpp;
for (hp=hp_start; hp<hp_end; ++hp) {
Eterm* ptr;
Eterm val;
Eterm gval = *hp;
switch (primary_tag(gval)) {
case TAG_PRIMARY_BOXED:
ptr = boxed_val(gval);
val = *ptr;
if (IS_MOVED_BOXED(val)) {
ASSERT(is_boxed(val));
*hp = val;
}
break;
case TAG_PRIMARY_LIST:
ptr = list_val(gval);
val = *ptr;
if (IS_MOVED_CONS(val)) {
*hp = ptr[1];
}
break;
case TAG_PRIMARY_HEADER:
if (header_is_thing(gval)) {
hp += thing_arityval(gval);
}
break;
}
}
for (i=0; i<nrefs; ++i) {
refs[i] = follow_moved(refs[i]);
}
}
static void
move_one_frag(Eterm** hpp, Eterm* src, Uint src_sz, ErlOffHeap* off_heap)
{
union {
Uint *up;
ProcBin *pbp;
ErlFunThing *efp;
ExternalThing *etp;
} ohe;
Eterm* ptr = src;
Eterm* end = ptr + src_sz;
Eterm dummy_ref;
Eterm* hp = *hpp;
while (ptr != end) {
Eterm val;
ASSERT(ptr < end);
val = *ptr;
ASSERT(val != ERTS_HOLE_MARKER);
if (is_header(val)) {
ASSERT(ptr + header_arity(val) < end);
ohe.up = hp;
MOVE_BOXED(ptr, val, hp, &dummy_ref);
switch (val & _HEADER_SUBTAG_MASK) {
case REFC_BINARY_SUBTAG:
ohe.pbp->next = off_heap->mso;
off_heap->mso = ohe.pbp;
break;
case FUN_SUBTAG:
ohe.efp->next = off_heap->funs;
off_heap->funs = ohe.efp;
break;
case EXTERNAL_PID_SUBTAG:
case EXTERNAL_PORT_SUBTAG:
case EXTERNAL_REF_SUBTAG:
ohe.etp->next = off_heap->externals;
off_heap->externals = ohe.etp;
break;
}
}
else { /* must be a cons cell */
ASSERT(ptr+1 < end);
MOVE_CONS(ptr, val, hp, &dummy_ref);
ptr += 2;
}
}
*hpp = hp;
}
|
