void
Heap_Resize(Heap_t* h, long newSize, int reset)
{
long usedSize;
long maxSize = (h->mappedTop - h->bottom) * sizeof(val_t);
long oldWriteableSize = (h->writeableTop - h->bottom) * sizeof(val_t);
long newSizeRound = RoundUp(newSize, TILT_PAGESIZE);
if (newSize > maxSize) DIE("resized heap too big");
if (reset) {
h->cursor = h->bottom;
}
usedSize = (h->cursor - h->bottom) * sizeof(val_t);
assert(usedSize <= newSize);
h->top = h->bottom + (newSize / sizeof(val_t));
if (newSizeRound > oldWriteableSize) {
my_mprotect(6,(caddr_t) h->writeableTop,
newSizeRound - oldWriteableSize,
PROT_READ | PROT_WRITE);
h->writeableTop = h->bottom + newSizeRound / sizeof(val_t);
}
else if (paranoid && newSizeRound < oldWriteableSize) {
my_mprotect(7,(caddr_t) (h->bottom +
newSizeRound / sizeof(val_t)),
oldWriteableSize - newSizeRound, PROT_NONE);
h->writeableTop = h->bottom + newSizeRound / sizeof(val_t);
}
assert(h->bottom <= h->cursor);
assert(h->cursor <= h->top);
assert(h->top <= h->writeableTop);
assert(h->writeableTop <= h->mappedTop);
}
void jump_function(){
//CHAR_walk_move
//函數
my_mprotect((int)JUMP_CHAR_walk_move_SUB);
*(char*)((int)JUMP_CHAR_walk_move_SUB + 0)= 0x57; //PUSH edi
*(char*)((int)JUMP_CHAR_walk_move_SUB + 1)= 0xE8; //CALL
*(int *)((int)JUMP_CHAR_walk_move_SUB + 2)= (int)JUMP_CHAR_walk_move -4 -((int)JUMP_CHAR_walk_move_SUB + 2);
*(char*)((int)JUMP_CHAR_walk_move_SUB + 6)= 0x83; //ADD esp, 4
*(char*)((int)JUMP_CHAR_walk_move_SUB + 7)= 0xC4;
*(char*)((int)JUMP_CHAR_walk_move_SUB + 8)= 0x4;
*(char*)((int)JUMP_CHAR_walk_move_SUB + 9)= 0x83; //cmp [ebp+var_38], 6
*(char*)((int)JUMP_CHAR_walk_move_SUB + 10)= 0x7D;
*(char*)((int)JUMP_CHAR_walk_move_SUB + 11)= 0xC8;
*(char*)((int)JUMP_CHAR_walk_move_SUB + 12)= 0x06;
*(char*)((int)JUMP_CHAR_walk_move_SUB + 13)= 0x0F; //jz loc_807C19C
*(char*)((int)JUMP_CHAR_walk_move_SUB + 14)= 0x84;
*(int *)((int)JUMP_CHAR_walk_move_SUB + 15)= 0x0807C19C -4 -((int)JUMP_CHAR_walk_move_SUB + 15) ;
*(char*)((int)JUMP_CHAR_walk_move_SUB + 19)= 0xE9; //jmp loc_0807BDC1
*(int *)((int)JUMP_CHAR_walk_move_SUB + 20)= 0x0807BDC1 -4 -((int)JUMP_CHAR_walk_move_SUB + 20);
//jump
my_mprotect(0x0807BDB7);
*(char*)(0x0807BDB7)= 0xE9;
*(int *)(0x0807BDB8)= (int)JUMP_CHAR_walk_move_SUB -4 -0x0807BDB8;
}
static Stacklet_t*
Stacklet_Alloc(StackChain_t* stackChain)
{
int i;
Stacklet_t *res = NULL;
/*
Each stacklet contains the primary and replica. Each one
starts with a guard page, a C area, and then an ML area.
*/
int size = (GuardStackletSize + MLStackletSize + CStackletSize) * kilobyte; /* for just one of the two: primary and replica */
assert(stackletOffset == size);
for (i=0; i<NumStacklet; i++)
if (CompareAndSwap(&Stacklets[i].count, 0, 1) == 0) {
res = &Stacklets[i];
break;
}
if (res == NULL)
DIE("out of stack space");
res->parent = stackChain;
res->state = Inconsistent;
if (!res->mapped) {
mem_t start = my_mmap(2 * size, PROT_READ | PROT_WRITE);
mem_t middle = start + size / (sizeof (val_t));
res->baseExtendedBottom = start +
(GuardStackletSize * kilobyte) / (sizeof (val_t));
res->baseBottom = res->baseExtendedBottom +
(CStackletSize * kilobyte) / (sizeof (val_t));
res->baseTop = res->baseBottom +
(MLStackletSize * kilobyte) / (sizeof (val_t));
assert(res->baseTop == middle);
/*
Get some initial room in multiples of 64 bytes; Sparc
requires at least 68 byte for the save area.
*/
res->baseTop -= (128 / sizeof(val_t));
my_mprotect(0, (caddr_t) start, GuardStackletSize * kilobyte,
PROT_NONE); /* Guard page at bottom of primary */
my_mprotect(1, (caddr_t) middle, GuardStackletSize * kilobyte,
PROT_NONE); /* Guard page at bottom of replica */
res->callinfoStack = SetCreate(size / (32 * sizeof (val_t)));
res->mapped = 1;
}
res->baseCursor = res->baseTop;
for (i=0; i<32; i++)
res->bottomBaseRegs[i] = 0;
SetReset(res->callinfoStack);
return res;
}
