nss-3.41/nspr/pr/src/threads/combined/prustack.c - manifest_repos/nss - Git at Google

 /* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
 /* This Source Code Form is subject to the terms of the Mozilla Public
  * License, v. 2.0. If a copy of the MPL was not distributed with this
  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

 #include "primpl.h"

 /* List of free stack virtual memory chunks */
 PRLock *_pr_stackLock;
 PRCList _pr_freeStacks = PR_INIT_STATIC_CLIST(&_pr_freeStacks);
 PRIntn _pr_numFreeStacks;
 PRIntn _pr_maxFreeStacks = 4;

 #ifdef DEBUG
 /*
 ** A variable that can be set via the debugger...
 */
 PRBool _pr_debugStacks = PR_FALSE;
 #endif

 /* How much space to leave between the stacks, at each end */
 #define REDZONE		(2 << _pr_pageShift)

 #define _PR_THREAD_STACK_PTR(_qp) \
     ((PRThreadStack*) ((char*) (_qp) - offsetof(PRThreadStack,links)))

 void _PR_InitStacks(void)
 {
     _pr_stackLock = PR_NewLock();
 }

 void _PR_CleanupStacks(void)
 {
     if (_pr_stackLock) {
         PR_DestroyLock(_pr_stackLock);
         _pr_stackLock = NULL;
     }
 }

 /*
 ** Allocate a stack for a thread.
 */
 PRThreadStack *_PR_NewStack(PRUint32 stackSize)
 {
     PRCList *qp;
     PRThreadStack *ts;
     PRThread *thr;

     /*
     ** Trim the list of free stacks. Trim it backwards, tossing out the
     ** oldest stack found first (this way more recent stacks have a
     ** chance of being present in the data cache).
     */
     PR_Lock(_pr_stackLock);
     qp = _pr_freeStacks.prev;
     while ((_pr_numFreeStacks > _pr_maxFreeStacks) && (qp != &_pr_freeStacks)) {
 	ts = _PR_THREAD_STACK_PTR(qp);
 	thr = _PR_THREAD_STACK_TO_PTR(ts);
 	qp = qp->prev;
 	/*
 	 * skip stacks which are still being used
 	 */
 	if (thr->no_sched)
 		continue;
 	PR_REMOVE_LINK(&ts->links);

 	/* Give platform OS to clear out the stack for debugging */
 	_PR_MD_CLEAR_STACK(ts);

 	_pr_numFreeStacks--;
 	_PR_DestroySegment(ts->seg);
 	PR_DELETE(ts);
     }

     /*
     ** Find a free thread stack. This searches the list of free'd up
     ** virtually mapped thread stacks.
     */
     qp = _pr_freeStacks.next;
     ts = 0;
     while (qp != &_pr_freeStacks) {
 	ts = _PR_THREAD_STACK_PTR(qp);
 	thr = _PR_THREAD_STACK_TO_PTR(ts);
 	qp = qp->next;
 	/*
 	 * skip stacks which are still being used
 	 */
 	if ((!(thr->no_sched)) && ((ts->allocSize - 2*REDZONE) >= stackSize)) {
 	    /*
 	    ** Found a stack that is not in use and is big enough. Change
 	    ** stackSize to fit it.
 	    */
 	    stackSize = ts->allocSize - 2*REDZONE;
 	    PR_REMOVE_LINK(&ts->links);
 	    _pr_numFreeStacks--;
 	    ts->links.next = 0;
 	    ts->links.prev = 0;
 	    PR_Unlock(_pr_stackLock);
 	    goto done;
 	}
 	ts = 0;
     }
     PR_Unlock(_pr_stackLock);

     if (!ts) {
 	/* Make a new thread stack object. */
 	ts = PR_NEWZAP(PRThreadStack);
 	if (!ts) {
 	    return NULL;
 	}

 	/*
 	** Assign some of the virtual space to the new stack object. We
 	** may not get that piece of VM, but if nothing else we will
 	** advance the pointer so we don't collide (unless the OS screws
 	** up).
 	*/
 	ts->allocSize = stackSize + 2*REDZONE;
 	ts->seg = _PR_NewSegment(ts->allocSize, 0);
 	if (!ts->seg) {
 	    PR_DELETE(ts);
 	    return NULL;
 	}
 	}

   done:
     ts->allocBase = (char*)ts->seg->vaddr;
     ts->flags = _PR_STACK_MAPPED;
     ts->stackSize = stackSize;

 #ifdef HAVE_STACK_GROWING_UP
     ts->stackTop = ts->allocBase + REDZONE;
     ts->stackBottom = ts->stackTop + stackSize;
 #else
     ts->stackBottom = ts->allocBase + REDZONE;
     ts->stackTop = ts->stackBottom + stackSize;
 #endif

     PR_LOG(_pr_thread_lm, PR_LOG_NOTICE,
 	   ("thread stack: base=0x%x limit=0x%x bottom=0x%x top=0x%x\n",
 	    ts->allocBase, ts->allocBase + ts->allocSize - 1,
 	    ts->allocBase + REDZONE,
 	    ts->allocBase + REDZONE + stackSize - 1));

     _PR_MD_INIT_STACK(ts,REDZONE);

     return ts;
 }

 /*
 ** Free the stack for the current thread
 */
 void _PR_FreeStack(PRThreadStack *ts)
 {
     if (!ts) {
 	return;
     }
     if (ts->flags & _PR_STACK_PRIMORDIAL) {
 	PR_DELETE(ts);
 	return;
     }

     /*
     ** Put the stack on the free list. This is done because we are still
     ** using the stack. Next time a thread is created we will trim the
     ** list down; it's safe to do it then because we will have had to
     ** context switch to a live stack before another thread can be
     ** created.
     */
     PR_Lock(_pr_stackLock);
     PR_APPEND_LINK(&ts->links, _pr_freeStacks.prev);
     _pr_numFreeStacks++;
     PR_Unlock(_pr_stackLock);
 }
	/* -- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -- */
	/* This Source Code Form is subject to the terms of the Mozilla Public
	* License, v. 2.0. If a copy of the MPL was not distributed with this
	* file, You can obtain one at http://mozilla.org/MPL/2.0/. */

	#include "primpl.h"

	/* List of free stack virtual memory chunks */
	PRLock *_pr_stackLock;
	PRCList _pr_freeStacks = PR_INIT_STATIC_CLIST(&_pr_freeStacks);
	PRIntn _pr_numFreeStacks;
	PRIntn _pr_maxFreeStacks = 4;

	#ifdef DEBUG
	/*
	** A variable that can be set via the debugger...
	*/
	PRBool _pr_debugStacks = PR_FALSE;
	#endif

	/* How much space to leave between the stacks, at each end */
	#define REDZONE (2 << _pr_pageShift)

	#define _PR_THREAD_STACK_PTR(_qp) \
	((PRThreadStack) ((char) (_qp) - offsetof(PRThreadStack,links)))

	void _PR_InitStacks(void)
	{
	_pr_stackLock = PR_NewLock();
	}

	void _PR_CleanupStacks(void)
	{
	if (_pr_stackLock) {
	PR_DestroyLock(_pr_stackLock);
	_pr_stackLock = NULL;
	}
	}

	/*
	** Allocate a stack for a thread.
	*/
	PRThreadStack *_PR_NewStack(PRUint32 stackSize)
	{
	PRCList *qp;
	PRThreadStack *ts;
	PRThread *thr;

	/*
	** Trim the list of free stacks. Trim it backwards, tossing out the
	** oldest stack found first (this way more recent stacks have a
	** chance of being present in the data cache).
	*/
	PR_Lock(_pr_stackLock);
	qp = _pr_freeStacks.prev;
	while ((_pr_numFreeStacks > _pr_maxFreeStacks) && (qp != &_pr_freeStacks)) {
	ts = _PR_THREAD_STACK_PTR(qp);
	thr = _PR_THREAD_STACK_TO_PTR(ts);
	qp = qp->prev;
	/*
	* skip stacks which are still being used
	*/
	if (thr->no_sched)
	continue;
	PR_REMOVE_LINK(&ts->links);

	/* Give platform OS to clear out the stack for debugging */
	_PR_MD_CLEAR_STACK(ts);

	_pr_numFreeStacks--;
	_PR_DestroySegment(ts->seg);
	PR_DELETE(ts);
	}

	/*
	** Find a free thread stack. This searches the list of free'd up
	** virtually mapped thread stacks.
	*/
	qp = _pr_freeStacks.next;
	ts = 0;
	while (qp != &_pr_freeStacks) {
	ts = _PR_THREAD_STACK_PTR(qp);
	thr = _PR_THREAD_STACK_TO_PTR(ts);
	qp = qp->next;
	/*
	* skip stacks which are still being used
	*/
	if ((!(thr->no_sched)) && ((ts->allocSize - 2*REDZONE) >= stackSize)) {
	/*
	** Found a stack that is not in use and is big enough. Change
	** stackSize to fit it.
	*/
	stackSize = ts->allocSize - 2*REDZONE;
	PR_REMOVE_LINK(&ts->links);
	_pr_numFreeStacks--;
	ts->links.next = 0;
	ts->links.prev = 0;
	PR_Unlock(_pr_stackLock);
	goto done;
	}
	ts = 0;
	}
	PR_Unlock(_pr_stackLock);

	if (!ts) {
	/* Make a new thread stack object. */
	ts = PR_NEWZAP(PRThreadStack);
	if (!ts) {
	return NULL;
	}

	/*
	** Assign some of the virtual space to the new stack object. We
	** may not get that piece of VM, but if nothing else we will
	** advance the pointer so we don't collide (unless the OS screws
	** up).
	*/
	ts->allocSize = stackSize + 2*REDZONE;
	ts->seg = _PR_NewSegment(ts->allocSize, 0);
	if (!ts->seg) {
	PR_DELETE(ts);
	return NULL;
	}
	}

	done:
	ts->allocBase = (char*)ts->seg->vaddr;
	ts->flags = _PR_STACK_MAPPED;
	ts->stackSize = stackSize;

	#ifdef HAVE_STACK_GROWING_UP
	ts->stackTop = ts->allocBase + REDZONE;
	ts->stackBottom = ts->stackTop + stackSize;
	#else
	ts->stackBottom = ts->allocBase + REDZONE;
	ts->stackTop = ts->stackBottom + stackSize;
	#endif

	PR_LOG(_pr_thread_lm, PR_LOG_NOTICE,
	("thread stack: base=0x%x limit=0x%x bottom=0x%x top=0x%x\n",
	ts->allocBase, ts->allocBase + ts->allocSize - 1,
	ts->allocBase + REDZONE,
	ts->allocBase + REDZONE + stackSize - 1));

	_PR_MD_INIT_STACK(ts,REDZONE);

	return ts;
	}

	/*
	** Free the stack for the current thread
	*/
	void _PR_FreeStack(PRThreadStack *ts)
	{
	if (!ts) {
	return;
	}
	if (ts->flags & _PR_STACK_PRIMORDIAL) {
	PR_DELETE(ts);
	return;
	}

	/*
	** Put the stack on the free list. This is done because we are still
	** using the stack. Next time a thread is created we will trim the
	** list down; it's safe to do it then because we will have had to
	** context switch to a live stack before another thread can be
	** created.
	*/
	PR_Lock(_pr_stackLock);
	PR_APPEND_LINK(&ts->links, _pr_freeStacks.prev);
	_pr_numFreeStacks++;
	PR_Unlock(_pr_stackLock);
	}