/* shield.c: SHIELD IMPLEMENTATION
*
* $Id: //info.ravenbrook.com/project/mps/version/1.104/code/shield.c#1 $
* Copyright (c) 2001 Ravenbrook Limited. See end of file for license.
*
* See: idea.shield, design.mps.shield.
*
* This implementation of the shield avoids suspending threads for
* as long as possible. When threads are suspended, it maintains a
* cache of covered segments where the desired and actual protection
* do not match. This cache is flushed on leaving the shield.
*
*
* Definitions
*
* .def.synced: a seg is synced if the prot and shield modes are the
* same, and unsynced otherwise.
* .def.depth: the depth of a segment is defined as
* depth == #exposes - #covers + #(in cache), where
* #exposes = the total number of times the seg has been exposed
* #covers = the total number of times the seg has been covered
* #(in cache) = the number of times the seg appears in the cache
* The cache is initially empty and Cover should not be called
* without a matching Expose, so this figure should always be
* non-negative.
* .def.total.depth: The total depth is the sum of the depth over
* all segments
* .def.outside: being outside the shield is being between calls
* to leave and enter, and similarly .def.inside: being inside the
* shield is being between calls to enter and leave.
* .def.suspended: suspended is true iff the mutator is suspended.
* .def.shielded: a segment is shielded if the shield mode is non-zero.
*
*
* Properties
*
* .prop.outside.running: The mutator may not be suspended while
* outside the shield.
* .prop.mutator.access: An attempt by the mutator to access
* shielded memory must cause an ArenaAccess.
* .prop.inside.access: Inside the shield it must be possible to access
* all unshielded segments and all exposed segments.
*
*
* Invariants
*
* These invariants are maintained by the code.
*
* .inv.outside.running: The mutator is not suspended while outside the
* shield.
* .inv.unsynced.suspended: If any segment is not synced,
* the mutator is suspended.
* .inv.unsynced.depth: All unsynced segments have positive depth.
* .inv.outside.depth: The total depth is zero while outside the shield.
* .inv.prot.shield: The prot mode is never more than the shield mode.
* .inv.expose.prot: An exposed seg is not protected.
*
* Hints at proofs of properties from invariants
*
* inv.outside.running directly ensures prop.outside running.
*
* As the depth of a segment cannot be negative
* total depth == 0 => for all segments, depth == 0
* => all segs are synced (by .inv.unsynced.depth)
*
* If the mutator is running then all segs must be synced
* (.inv.unsynced.suspend). Which means that the hardware protection
* (prot mode) must reflect the software protection (shield mode).
* Hence all shielded memory will be hardware protected while the
* mutator is running. This ensures .prop.mutator.access.
*
* inv.prot.shield and inv.expose.prot ensure prop.inside.access.
*/
#include "mpm.h"
SRCID(shield, "$Id: //info.ravenbrook.com/project/mps/version/1.104/code/shield.c#1 $");
void (ShieldSuspend)(Arena arena)
{
AVERT(Arena, arena);
AVER(arena->insideShield);
if (!arena->suspended) {
ThreadRingSuspend(ArenaThreadRing(arena));
arena->suspended = TRUE;
}
}
void (ShieldResume)(Arena arena)
{
AVERT(Arena, arena);
AVER(arena->insideShield);
AVER(arena->suspended);
/* It is only correct to actually resume the mutator here if shDepth is 0 */
}
/* This ensures actual prot mode does not include mode */
static void protLower(Arena arena, Seg seg, AccessSet mode)
{
/* <design/trace/#fix.noaver> */
AVERT_CRITICAL(Arena, arena);
UNUSED(arena);
AVERT_CRITICAL(Seg, seg);
if (SegPM(seg) & mode) {
SegSetPM(seg, SegPM(seg) & ~mode);
ProtSet(SegBase(seg), SegLimit(seg), SegPM(seg));
}
}
static void sync(Arena arena, Seg seg)
{
AVERT(Arena, arena);
AVERT(Seg, seg);
if (SegPM(seg) != SegSM(seg)) {
ProtSet(SegBase(seg), SegLimit(seg), SegSM(seg));
SegSetPM(seg, SegSM(seg));
/* inv.prot.shield */
}
}
static void flush(Arena arena, Size i)
{
Seg seg;
AVERT(Arena, arena);
AVER(i < arena->shCacheLimit);
seg = arena->shCache[i];
if (seg == NULL) return;
AVERT(Seg, seg);
AVER(arena->shDepth > 0);
AVER(SegDepth(seg) > 0);
--arena->shDepth;
SegSetDepth(seg, SegDepth(seg) - 1);
if (SegDepth(seg) == 0)
sync(arena, seg);
arena->shCache[i] = NULL;
}
/* If the segment is out of sync, either sync it, or ensure
* depth > 0, and the arena is suspended.
*/
static void cache(Arena arena, Seg seg)
{
/* <design/trace/#fix.noaver> */
AVERT_CRITICAL(Arena, arena);
AVERT_CRITICAL(Seg, seg);
if (SegSM(seg) == SegPM(seg)) return;
if (SegDepth(seg) > 0) {
ShieldSuspend(arena);
return;
}
if (ShieldCacheSIZE == 0 || !arena->suspended)
sync(arena, seg);
else {
SegSetDepth(seg, SegDepth(seg) + 1);
++arena->shDepth;
AVER(arena->shDepth > 0);
AVER(SegDepth(seg) > 0);
AVER(arena->shCacheLimit <= ShieldCacheSIZE);
AVER(arena->shCacheI < arena->shCacheLimit);
flush(arena, arena->shCacheI);
arena->shCache[arena->shCacheI] = seg;
++arena->shCacheI;
if (arena->shCacheI == ShieldCacheSIZE)
arena->shCacheI = 0;
if (arena->shCacheI == arena->shCacheLimit)
++arena->shCacheLimit;
}
}
void (ShieldRaise) (Arena arena, Seg seg, AccessSet mode)
{
/* .seg.broken: Seg's shield invariants may not be true at */
/* this point (this function is called to enforce them) so we */
/* can't check seg. Nor can we check arena as that checks the */
/* segs in the cache. */
AVER((SegSM(seg) & mode) == AccessSetEMPTY);
SegSetSM(seg, SegSM(seg) | mode); /* inv.prot.shield preserved */
/* ensure inv.unsynced.suspended & inv.unsynced.depth */
cache(arena, seg);
AVERT(Arena, arena);
AVERT(Seg, seg);
}
void (ShieldLower)(Arena arena, Seg seg, AccessSet mode)
{
/* Don't check seg or arena, see .seg.broken */
AVER((SegSM(seg) & mode) == mode);
/* synced(seg) is not changed by the following
* preserving inv.unsynced.suspended
* Also inv.prot.shield preserved
*/
SegSetSM(seg, SegSM(seg) & ~mode);
protLower(arena, seg, mode);
AVERT(Arena, arena);
AVERT(Seg, seg);
}
void (ShieldEnter)(Arena arena)
{
Size i;
AVERT(Arena, arena);
AVER(!arena->insideShield);
AVER(arena->shDepth == 0);
AVER(!arena->suspended);
AVER(arena->shCacheLimit <= ShieldCacheSIZE);
AVER(arena->shCacheI < arena->shCacheLimit);
for(i = 0; i < arena->shCacheLimit; i++)
AVER(arena->shCache[i] == NULL);
arena->shCacheI = (Size)0;
arena->shCacheLimit = (Size)1;
arena->insideShield = TRUE;
}
/* .shield.flush: Flush empties the shield cache.
* This needs to be called before segments are destroyed as there
* may be references to them in the cache.
*/
void (ShieldFlush)(Arena arena)
{
Size i;
for(i = 0; i < arena->shCacheLimit; ++i) {
if (arena->shDepth == 0)
break;
flush(arena, i);
}
}
void (ShieldLeave)(Arena arena)
{
AVERT(Arena, arena);
AVER(arena->insideShield);
ShieldFlush(arena);
/* Cache is empty so inv.outside.depth holds */
AVER(arena->shDepth == 0);
/* Ensuring the mutator is running at this point
* guarantees inv.outside.running */
if (arena->suspended) {
ThreadRingResume(ArenaThreadRing(arena));
arena->suspended = FALSE;
}
arena->insideShield = FALSE;
}
void (ShieldExpose)(Arena arena, Seg seg)
{
AccessSet mode = AccessREAD | AccessWRITE;
/* <design/trace/#fix.noaver> */
AVERT_CRITICAL(Arena, arena);
AVER_CRITICAL(arena->insideShield);
SegSetDepth(seg, SegDepth(seg) + 1);
++arena->shDepth;
/* <design/trace/#fix.noaver> */
AVER_CRITICAL(arena->shDepth > 0);
AVER_CRITICAL(SegDepth(seg) > 0);
if (SegPM(seg) & mode)
ShieldSuspend(arena);
/* This ensures inv.expose.prot */
protLower(arena, seg, mode);
}
void (ShieldCover)(Arena arena, Seg seg)
{
/* <design/trace/#fix.noaver> */
AVERT_CRITICAL(Arena, arena);
AVERT_CRITICAL(Seg, seg);
AVER_CRITICAL(SegPM(seg) == AccessSetEMPTY);
AVER_CRITICAL(arena->shDepth > 0);
AVER_CRITICAL(SegDepth(seg) > 0);
SegSetDepth(seg, SegDepth(seg) - 1);
--arena->shDepth;
/* ensure inv.unsynced.depth */
cache(arena, seg);
}
/* C. COPYRIGHT AND LICENSE
*
* Copyright (C) 2001-2002 Ravenbrook Limited <http://www.ravenbrook.com/>.
* All rights reserved. This is an open source license. Contact
* Ravenbrook for commercial licensing options.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* 3. Redistributions in any form must be accompanied by information on how
* to obtain complete source code for this software and any accompanying
* software that uses this software. The source code must either be
* included in the distribution or be available for no more than the cost
* of distribution plus a nominal fee, and must be freely redistributable
* under reasonable conditions. For an executable file, complete source
* code means the source code for all modules it contains. It does not
* include source code for modules or files that typically accompany the
* major components of the operating system on which the executable file
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*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
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