office-gobmx/sal/rtl/source/alloc_arena.c
Rüdiger Timm e4d10374e5 INTEGRATION: CWS changefileheader (1.5.96); FILE MERGED
2008/04/01 12:34:18 thb 1.5.96.2: #i85898# Stripping all external header guards
2008/03/31 13:24:01 rt 1.5.96.1: #i87441# Change license header to LPGL v3.
2008-04-10 11:00:47 +00:00

1397 lines
39 KiB
C

/*************************************************************************
*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* Copyright 2008 by Sun Microsystems, Inc.
*
* OpenOffice.org - a multi-platform office productivity suite
*
* $RCSfile: alloc_arena.c,v $
* $Revision: 1.6 $
*
* This file is part of OpenOffice.org.
*
* OpenOffice.org is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License version 3
* only, as published by the Free Software Foundation.
*
* OpenOffice.org is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License version 3 for more details
* (a copy is included in the LICENSE file that accompanied this code).
*
* You should have received a copy of the GNU Lesser General Public License
* version 3 along with OpenOffice.org. If not, see
* <http://www.openoffice.org/license.html>
* for a copy of the LGPLv3 License.
*
************************************************************************/
#define _BSD_SOURCE /* sys/mman.h: MAP_ANON */
#include "alloc_arena.h"
#ifndef INCLUDED_RTL_ARENA_IMPL_H
#include "alloc_impl.h"
#endif
#include "internal/once.h"
#include "sal/macros.h"
#include "osl/diagnose.h"
#ifndef INCLUDED_STRING_H
#include <string.h>
#endif
#ifndef INCLUDED_STDIO_H
#include <stdio.h>
#endif
#include "sal/types.h"
#ifdef OS2
#undef OSL_TRACE
#define OSL_TRACE 1 ? ((void)0) : _OSL_GLOBAL osl_trace
#endif
/* ================================================================= *
*
* arena internals.
*
* ================================================================= */
/** g_arena_list
* @internal
*/
struct rtl_arena_list_st
{
rtl_memory_lock_type m_lock;
rtl_arena_type m_arena_head;
};
static struct rtl_arena_list_st g_arena_list;
/** gp_arena_arena
* provided for arena_type allocations, and hash_table resizing.
*
* @internal
*/
static rtl_arena_type * gp_arena_arena = 0;
/** gp_machdep_arena
*
* Low level virtual memory (pseudo) arena
* (platform dependent implementation)
*
* @internal
*/
static rtl_arena_type * gp_machdep_arena = 0;
static void *
SAL_CALL rtl_machdep_alloc (
rtl_arena_type * pArena,
sal_Size * pSize
);
static void
SAL_CALL rtl_machdep_free (
rtl_arena_type * pArena,
void * pAddr,
sal_Size nSize
);
static sal_Size
rtl_machdep_pagesize (void);
/** gp_default_arena
*/
rtl_arena_type * gp_default_arena = 0;
/** rtl_arena_init()
* @internal
*/
static int
rtl_arena_init (void);
/* ================================================================= */
/** rtl_arena_segment_constructor()
*/
static int
rtl_arena_segment_constructor (void * obj)
{
rtl_arena_segment_type * segment = (rtl_arena_segment_type*)(obj);
QUEUE_START_NAMED(segment, s);
QUEUE_START_NAMED(segment, f);
return (1);
}
/** rtl_arena_segment_destructor()
*/
static void
rtl_arena_segment_destructor (void * obj)
{
#if OSL_DEBUG_LEVEL == 0
(void) obj; /* unused */
#else /* OSL_DEBUG_LEVEL */
rtl_arena_segment_type * segment = (rtl_arena_segment_type*)(obj);
OSL_ASSERT(QUEUE_STARTED_NAMED(segment, s));
OSL_ASSERT(QUEUE_STARTED_NAMED(segment, f));
#endif /* OSL_DEBUG_LEVEL */
}
/* ================================================================= */
/** rtl_arena_segment_populate()
*
* @precond arena->m_lock acquired.
*/
static int
rtl_arena_segment_populate (
rtl_arena_type * arena
)
{
rtl_arena_segment_type *span;
sal_Size size = rtl_machdep_pagesize();
span = rtl_machdep_alloc(gp_machdep_arena, &size);
if (span != 0)
{
rtl_arena_segment_type *first, *last, *head;
sal_Size count = size / sizeof(rtl_arena_segment_type);
/* insert onto reserve span list */
QUEUE_INSERT_TAIL_NAMED(&(arena->m_segment_reserve_span_head), span, s);
QUEUE_START_NAMED(span, f);
span->m_addr = (sal_uIntPtr)(span);
span->m_size = size;
span->m_type = RTL_ARENA_SEGMENT_TYPE_SPAN;
/* insert onto reserve list */
head = &(arena->m_segment_reserve_head);
for (first = span + 1, last = span + count; first < last; ++first)
{
QUEUE_INSERT_TAIL_NAMED(head, first, s);
QUEUE_START_NAMED(first, f);
first->m_addr = 0;
first->m_size = 0;
first->m_type = 0;
}
}
return (span != 0);
}
/** rtl_arena_segment_get()
*
* @precond arena->m_lock acquired.
* @precond (*ppSegment == 0)
*/
static RTL_MEMORY_INLINE void
rtl_arena_segment_get (
rtl_arena_type * arena,
rtl_arena_segment_type ** ppSegment
)
{
rtl_arena_segment_type * head;
OSL_ASSERT(*ppSegment == 0);
head = &(arena->m_segment_reserve_head);
if ((head->m_snext != head) || rtl_arena_segment_populate (arena))
{
(*ppSegment) = head->m_snext;
QUEUE_REMOVE_NAMED((*ppSegment), s);
}
}
#if defined(__SUNPRO_C) || defined(__SUNPRO_CC)
#pragma inline(rtl_arena_segment_get)
#endif
/** rtl_arena_segment_put()
*
* @precond arena->m_lock acquired.
* @postcond (*ppSegment == 0)
*/
static RTL_MEMORY_INLINE void
rtl_arena_segment_put (
rtl_arena_type * arena,
rtl_arena_segment_type ** ppSegment
)
{
rtl_arena_segment_type * head;
OSL_ASSERT(QUEUE_STARTED_NAMED((*ppSegment), s));
OSL_ASSERT(QUEUE_STARTED_NAMED((*ppSegment), f));
(*ppSegment)->m_addr = 0;
(*ppSegment)->m_size = 0;
OSL_ASSERT((*ppSegment)->m_type != RTL_ARENA_SEGMENT_TYPE_HEAD);
(*ppSegment)->m_type = 0;
/* keep as reserve */
head = &(arena->m_segment_reserve_head);
QUEUE_INSERT_HEAD_NAMED(head, (*ppSegment), s);
/* clear */
(*ppSegment) = 0;
}
#if defined(__SUNPRO_C) || defined(__SUNPRO_CC)
#pragma inline(rtl_arena_segment_put)
#endif
/* ================================================================= */
/** rtl_arena_freelist_insert()
*
* @precond arena->m_lock acquired.
*/
static RTL_MEMORY_INLINE void
rtl_arena_freelist_insert (
rtl_arena_type * arena,
rtl_arena_segment_type * segment
)
{
rtl_arena_segment_type * head;
head = &(arena->m_freelist_head[highbit(segment->m_size) - 1]);
QUEUE_INSERT_TAIL_NAMED(head, segment, f);
arena->m_freelist_bitmap |= head->m_size;
}
#if defined(__SUNPRO_C) || defined(__SUNPRO_CC)
#pragma inline(rtl_arena_freelist_insert)
#endif /* __SUNPRO_C */
/** rtl_arena_freelist_remove()
*
* @precond arena->m_lock acquired.
*/
static RTL_MEMORY_INLINE void
rtl_arena_freelist_remove (
rtl_arena_type * arena,
rtl_arena_segment_type * segment
)
{
if ((segment->m_fnext->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD) &&
(segment->m_fprev->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD) )
{
rtl_arena_segment_type * head;
head = segment->m_fprev;
OSL_ASSERT(arena->m_freelist_bitmap & head->m_size);
arena->m_freelist_bitmap ^= head->m_size;
}
QUEUE_REMOVE_NAMED(segment, f);
}
#if defined(__SUNPRO_C) || defined(__SUNPRO_CC)
#pragma inline(rtl_arena_freelist_remove)
#endif /* __SUNPRO_C */
/* ================================================================= */
/** RTL_ARENA_HASH_INDEX()
*/
#define RTL_ARENA_HASH_INDEX_IMPL(a, s, q, m) \
((((a) + ((a) >> (s)) + ((a) >> ((s) << 1))) >> (q)) & (m))
#define RTL_ARENA_HASH_INDEX(arena, addr) \
RTL_ARENA_HASH_INDEX_IMPL((addr), (arena)->m_hash_shift, (arena)->m_quantum_shift, ((arena)->m_hash_size - 1))
/** rtl_arena_hash_rescale()
*
* @precond arena->m_lock released.
*/
static void
rtl_arena_hash_rescale (
rtl_arena_type * arena,
sal_Size new_size
)
{
rtl_arena_segment_type ** new_table;
sal_Size new_bytes;
new_bytes = new_size * sizeof(rtl_arena_segment_type*);
new_table = rtl_arena_alloc (gp_arena_arena, &new_bytes);
if (new_table != 0)
{
rtl_arena_segment_type ** old_table;
sal_Size old_size, i;
memset (new_table, 0, new_bytes);
RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock));
old_table = arena->m_hash_table;
old_size = arena->m_hash_size;
OSL_TRACE(
"rtl_arena_hash_rescale(\"%s\"): "
"nseg: %"PRIu64" (ave: %"PRIu64"), frees: %"PRIu64" "
"[old_size: %lu, new_size: %lu]",
arena->m_name,
arena->m_stats.m_alloc - arena->m_stats.m_free,
(arena->m_stats.m_alloc - arena->m_stats.m_free) >> arena->m_hash_shift,
arena->m_stats.m_free,
old_size, new_size
);
#if 0 /* DBG */
int i;
for (i = 0; i < arena->m_hash_size; i++)
{
sal_Size k = 0; rtl_arena_segment_type ** segpp = &(arena->m_hash_table[i]);
while (*segpp)
{
k += 1;
segpp = &((*segpp)->m_fnext);
}
fprintf(stdout, "%d, ", k);
}
fprintf(stdout, "\n");
#endif /* DBG */
arena->m_hash_table = new_table;
arena->m_hash_size = new_size;
arena->m_hash_shift = highbit(arena->m_hash_size) - 1;
for (i = 0; i < old_size; i++)
{
rtl_arena_segment_type * curr = old_table[i];
while (curr != 0)
{
rtl_arena_segment_type * next = curr->m_fnext;
rtl_arena_segment_type ** head;
head = &(arena->m_hash_table[RTL_ARENA_HASH_INDEX(arena, curr->m_addr)]);
curr->m_fnext = (*head);
(*head) = curr;
curr = next;
}
old_table[i] = 0;
}
RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
if (old_table != arena->m_hash_table_0)
{
sal_Size old_bytes = old_size * sizeof(rtl_arena_segment_type*);
rtl_arena_free (gp_arena_arena, old_table, old_bytes);
}
}
}
/** rtl_arena_hash_insert()
* ...and update stats.
*/
static RTL_MEMORY_INLINE void
rtl_arena_hash_insert (
rtl_arena_type * arena,
rtl_arena_segment_type * segment
)
{
rtl_arena_segment_type ** ppSegment;
ppSegment = &(arena->m_hash_table[RTL_ARENA_HASH_INDEX(arena, segment->m_addr)]);
segment->m_fnext = (*ppSegment);
(*ppSegment) = segment;
arena->m_stats.m_alloc += 1;
arena->m_stats.m_mem_alloc += segment->m_size;
}
#if defined(__SUNPRO_C) || defined(__SUNPRO_CC)
#pragma inline(rtl_arena_hash_insert)
#endif /* __SUNPRO_C */
/** rtl_arena_hash_remove()
* ...and update stats.
*/
static rtl_arena_segment_type *
rtl_arena_hash_remove (
rtl_arena_type * arena,
sal_uIntPtr addr,
sal_Size size
)
{
rtl_arena_segment_type *segment, **segpp;
sal_Size lookups = 0;
#if OSL_DEBUG_LEVEL == 0
(void) size; /* unused */
#endif /* OSL_DEBUG_LEVEL */
segpp = &(arena->m_hash_table[RTL_ARENA_HASH_INDEX(arena, addr)]);
while ((segment = *segpp) != 0)
{
if (segment->m_addr == addr)
{
*segpp = segment->m_fnext, segment->m_fnext = segment->m_fprev = segment;
break;
}
/* update lookup miss stats */
lookups += 1;
segpp = &(segment->m_fnext);
}
OSL_POSTCOND(segment != 0, "rtl_arena_hash_remove(): bad free.");
if (segment != 0)
{
OSL_POSTCOND(segment->m_size == size, "rtl_arena_hash_remove(): wrong size.");
arena->m_stats.m_free += 1;
arena->m_stats.m_mem_alloc -= segment->m_size;
if (lookups > 1)
{
sal_Size nseg = (sal_Size)(arena->m_stats.m_alloc - arena->m_stats.m_free);
if (nseg > 4 * arena->m_hash_size)
{
if (!(arena->m_flags & RTL_ARENA_FLAG_RESCALE))
{
sal_Size ave = nseg >> arena->m_hash_shift;
sal_Size new_size = arena->m_hash_size << (highbit(ave) - 1);
arena->m_flags |= RTL_ARENA_FLAG_RESCALE;
RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
rtl_arena_hash_rescale (arena, new_size);
RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock));
arena->m_flags &= ~RTL_ARENA_FLAG_RESCALE;
}
}
}
}
return (segment);
}
/* ================================================================= */
/** rtl_arena_segment_alloc()
* allocate (and remove) segment from freelist
*
* @precond arena->m_lock acquired
* @precond (*ppSegment == 0)
*/
static int
rtl_arena_segment_alloc (
rtl_arena_type * arena,
sal_Size size,
rtl_arena_segment_type ** ppSegment
)
{
int index = 0;
OSL_ASSERT(*ppSegment == 0);
if (!RTL_MEMORY_ISP2(size))
{
int msb = highbit(size);
if (RTL_ARENA_FREELIST_SIZE == SAL_INT_CAST(size_t, msb))
{
/* highest possible freelist: fall back to first fit */
rtl_arena_segment_type *head, *segment;
head = &(arena->m_freelist_head[msb - 1]);
for (segment = head->m_fnext; segment != head; segment = segment->m_fnext)
{
if (segment->m_size >= size)
{
/* allocate first fit segment */
(*ppSegment) = segment;
break;
}
}
goto dequeue_and_leave;
}
/* roundup to next power of 2 */
size = (1UL << msb);
}
index = lowbit(RTL_MEMORY_P2ALIGN(arena->m_freelist_bitmap, size));
if (index > 0)
{
/* instant fit: allocate first free segment */
rtl_arena_segment_type *head;
head = &(arena->m_freelist_head[index - 1]);
(*ppSegment) = head->m_fnext;
OSL_ASSERT((*ppSegment) != head);
}
dequeue_and_leave:
if (*ppSegment != 0)
{
/* remove from freelist */
rtl_arena_freelist_remove (arena, (*ppSegment));
}
return (*ppSegment != 0);
}
/** rtl_arena_segment_create()
* import new (span) segment from source arena
*
* @precond arena->m_lock acquired
* @precond (*ppSegment == 0)
*/
static int
rtl_arena_segment_create (
rtl_arena_type * arena,
sal_Size size,
rtl_arena_segment_type ** ppSegment
)
{
OSL_ASSERT((*ppSegment) == 0);
if (arena->m_source_alloc != 0)
{
rtl_arena_segment_get (arena, ppSegment);
if (*ppSegment != 0)
{
rtl_arena_segment_type * span = 0;
rtl_arena_segment_get (arena, &span);
if (span != 0)
{
/* import new span from source arena */
RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
span->m_size = size;
span->m_addr = (sal_uIntPtr)(arena->m_source_alloc)(
arena->m_source_arena, &(span->m_size));
RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock));
if (span->m_addr != 0)
{
/* insert onto segment list, update stats */
span->m_type = RTL_ARENA_SEGMENT_TYPE_SPAN;
QUEUE_INSERT_HEAD_NAMED(&(arena->m_segment_head), span, s);
arena->m_stats.m_mem_total += span->m_size;
(*ppSegment)->m_addr = span->m_addr;
(*ppSegment)->m_size = span->m_size;
(*ppSegment)->m_type = RTL_ARENA_SEGMENT_TYPE_FREE;
QUEUE_INSERT_HEAD_NAMED(span, (*ppSegment), s);
/* report success */
return (1);
}
rtl_arena_segment_put (arena, &span);
}
rtl_arena_segment_put (arena, ppSegment);
}
}
return (0);
}
/** rtl_arena_segment_coalesce()
* mark as free and join with adjacent free segment(s)
*
* @precond arena->m_lock acquired
* @precond segment marked 'used'
*/
static void
rtl_arena_segment_coalesce (
rtl_arena_type * arena,
rtl_arena_segment_type * segment
)
{
rtl_arena_segment_type *next, *prev;
/* mark segment free */
OSL_ASSERT(segment->m_type == RTL_ARENA_SEGMENT_TYPE_USED);
segment->m_type = RTL_ARENA_SEGMENT_TYPE_FREE;
/* try to merge w/ next segment */
next = segment->m_snext;
if (next->m_type == RTL_ARENA_SEGMENT_TYPE_FREE)
{
OSL_ASSERT(segment->m_addr + segment->m_size == next->m_addr);
segment->m_size += next->m_size;
/* remove from freelist */
rtl_arena_freelist_remove (arena, next);
/* remove from segment list */
QUEUE_REMOVE_NAMED(next, s);
/* release segment descriptor */
rtl_arena_segment_put (arena, &next);
}
/* try to merge w/ prev segment */
prev = segment->m_sprev;
if (prev->m_type == RTL_ARENA_SEGMENT_TYPE_FREE)
{
OSL_ASSERT(prev->m_addr + prev->m_size == segment->m_addr);
segment->m_addr = prev->m_addr;
segment->m_size += prev->m_size;
/* remove from freelist */
rtl_arena_freelist_remove (arena, prev);
/* remove from segment list */
QUEUE_REMOVE_NAMED(prev, s);
/* release segment descriptor */
rtl_arena_segment_put (arena, &prev);
}
}
/* ================================================================= */
/** rtl_arena_constructor()
*/
static void
rtl_arena_constructor (void * obj)
{
rtl_arena_type * arena = (rtl_arena_type*)(obj);
rtl_arena_segment_type * head;
size_t i;
memset (arena, 0, sizeof(rtl_arena_type));
QUEUE_START_NAMED(arena, arena_);
(void) RTL_MEMORY_LOCK_INIT(&(arena->m_lock));
head = &(arena->m_segment_reserve_span_head);
rtl_arena_segment_constructor (head);
head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD;
head = &(arena->m_segment_reserve_head);
rtl_arena_segment_constructor (head);
head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD;
head = &(arena->m_segment_head);
rtl_arena_segment_constructor (head);
head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD;
for (i = 0; i < RTL_ARENA_FREELIST_SIZE; i++)
{
head = &(arena->m_freelist_head[i]);
rtl_arena_segment_constructor (head);
head->m_size = (1UL << i);
head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD;
}
arena->m_hash_table = arena->m_hash_table_0;
arena->m_hash_size = RTL_ARENA_HASH_SIZE;
arena->m_hash_shift = highbit(arena->m_hash_size) - 1;
}
/** rtl_arena_destructor()
*/
static void
rtl_arena_destructor (void * obj)
{
rtl_arena_type * arena = (rtl_arena_type*)(obj);
rtl_arena_segment_type * head;
size_t i;
OSL_ASSERT(QUEUE_STARTED_NAMED(arena, arena_));
RTL_MEMORY_LOCK_DESTROY(&(arena->m_lock));
head = &(arena->m_segment_reserve_span_head);
OSL_ASSERT(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD);
rtl_arena_segment_destructor (head);
head = &(arena->m_segment_reserve_head);
OSL_ASSERT(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD);
rtl_arena_segment_destructor (head);
head = &(arena->m_segment_head);
OSL_ASSERT(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD);
rtl_arena_segment_destructor (head);
for (i = 0; i < RTL_ARENA_FREELIST_SIZE; i++)
{
head = &(arena->m_freelist_head[i]);
OSL_ASSERT(head->m_size == (1UL << i));
OSL_ASSERT(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD);
rtl_arena_segment_destructor (head);
}
OSL_ASSERT(arena->m_hash_table == arena->m_hash_table_0);
OSL_ASSERT(arena->m_hash_size == RTL_ARENA_HASH_SIZE);
OSL_ASSERT(
arena->m_hash_shift ==
SAL_INT_CAST(unsigned, highbit(arena->m_hash_size) - 1));
}
/* ================================================================= */
/** rtl_arena_activate()
*/
static rtl_arena_type *
rtl_arena_activate (
rtl_arena_type * arena,
const char * name,
sal_Size quantum,
sal_Size quantum_cache_max,
rtl_arena_type * source_arena,
void * (SAL_CALL * source_alloc)(rtl_arena_type *, sal_Size *),
void (SAL_CALL * source_free) (rtl_arena_type *, void *, sal_Size)
)
{
OSL_ASSERT(arena != 0);
if (arena != 0)
{
(void) snprintf (arena->m_name, sizeof(arena->m_name), "%s", name);
if (!RTL_MEMORY_ISP2(quantum))
{
/* roundup to next power of 2 */
quantum = (1UL << highbit(quantum));
}
quantum_cache_max = RTL_MEMORY_P2ROUNDUP(quantum_cache_max, quantum);
arena->m_quantum = quantum;
arena->m_quantum_shift = highbit(arena->m_quantum) - 1;
arena->m_qcache_max = quantum_cache_max;
arena->m_source_arena = source_arena;
arena->m_source_alloc = source_alloc;
arena->m_source_free = source_free;
if (arena->m_qcache_max > 0)
{
char name[RTL_ARENA_NAME_LENGTH + 1];
int i, n = (arena->m_qcache_max >> arena->m_quantum_shift);
sal_Size size = n * sizeof(rtl_cache_type*);
arena->m_qcache_ptr = rtl_arena_alloc (gp_arena_arena, &size);
if (!(arena->m_qcache_ptr))
{
/* out of memory */
return (0);
}
for (i = 1; i <= n; i++)
{
size = i * arena->m_quantum;
(void) snprintf (name, sizeof(name), "%s_%lu", arena->m_name, size);
arena->m_qcache_ptr[i - 1] = rtl_cache_create(name, size, 0, NULL, NULL, NULL, NULL, arena, RTL_CACHE_FLAG_QUANTUMCACHE);
}
}
/* insert into arena list */
RTL_MEMORY_LOCK_ACQUIRE(&(g_arena_list.m_lock));
QUEUE_INSERT_TAIL_NAMED(&(g_arena_list.m_arena_head), arena, arena_);
RTL_MEMORY_LOCK_RELEASE(&(g_arena_list.m_lock));
}
return (arena);
}
/** rtl_arena_deactivate()
*/
static void
rtl_arena_deactivate (
rtl_arena_type * arena
)
{
rtl_arena_segment_type * head, * segment;
/* remove from arena list */
RTL_MEMORY_LOCK_ACQUIRE(&(g_arena_list.m_lock));
QUEUE_REMOVE_NAMED(arena, arena_);
RTL_MEMORY_LOCK_RELEASE(&(g_arena_list.m_lock));
/* cleanup quantum cache(s) */
if ((arena->m_qcache_max > 0) && (arena->m_qcache_ptr != 0))
{
int i, n = (arena->m_qcache_max >> arena->m_quantum_shift);
for (i = 1; i <= n; i++)
{
if (arena->m_qcache_ptr[i - 1] != 0)
{
rtl_cache_destroy (arena->m_qcache_ptr[i - 1]);
arena->m_qcache_ptr[i - 1] = 0;
}
}
rtl_arena_free (
gp_arena_arena,
arena->m_qcache_ptr,
n * sizeof(rtl_cache_type*));
arena->m_qcache_ptr = 0;
}
/* check for leaked segments */
OSL_TRACE(
"rtl_arena_deactivate(\"%s\"): "
"allocs: %"PRIu64", frees: %"PRIu64"; total: %lu, used: %lu",
arena->m_name,
arena->m_stats.m_alloc, arena->m_stats.m_free,
arena->m_stats.m_mem_total, arena->m_stats.m_mem_alloc
);
if (arena->m_stats.m_alloc > arena->m_stats.m_free)
{
sal_Size i, n;
OSL_TRACE(
"rtl_arena_deactivate(\"%s\"): "
"cleaning up %"PRIu64" leaked segment(s) [%lu bytes]",
arena->m_name,
arena->m_stats.m_alloc - arena->m_stats.m_free,
arena->m_stats.m_mem_alloc
);
/* cleanup still used segment(s) */
for (i = 0, n = arena->m_hash_size; i < n; i++)
{
while ((segment = arena->m_hash_table[i]) != 0)
{
/* pop from hash table */
arena->m_hash_table[i] = segment->m_fnext, segment->m_fnext = segment->m_fprev = segment;
/* coalesce w/ adjacent free segment(s) */
rtl_arena_segment_coalesce (arena, segment);
/* insert onto freelist */
rtl_arena_freelist_insert (arena, segment);
}
}
}
/* cleanup hash table */
if (arena->m_hash_table != arena->m_hash_table_0)
{
rtl_arena_free (
gp_arena_arena,
arena->m_hash_table,
arena->m_hash_size * sizeof(rtl_arena_segment_type*));
arena->m_hash_table = arena->m_hash_table_0;
arena->m_hash_size = RTL_ARENA_HASH_SIZE;
arena->m_hash_shift = highbit(arena->m_hash_size) - 1;
}
/* cleanup segment list */
head = &(arena->m_segment_head);
for (segment = head->m_snext; segment != head; segment = head->m_snext)
{
if (segment->m_type == RTL_ARENA_SEGMENT_TYPE_FREE)
{
/* remove from freelist */
rtl_arena_freelist_remove (arena, segment);
}
else
{
/* can have only free and span segments here */
OSL_ASSERT(segment->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN);
}
/* remove from segment list */
QUEUE_REMOVE_NAMED(segment, s);
/* release segment descriptor */
rtl_arena_segment_put (arena, &segment);
}
/* cleanup segment reserve list */
head = &(arena->m_segment_reserve_head);
for (segment = head->m_snext; segment != head; segment = head->m_snext)
{
/* remove from segment list */
QUEUE_REMOVE_NAMED(segment, s);
}
/* cleanup segment reserve span(s) */
head = &(arena->m_segment_reserve_span_head);
for (segment = head->m_snext; segment != head; segment = head->m_snext)
{
/* can have only span segments here */
OSL_ASSERT(segment->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN);
/* remove from segment list */
QUEUE_REMOVE_NAMED(segment, s);
/* return span to g_machdep_arena */
rtl_machdep_free (gp_machdep_arena, (void*)(segment->m_addr), segment->m_size);
}
}
/* ================================================================= *
*
* arena implementation.
*
* ================================================================= */
/** rtl_arena_create()
*/
rtl_arena_type *
SAL_CALL rtl_arena_create (
const char * name,
sal_Size quantum,
sal_Size quantum_cache_max,
rtl_arena_type * source_arena,
void * (SAL_CALL * source_alloc)(rtl_arena_type *, sal_Size *),
void (SAL_CALL * source_free) (rtl_arena_type *, void *, sal_Size),
int flags
)
{
rtl_arena_type * result = 0;
sal_Size size = sizeof(rtl_arena_type);
(void) flags; /* unused */
try_alloc:
result = rtl_arena_alloc (gp_arena_arena, &size);
if (result != 0)
{
rtl_arena_type * arena = result;
rtl_arena_constructor (arena);
if (!source_arena)
{
OSL_ASSERT(gp_default_arena != 0);
source_arena = gp_default_arena;
}
result = rtl_arena_activate (
arena,
name,
quantum,
quantum_cache_max,
source_arena,
source_alloc,
source_free
);
if (result == 0)
{
rtl_arena_deactivate (arena);
rtl_arena_destructor (arena);
rtl_arena_free (gp_arena_arena, arena, size);
}
}
else if (gp_arena_arena == 0)
{
if (rtl_arena_init())
{
/* try again */
goto try_alloc;
}
}
return (result);
}
/** rtl_arena_destroy()
*/
void
SAL_CALL rtl_arena_destroy (
rtl_arena_type * arena
)
{
if (arena != 0)
{
rtl_arena_deactivate (arena);
rtl_arena_destructor (arena);
rtl_arena_free (gp_arena_arena, arena, sizeof(rtl_arena_type));
}
}
/** rtl_arena_alloc()
*/
void *
SAL_CALL rtl_arena_alloc (
rtl_arena_type * arena,
sal_Size * pSize
)
{
void * addr = 0;
if ((arena != 0) && (pSize != 0))
{
sal_Size size = RTL_MEMORY_ALIGN((*pSize), arena->m_quantum);
if (size > arena->m_qcache_max)
{
/* allocate from segment list */
rtl_arena_segment_type *segment = 0;
RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock));
if (rtl_arena_segment_alloc (arena, size, &segment) ||
rtl_arena_segment_create(arena, size, &segment) )
{
/* shrink to fit */
sal_Size oversize;
/* mark segment used */
OSL_ASSERT(segment->m_type == RTL_ARENA_SEGMENT_TYPE_FREE);
segment->m_type = RTL_ARENA_SEGMENT_TYPE_USED;
/* resize */
OSL_ASSERT(segment->m_size >= size);
oversize = segment->m_size - size;
if (oversize >= SAL_MAX(arena->m_quantum, arena->m_qcache_max))
{
rtl_arena_segment_type * remainder = 0;
rtl_arena_segment_get (arena, &remainder);
if (remainder != 0)
{
segment->m_size = size;
remainder->m_addr = segment->m_addr + segment->m_size;
remainder->m_size = oversize;
remainder->m_type = RTL_ARENA_SEGMENT_TYPE_FREE;
QUEUE_INSERT_HEAD_NAMED(segment, remainder, s);
rtl_arena_freelist_insert (arena, remainder);
}
}
rtl_arena_hash_insert (arena, segment);
(*pSize) = segment->m_size;
addr = (void*)(segment->m_addr);
}
RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
}
else if (size > 0)
{
/* allocate from quantum cache(s) */
int index = (size >> arena->m_quantum_shift) - 1;
OSL_ASSERT (arena->m_qcache_ptr[index] != 0);
addr = rtl_cache_alloc (arena->m_qcache_ptr[index]);
if (addr != 0)
(*pSize) = size;
}
}
return (addr);
}
/** rtl_arena_free()
*/
void
SAL_CALL rtl_arena_free (
rtl_arena_type * arena,
void * addr,
sal_Size size
)
{
if (arena != 0)
{
size = RTL_MEMORY_ALIGN(size, arena->m_quantum);
if (size > arena->m_qcache_max)
{
/* free to segment list */
rtl_arena_segment_type * segment;
RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock));
segment = rtl_arena_hash_remove (arena, (sal_uIntPtr)(addr), size);
if (segment != 0)
{
rtl_arena_segment_type *next, *prev;
/* coalesce w/ adjacent free segment(s) */
rtl_arena_segment_coalesce (arena, segment);
/* determine (new) next and prev segment */
next = segment->m_snext, prev = segment->m_sprev;
/* entire span free when prev is a span, and next is either a span or a list head */
if (((prev->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN)) &&
((next->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN) ||
(next->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD)) )
{
OSL_ASSERT((prev->m_addr == segment->m_addr) &&
(prev->m_size == segment->m_size) );
if (arena->m_source_free)
{
addr = (void*)(prev->m_addr);
size = prev->m_size;
/* remove from segment list */
QUEUE_REMOVE_NAMED(segment, s);
/* release segment descriptor */
rtl_arena_segment_put (arena, &segment);
/* remove from segment list */
QUEUE_REMOVE_NAMED(prev, s);
/* release (span) segment descriptor */
rtl_arena_segment_put (arena, &prev);
/* update stats, return span to source arena */
arena->m_stats.m_mem_total -= size;
RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
(arena->m_source_free)(arena->m_source_arena, addr, size);
return;
}
}
/* insert onto freelist */
rtl_arena_freelist_insert (arena, segment);
}
RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock));
}
else if (size > 0)
{
/* free to quantum cache(s) */
int index = (size >> arena->m_quantum_shift) - 1;
OSL_ASSERT (arena->m_qcache_ptr[index] != 0);
rtl_cache_free (arena->m_qcache_ptr[index], addr);
}
}
}
/* ================================================================= *
*
* machdep internals.
*
* ================================================================= */
#if defined(SAL_UNX)
#include <sys/mman.h>
#elif defined(SAL_W32) || defined(SAL_OS2)
#define MAP_FAILED 0
#endif /* SAL_UNX || SAL_W32 */
/** rtl_machdep_alloc()
*/
static void *
SAL_CALL rtl_machdep_alloc (
rtl_arena_type * pArena,
sal_Size * pSize
)
{
void * addr;
sal_Size size = (*pSize);
OSL_PRECOND(pArena == gp_machdep_arena, "rtl_machdep_alloc(): invalid argument");
#if defined(SOLARIS) && defined(SPARC)
/* see @ mmap(2) man pages */
size += (pArena->m_quantum + pArena->m_quantum); /* "red-zone" pages */
if (size > (4 << 20))
size = RTL_MEMORY_P2ROUNDUP(size, (4 << 20));
else if (size > (512 << 10))
size = RTL_MEMORY_P2ROUNDUP(size, (512 << 10));
else
size = RTL_MEMORY_P2ROUNDUP(size, (64 << 10));
size -= (pArena->m_quantum + pArena->m_quantum); /* "red-zone" pages */
#else
/* default allocation granularity */
size = RTL_MEMORY_P2ROUNDUP(size, SAL_MAX(pArena->m_quantum, 64 << 10));
#endif
#if defined(SAL_UNX)
addr = mmap (NULL, (size_t)(size), PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON, -1, 0);
#elif defined(SAL_W32)
addr = VirtualAlloc (NULL, (SIZE_T)(size), MEM_COMMIT, PAGE_READWRITE);
#elif defined(SAL_OS2)
{
APIRET rc;
addr = 0;
// Use DosAlloc* to get a 4KB page aligned address.
rc = DosAllocMem( &addr, size, PAG_COMMIT | PAG_READ | PAG_WRITE | OBJ_ANY);
if (rc) {
fprintf( stderr, "sal3::DosAllocMem failed rc=%d\n", rc);
addr = 0;
}
}
#endif /* (SAL_UNX || SAL_W32 || SAL_OS2) */
if (addr != MAP_FAILED)
{
pArena->m_stats.m_alloc += 1;
pArena->m_stats.m_mem_total += size;
pArena->m_stats.m_mem_alloc += size;
(*pSize) = size;
return (addr);
}
return (NULL);
}
/** rtl_machdep_free()
*/
static void
SAL_CALL rtl_machdep_free (
rtl_arena_type * pArena,
void * pAddr,
sal_Size nSize
)
{
OSL_PRECOND(pArena == gp_machdep_arena, "rtl_machdep_free(): invalid argument");
pArena->m_stats.m_free += 1;
pArena->m_stats.m_mem_total -= nSize;
pArena->m_stats.m_mem_alloc -= nSize;
#if defined(SAL_UNX)
(void) munmap(pAddr, nSize);
#elif defined(SAL_W32)
(void) VirtualFree ((LPVOID)(pAddr), (SIZE_T)(0), MEM_RELEASE);
#elif defined(SAL_OS2)
(void) DosFreeMem( pAddr);
#endif /* (SAL_UNX || SAL_W32) */
}
/** rtl_machdep_pagesize()
*/
static sal_Size
rtl_machdep_pagesize (void)
{
#if defined(SAL_UNX)
#if defined(FREEBSD) || defined(NETBSD)
return ((sal_Size)getpagesize());
#else /* POSIX */
return ((sal_Size)sysconf(_SC_PAGESIZE));
#endif /* xBSD || POSIX */
#elif defined(SAL_W32)
SYSTEM_INFO info;
GetSystemInfo (&info);
return ((sal_Size)(info.dwPageSize));
#elif defined(SAL_OS2)
ULONG ulPageSize;
DosQuerySysInfo(QSV_PAGE_SIZE, QSV_PAGE_SIZE, &ulPageSize, sizeof(ULONG));
return ((sal_Size)ulPageSize);
#endif /* (SAL_UNX || SAL_W32) */
}
/* ================================================================= *
*
* arena initialization.
*
* ================================================================= */
static void
rtl_arena_once_init (void)
{
{
/* list of arenas */
RTL_MEMORY_LOCK_INIT(&(g_arena_list.m_lock));
rtl_arena_constructor (&(g_arena_list.m_arena_head));
}
{
/* machdep (pseudo) arena */
static rtl_arena_type g_machdep_arena;
OSL_ASSERT(gp_machdep_arena == 0);
rtl_arena_constructor (&g_machdep_arena);
gp_machdep_arena = rtl_arena_activate (
&g_machdep_arena,
"rtl_machdep_arena",
rtl_machdep_pagesize(),
0, /* no quantum caching */
0, 0, 0 /* no source */
);
OSL_ASSERT(gp_machdep_arena != 0);
}
{
/* default arena */
static rtl_arena_type g_default_arena;
OSL_ASSERT(gp_default_arena == 0);
rtl_arena_constructor (&g_default_arena);
gp_default_arena = rtl_arena_activate (
&g_default_arena,
"rtl_default_arena",
rtl_machdep_pagesize(),
0, /* no quantum caching */
gp_machdep_arena, /* source */
rtl_machdep_alloc,
rtl_machdep_free
);
OSL_ASSERT(gp_default_arena != 0);
}
{
/* arena internal arena */
static rtl_arena_type g_arena_arena;
OSL_ASSERT(gp_arena_arena == 0);
rtl_arena_constructor (&g_arena_arena);
gp_arena_arena = rtl_arena_activate (
&g_arena_arena,
"rtl_arena_internal_arena",
64, /* quantum */
0, /* no quantum caching */
gp_default_arena, /* source */
rtl_arena_alloc,
rtl_arena_free
);
OSL_ASSERT(gp_arena_arena != 0);
}
}
static int
rtl_arena_init (void)
{
static sal_once_type g_once = SAL_ONCE_INIT;
SAL_ONCE(&g_once, rtl_arena_once_init);
return (gp_arena_arena != 0);
}
/* ================================================================= */
#if defined(__GNUC__)
static void rtl_arena_fini (void) __attribute__((destructor));
#elif defined(__SUNPRO_C) || defined(__SUNPRO_CC)
#pragma fini(rtl_arena_fini)
static void rtl_arena_fini (void);
#endif /* __GNUC__ || __SUNPRO_C */
void
rtl_arena_fini (void)
{
if (gp_arena_arena != 0)
{
rtl_arena_type * arena, * head;
RTL_MEMORY_LOCK_ACQUIRE(&(g_arena_list.m_lock));
head = &(g_arena_list.m_arena_head);
for (arena = head->m_arena_next; arena != head; arena = arena->m_arena_next)
{
OSL_TRACE(
"rtl_arena_fini(\"%s\"): "
"allocs: %"PRIu64", frees: %"PRIu64"; total: %lu, used: %lu",
arena->m_name,
arena->m_stats.m_alloc, arena->m_stats.m_free,
arena->m_stats.m_mem_total, arena->m_stats.m_mem_alloc
);
}
RTL_MEMORY_LOCK_RELEASE(&(g_arena_list.m_lock));
}
}
/* ================================================================= */