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|
/* $Id$ */
/***
This file is part of PulseAudio.
Copyright 2004-2006 Lennart Poettering
Copyright 2006 Pierre Ossman <ossman@cendio.se> for Cendio AB
PulseAudio is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as
published by the Free Software Foundation; either version 2.1 of the
License, or (at your option) any later version.
PulseAudio 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 for more details
You should have received a copy of the GNU Lesser General Public
License along with PulseAudio; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
USA.
***/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <signal.h>
#include <errno.h>
#include <pulse/xmalloc.h>
#include <pulse/def.h>
#include <pulsecore/shm.h>
#include <pulsecore/log.h>
#include <pulsecore/hashmap.h>
#include <pulsecore/semaphore.h>
#include <pulsecore/macro.h>
#include <pulsecore/flist.h>
#include <pulsecore/core-util.h>
#include "memblock.h"
/* We can allocate 64*1024*1024 bytes at maximum. That's 64MB. Please
* note that the footprint is usually much smaller, since the data is
* stored in SHM and our OS does not commit the memory before we use
* it for the first time. */
#define PA_MEMPOOL_SLOTS_MAX 1024
#define PA_MEMPOOL_SLOT_SIZE (64*1024)
#define PA_MEMEXPORT_SLOTS_MAX 128
#define PA_MEMIMPORT_SLOTS_MAX 128
#define PA_MEMIMPORT_SEGMENTS_MAX 16
struct pa_memblock {
PA_REFCNT_DECLARE; /* the reference counter */
pa_mempool *pool;
pa_memblock_type_t type;
pa_bool_t read_only:1;
pa_bool_t is_silence:1;
pa_atomic_ptr_t data;
size_t length;
pa_atomic_t n_acquired;
pa_atomic_t please_signal;
union {
struct {
/* If type == PA_MEMBLOCK_USER this points to a function for freeing this memory block */
pa_free_cb_t free_cb;
} user;
struct {
uint32_t id;
pa_memimport_segment *segment;
} imported;
} per_type;
};
struct pa_memimport_segment {
pa_memimport *import;
pa_shm memory;
unsigned n_blocks;
};
struct pa_memimport {
pa_mutex *mutex;
pa_mempool *pool;
pa_hashmap *segments;
pa_hashmap *blocks;
/* Called whenever an imported memory block is no longer
* needed. */
pa_memimport_release_cb_t release_cb;
void *userdata;
PA_LLIST_FIELDS(pa_memimport);
};
struct memexport_slot {
PA_LLIST_FIELDS(struct memexport_slot);
pa_memblock *block;
};
struct pa_memexport {
pa_mutex *mutex;
pa_mempool *pool;
struct memexport_slot slots[PA_MEMEXPORT_SLOTS_MAX];
PA_LLIST_HEAD(struct memexport_slot, free_slots);
PA_LLIST_HEAD(struct memexport_slot, used_slots);
unsigned n_init;
/* Called whenever a client from which we imported a memory block
which we in turn exported to another client dies and we need to
revoke the memory block accordingly */
pa_memexport_revoke_cb_t revoke_cb;
void *userdata;
PA_LLIST_FIELDS(pa_memexport);
};
struct pa_mempool {
pa_semaphore *semaphore;
pa_mutex *mutex;
pa_shm memory;
size_t block_size;
unsigned n_blocks;
pa_atomic_t n_init;
PA_LLIST_HEAD(pa_memimport, imports);
PA_LLIST_HEAD(pa_memexport, exports);
/* A list of free slots that may be reused */
pa_flist *free_slots;
pa_mempool_stat stat;
};
static void segment_detach(pa_memimport_segment *seg);
PA_STATIC_FLIST_DECLARE(unused_memblocks, 0, pa_xfree);
/* No lock necessary */
static void stat_add(pa_memblock*b) {
pa_assert(b);
pa_assert(b->pool);
pa_atomic_inc(&b->pool->stat.n_allocated);
pa_atomic_add(&b->pool->stat.allocated_size, b->length);
pa_atomic_inc(&b->pool->stat.n_accumulated);
pa_atomic_add(&b->pool->stat.accumulated_size, b->length);
if (b->type == PA_MEMBLOCK_IMPORTED) {
pa_atomic_inc(&b->pool->stat.n_imported);
pa_atomic_add(&b->pool->stat.imported_size, b->length);
}
pa_atomic_inc(&b->pool->stat.n_allocated_by_type[b->type]);
pa_atomic_inc(&b->pool->stat.n_accumulated_by_type[b->type]);
}
/* No lock necessary */
static void stat_remove(pa_memblock *b) {
pa_assert(b);
pa_assert(b->pool);
pa_assert(pa_atomic_load(&b->pool->stat.n_allocated) > 0);
pa_assert(pa_atomic_load(&b->pool->stat.allocated_size) >= (int) b->length);
pa_atomic_dec(&b->pool->stat.n_allocated);
pa_atomic_sub(&b->pool->stat.allocated_size, b->length);
if (b->type == PA_MEMBLOCK_IMPORTED) {
pa_assert(pa_atomic_load(&b->pool->stat.n_imported) > 0);
pa_assert(pa_atomic_load(&b->pool->stat.imported_size) >= (int) b->length);
pa_atomic_dec(&b->pool->stat.n_imported);
pa_atomic_sub(&b->pool->stat.imported_size, b->length);
}
pa_atomic_dec(&b->pool->stat.n_allocated_by_type[b->type]);
}
static pa_memblock *memblock_new_appended(pa_mempool *p, size_t length);
/* No lock necessary */
pa_memblock *pa_memblock_new(pa_mempool *p, size_t length) {
pa_memblock *b;
pa_assert(p);
pa_assert(length);
if (!(b = pa_memblock_new_pool(p, length)))
b = memblock_new_appended(p, length);
return b;
}
/* No lock necessary */
static pa_memblock *memblock_new_appended(pa_mempool *p, size_t length) {
pa_memblock *b;
pa_assert(p);
pa_assert(length);
/* If -1 is passed as length we choose the size for the caller. */
if (length == (size_t) -1)
length = p->block_size - PA_ALIGN(sizeof(pa_memblock));
b = pa_xmalloc(PA_ALIGN(sizeof(pa_memblock)) + length);
PA_REFCNT_INIT(b);
b->pool = p;
b->type = PA_MEMBLOCK_APPENDED;
b->read_only = b->is_silence = FALSE;
pa_atomic_ptr_store(&b->data, (uint8_t*) b + PA_ALIGN(sizeof(pa_memblock)));
b->length = length;
pa_atomic_store(&b->n_acquired, 0);
pa_atomic_store(&b->please_signal, 0);
stat_add(b);
return b;
}
/* No lock necessary */
static struct mempool_slot* mempool_allocate_slot(pa_mempool *p) {
struct mempool_slot *slot;
pa_assert(p);
if (!(slot = pa_flist_pop(p->free_slots))) {
int idx;
/* The free list was empty, we have to allocate a new entry */
if ((unsigned) (idx = pa_atomic_inc(&p->n_init)) >= p->n_blocks)
pa_atomic_dec(&p->n_init);
else
slot = (struct mempool_slot*) ((uint8_t*) p->memory.ptr + (p->block_size * idx));
if (!slot) {
pa_log_info("Pool full");
pa_atomic_inc(&p->stat.n_pool_full);
return NULL;
}
}
return slot;
}
/* No lock necessary, totally redundant anyway */
static inline void* mempool_slot_data(struct mempool_slot *slot) {
return slot;
}
/* No lock necessary */
static unsigned mempool_slot_idx(pa_mempool *p, void *ptr) {
pa_assert(p);
pa_assert((uint8_t*) ptr >= (uint8_t*) p->memory.ptr);
pa_assert((uint8_t*) ptr < (uint8_t*) p->memory.ptr + p->memory.size);
return ((uint8_t*) ptr - (uint8_t*) p->memory.ptr) / p->block_size;
}
/* No lock necessary */
static struct mempool_slot* mempool_slot_by_ptr(pa_mempool *p, void *ptr) {
unsigned idx;
if ((idx = mempool_slot_idx(p, ptr)) == (unsigned) -1)
return NULL;
return (struct mempool_slot*) ((uint8_t*) p->memory.ptr + (idx * p->block_size));
}
/* No lock necessary */
pa_memblock *pa_memblock_new_pool(pa_mempool *p, size_t length) {
pa_memblock *b = NULL;
struct mempool_slot *slot;
pa_assert(p);
pa_assert(length);
/* If -1 is passed as length we choose the size for the caller: we
* take the largest size that fits in one of our slots. */
if (length == (size_t) -1)
length = pa_mempool_block_size_max(p);
if (p->block_size >= PA_ALIGN(sizeof(pa_memblock)) + length) {
if (!(slot = mempool_allocate_slot(p)))
return NULL;
b = mempool_slot_data(slot);
b->type = PA_MEMBLOCK_POOL;
pa_atomic_ptr_store(&b->data, (uint8_t*) b + PA_ALIGN(sizeof(pa_memblock)));
} else if (p->block_size >= length) {
if (!(slot = mempool_allocate_slot(p)))
return NULL;
if (!(b = pa_flist_pop(PA_STATIC_FLIST_GET(unused_memblocks))))
b = pa_xnew(pa_memblock, 1);
b->type = PA_MEMBLOCK_POOL_EXTERNAL;
pa_atomic_ptr_store(&b->data, mempool_slot_data(slot));
} else {
pa_log_debug("Memory block too large for pool: %lu > %lu", (unsigned long) length, (unsigned long) p->block_size);
pa_atomic_inc(&p->stat.n_too_large_for_pool);
return NULL;
}
PA_REFCNT_INIT(b);
b->pool = p;
b->read_only = b->is_silence = FALSE;
b->length = length;
pa_atomic_store(&b->n_acquired, 0);
pa_atomic_store(&b->please_signal, 0);
stat_add(b);
return b;
}
/* No lock necessary */
pa_memblock *pa_memblock_new_fixed(pa_mempool *p, void *d, size_t length, pa_bool_t read_only) {
pa_memblock *b;
pa_assert(p);
pa_assert(d);
pa_assert(length != (size_t) -1);
pa_assert(length);
if (!(b = pa_flist_pop(PA_STATIC_FLIST_GET(unused_memblocks))))
b = pa_xnew(pa_memblock, 1);
PA_REFCNT_INIT(b);
b->pool = p;
b->type = PA_MEMBLOCK_FIXED;
b->read_only = read_only;
b->is_silence = FALSE;
pa_atomic_ptr_store(&b->data, d);
b->length = length;
pa_atomic_store(&b->n_acquired, 0);
pa_atomic_store(&b->please_signal, 0);
stat_add(b);
return b;
}
/* No lock necessary */
pa_memblock *pa_memblock_new_user(pa_mempool *p, void *d, size_t length, pa_free_cb_t free_cb, pa_bool_t read_only) {
pa_memblock *b;
pa_assert(p);
pa_assert(d);
pa_assert(length);
pa_assert(length != (size_t) -1);
pa_assert(free_cb);
if (!(b = pa_flist_pop(PA_STATIC_FLIST_GET(unused_memblocks))))
b = pa_xnew(pa_memblock, 1);
PA_REFCNT_INIT(b);
b->pool = p;
b->type = PA_MEMBLOCK_USER;
b->read_only = read_only;
b->is_silence = FALSE;
pa_atomic_ptr_store(&b->data, d);
b->length = length;
pa_atomic_store(&b->n_acquired, 0);
pa_atomic_store(&b->please_signal, 0);
b->per_type.user.free_cb = free_cb;
stat_add(b);
return b;
}
/* No lock necessary */
pa_bool_t pa_memblock_is_read_only(pa_memblock *b) {
pa_assert(b);
pa_assert(PA_REFCNT_VALUE(b) > 0);
return b->read_only && PA_REFCNT_VALUE(b) == 1;
}
/* No lock necessary */
pa_bool_t pa_memblock_is_silence(pa_memblock *b) {
pa_assert(b);
pa_assert(PA_REFCNT_VALUE(b) > 0);
return b->is_silence;
}
/* No lock necessary */
void pa_memblock_set_is_silence(pa_memblock *b, pa_bool_t v) {
pa_assert(b);
pa_assert(PA_REFCNT_VALUE(b) > 0);
b->is_silence = v;
}
/* No lock necessary */
pa_bool_t pa_memblock_ref_is_one(pa_memblock *b) {
int r;
pa_assert(b);
pa_assert_se((r = PA_REFCNT_VALUE(b)) > 0);
return r == 1;
}
/* No lock necessary */
void* pa_memblock_acquire(pa_memblock *b) {
pa_assert(b);
pa_assert(PA_REFCNT_VALUE(b) > 0);
pa_atomic_inc(&b->n_acquired);
return pa_atomic_ptr_load(&b->data);
}
/* No lock necessary, in corner cases locks by its own */
void pa_memblock_release(pa_memblock *b) {
int r;
pa_assert(b);
pa_assert(PA_REFCNT_VALUE(b) > 0);
r = pa_atomic_dec(&b->n_acquired);
pa_assert(r >= 1);
/* Signal a waiting thread that this memblock is no longer used */
if (r == 1 && pa_atomic_load(&b->please_signal))
pa_semaphore_post(b->pool->semaphore);
}
size_t pa_memblock_get_length(pa_memblock *b) {
pa_assert(b);
pa_assert(PA_REFCNT_VALUE(b) > 0);
return b->length;
}
pa_mempool* pa_memblock_get_pool(pa_memblock *b) {
pa_assert(b);
pa_assert(PA_REFCNT_VALUE(b) > 0);
return b->pool;
}
/* No lock necessary */
pa_memblock* pa_memblock_ref(pa_memblock*b) {
pa_assert(b);
pa_assert(PA_REFCNT_VALUE(b) > 0);
PA_REFCNT_INC(b);
return b;
}
static void memblock_free(pa_memblock *b) {
pa_assert(b);
pa_assert(pa_atomic_load(&b->n_acquired) == 0);
stat_remove(b);
switch (b->type) {
case PA_MEMBLOCK_USER :
pa_assert(b->per_type.user.free_cb);
b->per_type.user.free_cb(pa_atomic_ptr_load(&b->data));
/* Fall through */
case PA_MEMBLOCK_FIXED:
case PA_MEMBLOCK_APPENDED :
if (pa_flist_push(PA_STATIC_FLIST_GET(unused_memblocks), b) < 0)
pa_xfree(b);
break;
case PA_MEMBLOCK_IMPORTED : {
pa_memimport_segment *segment;
pa_memimport *import;
/* FIXME! This should be implemented lock-free */
segment = b->per_type.imported.segment;
pa_assert(segment);
import = segment->import;
pa_assert(import);
pa_mutex_lock(import->mutex);
pa_hashmap_remove(import->blocks, PA_UINT32_TO_PTR(b->per_type.imported.id));
if (-- segment->n_blocks <= 0)
segment_detach(segment);
pa_mutex_unlock(import->mutex);
import->release_cb(import, b->per_type.imported.id, import->userdata);
if (pa_flist_push(PA_STATIC_FLIST_GET(unused_memblocks), b) < 0)
pa_xfree(b);
break;
}
case PA_MEMBLOCK_POOL_EXTERNAL:
case PA_MEMBLOCK_POOL: {
struct mempool_slot *slot;
int call_free;
slot = mempool_slot_by_ptr(b->pool, pa_atomic_ptr_load(&b->data));
pa_assert(slot);
call_free = b->type == PA_MEMBLOCK_POOL_EXTERNAL;
/* The free list dimensions should easily allow all slots
* to fit in, hence try harder if pushing this slot into
* the free list fails */
while (pa_flist_push(b->pool->free_slots, slot) < 0)
;
if (call_free)
if (pa_flist_push(PA_STATIC_FLIST_GET(unused_memblocks), b) < 0)
pa_xfree(b);
break;
}
case PA_MEMBLOCK_TYPE_MAX:
default:
pa_assert_not_reached();
}
}
/* No lock necessary */
void pa_memblock_unref(pa_memblock*b) {
pa_assert(b);
pa_assert(PA_REFCNT_VALUE(b) > 0);
if (PA_REFCNT_DEC(b) > 0)
return;
memblock_free(b);
}
/* Self locked */
static void memblock_wait(pa_memblock *b) {
pa_assert(b);
if (pa_atomic_load(&b->n_acquired) > 0) {
/* We need to wait until all threads gave up access to the
* memory block before we can go on. Unfortunately this means
* that we have to lock and wait here. Sniff! */
pa_atomic_inc(&b->please_signal);
while (pa_atomic_load(&b->n_acquired) > 0)
pa_semaphore_wait(b->pool->semaphore);
pa_atomic_dec(&b->please_signal);
}
}
/* No lock necessary. This function is not multiple caller safe! */
static void memblock_make_local(pa_memblock *b) {
pa_assert(b);
pa_atomic_dec(&b->pool->stat.n_allocated_by_type[b->type]);
if (b->length <= b->pool->block_size) {
struct mempool_slot *slot;
if ((slot = mempool_allocate_slot(b->pool))) {
void *new_data;
/* We can move it into a local pool, perfect! */
new_data = mempool_slot_data(slot);
memcpy(new_data, pa_atomic_ptr_load(&b->data), b->length);
pa_atomic_ptr_store(&b->data, new_data);
b->type = PA_MEMBLOCK_POOL_EXTERNAL;
b->read_only = FALSE;
goto finish;
}
}
/* Humm, not enough space in the pool, so lets allocate the memory with malloc() */
b->per_type.user.free_cb = pa_xfree;
pa_atomic_ptr_store(&b->data, pa_xmemdup(pa_atomic_ptr_load(&b->data), b->length));
b->type = PA_MEMBLOCK_USER;
b->read_only = FALSE;
finish:
pa_atomic_inc(&b->pool->stat.n_allocated_by_type[b->type]);
pa_atomic_inc(&b->pool->stat.n_accumulated_by_type[b->type]);
memblock_wait(b);
}
/* No lock necessary. This function is not multiple caller safe*/
void pa_memblock_unref_fixed(pa_memblock *b) {
pa_assert(b);
pa_assert(PA_REFCNT_VALUE(b) > 0);
pa_assert(b->type == PA_MEMBLOCK_FIXED);
if (PA_REFCNT_VALUE(b) > 1)
memblock_make_local(b);
pa_memblock_unref(b);
}
/* No lock necessary. */
pa_memblock *pa_memblock_will_need(pa_memblock *b) {
void *p;
pa_assert(b);
pa_assert(PA_REFCNT_VALUE(b) > 0);
p = pa_memblock_acquire(b);
pa_will_need(p, b->length);
pa_memblock_release(b);
return b;
}
/* Self-locked. This function is not multiple-caller safe */
static void memblock_replace_import(pa_memblock *b) {
pa_memimport_segment *seg;
pa_assert(b);
pa_assert(b->type == PA_MEMBLOCK_IMPORTED);
pa_assert(pa_atomic_load(&b->pool->stat.n_imported) > 0);
pa_assert(pa_atomic_load(&b->pool->stat.imported_size) >= (int) b->length);
pa_atomic_dec(&b->pool->stat.n_imported);
pa_atomic_sub(&b->pool->stat.imported_size, b->length);
seg = b->per_type.imported.segment;
pa_assert(seg);
pa_assert(seg->import);
pa_mutex_lock(seg->import->mutex);
pa_hashmap_remove(
seg->import->blocks,
PA_UINT32_TO_PTR(b->per_type.imported.id));
memblock_make_local(b);
if (-- seg->n_blocks <= 0) {
pa_mutex_unlock(seg->import->mutex);
segment_detach(seg);
} else
pa_mutex_unlock(seg->import->mutex);
}
pa_mempool* pa_mempool_new(pa_bool_t shared) {
pa_mempool *p;
p = pa_xnew(pa_mempool, 1);
p->mutex = pa_mutex_new(TRUE, TRUE);
p->semaphore = pa_semaphore_new(0);
p->block_size = PA_PAGE_ALIGN(PA_MEMPOOL_SLOT_SIZE);
if (p->block_size < PA_PAGE_SIZE)
p->block_size = PA_PAGE_SIZE;
p->n_blocks = PA_MEMPOOL_SLOTS_MAX;
if (pa_shm_create_rw(&p->memory, p->n_blocks * p->block_size, shared, 0700) < 0) {
pa_xfree(p);
return NULL;
}
memset(&p->stat, 0, sizeof(p->stat));
pa_atomic_store(&p->n_init, 0);
PA_LLIST_HEAD_INIT(pa_memimport, p->imports);
PA_LLIST_HEAD_INIT(pa_memexport, p->exports);
p->free_slots = pa_flist_new(p->n_blocks*2);
return p;
}
void pa_mempool_free(pa_mempool *p) {
pa_assert(p);
pa_mutex_lock(p->mutex);
while (p->imports)
pa_memimport_free(p->imports);
while (p->exports)
pa_memexport_free(p->exports);
pa_mutex_unlock(p->mutex);
pa_flist_free(p->free_slots, NULL);
if (pa_atomic_load(&p->stat.n_allocated) > 0) {
/* raise(SIGTRAP); */
pa_log_warn("Memory pool destroyed but not all memory blocks freed! %u remain.", pa_atomic_load(&p->stat.n_allocated));
}
pa_shm_free(&p->memory);
pa_mutex_free(p->mutex);
pa_semaphore_free(p->semaphore);
pa_xfree(p);
}
/* No lock necessary */
const pa_mempool_stat* pa_mempool_get_stat(pa_mempool *p) {
pa_assert(p);
return &p->stat;
}
/* No lock necessary */
size_t pa_mempool_block_size_max(pa_mempool *p) {
pa_assert(p);
return p->block_size - PA_ALIGN(sizeof(pa_memblock));
}
/* No lock necessary */
void pa_mempool_vacuum(pa_mempool *p) {
struct mempool_slot *slot;
pa_flist *list;
pa_assert(p);
list = pa_flist_new(p->n_blocks*2);
while ((slot = pa_flist_pop(p->free_slots)))
while (pa_flist_push(list, slot) < 0)
;
while ((slot = pa_flist_pop(list))) {
pa_shm_punch(&p->memory, (uint8_t*) slot - (uint8_t*) p->memory.ptr, p->block_size);
while (pa_flist_push(p->free_slots, slot))
;
}
pa_flist_free(list, NULL);
}
/* No lock necessary */
int pa_mempool_get_shm_id(pa_mempool *p, uint32_t *id) {
pa_assert(p);
if (!p->memory.shared)
return -1;
*id = p->memory.id;
return 0;
}
/* No lock necessary */
pa_bool_t pa_mempool_is_shared(pa_mempool *p) {
pa_assert(p);
return !!p->memory.shared;
}
/* For recieving blocks from other nodes */
pa_memimport* pa_memimport_new(pa_mempool *p, pa_memimport_release_cb_t cb, void *userdata) {
pa_memimport *i;
pa_assert(p);
pa_assert(cb);
i = pa_xnew(pa_memimport, 1);
i->mutex = pa_mutex_new(TRUE, TRUE);
i->pool = p;
i->segments = pa_hashmap_new(NULL, NULL);
i->blocks = pa_hashmap_new(NULL, NULL);
i->release_cb = cb;
i->userdata = userdata;
pa_mutex_lock(p->mutex);
PA_LLIST_PREPEND(pa_memimport, p->imports, i);
pa_mutex_unlock(p->mutex);
return i;
}
static void memexport_revoke_blocks(pa_memexport *e, pa_memimport *i);
/* Should be called locked */
static pa_memimport_segment* segment_attach(pa_memimport *i, uint32_t shm_id) {
pa_memimport_segment* seg;
if (pa_hashmap_size(i->segments) >= PA_MEMIMPORT_SEGMENTS_MAX)
return NULL;
seg = pa_xnew(pa_memimport_segment, 1);
if (pa_shm_attach_ro(&seg->memory, shm_id) < 0) {
pa_xfree(seg);
return NULL;
}
seg->import = i;
seg->n_blocks = 0;
pa_hashmap_put(i->segments, PA_UINT32_TO_PTR(shm_id), seg);
return seg;
}
/* Should be called locked */
static void segment_detach(pa_memimport_segment *seg) {
pa_assert(seg);
pa_hashmap_remove(seg->import->segments, PA_UINT32_TO_PTR(seg->memory.id));
pa_shm_free(&seg->memory);
pa_xfree(seg);
}
/* Self-locked. Not multiple-caller safe */
void pa_memimport_free(pa_memimport *i) {
pa_memexport *e;
pa_memblock *b;
pa_assert(i);
pa_mutex_lock(i->mutex);
while ((b = pa_hashmap_get_first(i->blocks)))
memblock_replace_import(b);
pa_assert(pa_hashmap_size(i->segments) == 0);
pa_mutex_unlock(i->mutex);
pa_mutex_lock(i->pool->mutex);
/* If we've exported this block further we need to revoke that export */
for (e = i->pool->exports; e; e = e->next)
memexport_revoke_blocks(e, i);
PA_LLIST_REMOVE(pa_memimport, i->pool->imports, i);
pa_mutex_unlock(i->pool->mutex);
pa_hashmap_free(i->blocks, NULL, NULL);
pa_hashmap_free(i->segments, NULL, NULL);
pa_mutex_free(i->mutex);
pa_xfree(i);
}
/* Self-locked */
pa_memblock* pa_memimport_get(pa_memimport *i, uint32_t block_id, uint32_t shm_id, size_t offset, size_t size) {
pa_memblock *b = NULL;
pa_memimport_segment *seg;
pa_assert(i);
pa_mutex_lock(i->mutex);
if (pa_hashmap_size(i->blocks) >= PA_MEMIMPORT_SLOTS_MAX)
goto finish;
if (!(seg = pa_hashmap_get(i->segments, PA_UINT32_TO_PTR(shm_id))))
if (!(seg = segment_attach(i, shm_id)))
goto finish;
if (offset+size > seg->memory.size)
goto finish;
if (!(b = pa_flist_pop(PA_STATIC_FLIST_GET(unused_memblocks))))
b = pa_xnew(pa_memblock, 1);
PA_REFCNT_INIT(b);
b->pool = i->pool;
b->type = PA_MEMBLOCK_IMPORTED;
b->read_only = TRUE;
b->is_silence = FALSE;
pa_atomic_ptr_store(&b->data, (uint8_t*) seg->memory.ptr + offset);
b->length = size;
pa_atomic_store(&b->n_acquired, 0);
pa_atomic_store(&b->please_signal, 0);
b->per_type.imported.id = block_id;
b->per_type.imported.segment = seg;
pa_hashmap_put(i->blocks, PA_UINT32_TO_PTR(block_id), b);
seg->n_blocks++;
finish:
pa_mutex_unlock(i->mutex);
if (b)
stat_add(b);
return b;
}
int pa_memimport_process_revoke(pa_memimport *i, uint32_t id) {
pa_memblock *b;
int ret = 0;
pa_assert(i);
pa_mutex_lock(i->mutex);
if (!(b = pa_hashmap_get(i->blocks, PA_UINT32_TO_PTR(id)))) {
ret = -1;
goto finish;
}
memblock_replace_import(b);
finish:
pa_mutex_unlock(i->mutex);
return ret;
}
/* For sending blocks to other nodes */
pa_memexport* pa_memexport_new(pa_mempool *p, pa_memexport_revoke_cb_t cb, void *userdata) {
pa_memexport *e;
pa_assert(p);
pa_assert(cb);
if (!p->memory.shared)
return NULL;
e = pa_xnew(pa_memexport, 1);
e->mutex = pa_mutex_new(TRUE, TRUE);
e->pool = p;
PA_LLIST_HEAD_INIT(struct memexport_slot, e->free_slots);
PA_LLIST_HEAD_INIT(struct memexport_slot, e->used_slots);
e->n_init = 0;
e->revoke_cb = cb;
e->userdata = userdata;
pa_mutex_lock(p->mutex);
PA_LLIST_PREPEND(pa_memexport, p->exports, e);
pa_mutex_unlock(p->mutex);
return e;
}
void pa_memexport_free(pa_memexport *e) {
pa_assert(e);
pa_mutex_lock(e->mutex);
while (e->used_slots)
pa_memexport_process_release(e, e->used_slots - e->slots);
pa_mutex_unlock(e->mutex);
pa_mutex_lock(e->pool->mutex);
PA_LLIST_REMOVE(pa_memexport, e->pool->exports, e);
pa_mutex_unlock(e->pool->mutex);
pa_mutex_free(e->mutex);
pa_xfree(e);
}
/* Self-locked */
int pa_memexport_process_release(pa_memexport *e, uint32_t id) {
pa_memblock *b;
pa_assert(e);
pa_mutex_lock(e->mutex);
if (id >= e->n_init)
goto fail;
if (!e->slots[id].block)
goto fail;
b = e->slots[id].block;
e->slots[id].block = NULL;
PA_LLIST_REMOVE(struct memexport_slot, e->used_slots, &e->slots[id]);
PA_LLIST_PREPEND(struct memexport_slot, e->free_slots, &e->slots[id]);
pa_mutex_unlock(e->mutex);
/* pa_log("Processing release for %u", id); */
pa_assert(pa_atomic_load(&e->pool->stat.n_exported) > 0);
pa_assert(pa_atomic_load(&e->pool->stat.exported_size) >= (int) b->length);
pa_atomic_dec(&e->pool->stat.n_exported);
pa_atomic_sub(&e->pool->stat.exported_size, b->length);
pa_memblock_unref(b);
return 0;
fail:
pa_mutex_unlock(e->mutex);
return -1;
}
/* Self-locked */
static void memexport_revoke_blocks(pa_memexport *e, pa_memimport *i) {
struct memexport_slot *slot, *next;
pa_assert(e);
pa_assert(i);
pa_mutex_lock(e->mutex);
for (slot = e->used_slots; slot; slot = next) {
uint32_t idx;
next = slot->next;
if (slot->block->type != PA_MEMBLOCK_IMPORTED ||
slot->block->per_type.imported.segment->import != i)
continue;
idx = slot - e->slots;
e->revoke_cb(e, idx, e->userdata);
pa_memexport_process_release(e, idx);
}
pa_mutex_unlock(e->mutex);
}
/* No lock necessary */
static pa_memblock *memblock_shared_copy(pa_mempool *p, pa_memblock *b) {
pa_memblock *n;
pa_assert(p);
pa_assert(b);
if (b->type == PA_MEMBLOCK_IMPORTED ||
b->type == PA_MEMBLOCK_POOL ||
b->type == PA_MEMBLOCK_POOL_EXTERNAL) {
pa_assert(b->pool == p);
return pa_memblock_ref(b);
}
if (!(n = pa_memblock_new_pool(p, b->length)))
return NULL;
memcpy(pa_atomic_ptr_load(&n->data), pa_atomic_ptr_load(&b->data), b->length);
return n;
}
/* Self-locked */
int pa_memexport_put(pa_memexport *e, pa_memblock *b, uint32_t *block_id, uint32_t *shm_id, size_t *offset, size_t * size) {
pa_shm *memory;
struct memexport_slot *slot;
void *data;
pa_assert(e);
pa_assert(b);
pa_assert(block_id);
pa_assert(shm_id);
pa_assert(offset);
pa_assert(size);
pa_assert(b->pool == e->pool);
if (!(b = memblock_shared_copy(e->pool, b)))
return -1;
pa_mutex_lock(e->mutex);
if (e->free_slots) {
slot = e->free_slots;
PA_LLIST_REMOVE(struct memexport_slot, e->free_slots, slot);
} else if (e->n_init < PA_MEMEXPORT_SLOTS_MAX)
slot = &e->slots[e->n_init++];
else {
pa_mutex_unlock(e->mutex);
pa_memblock_unref(b);
return -1;
}
PA_LLIST_PREPEND(struct memexport_slot, e->used_slots, slot);
slot->block = b;
*block_id = slot - e->slots;
pa_mutex_unlock(e->mutex);
/* pa_log("Got block id %u", *block_id); */
data = pa_memblock_acquire(b);
if (b->type == PA_MEMBLOCK_IMPORTED) {
pa_assert(b->per_type.imported.segment);
memory = &b->per_type.imported.segment->memory;
} else {
pa_assert(b->type == PA_MEMBLOCK_POOL || b->type == PA_MEMBLOCK_POOL_EXTERNAL);
pa_assert(b->pool);
memory = &b->pool->memory;
}
pa_assert(data >= memory->ptr);
pa_assert((uint8_t*) data + b->length <= (uint8_t*) memory->ptr + memory->size);
*shm_id = memory->id;
*offset = (uint8_t*) data - (uint8_t*) memory->ptr;
*size = b->length;
pa_memblock_release(b);
pa_atomic_inc(&e->pool->stat.n_exported);
pa_atomic_add(&e->pool->stat.exported_size, b->length);
return 0;
}
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