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|
/**************************************************************************
*
* Copyright 2006 Tungsten Graphics, Inc., Cedar Park, Texas.
* All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sub license, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice (including the
* next paragraph) shall be included in all copies or substantial portions
* of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT.
* IN NO EVENT SHALL TUNGSTEN GRAPHICS AND/OR ITS SUPPLIERS BE LIABLE FOR
* ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
**************************************************************************/
/* Originally a fake version of the buffer manager so that we can
* prototype the changes in a driver fairly quickly, has been fleshed
* out to a fully functional interim solution.
*
* Basically wraps the old style memory management in the new
* programming interface, but is more expressive and avoids many of
* the bugs in the old texture manager.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <errno.h>
#include <xf86drm.h>
#include <pthread.h>
#include "intel_bufmgr.h"
#include "intel_bufmgr_priv.h"
#include "drm.h"
#include "i915_drm.h"
#include "mm.h"
#include "libdrm_lists.h"
#define ALIGN(value, alignment) ((value + alignment - 1) & ~(alignment - 1))
#define DBG(...) do { \
if (bufmgr_fake->bufmgr.debug) \
drmMsg(__VA_ARGS__); \
} while (0)
/* Internal flags:
*/
#define BM_NO_BACKING_STORE 0x00000001
#define BM_NO_FENCE_SUBDATA 0x00000002
#define BM_PINNED 0x00000004
/* Wrapper around mm.c's mem_block, which understands that you must
* wait for fences to expire before memory can be freed. This is
* specific to our use of memcpy for uploads - an upload that was
* processed through the command queue wouldn't need to care about
* fences.
*/
#define MAX_RELOCS 4096
struct fake_buffer_reloc
{
/** Buffer object that the relocation points at. */
drm_intel_bo *target_buf;
/** Offset of the relocation entry within reloc_buf. */
uint32_t offset;
/** Cached value of the offset when we last performed this relocation. */
uint32_t last_target_offset;
/** Value added to target_buf's offset to get the relocation entry. */
uint32_t delta;
/** Cache domains the target buffer is read into. */
uint32_t read_domains;
/** Cache domain the target buffer will have dirty cachelines in. */
uint32_t write_domain;
};
struct block {
struct block *next, *prev;
struct mem_block *mem; /* BM_MEM_AGP */
/**
* Marks that the block is currently in the aperture and has yet to be
* fenced.
*/
unsigned on_hardware:1;
/**
* Marks that the block is currently fenced (being used by rendering) and
* can't be freed until @fence is passed.
*/
unsigned fenced:1;
/** Fence cookie for the block. */
unsigned fence; /* Split to read_fence, write_fence */
drm_intel_bo *bo;
void *virtual;
};
typedef struct _bufmgr_fake {
drm_intel_bufmgr bufmgr;
pthread_mutex_t lock;
unsigned long low_offset;
unsigned long size;
void *virtual;
struct mem_block *heap;
unsigned buf_nr; /* for generating ids */
/**
* List of blocks which are currently in the GART but haven't been
* fenced yet.
*/
struct block on_hardware;
/**
* List of blocks which are in the GART and have an active fence on them.
*/
struct block fenced;
/**
* List of blocks which have an expired fence and are ready to be evicted.
*/
struct block lru;
unsigned int last_fence;
unsigned fail:1;
unsigned need_fence:1;
int thrashing;
/**
* Driver callback to emit a fence, returning the cookie.
*
* This allows the driver to hook in a replacement for the DRM usage in
* bufmgr_fake.
*
* Currently, this also requires that a write flush be emitted before
* emitting the fence, but this should change.
*/
unsigned int (*fence_emit)(void *private);
/** Driver callback to wait for a fence cookie to have passed. */
void (*fence_wait)(unsigned int fence, void *private);
void *fence_priv;
/**
* Driver callback to execute a buffer.
*
* This allows the driver to hook in a replacement for the DRM usage in
* bufmgr_fake.
*/
int (*exec)(drm_intel_bo *bo, unsigned int used, void *priv);
void *exec_priv;
/** Driver-supplied argument to driver callbacks */
void *driver_priv;
/* Pointer to kernel-updated sarea data for the last completed user irq */
volatile int *last_dispatch;
int fd;
int debug;
int performed_rendering;
} drm_intel_bufmgr_fake;
typedef struct _drm_intel_bo_fake {
drm_intel_bo bo;
unsigned id; /* debug only */
const char *name;
unsigned dirty:1;
/** has the card written to this buffer - we make need to copy it back */
unsigned card_dirty:1;
unsigned int refcount;
/* Flags may consist of any of the DRM_BO flags, plus
* DRM_BO_NO_BACKING_STORE and BM_NO_FENCE_SUBDATA, which are the first two
* driver private flags.
*/
uint64_t flags;
/** Cache domains the target buffer is read into. */
uint32_t read_domains;
/** Cache domain the target buffer will have dirty cachelines in. */
uint32_t write_domain;
unsigned int alignment;
int is_static, validated;
unsigned int map_count;
/** relocation list */
struct fake_buffer_reloc *relocs;
int nr_relocs;
/**
* Total size of the target_bos of this buffer.
*
* Used for estimation in check_aperture.
*/
unsigned int child_size;
struct block *block;
void *backing_store;
void (*invalidate_cb)(drm_intel_bo *bo, void *ptr);
void *invalidate_ptr;
} drm_intel_bo_fake;
static int clear_fenced(drm_intel_bufmgr_fake *bufmgr_fake,
unsigned int fence_cookie);
#define MAXFENCE 0x7fffffff
static int FENCE_LTE( unsigned a, unsigned b )
{
if (a == b)
return 1;
if (a < b && b - a < (1<<24))
return 1;
if (a > b && MAXFENCE - a + b < (1<<24))
return 1;
return 0;
}
void drm_intel_bufmgr_fake_set_fence_callback(drm_intel_bufmgr *bufmgr,
unsigned int (*emit)(void *priv),
void (*wait)(unsigned int fence,
void *priv),
void *priv)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bufmgr;
bufmgr_fake->fence_emit = emit;
bufmgr_fake->fence_wait = wait;
bufmgr_fake->fence_priv = priv;
}
static unsigned int
_fence_emit_internal(drm_intel_bufmgr_fake *bufmgr_fake)
{
struct drm_i915_irq_emit ie;
int ret, seq = 1;
if (bufmgr_fake->fence_emit != NULL) {
seq = bufmgr_fake->fence_emit(bufmgr_fake->fence_priv);
return seq;
}
ie.irq_seq = &seq;
ret = drmCommandWriteRead(bufmgr_fake->fd, DRM_I915_IRQ_EMIT,
&ie, sizeof(ie));
if (ret) {
drmMsg("%s: drm_i915_irq_emit: %d\n", __FUNCTION__, ret);
abort();
}
DBG("emit 0x%08x\n", seq);
return seq;
}
static void
_fence_wait_internal(drm_intel_bufmgr_fake *bufmgr_fake, int seq)
{
struct drm_i915_irq_wait iw;
int hw_seq, busy_count = 0;
int ret;
int kernel_lied;
if (bufmgr_fake->fence_wait != NULL) {
bufmgr_fake->fence_wait(seq, bufmgr_fake->fence_priv);
clear_fenced(bufmgr_fake, seq);
return;
}
DBG("wait 0x%08x\n", iw.irq_seq);
iw.irq_seq = seq;
/* The kernel IRQ_WAIT implementation is all sorts of broken.
* 1) It returns 1 to 0x7fffffff instead of using the full 32-bit unsigned
* range.
* 2) It returns 0 if hw_seq >= seq, not seq - hw_seq < 0 on the 32-bit
* signed range.
* 3) It waits if seq < hw_seq, not seq - hw_seq > 0 on the 32-bit
* signed range.
* 4) It returns -EBUSY in 3 seconds even if the hardware is still
* successfully chewing through buffers.
*
* Assume that in userland we treat sequence numbers as ints, which makes
* some of the comparisons convenient, since the sequence numbers are
* all postive signed integers.
*
* From this we get several cases we need to handle. Here's a timeline.
* 0x2 0x7 0x7ffffff8 0x7ffffffd
* | | | |
* -------------------------------------------------------------------
*
* A) Normal wait for hw to catch up
* hw_seq seq
* | |
* -------------------------------------------------------------------
* seq - hw_seq = 5. If we call IRQ_WAIT, it will wait for hw to catch up.
*
* B) Normal wait for a sequence number that's already passed.
* seq hw_seq
* | |
* -------------------------------------------------------------------
* seq - hw_seq = -5. If we call IRQ_WAIT, it returns 0 quickly.
*
* C) Hardware has already wrapped around ahead of us
* hw_seq seq
* | |
* -------------------------------------------------------------------
* seq - hw_seq = 0x80000000 - 5. If we called IRQ_WAIT, it would wait
* for hw_seq >= seq, which may never occur. Thus, we want to catch this
* in userland and return 0.
*
* D) We've wrapped around ahead of the hardware.
* seq hw_seq
* | |
* -------------------------------------------------------------------
* seq - hw_seq = -(0x80000000 - 5). If we called IRQ_WAIT, it would return
* 0 quickly because hw_seq >= seq, even though the hardware isn't caught up.
* Thus, we need to catch this early return in userland and bother the
* kernel until the hardware really does catch up.
*
* E) Hardware might wrap after we test in userland.
* hw_seq seq
* | |
* -------------------------------------------------------------------
* seq - hw_seq = 5. If we call IRQ_WAIT, it will likely see seq >= hw_seq
* and wait. However, suppose hw_seq wraps before we make it into the
* kernel. The kernel sees hw_seq >= seq and waits for 3 seconds then
* returns -EBUSY. This is case C). We should catch this and then return
* successfully.
*
* F) Hardware might take a long time on a buffer.
* hw_seq seq
* | |
* -------------------------------------------------------------------
* seq - hw_seq = 5. If we call IRQ_WAIT, if sequence 2 through 5 take too
* long, it will return -EBUSY. Batchbuffers in the gltestperf demo were
* seen to take up to 7 seconds. We should catch early -EBUSY return
* and keep trying.
*/
do {
/* Keep a copy of last_dispatch so that if the wait -EBUSYs because the
* hardware didn't catch up in 3 seconds, we can see if it at least made
* progress and retry.
*/
hw_seq = *bufmgr_fake->last_dispatch;
/* Catch case C */
if (seq - hw_seq > 0x40000000)
return;
ret = drmCommandWrite(bufmgr_fake->fd, DRM_I915_IRQ_WAIT,
&iw, sizeof(iw));
/* Catch case D */
kernel_lied = (ret == 0) && (seq - *bufmgr_fake->last_dispatch <
-0x40000000);
/* Catch case E */
if (ret == -EBUSY && (seq - *bufmgr_fake->last_dispatch > 0x40000000))
ret = 0;
/* Catch case F: Allow up to 15 seconds chewing on one buffer. */
if ((ret == -EBUSY) && (hw_seq != *bufmgr_fake->last_dispatch))
busy_count = 0;
else
busy_count++;
} while (kernel_lied || ret == -EAGAIN || ret == -EINTR ||
(ret == -EBUSY && busy_count < 5));
if (ret != 0) {
drmMsg("%s:%d: Error waiting for fence: %s.\n", __FILE__, __LINE__,
strerror(-ret));
abort();
}
clear_fenced(bufmgr_fake, seq);
}
static int
_fence_test(drm_intel_bufmgr_fake *bufmgr_fake, unsigned fence)
{
/* Slight problem with wrap-around:
*/
return fence == 0 || FENCE_LTE(fence, bufmgr_fake->last_fence);
}
/**
* Allocate a memory manager block for the buffer.
*/
static int
alloc_block(drm_intel_bo *bo)
{
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
drm_intel_bufmgr_fake *bufmgr_fake= (drm_intel_bufmgr_fake *)bo->bufmgr;
struct block *block = (struct block *)calloc(sizeof *block, 1);
unsigned int align_log2 = ffs(bo_fake->alignment) - 1;
unsigned int sz;
if (!block)
return 1;
sz = (bo->size + bo_fake->alignment - 1) & ~(bo_fake->alignment - 1);
block->mem = mmAllocMem(bufmgr_fake->heap, sz, align_log2, 0);
if (!block->mem) {
free(block);
return 0;
}
DRMINITLISTHEAD(block);
/* Insert at head or at tail???
*/
DRMLISTADDTAIL(block, &bufmgr_fake->lru);
block->virtual = (uint8_t *)bufmgr_fake->virtual +
block->mem->ofs - bufmgr_fake->low_offset;
block->bo = bo;
bo_fake->block = block;
return 1;
}
/* Release the card storage associated with buf:
*/
static void free_block(drm_intel_bufmgr_fake *bufmgr_fake, struct block *block)
{
drm_intel_bo_fake *bo_fake;
DBG("free block %p %08x %d %d\n", block, block->mem->ofs, block->on_hardware, block->fenced);
if (!block)
return;
bo_fake = (drm_intel_bo_fake *)block->bo;
if (!(bo_fake->flags & (BM_PINNED | BM_NO_BACKING_STORE)) && (bo_fake->card_dirty == 1)) {
memcpy(bo_fake->backing_store, block->virtual, block->bo->size);
bo_fake->card_dirty = 0;
bo_fake->dirty = 1;
}
if (block->on_hardware) {
block->bo = NULL;
}
else if (block->fenced) {
block->bo = NULL;
}
else {
DBG(" - free immediately\n");
DRMLISTDEL(block);
mmFreeMem(block->mem);
free(block);
}
}
static void
alloc_backing_store(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
assert(!bo_fake->backing_store);
assert(!(bo_fake->flags & (BM_PINNED|BM_NO_BACKING_STORE)));
bo_fake->backing_store = malloc(bo->size);
DBG("alloc_backing - buf %d %p %d\n", bo_fake->id, bo_fake->backing_store, bo->size);
assert(bo_fake->backing_store);
}
static void
free_backing_store(drm_intel_bo *bo)
{
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
if (bo_fake->backing_store) {
assert(!(bo_fake->flags & (BM_PINNED|BM_NO_BACKING_STORE)));
free(bo_fake->backing_store);
bo_fake->backing_store = NULL;
}
}
static void
set_dirty(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
if (bo_fake->flags & BM_NO_BACKING_STORE && bo_fake->invalidate_cb != NULL)
bo_fake->invalidate_cb(bo, bo_fake->invalidate_ptr);
assert(!(bo_fake->flags & BM_PINNED));
DBG("set_dirty - buf %d\n", bo_fake->id);
bo_fake->dirty = 1;
}
static int
evict_lru(drm_intel_bufmgr_fake *bufmgr_fake, unsigned int max_fence)
{
struct block *block, *tmp;
DBG("%s\n", __FUNCTION__);
DRMLISTFOREACHSAFE(block, tmp, &bufmgr_fake->lru) {
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)block->bo;
if (bo_fake != NULL && (bo_fake->flags & BM_NO_FENCE_SUBDATA))
continue;
if (block->fence && max_fence && !FENCE_LTE(block->fence, max_fence))
return 0;
set_dirty(&bo_fake->bo);
bo_fake->block = NULL;
free_block(bufmgr_fake, block);
return 1;
}
return 0;
}
static int
evict_mru(drm_intel_bufmgr_fake *bufmgr_fake)
{
struct block *block, *tmp;
DBG("%s\n", __FUNCTION__);
DRMLISTFOREACHSAFEREVERSE(block, tmp, &bufmgr_fake->lru) {
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)block->bo;
if (bo_fake && (bo_fake->flags & BM_NO_FENCE_SUBDATA))
continue;
set_dirty(&bo_fake->bo);
bo_fake->block = NULL;
free_block(bufmgr_fake, block);
return 1;
}
return 0;
}
/**
* Removes all objects from the fenced list older than the given fence.
*/
static int clear_fenced(drm_intel_bufmgr_fake *bufmgr_fake,
unsigned int fence_cookie)
{
struct block *block, *tmp;
int ret = 0;
bufmgr_fake->last_fence = fence_cookie;
DRMLISTFOREACHSAFE(block, tmp, &bufmgr_fake->fenced) {
assert(block->fenced);
if (_fence_test(bufmgr_fake, block->fence)) {
block->fenced = 0;
if (!block->bo) {
DBG("delayed free: offset %x sz %x\n",
block->mem->ofs, block->mem->size);
DRMLISTDEL(block);
mmFreeMem(block->mem);
free(block);
}
else {
DBG("return to lru: offset %x sz %x\n",
block->mem->ofs, block->mem->size);
DRMLISTDEL(block);
DRMLISTADDTAIL(block, &bufmgr_fake->lru);
}
ret = 1;
}
else {
/* Blocks are ordered by fence, so if one fails, all from
* here will fail also:
*/
DBG("fence not passed: offset %x sz %x %d %d \n",
block->mem->ofs, block->mem->size, block->fence, bufmgr_fake->last_fence);
break;
}
}
DBG("%s: %d\n", __FUNCTION__, ret);
return ret;
}
static void fence_blocks(drm_intel_bufmgr_fake *bufmgr_fake, unsigned fence)
{
struct block *block, *tmp;
DRMLISTFOREACHSAFE(block, tmp, &bufmgr_fake->on_hardware) {
DBG("Fence block %p (sz 0x%x ofs %x buf %p) with fence %d\n", block,
block->mem->size, block->mem->ofs, block->bo, fence);
block->fence = fence;
block->on_hardware = 0;
block->fenced = 1;
/* Move to tail of pending list here
*/
DRMLISTDEL(block);
DRMLISTADDTAIL(block, &bufmgr_fake->fenced);
}
assert(DRMLISTEMPTY(&bufmgr_fake->on_hardware));
}
static int evict_and_alloc_block(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
assert(bo_fake->block == NULL);
/* Search for already free memory:
*/
if (alloc_block(bo))
return 1;
/* If we're not thrashing, allow lru eviction to dig deeper into
* recently used textures. We'll probably be thrashing soon:
*/
if (!bufmgr_fake->thrashing) {
while (evict_lru(bufmgr_fake, 0))
if (alloc_block(bo))
return 1;
}
/* Keep thrashing counter alive?
*/
if (bufmgr_fake->thrashing)
bufmgr_fake->thrashing = 20;
/* Wait on any already pending fences - here we are waiting for any
* freed memory that has been submitted to hardware and fenced to
* become available:
*/
while (!DRMLISTEMPTY(&bufmgr_fake->fenced)) {
uint32_t fence = bufmgr_fake->fenced.next->fence;
_fence_wait_internal(bufmgr_fake, fence);
if (alloc_block(bo))
return 1;
}
if (!DRMLISTEMPTY(&bufmgr_fake->on_hardware)) {
while (!DRMLISTEMPTY(&bufmgr_fake->fenced)) {
uint32_t fence = bufmgr_fake->fenced.next->fence;
_fence_wait_internal(bufmgr_fake, fence);
}
if (!bufmgr_fake->thrashing) {
DBG("thrashing\n");
}
bufmgr_fake->thrashing = 20;
if (alloc_block(bo))
return 1;
}
while (evict_mru(bufmgr_fake))
if (alloc_block(bo))
return 1;
DBG("%s 0x%x bytes failed\n", __FUNCTION__, bo->size);
return 0;
}
/***********************************************************************
* Public functions
*/
/**
* Wait for hardware idle by emitting a fence and waiting for it.
*/
static void
drm_intel_bufmgr_fake_wait_idle(drm_intel_bufmgr_fake *bufmgr_fake)
{
unsigned int cookie;
cookie = _fence_emit_internal(bufmgr_fake);
_fence_wait_internal(bufmgr_fake, cookie);
}
/**
* Wait for rendering to a buffer to complete.
*
* It is assumed that the bathcbuffer which performed the rendering included
* the necessary flushing.
*/
static void
drm_intel_fake_bo_wait_rendering_locked(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
if (bo_fake->block == NULL || !bo_fake->block->fenced)
return;
_fence_wait_internal(bufmgr_fake, bo_fake->block->fence);
}
static void
drm_intel_fake_bo_wait_rendering(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
pthread_mutex_lock(&bufmgr_fake->lock);
drm_intel_fake_bo_wait_rendering_locked(bo);
pthread_mutex_unlock(&bufmgr_fake->lock);
}
/* Specifically ignore texture memory sharing.
* -- just evict everything
* -- and wait for idle
*/
void
drm_intel_bufmgr_fake_contended_lock_take(drm_intel_bufmgr *bufmgr)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bufmgr;
struct block *block, *tmp;
pthread_mutex_lock(&bufmgr_fake->lock);
bufmgr_fake->need_fence = 1;
bufmgr_fake->fail = 0;
/* Wait for hardware idle. We don't know where acceleration has been
* happening, so we'll need to wait anyway before letting anything get
* put on the card again.
*/
drm_intel_bufmgr_fake_wait_idle(bufmgr_fake);
/* Check that we hadn't released the lock without having fenced the last
* set of buffers.
*/
assert(DRMLISTEMPTY(&bufmgr_fake->fenced));
assert(DRMLISTEMPTY(&bufmgr_fake->on_hardware));
DRMLISTFOREACHSAFE(block, tmp, &bufmgr_fake->lru) {
assert(_fence_test(bufmgr_fake, block->fence));
set_dirty(block->bo);
}
pthread_mutex_unlock(&bufmgr_fake->lock);
}
static drm_intel_bo *
drm_intel_fake_bo_alloc(drm_intel_bufmgr *bufmgr, const char *name,
unsigned long size, unsigned int alignment)
{
drm_intel_bufmgr_fake *bufmgr_fake;
drm_intel_bo_fake *bo_fake;
bufmgr_fake = (drm_intel_bufmgr_fake *)bufmgr;
assert(size != 0);
bo_fake = calloc(1, sizeof(*bo_fake));
if (!bo_fake)
return NULL;
bo_fake->bo.size = size;
bo_fake->bo.offset = -1;
bo_fake->bo.virtual = NULL;
bo_fake->bo.bufmgr = bufmgr;
bo_fake->refcount = 1;
/* Alignment must be a power of two */
assert((alignment & (alignment - 1)) == 0);
if (alignment == 0)
alignment = 1;
bo_fake->alignment = alignment;
bo_fake->id = ++bufmgr_fake->buf_nr;
bo_fake->name = name;
bo_fake->flags = 0;
bo_fake->is_static = 0;
DBG("drm_bo_alloc: (buf %d: %s, %d kb)\n", bo_fake->id, bo_fake->name,
bo_fake->bo.size / 1024);
return &bo_fake->bo;
}
drm_intel_bo *
drm_intel_bo_fake_alloc_static(drm_intel_bufmgr *bufmgr, const char *name,
unsigned long offset, unsigned long size,
void *virtual)
{
drm_intel_bufmgr_fake *bufmgr_fake;
drm_intel_bo_fake *bo_fake;
bufmgr_fake = (drm_intel_bufmgr_fake *)bufmgr;
assert(size != 0);
bo_fake = calloc(1, sizeof(*bo_fake));
if (!bo_fake)
return NULL;
bo_fake->bo.size = size;
bo_fake->bo.offset = offset;
bo_fake->bo.virtual = virtual;
bo_fake->bo.bufmgr = bufmgr;
bo_fake->refcount = 1;
bo_fake->id = ++bufmgr_fake->buf_nr;
bo_fake->name = name;
bo_fake->flags = BM_PINNED;
bo_fake->is_static = 1;
DBG("drm_bo_alloc_static: (buf %d: %s, %d kb)\n", bo_fake->id, bo_fake->name,
bo_fake->bo.size / 1024);
return &bo_fake->bo;
}
static void
drm_intel_fake_bo_reference(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
pthread_mutex_lock(&bufmgr_fake->lock);
bo_fake->refcount++;
pthread_mutex_unlock(&bufmgr_fake->lock);
}
static void
drm_intel_fake_bo_reference_locked(drm_intel_bo *bo)
{
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
bo_fake->refcount++;
}
static void
drm_intel_fake_bo_unreference_locked(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
int i;
if (--bo_fake->refcount == 0) {
assert(bo_fake->map_count == 0);
/* No remaining references, so free it */
if (bo_fake->block)
free_block(bufmgr_fake, bo_fake->block);
free_backing_store(bo);
for (i = 0; i < bo_fake->nr_relocs; i++)
drm_intel_fake_bo_unreference_locked(bo_fake->relocs[i].target_buf);
DBG("drm_bo_unreference: free buf %d %s\n", bo_fake->id, bo_fake->name);
free(bo_fake->relocs);
free(bo);
}
}
static void
drm_intel_fake_bo_unreference(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
pthread_mutex_lock(&bufmgr_fake->lock);
drm_intel_fake_bo_unreference_locked(bo);
pthread_mutex_unlock(&bufmgr_fake->lock);
}
/**
* Set the buffer as not requiring backing store, and instead get the callback
* invoked whenever it would be set dirty.
*/
void drm_intel_bo_fake_disable_backing_store(drm_intel_bo *bo,
void (*invalidate_cb)(drm_intel_bo *bo,
void *ptr),
void *ptr)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
pthread_mutex_lock(&bufmgr_fake->lock);
if (bo_fake->backing_store)
free_backing_store(bo);
bo_fake->flags |= BM_NO_BACKING_STORE;
DBG("disable_backing_store set buf %d dirty\n", bo_fake->id);
bo_fake->dirty = 1;
bo_fake->invalidate_cb = invalidate_cb;
bo_fake->invalidate_ptr = ptr;
/* Note that it is invalid right from the start. Also note
* invalidate_cb is called with the bufmgr locked, so cannot
* itself make bufmgr calls.
*/
if (invalidate_cb != NULL)
invalidate_cb(bo, ptr);
pthread_mutex_unlock(&bufmgr_fake->lock);
}
/**
* Map a buffer into bo->virtual, allocating either card memory space (If
* BM_NO_BACKING_STORE or BM_PINNED) or backing store, as necessary.
*/
static int
drm_intel_fake_bo_map_locked(drm_intel_bo *bo, int write_enable)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
/* Static buffers are always mapped. */
if (bo_fake->is_static) {
if (bo_fake->card_dirty) {
drm_intel_bufmgr_fake_wait_idle(bufmgr_fake);
bo_fake->card_dirty = 0;
}
return 0;
}
/* Allow recursive mapping. Mesa may recursively map buffers with
* nested display loops, and it is used internally in bufmgr_fake
* for relocation.
*/
if (bo_fake->map_count++ != 0)
return 0;
{
DBG("drm_bo_map: (buf %d: %s, %d kb)\n", bo_fake->id, bo_fake->name,
bo_fake->bo.size / 1024);
if (bo->virtual != NULL) {
drmMsg("%s: already mapped\n", __FUNCTION__);
abort();
}
else if (bo_fake->flags & (BM_NO_BACKING_STORE|BM_PINNED)) {
if (!bo_fake->block && !evict_and_alloc_block(bo)) {
DBG("%s: alloc failed\n", __FUNCTION__);
bufmgr_fake->fail = 1;
return 1;
}
else {
assert(bo_fake->block);
bo_fake->dirty = 0;
if (!(bo_fake->flags & BM_NO_FENCE_SUBDATA) &&
bo_fake->block->fenced) {
drm_intel_fake_bo_wait_rendering_locked(bo);
}
bo->virtual = bo_fake->block->virtual;
}
}
else {
if (write_enable)
set_dirty(bo);
if (bo_fake->backing_store == 0)
alloc_backing_store(bo);
if ((bo_fake->card_dirty == 1) && bo_fake->block) {
if (bo_fake->block->fenced)
drm_intel_fake_bo_wait_rendering_locked(bo);
memcpy(bo_fake->backing_store, bo_fake->block->virtual, bo_fake->block->bo->size);
bo_fake->card_dirty = 0;
}
bo->virtual = bo_fake->backing_store;
}
}
return 0;
}
static int
drm_intel_fake_bo_map(drm_intel_bo *bo, int write_enable)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
int ret;
pthread_mutex_lock(&bufmgr_fake->lock);
ret = drm_intel_fake_bo_map_locked(bo, write_enable);
pthread_mutex_unlock(&bufmgr_fake->lock);
return ret;
}
static int
drm_intel_fake_bo_unmap_locked(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
/* Static buffers are always mapped. */
if (bo_fake->is_static)
return 0;
assert(bo_fake->map_count != 0);
if (--bo_fake->map_count != 0)
return 0;
DBG("drm_bo_unmap: (buf %d: %s, %d kb)\n", bo_fake->id, bo_fake->name,
bo_fake->bo.size / 1024);
bo->virtual = NULL;
return 0;
}
static int
drm_intel_fake_bo_unmap(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
int ret;
pthread_mutex_lock(&bufmgr_fake->lock);
ret = drm_intel_fake_bo_unmap_locked(bo);
pthread_mutex_unlock(&bufmgr_fake->lock);
return ret;
}
static void
drm_intel_fake_kick_all_locked(drm_intel_bufmgr_fake *bufmgr_fake)
{
struct block *block, *tmp;
bufmgr_fake->performed_rendering = 0;
/* okay for ever BO that is on the HW kick it off.
seriously not afraid of the POLICE right now */
DRMLISTFOREACHSAFE(block, tmp, &bufmgr_fake->on_hardware) {
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)block->bo;
block->on_hardware = 0;
free_block(bufmgr_fake, block);
bo_fake->block = NULL;
bo_fake->validated = 0;
if (!(bo_fake->flags & BM_NO_BACKING_STORE))
bo_fake->dirty = 1;
}
}
static int
drm_intel_fake_bo_validate(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
DBG("drm_bo_validate: (buf %d: %s, %d kb)\n", bo_fake->id, bo_fake->name,
bo_fake->bo.size / 1024);
/* Sanity check: Buffers should be unmapped before being validated.
* This is not so much of a problem for bufmgr_fake, but TTM refuses,
* and the problem is harder to debug there.
*/
assert(bo_fake->map_count == 0);
if (bo_fake->is_static) {
/* Add it to the needs-fence list */
bufmgr_fake->need_fence = 1;
return 0;
}
/* Allocate the card memory */
if (!bo_fake->block && !evict_and_alloc_block(bo)) {
bufmgr_fake->fail = 1;
DBG("Failed to validate buf %d:%s\n", bo_fake->id, bo_fake->name);
return -1;
}
assert(bo_fake->block);
assert(bo_fake->block->bo == &bo_fake->bo);
bo->offset = bo_fake->block->mem->ofs;
/* Upload the buffer contents if necessary */
if (bo_fake->dirty) {
DBG("Upload dirty buf %d:%s, sz %d offset 0x%x\n", bo_fake->id,
bo_fake->name, bo->size, bo_fake->block->mem->ofs);
assert(!(bo_fake->flags &
(BM_NO_BACKING_STORE|BM_PINNED)));
/* Actually, should be able to just wait for a fence on the memory,
* which we would be tracking when we free it. Waiting for idle is
* a sufficiently large hammer for now.
*/
drm_intel_bufmgr_fake_wait_idle(bufmgr_fake);
/* we may never have mapped this BO so it might not have any backing
* store if this happens it should be rare, but 0 the card memory
* in any case */
if (bo_fake->backing_store)
memcpy(bo_fake->block->virtual, bo_fake->backing_store, bo->size);
else
memset(bo_fake->block->virtual, 0, bo->size);
bo_fake->dirty = 0;
}
bo_fake->block->fenced = 0;
bo_fake->block->on_hardware = 1;
DRMLISTDEL(bo_fake->block);
DRMLISTADDTAIL(bo_fake->block, &bufmgr_fake->on_hardware);
bo_fake->validated = 1;
bufmgr_fake->need_fence = 1;
return 0;
}
static void
drm_intel_fake_fence_validated(drm_intel_bufmgr *bufmgr)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bufmgr;
unsigned int cookie;
cookie = _fence_emit_internal(bufmgr_fake);
fence_blocks(bufmgr_fake, cookie);
DBG("drm_fence_validated: 0x%08x cookie\n", cookie);
}
static void
drm_intel_fake_destroy(drm_intel_bufmgr *bufmgr)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bufmgr;
pthread_mutex_destroy(&bufmgr_fake->lock);
mmDestroy(bufmgr_fake->heap);
free(bufmgr);
}
static int
drm_intel_fake_emit_reloc(drm_intel_bo *bo, uint32_t offset,
drm_intel_bo *target_bo, uint32_t target_offset,
uint32_t read_domains, uint32_t write_domain)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
struct fake_buffer_reloc *r;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
drm_intel_bo_fake *target_fake = (drm_intel_bo_fake *)target_bo;
int i;
pthread_mutex_lock(&bufmgr_fake->lock);
assert(bo);
assert(target_bo);
if (bo_fake->relocs == NULL) {
bo_fake->relocs = malloc(sizeof(struct fake_buffer_reloc) * MAX_RELOCS);
}
r = &bo_fake->relocs[bo_fake->nr_relocs++];
assert(bo_fake->nr_relocs <= MAX_RELOCS);
drm_intel_fake_bo_reference_locked(target_bo);
if (!target_fake->is_static) {
bo_fake->child_size += ALIGN(target_bo->size, target_fake->alignment);
bo_fake->child_size += target_fake->child_size;
}
r->target_buf = target_bo;
r->offset = offset;
r->last_target_offset = target_bo->offset;
r->delta = target_offset;
r->read_domains = read_domains;
r->write_domain = write_domain;
if (bufmgr_fake->debug) {
/* Check that a conflicting relocation hasn't already been emitted. */
for (i = 0; i < bo_fake->nr_relocs - 1; i++) {
struct fake_buffer_reloc *r2 = &bo_fake->relocs[i];
assert(r->offset != r2->offset);
}
}
pthread_mutex_unlock(&bufmgr_fake->lock);
return 0;
}
/**
* Incorporates the validation flags associated with each relocation into
* the combined validation flags for the buffer on this batchbuffer submission.
*/
static void
drm_intel_fake_calculate_domains(drm_intel_bo *bo)
{
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
int i;
for (i = 0; i < bo_fake->nr_relocs; i++) {
struct fake_buffer_reloc *r = &bo_fake->relocs[i];
drm_intel_bo_fake *target_fake = (drm_intel_bo_fake *)r->target_buf;
/* Do the same for the tree of buffers we depend on */
drm_intel_fake_calculate_domains(r->target_buf);
target_fake->read_domains |= r->read_domains;
target_fake->write_domain |= r->write_domain;
}
}
static int
drm_intel_fake_reloc_and_validate_buffer(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
int i, ret;
assert(bo_fake->map_count == 0);
for (i = 0; i < bo_fake->nr_relocs; i++) {
struct fake_buffer_reloc *r = &bo_fake->relocs[i];
drm_intel_bo_fake *target_fake = (drm_intel_bo_fake *)r->target_buf;
uint32_t reloc_data;
/* Validate the target buffer if that hasn't been done. */
if (!target_fake->validated) {
ret = drm_intel_fake_reloc_and_validate_buffer(r->target_buf);
if (ret != 0) {
if (bo->virtual != NULL)
drm_intel_fake_bo_unmap_locked(bo);
return ret;
}
}
/* Calculate the value of the relocation entry. */
if (r->target_buf->offset != r->last_target_offset) {
reloc_data = r->target_buf->offset + r->delta;
if (bo->virtual == NULL)
drm_intel_fake_bo_map_locked(bo, 1);
*(uint32_t *)((uint8_t *)bo->virtual + r->offset) = reloc_data;
r->last_target_offset = r->target_buf->offset;
}
}
if (bo->virtual != NULL)
drm_intel_fake_bo_unmap_locked(bo);
if (bo_fake->write_domain != 0) {
if (!(bo_fake->flags & (BM_NO_BACKING_STORE|BM_PINNED))) {
if (bo_fake->backing_store == 0)
alloc_backing_store(bo);
}
bo_fake->card_dirty = 1;
bufmgr_fake->performed_rendering = 1;
}
return drm_intel_fake_bo_validate(bo);
}
static void
drm_intel_bo_fake_post_submit(drm_intel_bo *bo)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo;
int i;
for (i = 0; i < bo_fake->nr_relocs; i++) {
struct fake_buffer_reloc *r = &bo_fake->relocs[i];
drm_intel_bo_fake *target_fake = (drm_intel_bo_fake *)r->target_buf;
if (target_fake->validated)
drm_intel_bo_fake_post_submit(r->target_buf);
DBG("%s@0x%08x + 0x%08x -> %s@0x%08x + 0x%08x\n",
bo_fake->name, (uint32_t)bo->offset, r->offset,
target_fake->name, (uint32_t)r->target_buf->offset, r->delta);
}
assert(bo_fake->map_count == 0);
bo_fake->validated = 0;
bo_fake->read_domains = 0;
bo_fake->write_domain = 0;
}
void drm_intel_bufmgr_fake_set_exec_callback(drm_intel_bufmgr *bufmgr,
int (*exec)(drm_intel_bo *bo,
unsigned int used,
void *priv),
void *priv)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bufmgr;
bufmgr_fake->exec = exec;
bufmgr_fake->exec_priv = priv;
}
static int
drm_intel_fake_bo_exec(drm_intel_bo *bo, int used,
drm_clip_rect_t *cliprects, int num_cliprects,
int DR4)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo->bufmgr;
drm_intel_bo_fake *batch_fake = (drm_intel_bo_fake *)bo;
struct drm_i915_batchbuffer batch;
int ret;
int retry_count = 0;
pthread_mutex_lock(&bufmgr_fake->lock);
bufmgr_fake->performed_rendering = 0;
drm_intel_fake_calculate_domains(bo);
batch_fake->read_domains = I915_GEM_DOMAIN_COMMAND;
/* we've ran out of RAM so blow the whole lot away and retry */
restart:
ret = drm_intel_fake_reloc_and_validate_buffer(bo);
if (bufmgr_fake->fail == 1) {
if (retry_count == 0) {
retry_count++;
drm_intel_fake_kick_all_locked(bufmgr_fake);
bufmgr_fake->fail = 0;
goto restart;
} else /* dump out the memory here */
mmDumpMemInfo(bufmgr_fake->heap);
}
assert(ret == 0);
if (bufmgr_fake->exec != NULL) {
int ret = bufmgr_fake->exec(bo, used, bufmgr_fake->exec_priv);
if (ret != 0) {
pthread_mutex_unlock(&bufmgr_fake->lock);
return ret;
}
} else {
batch.start = bo->offset;
batch.used = used;
batch.cliprects = cliprects;
batch.num_cliprects = num_cliprects;
batch.DR1 = 0;
batch.DR4 = DR4;
if (drmCommandWrite(bufmgr_fake->fd, DRM_I915_BATCHBUFFER, &batch,
sizeof(batch))) {
drmMsg("DRM_I915_BATCHBUFFER: %d\n", -errno);
pthread_mutex_unlock(&bufmgr_fake->lock);
return -errno;
}
}
drm_intel_fake_fence_validated(bo->bufmgr);
drm_intel_bo_fake_post_submit(bo);
pthread_mutex_unlock(&bufmgr_fake->lock);
return 0;
}
/**
* Return an error if the list of BOs will exceed the aperture size.
*
* This is a rough guess and likely to fail, as during the validate sequence we
* may place a buffer in an inopportune spot early on and then fail to fit
* a set smaller than the aperture.
*/
static int
drm_intel_fake_check_aperture_space(drm_intel_bo **bo_array, int count)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bo_array[0]->bufmgr;
unsigned int sz = 0;
int i;
for (i = 0; i < count; i++) {
drm_intel_bo_fake *bo_fake = (drm_intel_bo_fake *)bo_array[i];
if (bo_fake == NULL)
continue;
if (!bo_fake->is_static)
sz += ALIGN(bo_array[i]->size, bo_fake->alignment);
sz += bo_fake->child_size;
}
if (sz > bufmgr_fake->size) {
DBG("check_space: overflowed bufmgr size, %dkb vs %dkb\n",
sz / 1024, bufmgr_fake->size / 1024);
return -1;
}
DBG("drm_check_space: sz %dkb vs bufgr %dkb\n", sz / 1024 ,
bufmgr_fake->size / 1024);
return 0;
}
/**
* Evicts all buffers, waiting for fences to pass and copying contents out
* as necessary.
*
* Used by the X Server on LeaveVT, when the card memory is no longer our
* own.
*/
void
drm_intel_bufmgr_fake_evict_all(drm_intel_bufmgr *bufmgr)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bufmgr;
struct block *block, *tmp;
pthread_mutex_lock(&bufmgr_fake->lock);
bufmgr_fake->need_fence = 1;
bufmgr_fake->fail = 0;
/* Wait for hardware idle. We don't know where acceleration has been
* happening, so we'll need to wait anyway before letting anything get
* put on the card again.
*/
drm_intel_bufmgr_fake_wait_idle(bufmgr_fake);
/* Check that we hadn't released the lock without having fenced the last
* set of buffers.
*/
assert(DRMLISTEMPTY(&bufmgr_fake->fenced));
assert(DRMLISTEMPTY(&bufmgr_fake->on_hardware));
DRMLISTFOREACHSAFE(block, tmp, &bufmgr_fake->lru) {
/* Releases the memory, and memcpys dirty contents out if necessary. */
free_block(bufmgr_fake, block);
}
pthread_mutex_unlock(&bufmgr_fake->lock);
}
void drm_intel_bufmgr_fake_set_last_dispatch(drm_intel_bufmgr *bufmgr,
volatile unsigned int *last_dispatch)
{
drm_intel_bufmgr_fake *bufmgr_fake = (drm_intel_bufmgr_fake *)bufmgr;
bufmgr_fake->last_dispatch = (volatile int *)last_dispatch;
}
drm_intel_bufmgr *
drm_intel_bufmgr_fake_init(int fd,
unsigned long low_offset, void *low_virtual,
unsigned long size,
volatile unsigned int *last_dispatch)
{
drm_intel_bufmgr_fake *bufmgr_fake;
bufmgr_fake = calloc(1, sizeof(*bufmgr_fake));
if (pthread_mutex_init(&bufmgr_fake->lock, NULL) != 0) {
free(bufmgr_fake);
return NULL;
}
/* Initialize allocator */
DRMINITLISTHEAD(&bufmgr_fake->fenced);
DRMINITLISTHEAD(&bufmgr_fake->on_hardware);
DRMINITLISTHEAD(&bufmgr_fake->lru);
bufmgr_fake->low_offset = low_offset;
bufmgr_fake->virtual = low_virtual;
bufmgr_fake->size = size;
bufmgr_fake->heap = mmInit(low_offset, size);
/* Hook in methods */
bufmgr_fake->bufmgr.bo_alloc = drm_intel_fake_bo_alloc;
bufmgr_fake->bufmgr.bo_reference = drm_intel_fake_bo_reference;
bufmgr_fake->bufmgr.bo_unreference = drm_intel_fake_bo_unreference;
bufmgr_fake->bufmgr.bo_map = drm_intel_fake_bo_map;
bufmgr_fake->bufmgr.bo_unmap = drm_intel_fake_bo_unmap;
bufmgr_fake->bufmgr.bo_wait_rendering = drm_intel_fake_bo_wait_rendering;
bufmgr_fake->bufmgr.bo_emit_reloc = drm_intel_fake_emit_reloc;
bufmgr_fake->bufmgr.destroy = drm_intel_fake_destroy;
bufmgr_fake->bufmgr.bo_exec = drm_intel_fake_bo_exec;
bufmgr_fake->bufmgr.check_aperture_space = drm_intel_fake_check_aperture_space;
bufmgr_fake->bufmgr.debug = 0;
bufmgr_fake->fd = fd;
bufmgr_fake->last_dispatch = (volatile int *)last_dispatch;
return &bufmgr_fake->bufmgr;
}
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