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/**************************************************************************
*
* Copyright 2007 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.
*
**************************************************************************/
#include "cell_context.h"
#include "cell_batch.h"
#include "cell_spu.h"
/**
* Search the buffer pool for an empty/free buffer and return its index.
* Buffers are used for storing vertex data, state and commands which
* will be sent to the SPUs.
* If no empty buffers are available, wait for one.
* \return buffer index in [0, CELL_NUM_BUFFERS-1]
*/
uint
cell_get_empty_buffer(struct cell_context *cell)
{
uint buf = 0, tries = 0;
/* Find a buffer that's marked as free by all SPUs */
while (1) {
uint spu, num_free = 0;
for (spu = 0; spu < cell->num_spus; spu++) {
if (cell->buffer_status[spu][buf][0] == CELL_BUFFER_STATUS_FREE) {
num_free++;
if (num_free == cell->num_spus) {
/* found a free buffer, now mark status as used */
for (spu = 0; spu < cell->num_spus; spu++) {
cell->buffer_status[spu][buf][0] = CELL_BUFFER_STATUS_USED;
}
/*
printf("PPU: ALLOC BUFFER %u\n", buf);
*/
return buf;
}
}
else {
break;
}
}
/* try next buf */
buf = (buf + 1) % CELL_NUM_BUFFERS;
tries++;
if (tries == 100) {
/*
printf("PPU WAITING for buffer...\n");
*/
}
}
}
/**
* Flush the current batch buffer to the SPUs.
* An empty buffer will be found and set as the new current batch buffer
* for subsequent commands/data.
*/
void
cell_batch_flush(struct cell_context *cell)
{
static boolean flushing = FALSE;
uint batch = cell->cur_batch;
const uint size = cell->buffer_size[batch];
uint spu, cmd_word;
assert(!flushing);
if (size == 0)
return;
flushing = TRUE;
assert(batch < CELL_NUM_BUFFERS);
/*
printf("cell_batch_dispatch: buf %u at %p, size %u\n",
batch, &cell->buffer[batch][0], size);
*/
/*
* Build "BATCH" command and send to all SPUs.
*/
cmd_word = CELL_CMD_BATCH | (batch << 8) | (size << 16);
for (spu = 0; spu < cell->num_spus; spu++) {
assert(cell->buffer_status[spu][batch][0] == CELL_BUFFER_STATUS_USED);
send_mbox_message(cell_global.spe_contexts[spu], cmd_word);
}
/* When the SPUs are done copying the buffer into their locals stores
* they'll write a BUFFER_STATUS_FREE message into the buffer_status[]
* array indicating that the PPU can re-use the buffer.
*/
batch = cell_get_empty_buffer(cell);
cell->buffer_size[batch] = 0; /* empty */
cell->cur_batch = batch;
flushing = FALSE;
}
/**
* Return the number of bytes free in the current batch buffer.
*/
uint
cell_batch_free_space(const struct cell_context *cell)
{
uint free = CELL_BUFFER_SIZE - cell->buffer_size[cell->cur_batch];
return free;
}
/**
* Append data to the current batch buffer.
* \param data address of block of bytes to append
* \param bytes size of block of bytes
*/
void
cell_batch_append(struct cell_context *cell, const void *data, uint bytes)
{
uint size;
ASSERT(bytes % 8 == 0);
ASSERT(bytes <= CELL_BUFFER_SIZE);
ASSERT(cell->cur_batch >= 0);
#ifdef ASSERT
{
uint spu;
for (spu = 0; spu < cell->num_spus; spu++) {
ASSERT(cell->buffer_status[spu][cell->cur_batch][0]
== CELL_BUFFER_STATUS_USED);
}
}
#endif
size = cell->buffer_size[cell->cur_batch];
if (size + bytes > CELL_BUFFER_SIZE) {
cell_batch_flush(cell);
size = 0;
}
ASSERT(size + bytes <= CELL_BUFFER_SIZE);
memcpy(cell->buffer[cell->cur_batch] + size, data, bytes);
cell->buffer_size[cell->cur_batch] = size + bytes;
}
/**
* Allocate space in the current batch buffer for 'bytes' space.
* \return address in batch buffer to put data
*/
void *
cell_batch_alloc(struct cell_context *cell, uint bytes)
{
return cell_batch_alloc_aligned(cell, bytes, 1);
}
/**
* Same as \sa cell_batch_alloc, but return an address at a particular
* alignment.
*/
void *
cell_batch_alloc_aligned(struct cell_context *cell, uint bytes,
uint alignment)
{
void *pos;
uint size, padbytes;
ASSERT(bytes % 8 == 0);
ASSERT(bytes <= CELL_BUFFER_SIZE);
ASSERT(alignment > 0);
ASSERT(cell->cur_batch >= 0);
#ifdef ASSERT
{
uint spu;
for (spu = 0; spu < cell->num_spus; spu++) {
ASSERT(cell->buffer_status[spu][cell->cur_batch][0]
== CELL_BUFFER_STATUS_USED);
}
}
#endif
size = cell->buffer_size[cell->cur_batch];
padbytes = (alignment - (size % alignment)) % alignment;
if (padbytes + size + bytes > CELL_BUFFER_SIZE) {
cell_batch_flush(cell);
size = 0;
}
else {
size += padbytes;
}
ASSERT(size % alignment == 0);
ASSERT(size + bytes <= CELL_BUFFER_SIZE);
pos = (void *) (cell->buffer[cell->cur_batch] + size);
cell->buffer_size[cell->cur_batch] = size + bytes;
return pos;
}
/**
* One-time init of batch buffers.
*/
void
cell_init_batch_buffers(struct cell_context *cell)
{
uint spu, buf;
/* init command, vertex/index buffer info */
for (buf = 0; buf < CELL_NUM_BUFFERS; buf++) {
cell->buffer_size[buf] = 0;
/* init batch buffer status values,
* mark 0th buffer as used, rest as free.
*/
for (spu = 0; spu < cell->num_spus; spu++) {
if (buf == 0)
cell->buffer_status[spu][buf][0] = CELL_BUFFER_STATUS_USED;
else
cell->buffer_status[spu][buf][0] = CELL_BUFFER_STATUS_FREE;
}
}
}
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