SDL-1.2.14

[sdl_omap.git] / src / video / ps3 / spulibs / fb_writer.c

/*
 * SDL - Simple DirectMedia Layer
 * CELL BE Support for PS3 Framebuffer
 * Copyright (C) 2008, 2009 International Business Machines Corporation
 *
 * This library 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.
 *
 * This library 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 this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301
 * USA
 *
 *  Martin Lowinski  <lowinski [at] de [dot] ibm [ibm] com>
 *  Dirk Herrendoerfer <d.herrendoerfer [at] de [dot] ibm [dot] com>
 *  SPE code based on research by:
 *  Rene Becker
 *  Thimo Emmerich
 */

#include "spu_common.h"

#include <spu_intrinsics.h>
#include <spu_mfcio.h>
#include <stdio.h>
#include <string.h>

// Debugging
//#define DEBUG

#ifdef DEBUG
#define deprintf(fmt, args... ) \
        fprintf( stdout, fmt, ##args ); \
        fflush( stdout );
#else
#define deprintf( fmt, args... )
#endif

void cpy_to_fb(unsigned int);

/* fb_writer_spu parms */
static volatile struct fb_writer_parms_t parms __attribute__ ((aligned(128)));

/* Code running on SPU */
int main(unsigned long long spe_id __attribute__ ((unused)), unsigned long long argp __attribute__ ((unused)))
{
        deprintf("[SPU] fb_writer_spu is up... (on SPE #%llu)\n", spe_id);
        uint32_t ea_mfc, mbox;
        // send ready message
        spu_write_out_mbox(SPU_READY);

        while (1) {
                /* Check mailbox */
                mbox = spu_read_in_mbox();
                deprintf("[SPU] Message is %u\n", mbox);
                switch (mbox) {
                        case SPU_EXIT:
                                deprintf("[SPU] fb_writer goes down...\n");
                                return 0;
                        case SPU_START:
                                break;
                        default:
                                deprintf("[SPU] Cannot handle message\n");
                                continue;
                }

                /* Tag Manager setup */
                unsigned int tags;
                tags = mfc_multi_tag_reserve(5);
                if (tags == MFC_TAG_INVALID) {
                        deprintf("[SPU] Failed to reserve mfc tags on fb_writer\n");
                        return 0;
                }

                /* Framebuffer parms */
                ea_mfc = spu_read_in_mbox();
                deprintf("[SPU] Message on fb_writer is %u\n", ea_mfc);
                spu_mfcdma32(&parms, (unsigned int)ea_mfc,
                                sizeof(struct fb_writer_parms_t), tags,
                                MFC_GET_CMD);
                deprintf("[SPU] argp = %u\n", (unsigned int)argp);
                DMA_WAIT_TAG(tags);

                /* Copy parms->data to framebuffer */
                deprintf("[SPU] Copying to framebuffer started\n");
                cpy_to_fb(tags);
                deprintf("[SPU] Copying to framebuffer done!\n");

                mfc_multi_tag_release(tags, 5);
                deprintf("[SPU] fb_writer_spu... done!\n");
                /* Send FIN msg */
                spu_write_out_mbox(SPU_FIN);
        }

        return 0;
}

void cpy_to_fb(unsigned int tag_id_base)
{
        unsigned int i;
        unsigned char current_buf;
        uint8_t *in = parms.data;

        /* Align fb pointer which was centered before */
        uint8_t *fb =
            (unsigned char *)((unsigned int)parms.center & 0xFFFFFFF0);

        uint32_t bounded_input_height = parms.bounded_input_height;
        uint32_t bounded_input_width = parms.bounded_input_width;
        uint32_t fb_pixel_size = parms.fb_pixel_size;

        uint32_t out_line_stride = parms.out_line_stride;
        uint32_t in_line_stride = parms.in_line_stride;
        uint32_t in_line_size = bounded_input_width * fb_pixel_size;

        current_buf = 0;

        /* Local store buffer */
        static volatile uint8_t buf[4][BUFFER_SIZE]
            __attribute__ ((aligned(128)));
        /* do 4-times multibuffering using DMA list, process in two steps */
        for (i = 0; i < bounded_input_height >> 2; i++) {
                /* first buffer */
                DMA_WAIT_TAG(tag_id_base + 1);
                // retrieve buffer
                spu_mfcdma32(buf[0], (unsigned int)in, in_line_size,
                             tag_id_base + 1, MFC_GETB_CMD);
                DMA_WAIT_TAG(tag_id_base + 1);
                // store buffer
                spu_mfcdma32(buf[0], (unsigned int)fb, in_line_size,
                             tag_id_base + 1, MFC_PUTB_CMD);
                in += in_line_stride;
                fb += out_line_stride;
                deprintf("[SPU] 1st buffer copied in=0x%x, fb=0x%x\n", in,
                       fb);

                /* second buffer */
                DMA_WAIT_TAG(tag_id_base + 2);
                // retrieve buffer
                spu_mfcdma32(buf[1], (unsigned int)in, in_line_size,
                             tag_id_base + 2, MFC_GETB_CMD);
                DMA_WAIT_TAG(tag_id_base + 2);
                // store buffer
                spu_mfcdma32(buf[1], (unsigned int)fb, in_line_size,
                             tag_id_base + 2, MFC_PUTB_CMD);
                in += in_line_stride;
                fb += out_line_stride;
                deprintf("[SPU] 2nd buffer copied in=0x%x, fb=0x%x\n", in,
                       fb);

                /* third buffer */
                DMA_WAIT_TAG(tag_id_base + 3);
                // retrieve buffer
                spu_mfcdma32(buf[2], (unsigned int)in, in_line_size,
                             tag_id_base + 3, MFC_GETB_CMD);
                DMA_WAIT_TAG(tag_id_base + 3);
                // store buffer
                spu_mfcdma32(buf[2], (unsigned int)fb, in_line_size,
                             tag_id_base + 3, MFC_PUTB_CMD);
                in += in_line_stride;
                fb += out_line_stride;
                deprintf("[SPU] 3rd buffer copied in=0x%x, fb=0x%x\n", in,
                       fb);

                /* fourth buffer */
                DMA_WAIT_TAG(tag_id_base + 4);
                // retrieve buffer
                spu_mfcdma32(buf[3], (unsigned int)in, in_line_size,
                             tag_id_base + 4, MFC_GETB_CMD);
                DMA_WAIT_TAG(tag_id_base + 4);
                // store buffer
                spu_mfcdma32(buf[3], (unsigned int)fb, in_line_size,
                             tag_id_base + 4, MFC_PUTB_CMD);
                in += in_line_stride;
                fb += out_line_stride;
                deprintf("[SPU] 4th buffer copied in=0x%x, fb=0x%x\n", in,
                       fb);
                deprintf("[SPU] Loop #%i, bounded_input_height=%i\n", i,
                       bounded_input_height >> 2);
        }
        DMA_WAIT_TAG(tag_id_base + 2);
        DMA_WAIT_TAG(tag_id_base + 3);
        DMA_WAIT_TAG(tag_id_base + 4);
}