cdrom: Rename "stat" to "cdr_stat"

[pcsx_rearmed.git] / libpcsxcore / psxdma.c

/***************************************************************************
 *   Copyright (C) 2007 Ryan Schultz, PCSX-df Team, PCSX team              *
 *                                                                         *
 *   This program is free software; you can redistribute it and/or modify  *
 *   it under the terms of the GNU General Public License as published by  *
 *   the Free Software Foundation; either version 2 of the License, or     *
 *   (at your option) any later version.                                   *
 *                                                                         *
 *   This program 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 General Public License for more details.                          *
 *                                                                         *
 *   You should have received a copy of the GNU General Public License     *
 *   along with this program; if not, write to the                         *
 *   Free Software Foundation, Inc.,                                       *
 *   51 Franklin Street, Fifth Floor, Boston, MA 02111-1307 USA.           *
 ***************************************************************************/

/*
* Handles PSX DMA functions.
*/

#include "psxdma.h"
#include "gpu.h"

#ifndef min
#define min(a, b) ((b) < (a) ? (b) : (a))
#endif
#ifndef PSXDMA_LOG
#define PSXDMA_LOG(...)
#endif

// Dma0/1 in Mdec.c
// Dma3   in CdRom.c

void spuInterrupt() {
        if (HW_DMA4_CHCR & SWAP32(0x01000000))
        {
                HW_DMA4_CHCR &= SWAP32(~0x01000000);
                DMA_INTERRUPT(4);
        }
}

void psxDma4(u32 madr, u32 bcr, u32 chcr) { // SPU
        u32 words, words_max = 0, words_copy;
        u16 *ptr;

        madr &= ~3;
        ptr = getDmaRam(madr, &words_max);
        if (ptr == INVALID_PTR)
                log_unhandled("bad dma4 madr %x\n", madr);

        words = words_copy = (bcr >> 16) * (bcr & 0xffff);
        if (words_copy > words_max) {
                log_unhandled("bad dma4 madr %x bcr %x\n", madr, bcr);
                words_copy = words_max;
        }

        switch (chcr) {
                case 0x01000201: //cpu to spu transfer
                        PSXDMA_LOG("*** DMA4 SPU - mem2spu *** %x addr = %x size = %x\n", chcr, madr, bcr);
                        if (ptr == INVALID_PTR)
                                break;
                        SPU_writeDMAMem(ptr, words_copy * 2, psxRegs.cycle);
                        HW_DMA4_MADR = SWAPu32(madr + words_copy * 2);
                        // This should be much slower, like 12+ cycles/byte, it's like
                        // that because the CPU runs too fast and fifo is not emulated.
                        // See also set_dma_end().
                        set_event(PSXINT_SPUDMA, words * 4 * 4);
                        return;

                case 0x01000200: //spu to cpu transfer
                        PSXDMA_LOG("*** DMA4 SPU - spu2mem *** %x addr = %x size = %x\n", chcr, madr, bcr);
                        if (ptr == INVALID_PTR)
                                break;
                        SPU_readDMAMem(ptr, words_copy * 2, psxRegs.cycle);
                        psxCpu->Clear(madr, words_copy);

                        HW_DMA4_MADR = SWAPu32(madr + words_copy * 4);
                        set_event(PSXINT_SPUDMA, words * 4 * 4);
                        return;

                default:
                        log_unhandled("*** DMA4 SPU - unknown *** %x addr = %x size = %x\n", chcr, madr, bcr);
                        break;
        }

        HW_DMA4_CHCR &= SWAP32(~0x01000000);
        DMA_INTERRUPT(4);
}

#if 0
// Taken from PEOPS SOFTGPU
static inline boolean CheckForEndlessLoop(u32 laddr, u32 *lUsedAddr) {
        if (laddr == lUsedAddr[1]) return TRUE;
        if (laddr == lUsedAddr[2]) return TRUE;

        if (laddr < lUsedAddr[0]) lUsedAddr[1] = laddr;
        else lUsedAddr[2] = laddr;

        lUsedAddr[0] = laddr;

        return FALSE;
}

static u32 gpuDmaChainSize(u32 addr) {
        u32 size;
        u32 DMACommandCounter = 0;
        u32 lUsedAddr[3];

        lUsedAddr[0] = lUsedAddr[1] = lUsedAddr[2] = 0xffffff;

        // initial linked list ptr (word)
        size = 1;

        do {
                addr &= 0x1ffffc;

                if (DMACommandCounter++ > 2000000) break;
                if (CheckForEndlessLoop(addr, lUsedAddr)) break;

                // # 32-bit blocks to transfer
                size += psxMu8( addr + 3 );

                // next 32-bit pointer
                addr = psxMu32( addr & ~0x3 ) & 0xffffff;
                size += 1;
        } while (!(addr & 0x800000)); // contrary to some documentation, the end-of-linked-list marker is not actually 0xFF'FFFF
                                  // any pointer with bit 23 set will do.

        return size;
}
#endif

void psxDma2(u32 madr, u32 bcr, u32 chcr) { // GPU
        u32 *ptr, madr_next, *madr_next_p;
        u32 words, words_left, words_max, words_copy;
        int cycles_sum, cycles_last_cmd = 0, do_walking;

        madr &= ~3;
        switch (chcr) {
                case 0x01000200: // vram2mem
                        PSXDMA_LOG("*** DMA2 GPU - vram2mem *** %lx addr = %lx size = %lx\n", chcr, madr, bcr);
                        ptr = getDmaRam(madr, &words_max);
                        if (ptr == INVALID_PTR) {
                                log_unhandled("bad dma2 madr %x\n", madr);
                                break;
                        }
                        // BA blocks * BS words (word = 32-bits)
                        words = words_copy = (bcr >> 16) * (bcr & 0xffff);
                        if (words > words_max) {
                                log_unhandled("bad dma2 madr %x bcr %x\n", madr, bcr);
                                words_copy = words_max;
                        }
                        GPU_readDataMem(ptr, words_copy);
                        psxCpu->Clear(madr, words_copy);

                        HW_DMA2_MADR = SWAPu32(madr + words_copy * 4);

                        // careful: gpu_state_change() also messes with this
                        psxRegs.gpuIdleAfter = psxRegs.cycle + words / 4 + 16;
                        // already 32-bit word size ((size * 4) / 4)
                        set_event(PSXINT_GPUDMA, words / 4);
                        return;

                case 0x01000201: // mem2vram
                        PSXDMA_LOG("*** DMA 2 - GPU mem2vram *** %lx addr = %lx size = %lx\n", chcr, madr, bcr);
                        words = words_left = (bcr >> 16) * (bcr & 0xffff);
                        while (words_left > 0) {
                                ptr = getDmaRam(madr, &words_max);
                                if (ptr == INVALID_PTR) {
                                        log_unhandled("bad2 dma madr %x\n", madr);
                                        break;
                                }
                                words_copy = min(words_left, words_max);
                                GPU_writeDataMem(ptr, words_copy);
                                words_left -= words_copy;
                                madr += words_copy * 4;
                        }

                        HW_DMA2_MADR = SWAPu32(madr);

                        // careful: gpu_state_change() also messes with this
                        psxRegs.gpuIdleAfter = psxRegs.cycle + words / 4 + 16;
                        // already 32-bit word size ((size * 4) / 4)
                        set_event(PSXINT_GPUDMA, words / 4);
                        return;

                case 0x01000401: // dma chain
                        PSXDMA_LOG("*** DMA 2 - GPU dma chain *** %lx addr = %lx size = %lx\n", chcr, madr, bcr);
                        // when not emulating walking progress, end immediately
                        madr_next = 0xffffff;

                        do_walking = Config.GpuListWalking;
                        if (do_walking < 0 || Config.hacks.gpu_timing1024)
                                do_walking = Config.hacks.gpu_slow_list_walking;
                        madr_next_p = do_walking ? &madr_next : NULL;

                        cycles_sum = GPU_dmaChain((u32 *)psxM, madr & 0x1fffff,
                                        madr_next_p, &cycles_last_cmd);

                        HW_DMA2_MADR = SWAPu32(madr_next);

                        // a hack for Judge Dredd which is annoyingly sensitive to timing
                        if (Config.hacks.gpu_timing1024)
                                cycles_sum = 1024;

                        psxRegs.gpuIdleAfter = psxRegs.cycle + cycles_sum + cycles_last_cmd;
                        set_event(PSXINT_GPUDMA, cycles_sum);
                        //printf("%u dma2cf: %6d,%4d %08x %08x %08x %08x\n", psxRegs.cycle,
                        //  cycles_sum, cycles_last_cmd, madr, bcr, chcr, HW_DMA2_MADR);
                        return;

                default:
                        log_unhandled("*** DMA 2 - GPU unknown *** %x addr = %x size = %x\n", chcr, madr, bcr);
                        break;
        }

        HW_DMA2_CHCR &= SWAP32(~0x01000000);
        DMA_INTERRUPT(2);
}

void gpuInterrupt() {
        if (HW_DMA2_CHCR == SWAP32(0x01000401) && !(HW_DMA2_MADR & SWAP32(0x800000)))
        {
                u32 madr_next = 0xffffff, madr = SWAPu32(HW_DMA2_MADR);
                int cycles_sum, cycles_last_cmd = 0;
                cycles_sum = GPU_dmaChain((u32 *)psxM, madr & 0x1fffff,
                                &madr_next, &cycles_last_cmd);
                HW_DMA2_MADR = SWAPu32(madr_next);
                if ((s32)(psxRegs.gpuIdleAfter - psxRegs.cycle) > 0)
                        cycles_sum += psxRegs.gpuIdleAfter - psxRegs.cycle;
                psxRegs.gpuIdleAfter = psxRegs.cycle + cycles_sum + cycles_last_cmd;
                set_event(PSXINT_GPUDMA, cycles_sum);
                //printf("%u dma2cn: %6d,%4d %08x\n", psxRegs.cycle, cycles_sum,
                //      cycles_last_cmd, HW_DMA2_MADR);
                return;
        }
        if (HW_DMA2_CHCR & SWAP32(0x01000000))
        {
                HW_DMA2_CHCR &= SWAP32(~0x01000000);
                DMA_INTERRUPT(2);
        }
}

void psxAbortDma2() {
        psxRegs.gpuIdleAfter = psxRegs.cycle + 32;
}

void psxDma6(u32 madr, u32 bcr, u32 chcr) {
        u32 words, words_max;
        u32 *mem;

        PSXDMA_LOG("*** DMA6 OT *** %x addr = %x size = %x\n", chcr, madr, bcr);

        if (chcr == 0x11000002) {
                madr &= ~3;
                mem = getDmaRam(madr, &words_max);
                if (mem == INVALID_PTR) {
                        log_unhandled("bad6 dma madr %x\n", madr);
                        HW_DMA6_CHCR &= SWAP32(~0x11000000);
                        DMA_INTERRUPT(6);
                        return;
                }

                // already 32-bit size
                words = bcr;

                while (bcr-- && mem > (u32 *)psxM) {
                        *mem-- = SWAP32((madr - 4) & 0xffffff);
                        madr -= 4;
                }
                *++mem = SWAP32(0xffffff);

                // halted
                psxRegs.cycle += words;
                set_event(PSXINT_GPUOTCDMA, 16);
                return;
        }
        else {
                // Unknown option
                log_unhandled("*** DMA6 OT - unknown *** %x addr = %x size = %x\n", chcr, madr, bcr);
        }

        HW_DMA6_CHCR &= SWAP32(~0x11000000);
        DMA_INTERRUPT(6);
}

void gpuotcInterrupt()
{
        if (HW_DMA6_CHCR & SWAP32(0x01000000))
        {
                HW_DMA6_CHCR &= SWAP32(~0x11000000);
                DMA_INTERRUPT(6);
        }
}