spu: try to improve timing

[pcsx_rearmed.git] / libpcsxcore / new_dynarec / pcsxmem.c

/*
 * (C) Gražvydas "notaz" Ignotas, 2010-2011
 *
 * This work is licensed under the terms of GNU GPL version 2 or later.
 * See the COPYING file in the top-level directory.
 */

#include <stdio.h>
#include "../psxhw.h"
#include "../cdrom.h"
#include "../mdec.h"
#include "../gpu.h"
#include "../psxmem_map.h"
#include "emu_if.h"
#include "pcsxmem.h"

#ifdef __thumb__
#error the dynarec is incompatible with Thumb functions,
#error please add -marm to compile flags
#endif

//#define memprintf printf
#define memprintf(...)

static uintptr_t *mem_readtab;
static uintptr_t *mem_writetab;
static uintptr_t mem_iortab[(1+2+4) * 0x1000 / 4];
static uintptr_t mem_iowtab[(1+2+4) * 0x1000 / 4];
static uintptr_t mem_ffrtab[(1+2+4) * 0x1000 / 4];
static uintptr_t mem_ffwtab[(1+2+4) * 0x1000 / 4];
//static uintptr_t mem_unmrtab[(1+2+4) * 0x1000 / 4];
static uintptr_t mem_unmwtab[(1+2+4) * 0x1000 / 4];

static
#ifdef __clang__
// When this is called in a loop, and 'h' is a function pointer, clang will crash.
__attribute__ ((noinline))
#endif
void map_item(uintptr_t *out, const void *h, uintptr_t flag)
{
        uintptr_t hv = (uintptr_t)h;
        if (hv & 1) {
                SysPrintf("FATAL: %p has LSB set\n", h);
                abort();
        }
        *out = (hv >> 1) | (flag << (sizeof(hv) * 8 - 1));
}

// size must be power of 2, at least 4k
#define map_l1_mem(tab, i, addr, size, base) \
        map_item(&tab[((u32)(addr) >> 12) + i], \
                 (u8 *)(base) - (u32)((addr) + ((i << 12) & ~(size - 1))), 0)

#define IOMEM32(a) (((a) & 0xfff) / 4)
#define IOMEM16(a) (0x1000/4 + (((a) & 0xfff) / 2))
#define IOMEM8(a)  (0x1000/4 + 0x1000/2 + ((a) & 0xfff))

u32 zero_mem[0x1000/4];
static u32 ffff_mem[0x1000/4];

static u32 read_mem_dummy(u32 addr)
{
        // use 'addr' and not 'address', yes the api is weird...
        memprintf("unmapped r %08x @%08x %u\n", addr, psxRegs.pc, psxRegs.cycle);
        return 0xffffffff;
}

static void write_mem_dummy(u32 data)
{
        if (!(psxRegs.CP0.n.SR & (1 << 16)))
                memprintf("unmapped w %08x, %08x @%08x %u\n",
                          address, data, psxRegs.pc, psxRegs.cycle);
}

/* IO handlers */
static u32 io_read_sio16()
{
        return sioRead8() | (sioRead8() << 8);
}

static u32 io_read_sio32()
{
        return sioRead8() | (sioRead8() << 8) | (sioRead8() << 16) | (sioRead8() << 24);
}

static void io_write_sio16(u32 value)
{
        sioWrite8((unsigned char)value);
        sioWrite8((unsigned char)(value>>8));
}

static void io_write_sio32(u32 value)
{
        sioWrite8((unsigned char)value);
        sioWrite8((unsigned char)(value >>  8));
        sioWrite8((unsigned char)(value >> 16));
        sioWrite8((unsigned char)(value >> 24));
}

#if !defined(DRC_DBG) && defined(__arm__)

static void map_rcnt_rcount0(u32 mode)
{
        if (mode & 0x001) { // sync mode
                map_item(&mem_iortab[IOMEM32(0x1100)], psxRcntRcount0, 1);
                map_item(&mem_iortab[IOMEM16(0x1100)], psxRcntRcount0, 1);
        }
        else if (mode & 0x100) { // pixel clock
                map_item(&mem_iortab[IOMEM32(0x1100)], rcnt0_read_count_m1, 1);
                map_item(&mem_iortab[IOMEM16(0x1100)], rcnt0_read_count_m1, 1);
        }
        else {
                map_item(&mem_iortab[IOMEM32(0x1100)], rcnt0_read_count_m0, 1);
                map_item(&mem_iortab[IOMEM16(0x1100)], rcnt0_read_count_m0, 1);
        }
}

static void map_rcnt_rcount1(u32 mode)
{
        if (mode & 0x001) { // sync mode
                map_item(&mem_iortab[IOMEM32(0x1110)], psxRcntRcount1, 1);
                map_item(&mem_iortab[IOMEM16(0x1110)], psxRcntRcount1, 1);
        }
        else if (mode & 0x100) { // hcnt
                map_item(&mem_iortab[IOMEM32(0x1110)], rcnt1_read_count_m1, 1);
                map_item(&mem_iortab[IOMEM16(0x1110)], rcnt1_read_count_m1, 1);
        }
        else {
                map_item(&mem_iortab[IOMEM32(0x1110)], rcnt1_read_count_m0, 1);
                map_item(&mem_iortab[IOMEM16(0x1110)], rcnt1_read_count_m0, 1);
        }
}

static void map_rcnt_rcount2(u32 mode)
{
        if ((mode & 7) == 1 || (mode & 7) == 7) { // sync mode
                map_item(&mem_iortab[IOMEM32(0x1120)], &psxH[0x1000], 0);
                map_item(&mem_iortab[IOMEM16(0x1120)], &psxH[0x1000], 0);
        }
        else if (mode & 0x200) { // clk/8
                map_item(&mem_iortab[IOMEM32(0x1120)], rcnt2_read_count_m1, 1);
                map_item(&mem_iortab[IOMEM16(0x1120)], rcnt2_read_count_m1, 1);
        }
        else {
                map_item(&mem_iortab[IOMEM32(0x1120)], rcnt2_read_count_m0, 1);
                map_item(&mem_iortab[IOMEM16(0x1120)], rcnt2_read_count_m0, 1);
        }
}

#else
#define map_rcnt_rcount0(mode)
#define map_rcnt_rcount1(mode)
#define map_rcnt_rcount2(mode)
#endif

#define make_rcnt_funcs(i) \
static u32 io_rcnt_read_mode##i()   { return psxRcntRmode(i); } \
static u32 io_rcnt_read_target##i() { return psxRcntRtarget(i); } \
static void io_rcnt_write_count##i(u32 val)  { psxRcntWcount(i, val & 0xffff); } \
static void io_rcnt_write_mode##i(u32 val)   { psxRcntWmode(i, val); map_rcnt_rcount##i(val); } \
static void io_rcnt_write_target##i(u32 val) { psxRcntWtarget(i, val & 0xffff); }

make_rcnt_funcs(0)
make_rcnt_funcs(1)
make_rcnt_funcs(2)

#define make_dma_func(n) \
static void io_write_chcr##n(u32 value) \
{ \
        HW_DMA##n##_CHCR = value; \
        if (value & 0x01000000 && HW_DMA_PCR & (8 << (n * 4))) { \
                psxDma##n(HW_DMA##n##_MADR, HW_DMA##n##_BCR, value); \
        } \
}

make_dma_func(0)
make_dma_func(1)
make_dma_func(2)
make_dma_func(3)
make_dma_func(4)
make_dma_func(6)

static u32 io_spu_read16(u32 addr)
{
        return SPU_readRegister(addr, psxRegs.cycle);
}

static u32 io_spu_read32(u32 addr)
{
        u32 ret;
        ret  = SPU_readRegister(addr, psxRegs.cycle);
        ret |= SPU_readRegister(addr + 2, psxRegs.cycle) << 16;
        return ret;
}

static void io_spu_write16(u32 value)
{
        // meh
        SPU_writeRegister(address, value, psxRegs.cycle);
}

static void io_spu_write32(u32 value)
{
        SPUwriteRegister wfunc = SPU_writeRegister;
        u32 a = address;

        wfunc(a, value & 0xffff, psxRegs.cycle);
        wfunc(a + 2, value >> 16, psxRegs.cycle);
}

static u32 io_gpu_read_status(void)
{
        u32 v;

        // meh2, syncing for img bit, might want to avoid it..
        gpuSyncPluginSR();
        v = HW_GPU_STATUS;

        // XXX: because of large timeslices can't use hSyncCount, using rough
        // approximization instead. Perhaps better use hcounter code here or something.
        if (hSyncCount < 240 && (HW_GPU_STATUS & PSXGPU_ILACE_BITS) != PSXGPU_ILACE_BITS)
                v |= PSXGPU_LCF & (psxRegs.cycle << 20);
        return v;
}

static void io_gpu_write_status(u32 value)
{
        GPU_writeStatus(value);
        gpuSyncPluginSR();
}

void new_dyna_pcsx_mem_isolate(int enable)
{
        int i;

        // note: apparently 0xa0000000 uncached access still works,
        // at least read does for sure, so assume write does too
        memprintf("mem isolate %d\n", enable);
        if (enable) {
                for (i = 0; i < (0x800000 >> 12); i++) {
                        map_item(&mem_writetab[0x80000|i], mem_unmwtab, 1);
                        map_item(&mem_writetab[0x00000|i], mem_unmwtab, 1);
                        //map_item(&mem_writetab[0xa0000|i], mem_unmwtab, 1);
                }
        }
        else {
                for (i = 0; i < (0x800000 >> 12); i++) {
                        map_l1_mem(mem_writetab, i, 0x80000000, 0x200000, psxM);
                        map_l1_mem(mem_writetab, i, 0x00000000, 0x200000, psxM);
                        map_l1_mem(mem_writetab, i, 0xa0000000, 0x200000, psxM);
                }
        }
}

static u32 read_biu(u32 addr)
{
        if (addr != 0xfffe0130)
                return read_mem_dummy(addr);

        memprintf("read_biu  %08x @%08x %u\n",
                psxRegs.biuReg, psxRegs.pc, psxRegs.cycle);
        return psxRegs.biuReg;
}

static void write_biu(u32 value)
{
        if (address != 0xfffe0130) {
                write_mem_dummy(value);
                return;
        }

        memprintf("write_biu %08x @%08x %u\n", value, psxRegs.pc, psxRegs.cycle);
        psxRegs.biuReg = value;
}

void new_dyna_pcsx_mem_load_state(void)
{
        map_rcnt_rcount0(rcnts[0].mode);
        map_rcnt_rcount1(rcnts[1].mode);
        map_rcnt_rcount2(rcnts[2].mode);
}

int pcsxmem_is_handler_dynamic(unsigned int addr)
{
        if ((addr & 0xfffff000) != 0x1f801000)
                return 0;

        addr &= 0xffff;
        return addr == 0x1100 || addr == 0x1110 || addr == 0x1120;
}

void new_dyna_pcsx_mem_init(void)
{
        int i;

        memset(ffff_mem, 0xff, sizeof(ffff_mem));

        // have to map these further to keep tcache close to .text
        mem_readtab = psxMap(0x08000000, 0x200000 * sizeof(mem_readtab[0]), 0, MAP_TAG_LUTS);
        if (mem_readtab == NULL) {
                SysPrintf("failed to map mem tables\n");
                exit(1);
        }
        mem_writetab = mem_readtab + 0x100000;

        // 1st level lookup:
        //   0: direct mem
        //   1: use 2nd lookup
        // 2nd level lookup:
        //   0: direct mem variable
        //   1: memhandler

        // default/unmapped memhandlers
        for (i = 0; i < 0x100000; i++) {
                //map_item(&mem_readtab[i], mem_unmrtab, 1);
                map_l1_mem(mem_readtab, i, 0, 0x1000, ffff_mem);
                map_item(&mem_writetab[i], mem_unmwtab, 1);
        }

        // RAM and it's mirrors
        for (i = 0; i < (0x800000 >> 12); i++) {
                map_l1_mem(mem_readtab,  i, 0x80000000, 0x200000, psxM);
                map_l1_mem(mem_readtab,  i, 0x00000000, 0x200000, psxM);
                map_l1_mem(mem_readtab,  i, 0xa0000000, 0x200000, psxM);
        }
        new_dyna_pcsx_mem_isolate(0);

        // BIOS and it's mirrors
        for (i = 0; i < (0x80000 >> 12); i++) {
                map_l1_mem(mem_readtab, i, 0x1fc00000, 0x80000, psxR);
                map_l1_mem(mem_readtab, i, 0xbfc00000, 0x80000, psxR);
        }

        // scratchpad
        map_l1_mem(mem_readtab, 0, 0x1f800000, 0x1000, psxH);
        map_l1_mem(mem_readtab, 0, 0x9f800000, 0x1000, psxH);
        map_l1_mem(mem_writetab, 0, 0x1f800000, 0x1000, psxH);
        map_l1_mem(mem_writetab, 0, 0x9f800000, 0x1000, psxH);

        // I/O
        map_item(&mem_readtab[0x1f801000u >> 12], mem_iortab, 1);
        map_item(&mem_readtab[0x9f801000u >> 12], mem_iortab, 1);
        map_item(&mem_readtab[0xbf801000u >> 12], mem_iortab, 1);
        map_item(&mem_writetab[0x1f801000u >> 12], mem_iowtab, 1);
        map_item(&mem_writetab[0x9f801000u >> 12], mem_iowtab, 1);
        map_item(&mem_writetab[0xbf801000u >> 12], mem_iowtab, 1);

        // L2
        // unmapped tables
        for (i = 0; i < (1+2+4) * 0x1000 / 4; i++)
                map_item(&mem_unmwtab[i], write_mem_dummy, 1);

        // fill IO tables
        for (i = 0; i < 0x1000/4; i++) {
                map_item(&mem_iortab[i], &psxH[0x1000], 0);
                map_item(&mem_iowtab[i], &psxH[0x1000], 0);
        }
        for (; i < 0x1000/4 + 0x1000/2; i++) {
                map_item(&mem_iortab[i], &psxH[0x1000], 0);
                map_item(&mem_iowtab[i], &psxH[0x1000], 0);
        }
        for (; i < 0x1000/4 + 0x1000/2 + 0x1000; i++) {
                map_item(&mem_iortab[i], &psxH[0x1000], 0);
                map_item(&mem_iowtab[i], &psxH[0x1000], 0);
        }

        map_item(&mem_iortab[IOMEM32(0x1040)], io_read_sio32, 1);
        map_item(&mem_iortab[IOMEM32(0x1100)], psxRcntRcount0, 1);
        map_item(&mem_iortab[IOMEM32(0x1104)], io_rcnt_read_mode0, 1);
        map_item(&mem_iortab[IOMEM32(0x1108)], io_rcnt_read_target0, 1);
        map_item(&mem_iortab[IOMEM32(0x1110)], psxRcntRcount1, 1);
        map_item(&mem_iortab[IOMEM32(0x1114)], io_rcnt_read_mode1, 1);
        map_item(&mem_iortab[IOMEM32(0x1118)], io_rcnt_read_target1, 1);
        map_item(&mem_iortab[IOMEM32(0x1120)], psxRcntRcount2, 1);
        map_item(&mem_iortab[IOMEM32(0x1124)], io_rcnt_read_mode2, 1);
        map_item(&mem_iortab[IOMEM32(0x1128)], io_rcnt_read_target2, 1);
//      map_item(&mem_iortab[IOMEM32(0x1810)], GPU_readData, 1);
        map_item(&mem_iortab[IOMEM32(0x1814)], io_gpu_read_status, 1);
        map_item(&mem_iortab[IOMEM32(0x1820)], mdecRead0, 1);
        map_item(&mem_iortab[IOMEM32(0x1824)], mdecRead1, 1);

        map_item(&mem_iortab[IOMEM16(0x1040)], io_read_sio16, 1);
        map_item(&mem_iortab[IOMEM16(0x1044)], sioReadStat16, 1);
        map_item(&mem_iortab[IOMEM16(0x1048)], sioReadMode16, 1);
        map_item(&mem_iortab[IOMEM16(0x104a)], sioReadCtrl16, 1);
        map_item(&mem_iortab[IOMEM16(0x104e)], sioReadBaud16, 1);
        map_item(&mem_iortab[IOMEM16(0x1100)], psxRcntRcount0, 1);
        map_item(&mem_iortab[IOMEM16(0x1104)], io_rcnt_read_mode0, 1);
        map_item(&mem_iortab[IOMEM16(0x1108)], io_rcnt_read_target0, 1);
        map_item(&mem_iortab[IOMEM16(0x1110)], psxRcntRcount1, 1);
        map_item(&mem_iortab[IOMEM16(0x1114)], io_rcnt_read_mode1, 1);
        map_item(&mem_iortab[IOMEM16(0x1118)], io_rcnt_read_target1, 1);
        map_item(&mem_iortab[IOMEM16(0x1120)], psxRcntRcount2, 1);
        map_item(&mem_iortab[IOMEM16(0x1124)], io_rcnt_read_mode2, 1);
        map_item(&mem_iortab[IOMEM16(0x1128)], io_rcnt_read_target2, 1);

        map_item(&mem_iortab[IOMEM8(0x1040)], sioRead8, 1);
        map_item(&mem_iortab[IOMEM8(0x1800)], cdrRead0, 1);
        map_item(&mem_iortab[IOMEM8(0x1801)], cdrRead1, 1);
        map_item(&mem_iortab[IOMEM8(0x1802)], cdrRead2, 1);
        map_item(&mem_iortab[IOMEM8(0x1803)], cdrRead3, 1);

        for (i = 0x1c00; i < 0x2000; i += 2) {
                map_item(&mem_iortab[IOMEM16(i)], io_spu_read16, 1);
                map_item(&mem_iortab[IOMEM32(i)], io_spu_read32, 1);
        }

        // write(u32 data)
        map_item(&mem_iowtab[IOMEM32(0x1040)], io_write_sio32, 1);
        map_item(&mem_iowtab[IOMEM32(0x1070)], psxHwWriteIstat, 1);
        map_item(&mem_iowtab[IOMEM32(0x1074)], psxHwWriteImask, 1);
        map_item(&mem_iowtab[IOMEM32(0x1088)], io_write_chcr0, 1);
        map_item(&mem_iowtab[IOMEM32(0x1098)], io_write_chcr1, 1);
        map_item(&mem_iowtab[IOMEM32(0x10a8)], io_write_chcr2, 1);
        map_item(&mem_iowtab[IOMEM32(0x10b8)], io_write_chcr3, 1);
        map_item(&mem_iowtab[IOMEM32(0x10c8)], io_write_chcr4, 1);
        map_item(&mem_iowtab[IOMEM32(0x10e8)], io_write_chcr6, 1);
        map_item(&mem_iowtab[IOMEM32(0x10f4)], psxHwWriteDmaIcr32, 1);
        map_item(&mem_iowtab[IOMEM32(0x1100)], io_rcnt_write_count0, 1);
        map_item(&mem_iowtab[IOMEM32(0x1104)], io_rcnt_write_mode0, 1);
        map_item(&mem_iowtab[IOMEM32(0x1108)], io_rcnt_write_target0, 1);
        map_item(&mem_iowtab[IOMEM32(0x1110)], io_rcnt_write_count1, 1);
        map_item(&mem_iowtab[IOMEM32(0x1114)], io_rcnt_write_mode1, 1);
        map_item(&mem_iowtab[IOMEM32(0x1118)], io_rcnt_write_target1, 1);
        map_item(&mem_iowtab[IOMEM32(0x1120)], io_rcnt_write_count2, 1);
        map_item(&mem_iowtab[IOMEM32(0x1124)], io_rcnt_write_mode2, 1);
        map_item(&mem_iowtab[IOMEM32(0x1128)], io_rcnt_write_target2, 1);
//      map_item(&mem_iowtab[IOMEM32(0x1810)], GPU_writeData, 1);
        map_item(&mem_iowtab[IOMEM32(0x1814)], io_gpu_write_status, 1);
        map_item(&mem_iowtab[IOMEM32(0x1820)], mdecWrite0, 1);
        map_item(&mem_iowtab[IOMEM32(0x1824)], mdecWrite1, 1);

        map_item(&mem_iowtab[IOMEM16(0x1040)], io_write_sio16, 1);
        map_item(&mem_iowtab[IOMEM16(0x1044)], sioWriteStat16, 1);
        map_item(&mem_iowtab[IOMEM16(0x1048)], sioWriteMode16, 1);
        map_item(&mem_iowtab[IOMEM16(0x104a)], sioWriteCtrl16, 1);
        map_item(&mem_iowtab[IOMEM16(0x104e)], sioWriteBaud16, 1);
        map_item(&mem_iowtab[IOMEM16(0x1070)], psxHwWriteIstat, 1);
        map_item(&mem_iowtab[IOMEM16(0x1074)], psxHwWriteImask, 1);
        map_item(&mem_iowtab[IOMEM16(0x1100)], io_rcnt_write_count0, 1);
        map_item(&mem_iowtab[IOMEM16(0x1104)], io_rcnt_write_mode0, 1);
        map_item(&mem_iowtab[IOMEM16(0x1108)], io_rcnt_write_target0, 1);
        map_item(&mem_iowtab[IOMEM16(0x1110)], io_rcnt_write_count1, 1);
        map_item(&mem_iowtab[IOMEM16(0x1114)], io_rcnt_write_mode1, 1);
        map_item(&mem_iowtab[IOMEM16(0x1118)], io_rcnt_write_target1, 1);
        map_item(&mem_iowtab[IOMEM16(0x1120)], io_rcnt_write_count2, 1);
        map_item(&mem_iowtab[IOMEM16(0x1124)], io_rcnt_write_mode2, 1);
        map_item(&mem_iowtab[IOMEM16(0x1128)], io_rcnt_write_target2, 1);

        map_item(&mem_iowtab[IOMEM8(0x1040)], sioWrite8, 1);
        map_item(&mem_iowtab[IOMEM8(0x1800)], cdrWrite0, 1);
        map_item(&mem_iowtab[IOMEM8(0x1801)], cdrWrite1, 1);
        map_item(&mem_iowtab[IOMEM8(0x1802)], cdrWrite2, 1);
        map_item(&mem_iowtab[IOMEM8(0x1803)], cdrWrite3, 1);

        for (i = 0x1c00; i < 0x2000; i += 2) {
                map_item(&mem_iowtab[IOMEM16(i)], io_spu_write16, 1);
                map_item(&mem_iowtab[IOMEM32(i)], io_spu_write32, 1);
        }

        // misc
        map_item(&mem_readtab[0xfffe0130u >> 12], mem_ffrtab, 1);
        map_item(&mem_writetab[0xfffe0130u >> 12], mem_ffwtab, 1);
        for (i = 0; i < 0x1000/4 + 0x1000/2 + 0x1000; i++) {
                map_item(&mem_ffrtab[i], read_biu, 1);
                map_item(&mem_ffwtab[i], write_biu, 1);
        }

        mem_rtab = mem_readtab;
        mem_wtab = mem_writetab;

        new_dyna_pcsx_mem_load_state();
}

void new_dyna_pcsx_mem_reset(void)
{
        // plugins might change so update the pointers
        map_item(&mem_iortab[IOMEM32(0x1810)], GPU_readData, 1);
        map_item(&mem_iowtab[IOMEM32(0x1810)], GPU_writeData, 1);
}

void new_dyna_pcsx_mem_shutdown(void)
{
        psxUnmap(mem_readtab, 0x200000 * sizeof(mem_readtab[0]), MAP_TAG_LUTS);
        mem_writetab = mem_readtab = NULL;
}