travis: add dependencies

[pcsx_rearmed.git] / frontend / plat_pollux.c

/*
 * (C) Gražvydas "notaz" Ignotas, 2009-2012
 *
 * This work is licensed under the terms of the GNU GPLv2 or later.
 * See the COPYING file in the top-level directory.
 *
 * GPH claims:
 *  Main Memory  : Wiz = 0       ~ 2A00000,      Caanoo = 0       ~ 5600000 (86M)
 *  Frame Buffer : Wiz = 2A00000 ~ 2E00000 (4M), Caanoo = 5600000 ~ 5700000 (1M)
 *  Sound Buffer : Wiz = 2E00000 ~ 3000000 (2M), Caanoo = 5700000 ~ 5800000 (1M)
 *  YUV Buffer   :                               Caanoo = 5800000 ~ 6000000 (8M)
 *  3D Buffer    : Wiz = 3000000 ~ 4000000 (16M),Caanoo = 6000000 ~ 8000000 (32M)
 *
 * Caanoo dram column (or row?) is 1024 bytes?
 *
 * pollux display array:
 * 27:24 |  23:18  |  17:11  |  10:6  |  5:0
 *  seg  | y[11:5] | x[11:6] | y[4:0] | x[5:0]
 *       |  blk_index[12:0]  |   block[10:0]
 */

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <sys/ioctl.h>
#include <unistd.h>
#include <linux/fb.h>
#include <sys/mman.h>
#include <linux/soundcard.h>
#include <linux/input.h>

#include "libpicofe/plat.h"
#include "libpicofe/input.h"
#include "libpicofe/gp2x/in_gp2x.h"
#include "libpicofe/gp2x/soc_pollux.h"
#include "libpicofe/linux/in_evdev.h"
#include "libpicofe/menu.h"
#include "warm/warm.h"
#include "plugin_lib.h"
#include "pl_gun_ts.h"
#include "blit320.h"
#include "in_tsbutton.h"
#include "main.h"
#include "menu.h"
#include "plat.h"
#include "cspace.h"
#include "../libpcsxcore/psxmem_map.h"


static int fbdev = -1;
static void *fb_vaddrs[2];
static unsigned int fb_paddrs[2];
static int fb_work_buf;
static int have_warm;
#define FB_VRAM_SIZE (320*240*2*2*2) // 2 buffers with space for 24bpp mode
static unsigned int uppermem_pbase, vram_pbase;

static unsigned short *psx_vram;
static int psx_step, psx_width, psx_height, psx_bpp;
static int psx_offset_x, psx_offset_y, psx_src_width, psx_src_height;
static int fb_offset_x, fb_offset_y;

static void caanoo_init(void);
static void wiz_init(void);


static const struct in_default_bind in_evdev_defbinds[] = {
        { KEY_UP,       IN_BINDTYPE_PLAYER12, DKEY_UP },
        { KEY_DOWN,     IN_BINDTYPE_PLAYER12, DKEY_DOWN },
        { KEY_LEFT,     IN_BINDTYPE_PLAYER12, DKEY_LEFT },
        { KEY_RIGHT,    IN_BINDTYPE_PLAYER12, DKEY_RIGHT },
        { BTN_TOP,      IN_BINDTYPE_PLAYER12, DKEY_TRIANGLE },
        { BTN_THUMB,    IN_BINDTYPE_PLAYER12, DKEY_CROSS },
        { BTN_THUMB2,   IN_BINDTYPE_PLAYER12, DKEY_CIRCLE },
        { BTN_TRIGGER,  IN_BINDTYPE_PLAYER12, DKEY_SQUARE },
        { BTN_BASE3,    IN_BINDTYPE_PLAYER12, DKEY_START },
        { BTN_BASE4,    IN_BINDTYPE_PLAYER12, DKEY_SELECT },
        { BTN_TOP2,     IN_BINDTYPE_PLAYER12, DKEY_L1 },
        { BTN_PINKIE,   IN_BINDTYPE_PLAYER12, DKEY_R1 },
        { BTN_BASE,     IN_BINDTYPE_EMU, SACTION_ENTER_MENU },
        { 0, 0, 0 },
};

static const struct menu_keymap key_pbtn_map[] =
{
        { KEY_UP,       PBTN_UP },
        { KEY_DOWN,     PBTN_DOWN },
        { KEY_LEFT,     PBTN_LEFT },
        { KEY_RIGHT,    PBTN_RIGHT },
        /* Caanoo */
        { BTN_THUMB2,   PBTN_MOK },
        { BTN_THUMB,    PBTN_MBACK },
        { BTN_TRIGGER,  PBTN_MA2 },
        { BTN_TOP,      PBTN_MA3 },
        { BTN_BASE,     PBTN_MENU },
        { BTN_TOP2,     PBTN_L },
        { BTN_PINKIE,   PBTN_R },
        /* "normal" keyboards */
        { KEY_ENTER,    PBTN_MOK },
        { KEY_ESC,      PBTN_MBACK },
        { KEY_SEMICOLON,  PBTN_MA2 },
        { KEY_APOSTROPHE, PBTN_MA3 },
        { KEY_BACKSLASH,  PBTN_MENU },
        { KEY_LEFTBRACE,  PBTN_L },
        { KEY_RIGHTBRACE, PBTN_R },
};

static const struct in_pdata gp2x_evdev_pdata = {
        .defbinds = in_evdev_defbinds,
        .key_map = key_pbtn_map,
        .kmap_size = sizeof(key_pbtn_map) / sizeof(key_pbtn_map[0]),
};

static void *fb_flip(void)
{
        memregl[0x406C>>2] = memregl[0x446C>>2] = fb_paddrs[fb_work_buf];
        memregl[0x4058>>2] |= 0x10;
        memregl[0x4458>>2] |= 0x10;
        fb_work_buf ^= 1;
        return fb_vaddrs[fb_work_buf];
}

static void pollux_changemode(int bpp, int is_bgr)
{
        int code = 0, bytes = 2;
        unsigned int r;

        printf("changemode: %dbpp %s\n", bpp, is_bgr ? "bgr" : "rgb");

        memregl[0x4004>>2] = 0x00ef013f;
        memregl[0x4000>>2] |= 1 << 3;

        switch (bpp)
        {
                case 8:
                        code = 0x443a;
                        bytes = 1;
                        break;
                case 16:
                        code = is_bgr ? 0xc342 : 0x4432;
                        bytes = 2;
                        break;
                case 24:
                        code = is_bgr ? 0xc653 : 0x4653;
                        bytes = 3;
                        break;
                default:
                        printf("unhandled bpp request: %d\n", bpp);
                        return;
        }

        // program both MLCs so that TV-out works
        memregl[0x405c>>2] = memregl[0x445c>>2] = bytes;
        memregl[0x4060>>2] = memregl[0x4460>>2] = 320 * bytes;

        r = memregl[0x4058>>2];
        r = (r & 0xffff) | (code << 16) | 0x10;
        memregl[0x4058>>2] = r;

        r = memregl[0x4458>>2];
        r = (r & 0xffff) | (code << 16) | 0x10;
        memregl[0x4458>>2] = r;
}

static int cpu_clock_wrapper(int mhz)
{
        // stupid pll share hack - must restart audio
        int pollux_cpu_clock_set(int cpu_clock);
        extern long SPUopen(void);
        extern long SPUclose(void);

        pollux_cpu_clock_set(mhz);
        SPUclose();
        SPUopen();

        return 0;
}

#define TIMER_BASE3 0x1980
#define TIMER_REG(x) memregl[(TIMER_BASE3 + x) >> 2]

static __attribute__((unused)) unsigned int timer_get(void)
{
        TIMER_REG(0x08) |= 0x48;  /* run timer, latch value */
        return TIMER_REG(0);
}

void plat_video_menu_enter(int is_rom_loaded)
{
        if (pl_vout_buf != NULL) {
                if (psx_bpp == 16)
                        // have to do rgb conversion for menu bg
                        bgr555_to_rgb565(pl_vout_buf, pl_vout_buf, 320*240*2);
                else
                        memset(pl_vout_buf, 0, 320*240*2);
        }

        pollux_changemode(16, 0);
}

void plat_video_menu_begin(void)
{
}

void plat_video_menu_end(void)
{
        g_menuscreen_ptr = fb_flip();
}

void plat_video_menu_leave(void)
{
        if (psx_vram == NULL) {
                fprintf(stderr, "GPU plugin did not provide vram\n");
                exit(1);
        }

        if (gp2x_dev_id == GP2X_DEV_CAANOO)
                in_set_config_int(in_name_to_id("evdev:pollux-analog"),
                        IN_CFG_ABS_DEAD_ZONE, analog_deadzone);

        memset(g_menuscreen_ptr, 0, 320*240 * psx_bpp/8);
        g_menuscreen_ptr = fb_flip();
        memset(g_menuscreen_ptr, 0, 320*240 * psx_bpp/8);
}

void *plat_prepare_screenshot(int *w, int *h, int *bpp)
{
        bgr555_to_rgb565(pl_vout_buf, pl_vout_buf, 320*240*2);
        *w = 320;
        *h = 240;
        *bpp = psx_bpp;
        return pl_vout_buf;
}

void plat_minimize(void)
{
}

static void spend_cycles(int loops)
{
        asm volatile (
                "   mov  r0,%0    ;\n"
                "0: subs r0,r0,#1 ;\n"
                "   bgt  0b"
                :: "r" (loops) : "cc", "r0");
}

#define DMA_BASE6 0x0300
#define DMA_REG(x) memregl[(DMA_BASE6 + x) >> 2]

/* this takes ~1.5ms, while ldm/stm ~1.95ms */
static void raw_blit_dma(int doffs, const void *vram, int w, int h,
                         int sstride, int bgr24)
{
        unsigned int pixel_offset = (unsigned short *)vram - psx_vram;
        unsigned int dst = fb_paddrs[fb_work_buf] +
                        (fb_offset_y * 320 + fb_offset_x) * psx_bpp / 8;
        int spsx_line = pixel_offset / 1024 + psx_offset_y;
        int spsx_offset = (pixel_offset + psx_offset_x) & 0x3f8;
        unsigned int vram_byte_pos, vram_byte_step;
        int dst_stride = 320 * psx_bpp / 8;
        int len = psx_src_width * psx_bpp / 8;
        int i;

        //warm_cache_op_all(WOP_D_CLEAN);

        dst &= ~7;
        len &= ~7;

        if (DMA_REG(0x0c) & 0x90000) {
                printf("already runnig DMA?\n");
                DMA_REG(0x0c) = 0x100000;
        }
        if ((DMA_REG(0x2c) & 0x0f) < 5) {
                printf("DMA queue busy?\n");
                DMA_REG(0x24) = 1;
        }

        vram_byte_pos = vram_pbase;
        vram_byte_pos += (spsx_line & 511) * 2 * 1024 + spsx_offset * 2;
        vram_byte_step = psx_step * 2 * 1024;

        for (i = psx_src_height; i > 0;
             i--, vram_byte_pos += vram_byte_step, dst += dst_stride)
        {
                while ((DMA_REG(0x2c) & 0x0f) < 4)
                        spend_cycles(10);

                // XXX: it seems we must always set all regs, what is autoincrement there for?
                DMA_REG(0x20) = 1;              // queue wait cmd
                DMA_REG(0x10) = vram_byte_pos;  // DMA src
                DMA_REG(0x14) = dst;            // DMA dst
                DMA_REG(0x18) = len - 1;        // len
                DMA_REG(0x1c) = 0x80000;        // go
        }
}

#define make_flip_func(name, blitfunc)                                                  \
static void name(int doffs, const void *vram_, int w, int h, int sstride, int bgr24)    \
{                                                                                       \
        const unsigned short *vram = vram_;                                             \
        unsigned char *dst = (unsigned char *)g_menuscreen_ptr +                        \
                        (fb_offset_y * 320 + fb_offset_x) * psx_bpp / 8;                \
        int dst_stride = 320 * psx_bpp / 8;                                             \
        int len = psx_src_width * psx_bpp / 8;                                          \
        int i;                                                                          \
                                                                                        \
        vram += psx_offset_y * 1024 + psx_offset_x;                                     \
        for (i = psx_src_height; i > 0; i--, vram += psx_step * 1024, dst += dst_stride)\
                blitfunc(dst, vram, len);                                               \
}

make_flip_func(raw_blit_soft, memcpy)
make_flip_func(raw_blit_soft_368, blit320_368)
make_flip_func(raw_blit_soft_512, blit320_512)
make_flip_func(raw_blit_soft_640, blit320_640)

void *plat_gvideo_set_mode(int *w_, int *h_, int *bpp_)
{
        int poff_w, poff_h, w_max;
        int w = *w_, h = *h_, bpp = *bpp_;

        if (!w || !h || !bpp)
                return NULL;

        printf("psx mode: %dx%d@%d\n", w, h, bpp);
        psx_width = w;
        psx_height = h;
        psx_bpp = bpp;

        switch (w + (bpp != 16) + !soft_scaling) {
        case 640:
                pl_plat_blit = raw_blit_soft_640;
                w_max = 640;
                break;
        case 512:
                pl_plat_blit = raw_blit_soft_512;
                w_max = 512;
                break;
        case 384:
        case 368:
                pl_plat_blit = raw_blit_soft_368;
                w_max = 368;
                break;
        default:
                pl_plat_blit = have_warm ? raw_blit_dma : raw_blit_soft;
                w_max = 320;
                break;
        }

        psx_step = 1;
        if (h > 256) {
                psx_step = 2;
                h /= 2;
        }

        poff_w = poff_h = 0;
        if (w > w_max) {
                poff_w = w / 2 - w_max / 2;
                w = w_max;
        }
        fb_offset_x = 0;
        if (w < 320)
                fb_offset_x = 320/2 - w / 2;
        if (h > 240) {
                poff_h = h / 2 - 240/2;
                h = 240;
        }
        fb_offset_y = 240/2 - h / 2;

        psx_offset_x = poff_w * psx_bpp/8 / 2;
        psx_offset_y = poff_h;
        psx_src_width = w;
        psx_src_height = h;

        if (fb_offset_x || fb_offset_y) {
                // not fullscreen, must clear borders
                memset(g_menuscreen_ptr, 0, 320*240 * psx_bpp/8);
                g_menuscreen_ptr = fb_flip();
                memset(g_menuscreen_ptr, 0, 320*240 * psx_bpp/8);
        }

        pollux_changemode(bpp, 1);

        pl_set_gun_rect(fb_offset_x, fb_offset_y, w > 320 ? 320 : w, h);

        // adjust for hud
        *w_ = 320;
        *h_ = fb_offset_y + psx_src_height;

        return g_menuscreen_ptr;
}

/* not really used, we do raw_flip */
void plat_gvideo_open(int is_pal)
{
}

void *plat_gvideo_flip(void)
{
        g_menuscreen_ptr = fb_flip();
        return g_menuscreen_ptr;
}

void plat_gvideo_close(void)
{
}

static void *pl_emu_mmap(unsigned long addr, size_t size, int is_fixed,
        enum psxMapTag tag)
{
        unsigned int pbase;
        void *retval;
        int ret;

        if (!have_warm)
                goto basic_map;

        switch (tag) {
        case MAP_TAG_RAM:
                if (size > 0x400000) {
                        fprintf(stderr, "unexpected ram map request: %08lx %x\n",
                                addr, size);
                        exit(1);
                }
                pbase = (uppermem_pbase + 0xffffff) & ~0xffffff;
                pbase += 0x400000;
                retval = (void *)addr;
                ret = warm_mmap_section(retval, pbase, size, WCB_C_BIT);
                if (ret != 0) {
                        fprintf(stderr, "ram section map failed\n");
                        exit(1);
                }
                goto out;
        case MAP_TAG_VRAM:
                if (size > 0x400000) {
                        fprintf(stderr, "unexpected vram map request: %08lx %x\n",
                                addr, size);
                        exit(1);
                }
                if (addr == 0)
                        addr = 0x60000000;
                vram_pbase = (uppermem_pbase + 0xffffff) & ~0xffffff;
                retval = (void *)addr;

                ret = warm_mmap_section(retval, vram_pbase, size, WCB_C_BIT);
                if (ret != 0) {
                        fprintf(stderr, "vram section map failed\n");
                        exit(1);
                }
                goto out;
        case MAP_TAG_LUTS:
                // mostly for Wiz to not run out of RAM
                if (size > 0x800000) {
                        fprintf(stderr, "unexpected LUT map request: %08lx %x\n",
                                addr, size);
                        exit(1);
                }
                pbase = (uppermem_pbase + 0xffffff) & ~0xffffff;
                pbase += 0x800000;
                retval = (void *)addr;
                ret = warm_mmap_section(retval, pbase, size, WCB_C_BIT);
                if (ret != 0) {
                        fprintf(stderr, "LUT section map failed\n");
                        exit(1);
                }
                goto out;
        default:
                break;
        }

basic_map:
        retval = plat_mmap(addr, size, 0, is_fixed);

out:
        if (tag == MAP_TAG_VRAM)
                psx_vram = retval;
        return retval;
}

static void pl_emu_munmap(void *ptr, size_t size, enum psxMapTag tag)
{
        switch (tag) {
        case MAP_TAG_RAM:
        case MAP_TAG_VRAM:
        case MAP_TAG_LUTS:
                warm_munmap_section(ptr, size);
                break;
        default:
                plat_munmap(ptr, size);
                break;
        }
}

void plat_init(void)
{
        const char *main_fb_name = "/dev/fb0";
        struct fb_fix_screeninfo fbfix;
        int ret;

        plat_target_init();

        fbdev = open(main_fb_name, O_RDWR);
        if (fbdev == -1) {
                fprintf(stderr, "%s: ", main_fb_name);
                perror("open");
                exit(1);
        }

        ret = ioctl(fbdev, FBIOGET_FSCREENINFO, &fbfix);
        if (ret == -1) {
                perror("ioctl(fbdev) failed");
                exit(1);
        }
        uppermem_pbase = fbfix.smem_start;

        printf("framebuffer: \"%s\" @ %08lx\n", fbfix.id, fbfix.smem_start);
        fb_paddrs[0] = fbfix.smem_start;
        fb_paddrs[1] = fb_paddrs[0] + 320*240*4; // leave space for 24bpp

        ret = warm_init();
        have_warm = (ret == 0);

        if (have_warm) {
                // map fb as write-through cached section
                fb_vaddrs[0] = (void *)0x7fe00000;
                ret = warm_mmap_section(fb_vaddrs[0], fb_paddrs[0],
                        FB_VRAM_SIZE, WCB_C_BIT);
                if (ret != 0) {
                        fprintf(stderr, "fb section map failed\n");
                        fb_vaddrs[0] = NULL;

                        // we could continue but it would just get messy
                        exit(1);
                }
        }
        if (fb_vaddrs[0] == NULL) {
                fb_vaddrs[0] = mmap(0, FB_VRAM_SIZE, PROT_READ|PROT_WRITE,
                                MAP_SHARED, memdev, fb_paddrs[0]);
                if (fb_vaddrs[0] == MAP_FAILED) {
                        perror("mmap(fb_vaddrs) failed");
                        exit(1);
                }

                memset(fb_vaddrs[0], 0, FB_VRAM_SIZE);
                warm_change_cb_range(WCB_C_BIT, 1, fb_vaddrs[0], FB_VRAM_SIZE);
        }
        printf("  mapped @%p\n", fb_vaddrs[0]);

        fb_vaddrs[1] = (char *)fb_vaddrs[0] + 320*240*4;

        memset(fb_vaddrs[0], 0, FB_VRAM_SIZE);

        pollux_changemode(16, 0);
        g_menuscreen_w = 320;
        g_menuscreen_h = 240;
        g_menuscreen_ptr = fb_flip();

        /* setup DMA */
        DMA_REG(0x0c) = 0x20000; // pending IRQ clear

        in_tsbutton_init();
        in_evdev_init(&gp2x_evdev_pdata);
        if (gp2x_dev_id == GP2X_DEV_CAANOO)
                caanoo_init();
        else
                wiz_init();

        pl_plat_blit = have_warm ? raw_blit_dma : raw_blit_soft;

        psx_src_width = 320;
        psx_src_height = 240;
        psx_bpp = 16;

        pl_rearmed_cbs.screen_w = 320;
        pl_rearmed_cbs.screen_h = 240;

        plat_target_setup_input();

        plat_target.cpu_clock_set = cpu_clock_wrapper;

        psxMapHook = pl_emu_mmap;
        psxUnmapHook = pl_emu_munmap;
}

void plat_finish(void)
{
        warm_finish();
        memset(fb_vaddrs[0], 0, FB_VRAM_SIZE);
        munmap(fb_vaddrs[0], FB_VRAM_SIZE);
        close(fbdev);
        plat_target_finish();
}

/* Caanoo stuff, perhaps move later */
static const char * const caanoo_keys[KEY_MAX + 1] = {
        [0 ... KEY_MAX] = NULL,
        [KEY_UP]        = "Up",
        [KEY_LEFT]      = "Left",
        [KEY_RIGHT]     = "Right",
        [KEY_DOWN]      = "Down",
        [BTN_TRIGGER]   = "A",
        [BTN_THUMB]     = "X",
        [BTN_THUMB2]    = "B",
        [BTN_TOP]       = "Y",
        [BTN_TOP2]      = "L",
        [BTN_PINKIE]    = "R",
        [BTN_BASE]      = "Home",
        [BTN_BASE2]     = "Lock",
        [BTN_BASE3]     = "I",
        [BTN_BASE4]     = "II",
        [BTN_BASE5]     = "Push",
};

struct haptic_data {
        int count;
        struct {
                short time, strength;
        } actions[120];
};

#define HAPTIC_IOCTL_MAGIC      'I'
#define HAPTIC_PLAY_PATTERN     _IOW(HAPTIC_IOCTL_MAGIC, 4, struct haptic_data)
#define HAPTIC_INDIVIDUAL_MODE  _IOW(HAPTIC_IOCTL_MAGIC, 5, unsigned int)
#define HAPTIC_SET_VIB_LEVEL    _IOW(HAPTIC_IOCTL_MAGIC, 9, unsigned int)

static int hapticdev = -1;
static struct haptic_data haptic_seq[2];

static int haptic_read(const char *fname, struct haptic_data *data)
{
        int i, ret, v1, v2;
        char buf[128], *p;
        FILE *f;

        f = fopen(fname, "r");
        if (f == NULL) {
                fprintf(stderr, "fopen(%s)", fname);
                perror("");
                return -1;
        }

        for (i = 0; i < sizeof(data->actions) / sizeof(data->actions[0]); ) {
                p = fgets(buf, sizeof(buf), f);
                if (p == NULL)
                        break;
                while (*p != 0 && *p == ' ')
                        p++;
                if (*p == 0 || *p == ';' || *p == '#')
                        continue;

                ret = sscanf(buf, "%d %d", &v1, &v2);
                if (ret != 2) {
                        fprintf(stderr, "can't parse: %s", buf);
                        continue;
                }

                data->actions[i].time = v1;
                data->actions[i].strength = v2;
                i++;
        }
        fclose(f);

        if (i == 0) {
                fprintf(stderr, "bad haptic file: %s\n", fname);
                return -1;
        }
        data->count = i;

        return 0;
}

static int haptic_init(void)
{
        int ret, i;

        ret = haptic_read("haptic_w.cfg", &haptic_seq[0]);
        if (ret != 0)
                return -1;
        ret = haptic_read("haptic_s.cfg", &haptic_seq[1]);
        if (ret != 0)
                return -1;

        hapticdev = open("/dev/isa1200", O_RDWR | O_NONBLOCK);
        if (hapticdev == -1) {
                perror("open(/dev/isa1200)");
                return -1;
        }

        i = 0;
        ret  = ioctl(hapticdev, HAPTIC_INDIVIDUAL_MODE, &i);    /* use 2 of them */
        i = 3;
        ret |= ioctl(hapticdev, HAPTIC_SET_VIB_LEVEL, &i);      /* max */
        if (ret != 0) {
                fprintf(stderr, "haptic ioctls failed\n");
                close(hapticdev);
                hapticdev = -1;
                return -1;
        }

        return 0;
}

void plat_trigger_vibrate(int pad, int low, int high)
{
        int is_strong;
        int ret;

        if (low == 0 && high == 0)
                return;
        is_strong = (high >= 0xf0);

        if (hapticdev == -2)
                return; // it's broken
        if (hapticdev < 0) {
                ret = haptic_init();
                if (ret < 0) {
                        hapticdev = -2;
                        return;
                }
        }

        ioctl(hapticdev, HAPTIC_PLAY_PATTERN, &haptic_seq[!!is_strong]);
}

static void caanoo_init(void)
{
        in_probe();
        in_set_config(in_name_to_id("evdev:pollux-analog"), IN_CFG_KEY_NAMES,
                      caanoo_keys, sizeof(caanoo_keys));
}

/* Wiz stuff */
static const struct in_default_bind in_gp2x_defbinds[] =
{
        /* MXYZ SACB RLDU */
        { GP2X_BTN_UP,          IN_BINDTYPE_PLAYER12, DKEY_UP },
        { GP2X_BTN_DOWN,        IN_BINDTYPE_PLAYER12, DKEY_DOWN },
        { GP2X_BTN_LEFT,        IN_BINDTYPE_PLAYER12, DKEY_LEFT },
        { GP2X_BTN_RIGHT,       IN_BINDTYPE_PLAYER12, DKEY_RIGHT },
        { GP2X_BTN_X,           IN_BINDTYPE_PLAYER12, DKEY_CROSS },
        { GP2X_BTN_B,           IN_BINDTYPE_PLAYER12, DKEY_CIRCLE },
        { GP2X_BTN_A,           IN_BINDTYPE_PLAYER12, DKEY_SQUARE },
        { GP2X_BTN_Y,           IN_BINDTYPE_PLAYER12, DKEY_TRIANGLE },
        { GP2X_BTN_L,           IN_BINDTYPE_PLAYER12, DKEY_L1 },
        { GP2X_BTN_R,           IN_BINDTYPE_PLAYER12, DKEY_R1 },
        { GP2X_BTN_START,       IN_BINDTYPE_PLAYER12, DKEY_START },
        { GP2X_BTN_SELECT,      IN_BINDTYPE_EMU, SACTION_ENTER_MENU },
        { GP2X_BTN_VOL_UP,      IN_BINDTYPE_EMU, SACTION_VOLUME_UP },
        { GP2X_BTN_VOL_DOWN,    IN_BINDTYPE_EMU, SACTION_VOLUME_DOWN },
        { 0, 0, 0 },
};

// unused dummy for in_gp2x
volatile unsigned short *gp2x_memregs;

static void wiz_init(void)
{
        in_gp2x_init(in_gp2x_defbinds);
        in_probe();
}