Example #1
0
static int SetConfigParameter(const char *ParamSpec)
{
    char *ParsedString, *VarName, *VarValue=NULL;
    m64p_handle ConfigSection;
    m64p_type VarType;
    m64p_error rval;

    if (ParamSpec == NULL)
    {
        DebugMessage(M64MSG_ERROR, "ParamSpec is NULL in SetConfigParameter()");
        return 1;
    }

    /* make a copy of the input string */
    ParsedString = (char *) malloc(strlen(ParamSpec) + 1);
    if (ParsedString == NULL)
    {
        DebugMessage(M64MSG_ERROR, "SetConfigParameter() couldn't allocate memory for temporary string.");
        return 2;
    }
    strcpy(ParsedString, ParamSpec);

    /* parse it for the simple section[name]=value format */
    VarName = strchr(ParsedString, '[');
    if (VarName != NULL)
    {
        *VarName++ = 0;
        VarValue = strchr(VarName, ']');
        if (VarValue != NULL)
        {
            *VarValue++ = 0;
        }
    }
    if (VarName == NULL || VarValue == NULL || *VarValue != '=')
    {
        DebugMessage(M64MSG_ERROR, "invalid (param-spec) '%s'", ParamSpec);
        free(ParsedString);
        return 3;
    }
    VarValue++;

    /* then set the value */
    rval = (*ConfigOpenSection)(ParsedString, &ConfigSection);
    if (rval != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "SetConfigParameter failed to open config section '%s'", ParsedString);
        free(ParsedString);
        return 4;
    }
    if ((*ConfigGetParameterType)(ConfigSection, VarName, &VarType) == M64ERR_SUCCESS)
    {
        switch(VarType)
        {
            int ValueInt;
            float ValueFloat;
            case M64TYPE_INT:
                ValueInt = atoi(VarValue);
                ConfigSetParameter(ConfigSection, VarName, M64TYPE_INT, &ValueInt);
                break;
            case M64TYPE_FLOAT:
                ValueFloat = (float) atof(VarValue);
                ConfigSetParameter(ConfigSection, VarName, M64TYPE_FLOAT, &ValueFloat);
                break;
            case M64TYPE_BOOL:
                ValueInt = (int) (osal_insensitive_strcmp(VarValue, "true") == 0);
                ConfigSetParameter(ConfigSection, VarName, M64TYPE_BOOL, &ValueInt);
                break;
            case M64TYPE_STRING:
                ConfigSetParameter(ConfigSection, VarName, M64TYPE_STRING, VarValue);
                break;
            default:
                DebugMessage(M64MSG_ERROR, "invalid VarType in SetConfigParameter()");
                return 5;
        }
    }
    else
    {
        ConfigSetParameter(ConfigSection, VarName, M64TYPE_STRING, VarValue);
    }

    free(ParsedString);
    return 0;
}
Example #2
0
void gen_interupt(void)
{
    if (stop == 1)
    {
        g_gs_vi_counter = 0; // debug
        dyna_stop();
    }

    if (!interupt_unsafe_state)
    {
        if (savestates_get_job() == savestates_job_load)
        {
            savestates_load();
            return;
        }

        if (reset_hard_job)
        {
            reset_hard();
            reset_hard_job = 0;
            return;
        }
    }
   
    if (skip_jump)
    {
        uint32_t dest = skip_jump;
        skip_jump = 0;

        next_interupt = (q.first->data.count > g_cp0_regs[CP0_COUNT_REG]
                || (g_cp0_regs[CP0_COUNT_REG] - q.first->data.count) < UINT32_C(0x80000000))
            ? q.first->data.count
            : 0;

        last_addr = dest;
        generic_jump_to(dest);
        return;
    } 

    switch(q.first->data.type)
    {
        case SPECIAL_INT:
            special_int_handler();
            break;

        case VI_INT:
            remove_interupt_event();
            vi_vertical_interrupt_event(&g_dev.vi);
            break;
    
        case COMPARE_INT:
            compare_int_handler();
            break;
    
        case CHECK_INT:
            remove_interupt_event();
            wrapped_exception_general();
            break;
    
        case SI_INT:
            remove_interupt_event();
            si_end_of_dma_event(&g_dev.si);
            break;
    
        case PI_INT:
            remove_interupt_event();
            pi_end_of_dma_event(&g_dev.pi);
            break;
    
        case AI_INT:
            remove_interupt_event();
            ai_end_of_dma_event(&g_dev.ai);
            break;

        case SP_INT:
            remove_interupt_event();
            rsp_interrupt_event(&g_dev.sp);
            break;
    
        case DP_INT:
            remove_interupt_event();
            rdp_interrupt_event(&g_dev.dp);
            break;

        case HW2_INT:
            hw2_int_handler();
            break;

        case NMI_INT:
            nmi_int_handler();
            break;

        default:
            DebugMessage(M64MSG_ERROR, "Unknown interrupt queue event type %.8X.", q.first->data.type);
            remove_interupt_event();
            wrapped_exception_general();
            break;
    }

    if (!interupt_unsafe_state)
    {
        if (savestates_get_job() == savestates_job_save)
        {
            savestates_save();
            return;
        }
    }
}
bool COGLGraphicsContext::Initialize(uint32 dwWidth, uint32 dwHeight, BOOL bWindowed )
{
    DebugMessage(M64MSG_INFO, "Initializing OpenGL Device Context.");
    Lock();

    CGraphicsContext::Initialize(dwWidth, dwHeight, bWindowed );

    if( bWindowed )
    {
        windowSetting.statusBarHeightToUse = windowSetting.statusBarHeight;
        windowSetting.toolbarHeightToUse = windowSetting.toolbarHeight;
    }
    else
    {
        windowSetting.statusBarHeightToUse = 0;
        windowSetting.toolbarHeightToUse = 0;
    }

    int  depthBufferDepth = options.OpenglDepthBufferSetting;
    int  colorBufferDepth = 32;
    int bVerticalSync = windowSetting.bVerticalSync;
    if( options.colorQuality == TEXTURE_FMT_A4R4G4B4 ) colorBufferDepth = 16;

    // init sdl & gl
    DebugMessage(M64MSG_VERBOSE, "Initializing video subsystem...");
    if (CoreVideo_Init() != M64ERR_SUCCESS)   
        return false;

    /* hard-coded attribute values */
    const int iDOUBLEBUFFER = 1;

    /* set opengl attributes */
    CoreVideo_GL_SetAttribute(M64P_GL_DOUBLEBUFFER, iDOUBLEBUFFER);
    CoreVideo_GL_SetAttribute(M64P_GL_SWAP_CONTROL, bVerticalSync);
    CoreVideo_GL_SetAttribute(M64P_GL_BUFFER_SIZE, colorBufferDepth);
    CoreVideo_GL_SetAttribute(M64P_GL_DEPTH_SIZE, depthBufferDepth);

    /* set multisampling */
    if (options.multiSampling > 0)
    {
        CoreVideo_GL_SetAttribute(M64P_GL_MULTISAMPLEBUFFERS, 1);
        if (options.multiSampling <= 2)
            CoreVideo_GL_SetAttribute(M64P_GL_MULTISAMPLESAMPLES, 2);
        else if (options.multiSampling <= 4)
            CoreVideo_GL_SetAttribute(M64P_GL_MULTISAMPLESAMPLES, 4);
        else if (options.multiSampling <= 8)
            CoreVideo_GL_SetAttribute(M64P_GL_MULTISAMPLESAMPLES, 8);
        else
            CoreVideo_GL_SetAttribute(M64P_GL_MULTISAMPLESAMPLES, 16);
    }

    /* Set the video mode */
    m64p_video_mode ScreenMode = bWindowed ? M64VIDEO_WINDOWED : M64VIDEO_FULLSCREEN;
    m64p_video_flags flags = M64VIDEOFLAG_SUPPORT_RESIZING;
    if (CoreVideo_SetVideoMode(windowSetting.uDisplayWidth, windowSetting.uDisplayHeight, colorBufferDepth, ScreenMode, flags) != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "Failed to set %i-bit video mode: %ix%i", colorBufferDepth, (int)windowSetting.uDisplayWidth, (int)windowSetting.uDisplayHeight);
        CoreVideo_Quit();
        return false;
    }

    /* check that our opengl attributes were properly set */
    int iActual;
    if (CoreVideo_GL_GetAttribute(M64P_GL_DOUBLEBUFFER, &iActual) == M64ERR_SUCCESS)
        if (iActual != iDOUBLEBUFFER)
            DebugMessage(M64MSG_WARNING, "Failed to set GL_DOUBLEBUFFER to %i. (it's %i)", iDOUBLEBUFFER, iActual);
    if (CoreVideo_GL_GetAttribute(M64P_GL_SWAP_CONTROL, &iActual) == M64ERR_SUCCESS)
        if (iActual != bVerticalSync)
            DebugMessage(M64MSG_WARNING, "Failed to set GL_SWAP_CONTROL to %i. (it's %i)", bVerticalSync, iActual);
    if (CoreVideo_GL_GetAttribute(M64P_GL_BUFFER_SIZE, &iActual) == M64ERR_SUCCESS)
        if (iActual != colorBufferDepth)
            DebugMessage(M64MSG_WARNING, "Failed to set GL_BUFFER_SIZE to %i. (it's %i)", colorBufferDepth, iActual);
    if (CoreVideo_GL_GetAttribute(M64P_GL_DEPTH_SIZE, &iActual) == M64ERR_SUCCESS)
        if (iActual != depthBufferDepth)
            DebugMessage(M64MSG_WARNING, "Failed to set GL_DEPTH_SIZE to %i. (it's %i)", depthBufferDepth, iActual);

#ifndef USE_GLES
    /* Get function pointers to OpenGL extensions (blame Microsoft Windows for this) */
    OGLExtensions_Init();
#endif

    char caption[500];
    sprintf(caption, "%s v%i.%i.%i", PLUGIN_NAME, VERSION_PRINTF_SPLIT(PLUGIN_VERSION));
    CoreVideo_SetCaption(caption);
    SetWindowMode();

    InitState();
    InitOGLExtension();
    sprintf(m_strDeviceStats, "%.60s - %.128s : %.60s", m_pVendorStr, m_pRenderStr, m_pVersionStr);
    TRACE0(m_strDeviceStats);
    DebugMessage(M64MSG_INFO, "Using OpenGL: %s", m_strDeviceStats);

    Unlock();

    Clear(CLEAR_COLOR_AND_DEPTH_BUFFER);    // Clear buffers
    UpdateFrame();
    Clear(CLEAR_COLOR_AND_DEPTH_BUFFER);
    UpdateFrame();
    
    m_bReady = true;

    return true;
}
Example #4
0
static int ProcessIcmpUnreach(Packet *p)
{
    /* Handle ICMP unreachable */
    SessionKey skey;
    Stream5LWSession *ssn = NULL;
    uint16_t sport;
    uint16_t dport;
#ifdef SUP_IP6
    sfip_t *src;
    sfip_t *dst;
#endif

    /* No "orig" IP Header */
    if (!p->orig_iph)
        return 0;

    /* Get TCP/UDP/ICMP session from original protocol/port info
     * embedded in the ICMP Unreach message.  This is already decoded
     * in p->orig_foo.  TCP/UDP ports are decoded as p->orig_sp/dp.
     */
    skey.protocol = GET_ORIG_IPH_PROTO(p);
    sport = p->orig_sp;
    dport = p->orig_dp;

#ifdef SUP_IP6
    src = GET_ORIG_SRC(p);
    dst = GET_ORIG_DST(p);

    if (sfip_fast_lt6(src, dst))
    {
        COPY4(skey.ip_l, src->ip32);
        skey.port_l = sport;
        COPY4(skey.ip_h, dst->ip32);
        skey.port_h = dport;
    }
    else if (IP_EQUALITY(GET_ORIG_SRC(p), GET_ORIG_DST(p)))
    {
        COPY4(skey.ip_l, src->ip32);
        COPY4(skey.ip_h, skey.ip_l);
        if (sport < dport)
        {
            skey.port_l = sport;
            skey.port_h = dport;
        }
        else
        {
            skey.port_l = dport;
            skey.port_h = sport;
        }
    }
#else
    if (p->orig_iph->ip_src.s_addr < p->orig_iph->ip_dst.s_addr)
    {
        skey.ip_l = p->orig_iph->ip_src.s_addr;
        skey.port_l = sport;
        skey.ip_h = p->orig_iph->ip_dst.s_addr;
        skey.port_h = dport;
    }
    else if (p->orig_iph->ip_dst.s_addr == p->orig_iph->ip_src.s_addr)
    {
        skey.ip_l = p->orig_iph->ip_src.s_addr;
        skey.ip_h = skey.ip_l;
        if (sport < dport)
        {
            skey.port_l = sport;
            skey.port_h = dport;
        }
        else
        {
            skey.port_l = dport;
            skey.port_h = sport;
        }
    }
#endif
    else
    {
#ifdef SUP_IP6
        COPY4(skey.ip_l, dst->ip32);
        COPY4(skey.ip_h, src->ip32);
#else
        skey.ip_l = p->orig_iph->ip_dst.s_addr;
        skey.ip_h = p->orig_iph->ip_src.s_addr;
#endif
        skey.port_l = dport;
        skey.port_h = sport;
    }

    if (p->vh)
        skey.vlan_tag = (uint16_t)VTH_VLAN(p->vh);
    else
        skey.vlan_tag = 0;

    switch (skey.protocol)
    {
    case IPPROTO_TCP:
        /* Lookup a TCP session */
        ssn = GetLWTcpSession(&skey);
        break;
    case IPPROTO_UDP:
        /* Lookup a UDP session */
        ssn = GetLWUdpSession(&skey);
        break;
    case IPPROTO_ICMP:
        /* Lookup a ICMP session */
        ssn = GetLWSessionFromKey(icmp_lws_cache, &skey);
        break;
    }

    if (ssn)
    {
        /* Mark this session as dead. */
        DEBUG_WRAP(DebugMessage(DEBUG_STREAM_STATE,
            "Marking session as dead, per ICMP Unreachable!\n"););
        ssn->session_flags |= SSNFLAG_DROP_CLIENT;
        ssn->session_flags |= SSNFLAG_DROP_SERVER;
        ssn->session_state |= STREAM5_STATE_UNREACH;
    }
Example #5
0
static int try_fast_audio_dispatching(void)
{
    /* identify audio ucode by using the content of ucode_data */
    uint32_t ucode_data = *dmem_u32(TASK_UCODE_DATA);
    uint32_t v;

    if (*dram_u32(ucode_data) == 0x00000001) {
        if (*dram_u32(ucode_data + 0x30) == 0xf0000f00) {
            v = *dram_u32(ucode_data + 0x28);
            switch(v)
            {
            case 0x1e24138c: /* audio ABI (most common) */
                alist_process_audio(); return 1;
            case 0x1dc8138c: /* GoldenEye */
                alist_process_audio_ge(); return 1;
            case 0x1e3c1390: /* BlastCorp, DiddyKongRacing */
                alist_process_audio_bc(); return 1;
            default:
                DebugMessage(M64MSG_WARNING, "ABI1 identification regression: v=%08x", v);
            }
        } else {
            v = *dram_u32(ucode_data + 0x10);
            switch(v)
            {
            case 0x11181350: /* MarioKart, WaveRace (E) */
                alist_process_mk(); return 1;
            case 0x111812e0: /* StarFox (J) */
                alist_process_sfj(); return 1;
            case 0x110412ac: /* WaveRace (J RevB) */
                alist_process_wrjb(); return 1;
            case 0x110412cc: /* StarFox/LylatWars (except J) */
                alist_process_sf(); return 1;
            case 0x1cd01250: /* FZeroX */
                alist_process_fz(); return 1;
            case 0x1f08122c: /* YoshisStory */
                alist_process_ys(); return 1;
            case 0x1f38122c: /* 1080° Snowboarding */
                alist_process_1080(); return 1;
            case 0x1f681230: /* Zelda OoT / Zelda MM (J, J RevA) */
                alist_process_oot(); return 1;
            case 0x1f801250: /* Zelda MM (except J, J RevA, E Beta), PokemonStadium 2 */
                alist_process_mm(); return 1;
            case 0x109411f8: /* Zelda MM (E Beta) */
                alist_process_mmb(); return 1;
            case 0x1eac11b8: /* AnimalCrossing */
                alist_process_ac(); return 1;

            case 0x00010010: /* MusyX (IndianaJones, BattleForNaboo) */
                musyx_task(); return 1;

            default:
                DebugMessage(M64MSG_WARNING, "ABI2 identification regression: v=%08x", v);
            }
        }
    } else {
        v = *dram_u32(ucode_data + 0x10);
        switch(v)
        {
        case 0x00000001: /* MusyX:
            RogueSquadron, ResidentEvil2, PolarisSnoCross,
            TheWorldIsNotEnough, RugratsInParis, NBAShowTime,
            HydroThunder, Tarzan, GauntletLegend, Rush2049 */
            musyx_task(); return 1;
        case 0x0000127c: /* naudio (many games) */
            alist_process_naudio(); return 1;
        case 0x00001280: /* BanjoKazooie */
            alist_process_naudio_bk(); return 1;
        case 0x1c58126c: /* DonkeyKong */
            alist_process_naudio_dk(); return 1;
        case 0x1ae8143c: /* BanjoTooie, JetForceGemini, MickeySpeedWayUSA, PerfectDark */
            alist_process_naudio_mp3(); return 1;
        case 0x1ab0140c: /* ConkerBadFurDay */
            alist_process_naudio_cbfd(); return 1;

        default:
            DebugMessage(M64MSG_WARNING, "ABI3 identification regression: v=%08x", v);
        }
    }

    return 0;
}
Example #6
0
static void save_controller_config(int iCtrlIdx, const char *pccDeviceName)
{
    m64p_handle pConfig;
    char SectionName[32], Param[32], ParamString[128];
    int j;

    /* Delete the configuration section for this controller, so we can use SetDefaults and save the help comments also */
    sprintf(SectionName, "Input-SDL-Control%i", iCtrlIdx + 1);
    ConfigDeleteSection(SectionName);
    /* Open the configuration section for this controller (create a new one) */
    if (ConfigOpenSection(SectionName, &pConfig) != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "Couldn't open config section '%s'", SectionName);
        return;
    }

    /* save the general controller parameters */
    ConfigSetDefaultFloat(pConfig, "version", CONFIG_VERSION, "Mupen64Plus SDL Input Plugin config parameter version number.  Please don't change");
    ConfigSetDefaultBool(pConfig, "plugged", controller[iCtrlIdx].control->Present, "Specifies whether this controller is 'plugged in' to the simulated N64");
    ConfigSetDefaultInt(pConfig, "plugin", controller[iCtrlIdx].control->Plugin, "Specifies which type of expansion pak is in the controller: 1=None, 2=Mem pak, 5=Rumble pak");
    ConfigSetDefaultBool(pConfig, "mouse", controller[iCtrlIdx].mouse, "If True, then mouse buttons may be used with this controller");
    ConfigSetDefaultInt(pConfig, "device", controller[iCtrlIdx].device, "Specifies which joystick is bound to this controller: -2=Keyboard/mouse, -1=Auto config, 0 or more= SDL Joystick number");
    ConfigSetDefaultString(pConfig, "name", pccDeviceName, "SDL joystick name (name check disabled if this is empty string)");

    sprintf(Param, "%.2f,%.2f", controller[iCtrlIdx].mouse_sens[0], controller[iCtrlIdx].mouse_sens[1]);
    ConfigSetDefaultString(pConfig, "MouseSensitivity", Param, "Scaling factor for mouse movements.  For X, Y axes.");
    sprintf(Param, "%i,%i", controller[iCtrlIdx].axis_deadzone[0], controller[iCtrlIdx].axis_deadzone[1]);
    ConfigSetDefaultString(pConfig, "AnalogDeadzone", Param, "The minimum absolute value of the SDL analog joystick axis to move the N64 controller axis value from 0.  For X, Y axes.");
    sprintf(Param, "%i,%i", controller[iCtrlIdx].axis_peak[0], controller[iCtrlIdx].axis_peak[1]);
    ConfigSetDefaultString(pConfig, "AnalogPeak", Param, "An absolute value of the SDL joystick axis >= AnalogPeak will saturate the N64 controller axis value (at 80).  For X, Y axes. For each axis, this must be greater than the corresponding AnalogDeadzone value");

    /* save configuration for all the digital buttons */
    for (j = 0; j < X_AXIS; j++ )
    {
        const char *Help;
        int len = 0;
        ParamString[0] = 0;
        if (controller[iCtrlIdx].button[j].key > 0)
        {
            sprintf(Param, "key(%i) ", controller[iCtrlIdx].button[j].key);
            strcat(ParamString, Param);
        }
        if (controller[iCtrlIdx].button[j].button >= 0)
        {
            sprintf(Param, "button(%i) ", controller[iCtrlIdx].button[j].button);
            strcat(ParamString, Param);
        }
        if (controller[iCtrlIdx].button[j].axis >= 0)
        {
            if (controller[iCtrlIdx].button[j].axis_deadzone >= 0)
                sprintf(Param, "axis(%i%c,%i) ", controller[iCtrlIdx].button[j].axis, (controller[iCtrlIdx].button[j].axis_dir == -1) ? '-' : '+',
                        controller[iCtrlIdx].button[j].axis_deadzone);
            else
                sprintf(Param, "axis(%i%c) ", controller[iCtrlIdx].button[j].axis, (controller[iCtrlIdx].button[j].axis_dir == -1) ? '-' : '+');
            strcat(ParamString, Param);
        }
        if (controller[iCtrlIdx].button[j].hat >= 0)
        {
            sprintf(Param, "hat(%i %s) ", controller[iCtrlIdx].button[j].hat, HAT_POS_NAME(controller[iCtrlIdx].button[j].hat_pos));
            strcat(ParamString, Param);
        }
        if (controller[iCtrlIdx].button[j].mouse >= 0)
        {
            sprintf(Param, "mouse(%i) ", controller[iCtrlIdx].button[j].mouse);
            strcat(ParamString, Param);
        }
        if (j == 0)
            Help = "Digital button configuration mappings";
        else
            Help = NULL;
        /* if last character is a space, chop it off */
        len = strlen(ParamString);
        if (len > 0 && ParamString[len-1] == ' ')
            ParamString[len-1] = 0;
        ConfigSetDefaultString(pConfig, button_names[j], ParamString, Help);
    }

    /* save configuration for the 2 analog axes */
    for (j = 0; j < 2; j++ )
    {
        const char *Help;
        int len = 0;
        ParamString[0] = 0;
        if (controller[iCtrlIdx].axis[j].key_a > 0 && controller[iCtrlIdx].axis[j].key_b > 0)
        {
            sprintf(Param, "key(%i,%i) ", controller[iCtrlIdx].axis[j].key_a, controller[iCtrlIdx].axis[j].key_b);
            strcat(ParamString, Param);
        }
        if (controller[iCtrlIdx].axis[j].button_a >= 0 && controller[iCtrlIdx].axis[j].button_b >= 0)
        {
            sprintf(Param, "button(%i,%i) ", controller[iCtrlIdx].axis[j].button_a, controller[iCtrlIdx].axis[j].button_b);
            strcat(ParamString, Param);
        }
        if (controller[iCtrlIdx].axis[j].axis_a >= 0 && controller[iCtrlIdx].axis[j].axis_b >= 0)
        {
            sprintf(Param, "axis(%i%c,%i%c) ", controller[iCtrlIdx].axis[j].axis_a, (controller[iCtrlIdx].axis[j].axis_dir_a <= 0) ? '-' : '+',
                                               controller[iCtrlIdx].axis[j].axis_b, (controller[iCtrlIdx].axis[j].axis_dir_b <= 0) ? '-' : '+' );
            strcat(ParamString, Param);
        }
        if (controller[iCtrlIdx].axis[j].hat >= 0)
        {
            sprintf(Param, "hat(%i %s %s) ", controller[iCtrlIdx].axis[j].hat,
                                             HAT_POS_NAME(controller[iCtrlIdx].axis[j].hat_pos_a),
                                             HAT_POS_NAME(controller[iCtrlIdx].axis[j].hat_pos_b));
            strcat(ParamString, Param);
        }
        if (j == 0)
            Help = "Analog axis configuration mappings";
        else
            Help = NULL;
        /* if last character is a space, chop it off */
        len = strlen(ParamString);
        if (len > 0 && ParamString[len-1] == ' ')
            ParamString[len-1] = 0;
        ConfigSetDefaultString(pConfig, button_names[X_AXIS + j], ParamString, Help);
    }

}
void RSP_ProcessDList()
{
    VI_UpdateSize();
    OGL_UpdateScale();
    TextureCache_ActivateNoise(2);

    RSP.PC[0] = *(u32*)&DMEM[0x0FF0];
    RSP.PCi = 0;
    RSP.count = 0;

    RSP.halt = FALSE;
    RSP.busy = TRUE;

#ifdef __TRIBUFFER_OPT
    __indexmap_clear();
#endif

    gSP.matrix.stackSize = min( 32, *(u32*)&DMEM[0x0FE4] >> 6 );
    gSP.matrix.modelViewi = 0;
    gSP.changed |= CHANGED_MATRIX;

    for (int i = 0; i < 4; i++)
        for (int j = 0; j < 4; j++)
            gSP.matrix.modelView[0][i][j] = 0.0f;

    gSP.matrix.modelView[0][0][0] = 1.0f;
    gSP.matrix.modelView[0][1][1] = 1.0f;
    gSP.matrix.modelView[0][2][2] = 1.0f;
    gSP.matrix.modelView[0][3][3] = 1.0f;

    u32 uc_start = *(u32*)&DMEM[0x0FD0];
    u32 uc_dstart = *(u32*)&DMEM[0x0FD8];
    u32 uc_dsize = *(u32*)&DMEM[0x0FDC];

    if ((uc_start != RSP.uc_start) || (uc_dstart != RSP.uc_dstart))
        gSPLoadUcodeEx( uc_start, uc_dstart, uc_dsize );

    gDPSetAlphaCompare(G_AC_NONE);
    gDPSetDepthSource(G_ZS_PIXEL);
    gDPSetRenderMode(0, 0);
    gDPSetAlphaDither(G_AD_DISABLE);
    gDPSetColorDither(G_CD_DISABLE);
    gDPSetCombineKey(G_CK_NONE);
    gDPSetTextureConvert(G_TC_FILT);
    gDPSetTextureFilter(G_TF_POINT);
    gDPSetTextureLUT(G_TT_NONE);
    gDPSetTextureLOD(G_TL_TILE);
    gDPSetTextureDetail(G_TD_CLAMP);
    gDPSetTexturePersp(G_TP_PERSP);
    gDPSetCycleType(G_CYC_1CYCLE);
    gDPPipelineMode(G_PM_NPRIMITIVE);

#ifdef PRINT_DISPLAYLIST
    if ((RSP.DList%PRINT_DISPLAYLIST_NUM) == 0) DebugMessage(M64MSG_VERBOSE, "BEGIN DISPLAY LIST %i \n", RSP.DList);
#endif

    while (!RSP.halt)
    {
        u32 pc = RSP.PC[RSP.PCi];

        if ((pc + 8) > RDRAMSize)
        {
#ifdef DEBUG
            DebugMsg( DEBUG_LOW | DEBUG_ERROR, "ATTEMPTING TO EXECUTE RSP COMMAND AT INVALID RDRAM LOCATION\n" );
#endif
            break;
        }


        u32 w0 = *(u32*)&RDRAM[pc];
        u32 w1 = *(u32*)&RDRAM[pc+4];
        RSP.nextCmd = _SHIFTR( *(u32*)&RDRAM[pc+8], 24, 8 );
        RSP.cmd = _SHIFTR( w0, 24, 8 );
        RSP.PC[RSP.PCi] += 8;

#ifdef PROFILE_GBI
        GBI_ProfileBegin(RSP.cmd);
#endif

#ifdef PRINT_DISPLAYLIST
        if ((RSP.DList%PRINT_DISPLAYLIST_NUM) == 0) DebugMessage(M64MSG_VERBOSE, "%s: w0=0x%x w1=0x%x\n", GBI_GetFuncName(GBI.current->type, RSP.cmd), w0, w1);
#endif

        GBI.cmd[RSP.cmd]( w0, w1 );

#ifdef PROFILE_GBI
        GBI_ProfileEnd(RSP.cmd);
#endif
    }

#ifdef PRINT_DISPLAYLIST
        if ((RSP.DList%PRINT_DISPLAYLIST_NUM) == 0) DebugMessage(M64MSG_VERBOSE, "END DISPLAY LIST %i \n", RSP.DList);
#endif

    RSP.busy = FALSE;
    RSP.DList++;
    gSP.changed |= CHANGED_COLORBUFFER;
}
Example #8
0
static m64p_error plugin_connect_gfx(m64p_dynlib_handle plugin_handle)
{
    /* attach the Video plugin function pointers */
    if (plugin_handle != NULL)
    {
        m64p_plugin_type PluginType;
        int PluginVersion, APIVersion;

        if (l_GfxAttached)
            return M64ERR_INVALID_STATE;

        /* set function pointers for required functions */
        if (!GET_FUNC(ptr_PluginGetVersion, gfx.getVersion, "PluginGetVersion") ||
            !GET_FUNC(ptr_ChangeWindow, gfx.changeWindow, "ChangeWindow") ||
            !GET_FUNC(ptr_InitiateGFX, gfx.initiateGFX, "InitiateGFX") ||
            !GET_FUNC(ptr_MoveScreen, gfx.moveScreen, "MoveScreen") ||
            !GET_FUNC(ptr_ProcessDList, gfx.processDList, "ProcessDList") ||
            !GET_FUNC(ptr_ProcessRDPList, gfx.processRDPList, "ProcessRDPList") ||
            !GET_FUNC(ptr_RomClosed, gfx.romClosed, "RomClosed") ||
            !GET_FUNC(ptr_RomOpen, gfx.romOpen, "RomOpen") ||
            !GET_FUNC(ptr_ShowCFB, gfx.showCFB, "ShowCFB") ||
            !GET_FUNC(ptr_UpdateScreen, gfx.updateScreen, "UpdateScreen") ||
            !GET_FUNC(ptr_ViStatusChanged, gfx.viStatusChanged, "ViStatusChanged") ||
            !GET_FUNC(ptr_ViWidthChanged, gfx.viWidthChanged, "ViWidthChanged") ||
            !GET_FUNC(ptr_ReadScreen2, gfx.readScreen, "ReadScreen2") ||
            !GET_FUNC(ptr_SetRenderingCallback, gfx.setRenderingCallback, "SetRenderingCallback") ||
            !GET_FUNC(ptr_FBRead, gfx.fBRead, "FBRead") ||
            !GET_FUNC(ptr_FBWrite, gfx.fBWrite, "FBWrite") ||
            !GET_FUNC(ptr_FBGetFrameBufferInfo, gfx.fBGetFrameBufferInfo, "FBGetFrameBufferInfo"))
        {
            DebugMessage(M64MSG_ERROR, "broken Video plugin; function(s) not found.");
            plugin_disconnect_gfx();
            return M64ERR_INPUT_INVALID;
        }

        /* set function pointers for optional functions */
        gfx.resizeVideoOutput = (ptr_ResizeVideoOutput) osal_dynlib_getproc(plugin_handle, "ResizeVideoOutput");

        /* check the version info */
        (*gfx.getVersion)(&PluginType, &PluginVersion, &APIVersion, NULL, NULL);
        if (PluginType != M64PLUGIN_GFX || (APIVersion & 0xffff0000) != (GFX_API_VERSION & 0xffff0000))
        {
            DebugMessage(M64MSG_ERROR, "incompatible Video plugin");
            plugin_disconnect_gfx();
            return M64ERR_INCOMPATIBLE;
        }

        /* handle backwards-compatibility */
        if (APIVersion < 0x020100)
        {
            DebugMessage(M64MSG_WARNING, "Fallback for Video plugin API (%02i.%02i.%02i) < 2.1.0. Screenshots may contain On Screen Display text", VERSION_PRINTF_SPLIT(APIVersion));
            // tell the video plugin to make its rendering callback to me (it's old, and doesn't have the bScreenRedrawn flag)
            gfx.setRenderingCallback(backcompat_videoRenderCallback);
            l_old1SetRenderingCallback = gfx.setRenderingCallback; // save this just for future use
            gfx.setRenderingCallback = (ptr_SetRenderingCallback) backcompat_setRenderCallbackIntercept;
        }
        if (APIVersion < 0x20200 || gfx.resizeVideoOutput == NULL)
        {
            DebugMessage(M64MSG_WARNING, "Fallback for Video plugin API (%02i.%02i.%02i) < 2.2.0. Resizable video will not work", VERSION_PRINTF_SPLIT(APIVersion));
            gfx.resizeVideoOutput = dummyvideo_ResizeVideoOutput;
        }

        l_GfxAttached = 1;
    }
    else
        plugin_disconnect_gfx();

    return M64ERR_SUCCESS;
}
Example #9
0
IOReturn AREngine::clipOutputSamples(const void* inMixBuffer, void* outTargetBuffer, UInt32 inFirstFrame, UInt32 inNumberFrames, const IOAudioStreamFormat* inFormat, IOAudioStream* /*inStream*/)
{
	//	figure out what sort of blit we need to do
	if((inFormat->fSampleFormat == kIOAudioStreamSampleFormatLinearPCM) && inFormat->fIsMixable)
	{
		//	it's mixable linear PCM, which means we will be calling a blitter, which works in samples not frames
		Float32* theMixBuffer = (Float32*)inMixBuffer;
		UInt32 theFirstSample = inFirstFrame * inFormat->fNumChannels;
		UInt32 theNumberSamples = inNumberFrames * inFormat->fNumChannels;
	
		if(inFormat->fNumericRepresentation == kIOAudioStreamNumericRepresentationSignedInt)
		{
			//	it's some kind of signed integer, which we handle as some kind of even byte length
			bool nativeEndianInts;
			#if TARGET_RT_BIG_ENDIAN
				nativeEndianInts = (inFormat->fByteOrder == kIOAudioStreamByteOrderBigEndian);
			#else
				nativeEndianInts = (inFormat->fByteOrder == kIOAudioStreamByteOrderLittleEndian);
			#endif
			
			switch(inFormat->fBitWidth)
			{
				case 8:
					{
						DebugMessage("AREngine::clipOutputSamples: can't handle signed integers with a bit width of 8 at the moment");
					}
					break;
				
				case 16:
					{
						SInt16* theTargetBuffer = (SInt16*)outTargetBuffer;
						if (nativeEndianInts)
							Float32ToNativeInt16(mHasVectorUnit, &(theMixBuffer[theFirstSample]), &(theTargetBuffer[theFirstSample]), theNumberSamples);
						else
							Float32ToSwapInt16(mHasVectorUnit, &(theMixBuffer[theFirstSample]), &(theTargetBuffer[theFirstSample]), theNumberSamples);
					}
					break;
				
				case 24:
					{
						UInt8* theTargetBuffer = (UInt8*)outTargetBuffer;
						if (nativeEndianInts)
							Float32ToNativeInt24(mHasVectorUnit, &(theMixBuffer[theFirstSample]), &(theTargetBuffer[3*theFirstSample]), theNumberSamples);
						else
							Float32ToSwapInt24(mHasVectorUnit, &(theMixBuffer[theFirstSample]), &(theTargetBuffer[3*theFirstSample]), theNumberSamples);
					}
					break;
				
				case 32:
					{
						SInt32* theTargetBuffer = (SInt32*)outTargetBuffer;
						if (nativeEndianInts)
							Float32ToNativeInt32(mHasVectorUnit, &(theMixBuffer[theFirstSample]), &(theTargetBuffer[theFirstSample]), theNumberSamples);
						else
							Float32ToSwapInt32(mHasVectorUnit, &(theMixBuffer[theFirstSample]), &(theTargetBuffer[theFirstSample]), theNumberSamples);
					}
					break;
				
				default:
					DebugMessageN1("AREngine::clipOutputSamples: can't handle signed integers with a bit width of %d", inFormat->fBitWidth);
					break;
				
			}
		}
		else if(inFormat->fNumericRepresentation == kIOAudioStreamNumericRepresentationIEEE754Float)
		{
			//	it is some kind of floating point format
		#if TARGET_RT_BIG_ENDIAN
			if((inFormat->fBitWidth == 32) && (inFormat->fBitDepth == 32) && (inFormat->fByteOrder == kIOAudioStreamByteOrderBigEndian))
		#else
			if((inFormat->fBitWidth == 32) && (inFormat->fBitDepth == 32) && (inFormat->fByteOrder == kIOAudioStreamByteOrderLittleEndian))
		#endif
			{
				//	it's Float32, so we are just going to copy the data
				Float32* theTargetBuffer = (Float32*)outTargetBuffer;
				memcpy(&(theTargetBuffer[theFirstSample]), &(theMixBuffer[theFirstSample]), theNumberSamples * sizeof(Float32));
			}
			else
			{
				DebugMessageN2("AREngine::clipOutputSamples: can't handle floats with a bit width of %d, bit depth of %d, and/or the given byte order", inFormat->fBitWidth, inFormat->fBitDepth);
			}
		}
	}
	else
	{
		//	it's not linear PCM or it's not mixable, so just copy the data into the target buffer
		SInt8* theMixBuffer = (SInt8*)inMixBuffer;
		SInt8* theTargetBuffer = (SInt8*)outTargetBuffer;
		UInt32 theFirstByte = inFirstFrame * (inFormat->fBitWidth / 8) * inFormat->fNumChannels;
		UInt32 theNumberBytes = inNumberFrames * (inFormat->fBitWidth / 8) * inFormat->fNumChannels;
		memcpy(&(theTargetBuffer[theFirstByte]), &(theMixBuffer[theFirstByte]), theNumberBytes);
	}

	return kIOReturnSuccess;
}
Example #10
0
/*
 * Load file list signature file
 *
 * Arguments:
 *  filename: file name string
 *  FileSigInfo *:  The file signature information.
 *  FileInspectConf *:  The configuration to be update.
 *
 * Returns:
 *  None
 */
static void file_config_signature(char *filename, FileSigInfo *sig_info,
        FileInspectConf *config)
{
    FILE *fp = NULL;
    char linebuf[MAX_SIG_LINE_LENGTH];
    char full_path_filename[PATH_MAX+1];
    int line_number = 0;

    /* check table first, create one if not exist*/

    if (config->sig_table == NULL)
    {
        config->sig_table = sha_table_new(SHA256_HASH_SIZE);
    }
    if (config->sig_table == NULL)
    {
        FILE_FATAL_ERROR("%s(%d) Could not create file signature hash.\n",
                *(_dpd.config_file), *(_dpd.config_line));
    }

    /* parse the file line by line, each signature one entry*/
    _dpd.logMsg("File inspect: processing file %s\n", filename);

    UpdatePathToFile(full_path_filename, PATH_MAX, filename);

    if((fp = fopen(full_path_filename, "r")) == NULL)
    {
        char errBuf[STD_BUF];
#ifdef WIN32
        snprintf(errBuf, STD_BUF, "%s", strerror(errno));
#else
        strerror_r(errno, errBuf, STD_BUF);
#endif
        errBuf[STD_BUF-1] = '\0';
        FILE_FATAL_ERROR("%s(%d) => Unable to open signature file %s, "
                "Error: %s\n",
                *(_dpd.config_file), *(_dpd.config_line), filename, errBuf);
        return;
    }

    while( fgets(linebuf, MAX_SIG_LINE_LENGTH, fp) )
    {
        char *cmt = NULL;
        char *sha256;
        FileSigInfo *old_info;

        DEBUG_WRAP(DebugMessage(DEBUG_FILE, "File signatures: %s\n",linebuf ););

        line_number++;

        /* Remove comments */
        if( (cmt = strchr(linebuf, '#')) )
            *cmt = '\0';

        /* Remove newline as well, prevent double newline in logging.*/
        if( (cmt = strchr(linebuf, '\n')) )
            *cmt = '\0';

        if (!strlen(linebuf))
            continue;

        sha256 = malloc(SHA256_HASH_SIZE);

        if (!sha256)
        {
            FILE_FATAL_ERROR("%s(%d) => No memory for file: %s (%d), \n"
                    "signature: %s\n",
                    *(_dpd.config_file), *(_dpd.config_line),
                    filename, line_number, linebuf);
        }

        if (str_to_sha(linebuf, sha256, strlen(linebuf)) < 0)
        {
            FILE_FATAL_ERROR("%s(%d) => signature format at file: %s (%d), \n"
                    "signature: %s\n",
                    *(_dpd.config_file), *(_dpd.config_line),
                    filename, line_number, linebuf);
        }

        old_info = (FileSigInfo *)sha_table_find(config->sig_table, sha256);

        if (old_info)
        {
            free(sha256);
            _dpd.errMsg("%s(%d) => signature redefined at file: %s (%d), \n"
                    "signature: %s\n",
                    *(_dpd.config_file), *(_dpd.config_line),
                    filename, line_number, linebuf);
        }
        else
        {
            sha_table_add(config->sig_table, sha256, sig_info);
        }
    }
Example #11
0
int main(int argc,char** argv)
    {
    DebugBlockTracer tracer("main");
    
    if (argc < 3)
        {
        ErrorMessage("Need two args\n");
        return 1;
        }
    DebugMessage("Creating JVM\n");
    char** classPath = JVMBRIDGEFUNC(PlatformSplitClassPaths)(argv[1]);
    
    JavaVM* vm = JVMBRIDGEFUNC(CreateJavaVM)(classPath);
    JVMBRIDGEFUNC(DeletePathArray)(classPath);
    DebugShowPointer(vm,"VM");
    DebugMessage("Attaching Thread\n");
    JNIEnv* env = JVMBRIDGEFUNC(AttachCurrentThread)(vm);
    JVMBRIDGEFUNC(FindClass)(env,"java/lang/Object");
    jobject stringClass = JVMBRIDGEFUNC(FindClass)(env,"java/lang/String");
    if (stringClass == 0)
        {
        ErrorMessage("FindClass for java/lang/String failed.\n", argv[2]);
        return 1;
        }
    if (JVMBRIDGEFUNC(FindClass)(env,"org/semantic/jvmbridge/ExecuteFunction") == 0)
        {
        ErrorMessage("FindClass for org/semantic/jvmbridge/ExecuteFunction failed.\n", argv[2]);
        return 1;
        }
    jobject appClass = JVMBRIDGEFUNC(FindClass)(env,argv[2]);
    if (appClass == 0)
        {
        ErrorMessage("FindClass for %s failed.\n", argv[2]);
        return 1;
        }
    
        {
        jmethodID mainMethod = JVMBRIDGEFUNC(GetStaticMethodID)    (env,appClass,"main","([Ljava/lang/String;)V");

        jobject stringArray = JVMBRIDGEFUNC(NewObjectArray)(env,0,stringClass,0);
        jvaluelist vlist = JVMBRIDGEFUNC(CreateValueList)();
        JVMBRIDGEFUNC(AddObjectToValueList)(vlist,stringArray);
        JVMBRIDGEFUNC(CallStaticVoidMethodVL)(env,appClass,mainMethod,vlist);
        }

    JVMBRIDGEFUNC(StartExecuteFunction)(env,&NullFree);

        {
        jmethodID fooMethod = JVMBRIDGEFUNC(GetStaticMethodID)    (env,appClass,"foo","(" SigOpaqueAddress "S)V");
        jvaluelist vlist = JVMBRIDGEFUNC(CreateValueList)();
        #if ARCH_64BIT
        JVMBRIDGEFUNC(AddLongToValueList)
        #else
        JVMBRIDGEFUNC(AddIntToValueList)
        #endif
            (vlist,reinterpret_cast<COpaqueAddress>(&CallbackFunction));
        JVMBRIDGEFUNC(AddShortToValueList)(vlist,37);
        JVMBRIDGEFUNC(CallStaticVoidMethodVL)(env,appClass,fooMethod,vlist);
        }
    

    JVMBRIDGEFUNC(DetachCurrentThread)(vm);
    
    return 0;
    }
Example #12
0
int main(int argc, char *argv[])
{
    int i;

    printf(" __  __                         __   _  _   ____  _             \n");  
    printf("|  \\/  |_   _ _ __   ___ _ __  / /_ | || | |  _ \\| |_   _ ___ \n");
    printf("| |\\/| | | | | '_ \\ / _ \\ '_ \\| '_ \\| || |_| |_) | | | | / __|  \n");
    printf("| |  | | |_| | |_) |  __/ | | | (_) |__   _|  __/| | |_| \\__ \\  \n");
    printf("|_|  |_|\\__,_| .__/ \\___|_| |_|\\___/   |_| |_|   |_|\\__,_|___/  \n");
    printf("             |_|         https://mupen64plus.org/               \n");
    printf("%s Version %i.%i.%i\n\n", CONSOLE_UI_NAME, VERSION_PRINTF_SPLIT(CONSOLE_UI_VERSION));

    /* bootstrap some special parameters from the command line */
    if (ParseCommandLineInitial(argc, (const char **) argv) != 0)
        return 1;

    /* load the Mupen64Plus core library */
    if (AttachCoreLib(l_CoreLibPath) != M64ERR_SUCCESS)
        return 2;

    /* start the Mupen64Plus core library, load the configuration file */
    m64p_error rval = (*CoreStartup)(CORE_API_VERSION, l_ConfigDirPath, l_DataDirPath, "Core", DebugCallback, NULL, CALLBACK_FUNC);
    if (rval != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "couldn't start Mupen64Plus core library.");
        DetachCoreLib();
        return 3;
    }

#ifdef VIDEXT_HEADER
    rval = CoreOverrideVidExt(&vidExtFunctions);
    if (rval != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "couldn't start VidExt library.");
        DetachCoreLib();
        return 14;
    }
#endif

    /* Open configuration sections */
    rval = OpenConfigurationHandles();
    if (rval != M64ERR_SUCCESS)
    {
        (*CoreShutdown)();
        DetachCoreLib();
        return 4;
    }

    /* parse command-line options */
    rval = ParseCommandLineFinal(argc, (const char **) argv);
    if (rval != M64ERR_SUCCESS)
    {
        (*CoreShutdown)();
        DetachCoreLib();
        return 5;
    }

    /* Ensure that the core supports comparison feature if necessary */
    if (l_CoreCompareMode != 0 && !(g_CoreCapabilities & M64CAPS_CORE_COMPARE))
    {
        DebugMessage(M64MSG_ERROR, "can't use --core-compare feature with this Mupen64Plus core library.");
        DetachCoreLib();
        return 6;
    }
    compare_core_init(l_CoreCompareMode);
    
    /* Ensure that the core supports the debugger if necessary */
    if (l_LaunchDebugger && !(g_CoreCapabilities & M64CAPS_DEBUGGER))
    {
        DebugMessage(M64MSG_ERROR, "can't use --debug feature with this Mupen64Plus core library.");
        DetachCoreLib();
        return 6;
    }

    /* save the given command-line options in configuration file if requested */
    if (l_SaveOptions)
        SaveConfigurationOptions();

    /* load ROM image */
    FILE *fPtr = fopen(l_ROMFilepath, "rb");
    if (fPtr == NULL)
    {
        DebugMessage(M64MSG_ERROR, "couldn't open ROM file '%s' for reading.", l_ROMFilepath);
        (*CoreShutdown)();
        DetachCoreLib();
        return 7;
    }

    /* get the length of the ROM, allocate memory buffer, load it from disk */
    long romlength = 0;
    fseek(fPtr, 0L, SEEK_END);
    romlength = ftell(fPtr);
    fseek(fPtr, 0L, SEEK_SET);
    unsigned char *ROM_buffer = (unsigned char *) malloc(romlength);
    if (ROM_buffer == NULL)
    {
        DebugMessage(M64MSG_ERROR, "couldn't allocate %li-byte buffer for ROM image file '%s'.", romlength, l_ROMFilepath);
        fclose(fPtr);
        (*CoreShutdown)();
        DetachCoreLib();
        return 8;
    }
    else if (fread(ROM_buffer, 1, romlength, fPtr) != romlength)
    {
        DebugMessage(M64MSG_ERROR, "couldn't read %li bytes from ROM image file '%s'.", romlength, l_ROMFilepath);
        free(ROM_buffer);
        fclose(fPtr);
        (*CoreShutdown)();
        DetachCoreLib();
        return 9;
    }
    fclose(fPtr);

    /* Try to load the ROM image into the core */
    if ((*CoreDoCommand)(M64CMD_ROM_OPEN, (int) romlength, ROM_buffer) != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "core failed to open ROM image file '%s'.", l_ROMFilepath);
        free(ROM_buffer);
        (*CoreShutdown)();
        DetachCoreLib();
        return 10;
    }
    free(ROM_buffer); /* the core copies the ROM image, so we can release this buffer immediately */

    /* handle the cheat codes */
    CheatStart(l_CheatMode, l_CheatNumList);
    if (l_CheatMode == CHEAT_SHOW_LIST)
    {
        (*CoreDoCommand)(M64CMD_ROM_CLOSE, 0, NULL);
        (*CoreShutdown)();
        DetachCoreLib();
        return 11;
    }

    /* search for and load plugins */
    rval = PluginSearchLoad(l_ConfigUI);
    if (rval != M64ERR_SUCCESS)
    {
        (*CoreDoCommand)(M64CMD_ROM_CLOSE, 0, NULL);
        (*CoreShutdown)();
        DetachCoreLib();
        return 12;
    }

    /* attach plugins to core */
    for (i = 0; i < 4; i++)
    {
        if ((*CoreAttachPlugin)(g_PluginMap[i].type, g_PluginMap[i].handle) != M64ERR_SUCCESS)
        {
            DebugMessage(M64MSG_ERROR, "core error while attaching %s plugin.", g_PluginMap[i].name);
            (*CoreDoCommand)(M64CMD_ROM_CLOSE, 0, NULL);
            (*CoreShutdown)();
            DetachCoreLib();
            return 13;
        }
    }

    /* set up Frame Callback if --testshots is enabled */
    if (l_TestShotList != NULL)
    {
        if ((*CoreDoCommand)(M64CMD_SET_FRAME_CALLBACK, 0, FrameCallback) != M64ERR_SUCCESS)
        {
            DebugMessage(M64MSG_WARNING, "couldn't set frame callback, --testshots will not work.");
        }
    }

    /* set gb cart loader */
    if ((*CoreDoCommand)(M64CMD_SET_MEDIA_LOADER, sizeof(l_media_loader), &l_media_loader) != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_WARNING, "Couldn't set media loader, transferpak and GB carts will not work.");
    }

    /* load savestate at startup */
    if (l_SaveStatePath != NULL)
    {
        if ((*CoreDoCommand)(M64CMD_STATE_LOAD, 0, (void *) l_SaveStatePath) != M64ERR_SUCCESS)
        {
            DebugMessage(M64MSG_WARNING, "couldn't load state, rom will run normally.");
        }
    }

    /* Setup debugger */
    if (l_LaunchDebugger)
    {
        if (debugger_setup_callbacks())
        {
            DebugMessage(M64MSG_ERROR, "couldn't setup debugger callbacks.");
            (*CoreDoCommand)(M64CMD_ROM_CLOSE, 0, NULL);
            (*CoreShutdown)();
            DetachCoreLib();
            return 14;
        }
        /* Set Core config parameter to enable debugger */
        int bEnableDebugger = 1;
        (*ConfigSetParameter)(l_ConfigCore, "EnableDebugger", M64TYPE_BOOL, &bEnableDebugger);
        /* Fork the debugger input thread. */
#if SDL_VERSION_ATLEAST(2,0,0)
        SDL_CreateThread(debugger_loop, "DebugLoop", NULL);
#else
        SDL_CreateThread(debugger_loop, NULL);
#endif
    }

    /* run the game */
    (*CoreDoCommand)(M64CMD_EXECUTE, 0, NULL);

    /* detach plugins from core and unload them */
    for (i = 0; i < 4; i++)
        (*CoreDetachPlugin)(g_PluginMap[i].type);
    PluginUnload();

    /* close the ROM image */
    (*CoreDoCommand)(M64CMD_ROM_CLOSE, 0, NULL);

    /* save the configuration file again if --nosaveoptions was not specified, to keep any updated parameters from the core/plugins */
    if (l_SaveOptions)
        SaveConfigurationOptions();

    /* Shut down and release the Core library */
    (*CoreShutdown)();
    DetachCoreLib();

    /* free allocated memory */
    if (l_TestShotList != NULL)
        free(l_TestShotList);

    return 0;
}
Example #13
0
static m64p_error ParseCommandLineFinal(int argc, const char **argv)
{
    int i;

    /* parse commandline options */
    for (i = 1; i < argc; i++)
    {
        int ArgsLeft = argc - i - 1;
        if (strcmp(argv[i], "--noosd") == 0)
        {
            int Osd = 0;
            (*ConfigSetParameter)(l_ConfigCore, "OnScreenDisplay", M64TYPE_BOOL, &Osd);
        }
        else if (strcmp(argv[i], "--osd") == 0)
        {
            int Osd = 1;
            (*ConfigSetParameter)(l_ConfigCore, "OnScreenDisplay", M64TYPE_BOOL, &Osd);
        }
        else if (strcmp(argv[i], "--fullscreen") == 0)
        {
            int Fullscreen = 1;
            (*ConfigSetParameter)(l_ConfigVideo, "Fullscreen", M64TYPE_BOOL, &Fullscreen);
        }
        else if (strcmp(argv[i], "--windowed") == 0)
        {
            int Fullscreen = 0;
            (*ConfigSetParameter)(l_ConfigVideo, "Fullscreen", M64TYPE_BOOL, &Fullscreen);
        }
        else if (strcmp(argv[i], "--nospeedlimit") == 0)
        {
            int EnableSpeedLimit = 0;
            if (g_CoreAPIVersion < 0x020001)
                DebugMessage(M64MSG_WARNING, "core library doesn't support --nospeedlimit");
            else
            {
                if ((*CoreDoCommand)(M64CMD_CORE_STATE_SET, M64CORE_SPEED_LIMITER, &EnableSpeedLimit) != M64ERR_SUCCESS)
                    DebugMessage(M64MSG_ERROR, "core gave error while setting --nospeedlimit option");
            }
        }
        else if ((strcmp(argv[i], "--corelib") == 0 || strcmp(argv[i], "--configdir") == 0 ||
                  strcmp(argv[i], "--datadir") == 0) && ArgsLeft >= 1)
        {   /* these are handled in ParseCommandLineInitial */
            i++;
        }
        else if (strcmp(argv[i], "--resolution") == 0 && ArgsLeft >= 1)
        {
            const char *res = argv[i+1];
            int xres, yres;
            i++;
            if (sscanf(res, "%ix%i", &xres, &yres) != 2)
                DebugMessage(M64MSG_WARNING, "couldn't parse resolution '%s'", res);
            else
            {
                (*ConfigSetParameter)(l_ConfigVideo, "ScreenWidth", M64TYPE_INT, &xres);
                (*ConfigSetParameter)(l_ConfigVideo, "ScreenHeight", M64TYPE_INT, &yres);
            }
        }
        else if (strcmp(argv[i], "--cheats") == 0 && ArgsLeft >= 1)
        {
            if (strcmp(argv[i+1], "all") == 0)
                l_CheatMode = CHEAT_ALL;
            else if (strcmp(argv[i+1], "list") == 0)
                l_CheatMode = CHEAT_SHOW_LIST;
            else
            {
                l_CheatMode = CHEAT_LIST;
                l_CheatNumList = (char*) argv[i+1];
            }
            i++;
        }
        else if (strcmp(argv[i], "--plugindir") == 0 && ArgsLeft >= 1)
        {
            g_PluginDir = argv[i+1];
            i++;
        }
        else if (strcmp(argv[i], "--sshotdir") == 0 && ArgsLeft >= 1)
        {
            (*ConfigSetParameter)(l_ConfigCore, "ScreenshotPath", M64TYPE_STRING, argv[i+1]);
            i++;
        }
        else if (strcmp(argv[i], "--gfx") == 0 && ArgsLeft >= 1)
        {
            g_GfxPlugin = argv[i+1];
            i++;
        }
        else if (strcmp(argv[i], "--audio") == 0 && ArgsLeft >= 1)
        {
            g_AudioPlugin = argv[i+1];
            i++;
        }
        else if (strcmp(argv[i], "--input") == 0 && ArgsLeft >= 1)
        {
            g_InputPlugin = argv[i+1];
            i++;
        }
        else if (strcmp(argv[i], "--rsp") == 0 && ArgsLeft >= 1)
        {
            g_RspPlugin = argv[i+1];
            i++;
        }
        else if (strcmp(argv[i], "--emumode") == 0 && ArgsLeft >= 1)
        {
            int emumode = atoi(argv[i+1]);
            i++;
            if (emumode < 0 || emumode > 2)
            {
                DebugMessage(M64MSG_WARNING, "invalid --emumode value '%i'", emumode);
                continue;
            }
            if (emumode == 2 && !(g_CoreCapabilities & M64CAPS_DYNAREC))
            {
                DebugMessage(M64MSG_WARNING, "Emulator core doesn't support Dynamic Recompiler.");
                emumode = 1;
            }
            (*ConfigSetParameter)(l_ConfigCore, "R4300Emulator", M64TYPE_INT, &emumode);
        }
        else if (strcmp(argv[i], "--savestate") == 0 && ArgsLeft >= 1)
        {
            l_SaveStatePath = argv[i+1];
            i++;
        }
        else if (strcmp(argv[i], "--testshots") == 0 && ArgsLeft >= 1)
        {
            l_TestShotList = ParseNumberList(argv[i+1], NULL);
            i++;
        }
        else if (strcmp(argv[i], "--set") == 0 && ArgsLeft >= 1)
        {
            if (SetConfigParameter(argv[i+1]) != 0)
                return M64ERR_INPUT_INVALID;
            i++;
        }
        else if (strcmp(argv[i], "--debug") == 0)
        {
            l_LaunchDebugger = 1;
        }
        else if (strcmp(argv[i], "--core-compare-send") == 0)
        {
            l_CoreCompareMode = 1;
        }
        else if (strcmp(argv[i], "--core-compare-recv") == 0)
        {
            l_CoreCompareMode = 2;
        }
        else if (strcmp(argv[i], "--nosaveoptions") == 0)
        {
            l_SaveOptions = 0;
        }
#define PARSE_GB_CART_PARAM(param, key) \
        else if (strcmp(argv[i], param) == 0) \
        { \
            ConfigSetParameter(l_ConfigTransferPak, key, M64TYPE_STRING, argv[i+1]); \
            i++; \
        }
        PARSE_GB_CART_PARAM("--gb-rom-1", "GB-rom-1")
        PARSE_GB_CART_PARAM("--gb-ram-1", "GB-ram-1")
        PARSE_GB_CART_PARAM("--gb-rom-2", "GB-rom-2")
        PARSE_GB_CART_PARAM("--gb-ram-2", "GB-ram-2")
        PARSE_GB_CART_PARAM("--gb-rom-3", "GB-rom-3")
        PARSE_GB_CART_PARAM("--gb-ram-3", "GB-ram-3")
        PARSE_GB_CART_PARAM("--gb-rom-4", "GB-rom-4")
        PARSE_GB_CART_PARAM("--gb-ram-4", "GB-ram-4")
#undef PARSE_GB_CART_PARAM
        else if (strcmp(argv[i], "--dd-ipl-rom") == 0)
        {
            ConfigSetParameter(l_Config64DD, "IPL-ROM", M64TYPE_STRING, argv[i+1]);
            i++;
        }
        else if (strcmp(argv[i], "--dd-disk") == 0)
        {
            ConfigSetParameter(l_Config64DD, "Disk", M64TYPE_STRING, argv[i+1]);
            i++;
        }
        else if (ArgsLeft == 0)
        {
            /* this is the last arg, it should be a ROM filename */
            l_ROMFilepath = argv[i];
            return M64ERR_SUCCESS;
        }
        else if (strcmp(argv[i], "--verbose") == 0)
        {
            g_Verbose = 1;
        }
        else
        {
            DebugMessage(M64MSG_WARNING, "unrecognized command-line parameter '%s'", argv[i]);
        }
        /* continue argv loop */
    }

    /* missing ROM filepath */
    DebugMessage(M64MSG_ERROR, "no ROM filepath given");
    return M64ERR_INPUT_INVALID;
}
Example #14
0
void passe2(precomp_instr *dest, int start, int end, precomp_block *block)
{
  unsigned int i;

  build_wrappers(dest, start, end, block);

  /* First, fix up all the jumps.  This involves a table lookup to find the offset into the block of x86_64 code for
   * for start of a recompiled r4300i instruction corresponding to the given jump destination address in the N64
   * address space.  Next, the relative offset between this destination and the location of the jump instruction is
   * computed and stored in memory, so that the jump will branch to the right place in the recompiled code.
   */
  for (i = 0; i < jumps_number; i++)
  {
    precomp_instr *jump_instr = dest + ((jumps_table[i].mi_addr - dest[0].addr) / 4);
    unsigned int   jmp_offset_loc = jumps_table[i].pc_addr;
    unsigned char *addr_dest = NULL;
    /* calculate the destination address to jump to */
    if (jump_instr->reg_cache_infos.need_map)
    {
      addr_dest = jump_instr->reg_cache_infos.jump_wrapper;
    }
    else
    {
      addr_dest = block->code + jump_instr->local_addr;
    }
    /* write either a 32-bit IP-relative offset or a 64-bit absolute address */
    if (jumps_table[i].absolute64)
    {
      *((unsigned long long *) (block->code + jmp_offset_loc)) = (unsigned long long) addr_dest;
    }
    else
    {
      long jump_rel_offset = (long) (addr_dest - (block->code + jmp_offset_loc + 4));
      *((int *) (block->code + jmp_offset_loc)) = (int) jump_rel_offset;
      if (jump_rel_offset >= 0x7fffffffLL || jump_rel_offset < -0x80000000LL)
      {
        DebugMessage(M64MSG_ERROR, "assembler pass2 error: offset too big for relative jump from %p to %p",
                     (block->code + jmp_offset_loc + 4), addr_dest);
        asm(" int $3; ");
      }
    }
  }

  /* Next, fix up all of the RIP-relative memory accesses.  This is unique to the x86_64 architecture, because
   * the 32-bit absolute displacement addressing mode is not available (and there's no 64-bit absolute displacement
   * mode either).
   */
  for (i = 0; i < riprel_number; i++)
  {
    unsigned char *rel_offset_ptr = block->code + riprel_table[i].pc_addr;
    long rip_rel_offset = (long) (riprel_table[i].global_dst - (rel_offset_ptr + 4 + riprel_table[i].extra_bytes));
    if (rip_rel_offset >= 0x7fffffffLL || rip_rel_offset < -0x80000000LL)
    {
      DebugMessage(M64MSG_ERROR, "assembler pass2 error: offset too big between mem target: %p and code position: %p",
                   riprel_table[i].global_dst, rel_offset_ptr);
      asm(" int $3; ");
    }
    *((int *) rel_offset_ptr) = (int) rip_rel_offset;
  }

}
bool COGLGraphicsContext::Initialize(uint32 dwWidth, uint32 dwHeight, BOOL bWindowed )
{
    DebugMessage(M64MSG_INFO, "Initializing OpenGL Device Context.");
    Lock();

    CGraphicsContext::Get()->m_supportTextureMirror = false;
    CGraphicsContext::Initialize(dwWidth, dwHeight, bWindowed );

    if( bWindowed )
    {
        windowSetting.statusBarHeightToUse = windowSetting.statusBarHeight;
        windowSetting.toolbarHeightToUse = windowSetting.toolbarHeight;
    }
    else
    {
        windowSetting.statusBarHeightToUse = 0;
        windowSetting.toolbarHeightToUse = 0;
    }

    int  depthBufferDepth = options.OpenglDepthBufferSetting;
    int  colorBufferDepth = 32;
    int bVerticalSync = windowSetting.bVerticalSync;
    if( options.colorQuality == TEXTURE_FMT_A4R4G4B4 ) colorBufferDepth = 16;

/*    // init sdl & gl
    DebugMessage(M64MSG_VERBOSE, "Initializing video subsystem...");
    if (CoreVideo_Init() != M64ERR_SUCCESS)   
        return false;
*/
    /* hard-coded attribute values */
    const int iDOUBLEBUFFER = 1;

    /* set opengl attributes */
//    CoreVideo_GL_SetAttribute(M64P_GL_DOUBLEBUFFER, iDOUBLEBUFFER);
//    CoreVideo_GL_SetAttribute(M64P_GL_SWAP_CONTROL, bVerticalSync);
//    CoreVideo_GL_SetAttribute(M64P_GL_BUFFER_SIZE, colorBufferDepth);
//    CoreVideo_GL_SetAttribute(M64P_GL_DEPTH_SIZE, depthBufferDepth);
//
//    /* set multisampling */
//    if (options.multiSampling > 0)
//    {
//        CoreVideo_GL_SetAttribute(M64P_GL_MULTISAMPLEBUFFERS, 1);
//        if (options.multiSampling <= 2)
//            CoreVideo_GL_SetAttribute(M64P_GL_MULTISAMPLESAMPLES, 2);
//        else if (options.multiSampling <= 4)
//            CoreVideo_GL_SetAttribute(M64P_GL_MULTISAMPLESAMPLES, 4);
//        else if (options.multiSampling <= 8)
//            CoreVideo_GL_SetAttribute(M64P_GL_MULTISAMPLESAMPLES, 8);
//        else
//            CoreVideo_GL_SetAttribute(M64P_GL_MULTISAMPLESAMPLES, 16);
//    }
//
//    /* Set the video mode */
//    m64p_video_mode ScreenMode = bWindowed ? M64VIDEO_WINDOWED : M64VIDEO_FULLSCREEN;
//    if (CoreVideo_SetVideoMode(windowSetting.uDisplayWidth, windowSetting.uDisplayHeight, colorBufferDepth, ScreenMode) != M64ERR_SUCCESS)
//    {
//        DebugMessage(M64MSG_ERROR, "Failed to set %i-bit video mode: %ix%i", colorBufferDepth, (int)windowSetting.uDisplayWidth, (int)windowSetting.uDisplayHeight);
//        CoreVideo_Quit();
//        return false;
//    }
//
//#ifdef WIN32
//	GLenum err = glewInit();
//	if (GLEW_OK != err)
//	{
//	  /* Problem: glewInit failed, something is seriously wrong. */
//	  fprintf(stderr, "Error: %s\n", glewGetErrorString(err));
//	}
//#endif
//
//    char caption[500];
//    sprintf(caption, "%s v%i.%i.%i", PLUGIN_NAME, VERSION_PRINTF_SPLIT(PLUGIN_VERSION));
//    CoreVideo_SetCaption(caption);
//    SetWindowMode();
/*	
	SDL_Surface* screen;
	SDL_Init(SDL_INIT_VIDEO);

        if (!(screen = SDL_SetVideoMode(1024, 768, 16, SDL_SWSURFACE )))
        {
            SDL_QuitSubSystem( SDL_INIT_VIDEO );
            return FALSE;
        }

	
	EGLNativeWindowType EGL_handle;
	EGLContext EGL_context;
	HDC EGL_device;
	EGLint EGL_version_major,EGL_version_minor;
	EGLint nConfigs;
	EGLConfig EGL_config;
    GLint   success;

	const EGLint ConfigAttribs[] =
	{
		EGL_LEVEL,				0,
		EGL_DEPTH_SIZE,         16,
		EGL_STENCIL_SIZE,       0,
		EGL_SURFACE_TYPE,		EGL_WINDOW_BIT,
		EGL_RENDERABLE_TYPE,	EGL_OPENGL_ES2_BIT,
		EGL_NATIVE_RENDERABLE,	EGL_FALSE,
		EGL_NONE
	};

	const EGLint ContextAttribs[] =
	{
		EGL_CONTEXT_CLIENT_VERSION, 	2,
		EGL_NONE
	};

	SDL_SysWMinfo info;
	SDL_VERSION(&info.version);
	SDL_GetWMInfo(&info);
	EGL_handle = (EGLNativeWindowType) info.window;
	EGL_device = GetDC(EGL_handle);

	printf("EGL Context Creation\n");
    EGL_display = eglGetDisplay((EGLNativeDisplayType) EGL_device);
    if (EGL_display == EGL_NO_DISPLAY){
        printf( "EGL Display Get failed: %s \n", EGLErrorString());
        return FALSE;
    }

    if (!eglInitialize(EGL_display, &EGL_version_major, &EGL_version_minor)){
        printf( "EGL Display Initialize failed: %s \n", EGLErrorString());
        return FALSE;
    }

    if (!eglChooseConfig(EGL_display, ConfigAttribs, &EGL_config, 1, &nConfigs)){
        printf( "EGL Configuration failed: %s \n", EGLErrorString());
        return FALSE;
    } else if (nConfigs != 1){
        printf( "EGL Configuration failed: nconfig %i, %s \n", nConfigs, EGLErrorString());
        return FALSE;
    }

    EGL_surface = eglCreateWindowSurface(EGL_display, EGL_config, EGL_handle, NULL);
    if (EGL_surface == EGL_NO_SURFACE){
		printf("EGL Surface Creation failed: %s will attempt without window... \n", EGLErrorString());
        EGL_surface = eglCreateWindowSurface(EGL_display, EGL_config, NULL, NULL);
        if (EGL_surface == EGL_NO_SURFACE){
            printf( "EGL Surface Creation failed: %s \n", EGLErrorString());
            return FALSE;
        }
    }
    eglBindAPI(EGL_OPENGL_ES_API);

    EGL_context = eglCreateContext(EGL_display, EGL_config, EGL_NO_CONTEXT, ContextAttribs);
    if (EGL_context == EGL_NO_CONTEXT){
        printf( "EGL Context Creation failed: %s \n", EGLErrorString());
        return FALSE;
    }

    if (!eglMakeCurrent(EGL_display, EGL_surface, EGL_surface, EGL_context)){
        printf( "EGL Make Current failed: %s \n", EGLErrorString());
        return FALSE;
    };
    eglSwapInterval(EGL_display, 1);
*/

#ifdef USE_SDL
//// paulscode, added for switching between RGBA8888 and RGB565
// (part of the color banding fix)
int bitsPP;
if( Android_JNI_UseRGBA8888() )
    bitsPP = 32;
else
    bitsPP = 16;
    /* Set the video mode */
    SDL_Surface* hScreen;
    printf( "Setting video mode %dx%d...\n", windowSetting.uDisplayWidth, windowSetting.uDisplayHeight );
// TODO: I should actually check what the pixelformat is, rather than assuming 16 bpp (RGB_565) or 32 bpp (RGBA_8888):
//    if (!(hScreen = SDL_SetVideoMode( windowSetting.uDisplayWidth, windowSetting.uDisplayHeight, 16, SDL_HWSURFACE )))
    if (!(hScreen = SDL_SetVideoMode( windowSetting.uDisplayWidth, windowSetting.uDisplayHeight, bitsPP, SDL_HWSURFACE )))
    {
        printf( "Problem setting videomode %dx%d: %s\n", windowSetting.uDisplayWidth, windowSetting.uDisplayHeight, SDL_GetError() );
        SDL_QuitSubSystem( SDL_INIT_VIDEO );
        return false;
    }
#endif

	
    InitState();
    InitOGLExtension();
    sprintf(m_strDeviceStats, "%.60s - %.128s : %.60s", m_pVendorStr, m_pRenderStr, m_pVersionStr);
    TRACE0(m_strDeviceStats);
    DebugMessage(M64MSG_INFO, "Using OpenGL: %s", m_strDeviceStats);

    GLint precision,range;

    glGetShaderPrecisionFormat(GL_VERTEX_SHADER,GL_LOW_FLOAT,&precision,&range);
    DebugMessage(M64MSG_INFO,"GLSL Vertex Shader lowp precision:%i range:%i",precision,range);
    glGetShaderPrecisionFormat(GL_VERTEX_SHADER,GL_MEDIUM_FLOAT,&precision,&range);
    DebugMessage(M64MSG_INFO,"GLSL Vertex Shader mediump precision:%i range:%i",precision,range);
    glGetShaderPrecisionFormat(GL_VERTEX_SHADER,GL_HIGH_FLOAT,&precision,&range);
    DebugMessage(M64MSG_INFO,"GLSL Vertex Shader highp precision:%i range:%i",precision,range);

    glGetShaderPrecisionFormat(GL_FRAGMENT_SHADER ,GL_LOW_FLOAT,&precision,&range);
    DebugMessage(M64MSG_INFO,"GLSL Fragment Shader lowp precision:%i range:%i",precision,range);
    glGetShaderPrecisionFormat(GL_FRAGMENT_SHADER,GL_MEDIUM_FLOAT,&precision,&range);
    DebugMessage(M64MSG_INFO,"GLSL Fragment Shader mediump precision:%i range:%i",precision,range);
    glGetShaderPrecisionFormat(GL_FRAGMENT_SHADER,GL_HIGH_FLOAT,&precision,&range);
    DebugMessage(M64MSG_INFO,"GLSL Fragment Shader highp precision:%i range:%i",precision,range);


    Unlock();

    Clear(CLEAR_COLOR_AND_DEPTH_BUFFER);    // Clear buffers
    UpdateFrame();
    Clear(CLEAR_COLOR_AND_DEPTH_BUFFER);
    UpdateFrame();
    
    m_bReady = true;
    status.isVertexShaderEnabled = false;

    return true;
}
Example #16
0
void ParseReference(Barnyard2Config *bc, char *args, SigNode *sn)
{
    char **toks, *system, *id;
    int num_toks;

    DEBUG_WRAP(DebugMessage(DEBUG_MAPS_DEEP, "map: parsing reference %s\n", args););
Example #17
0
EXPORT unsigned int CALL DoRspCycles(unsigned int Cycles)
{
   OSTask_t *task = (OSTask_t*)(rsp.DMEM + 0xFC0);
   unsigned int i, sum=0;

   if( task->type == 1 && task->data_ptr != 0 && GraphicsHle) {
      if (rsp.ProcessDlistList != NULL) {
     rsp.ProcessDlistList();
      }
      *rsp.SP_STATUS_REG |= 0x0203;
      if ((*rsp.SP_STATUS_REG & 0x40) != 0 ) {
     *rsp.MI_INTR_REG |= 0x1;
     rsp.CheckInterrupts();
      }

      *rsp.DPC_STATUS_REG &= ~0x0002;
      return Cycles;
   } else if (task->type == 2 && AudioHle) {
      if (rsp.ProcessAlistList != NULL) {
     rsp.ProcessAlistList();
      }
      *rsp.SP_STATUS_REG |= 0x0203;
      if ((*rsp.SP_STATUS_REG & 0x40) != 0 ) {
     *rsp.MI_INTR_REG |= 0x1;
     rsp.CheckInterrupts();
      }
      return Cycles;
   } else if (task->type == 7) {
      rsp.ShowCFB();
   }

   *rsp.SP_STATUS_REG |= 0x203;
   if ((*rsp.SP_STATUS_REG & 0x40) != 0 )
     {
    *rsp.MI_INTR_REG |= 0x1;
    rsp.CheckInterrupts();
     }

   if (task->ucode_size <= 0x1000)
     for (i=0; i<(task->ucode_size/2); i++)
       sum += *(rsp.RDRAM + task->ucode + i);
   else
     for (i=0; i<(0x1000/2); i++)
       sum += *(rsp.IMEM + i);


   if (task->ucode_size > 0x1000)
     {
    switch(sum)
      {
       case 0x9E2: // banjo tooie (U) boot code
           {
          int i,j;
          memcpy(rsp.IMEM + 0x120, rsp.RDRAM + 0x1e8, 0x1e8);
          for (j=0; j<0xfc; j++)
            for (i=0; i<8; i++)
              *(rsp.RDRAM+((0x2fb1f0+j*0xff0+i)^S8))=*(rsp.IMEM+((0x120+j*8+i)^S8));
           }
         return Cycles;
         break;
       case 0x9F2: // banjo tooie (E) + zelda oot (E) boot code
           {
          int i,j;
          memcpy(rsp.IMEM + 0x120, rsp.RDRAM + 0x1e8, 0x1e8);
          for (j=0; j<0xfc; j++)
            for (i=0; i<8; i++)
              *(rsp.RDRAM+((0x2fb1f0+j*0xff0+i)^S8))=*(rsp.IMEM+((0x120+j*8+i)^S8));
           }
         return Cycles;
         break;
      }
     }
   else
     {
    switch(task->type)
      {
       case 2: // audio
         if (audio_ucode(task) == 0)
           return Cycles;
         break;
       case 4: // jpeg
         switch(sum)
           {
        case 0x278: // used by zelda during boot
          *rsp.SP_STATUS_REG |= 0x200;
          return Cycles;
          break;
        case 0x2e4fc: // uncompress
          jpg_uncompress(task);
          return Cycles;
          break;
        default:
            {
               DebugMessage(M64MSG_WARNING, "unknown jpeg task:  sum:%x", sum);
            }
        }
         break;
      }
     }

#if 0
     {
    FILE *f;
    DebugMessage(M64MSG_WARNING, "unknown task:  type:%d  sum:%x  PC:%lx", (int)task->type, sum, (unsigned long) rsp.SP_PC_REG);

    if (task->ucode_size <= 0x1000)
      {
         f = fopen("imem.dat", "wb");
         if (f == NULL || fwrite(rsp.RDRAM + task->ucode, 1, task->ucode_size, f) != task->ucode_size)
            DebugMessage(M64MSG_WARNING, "couldn't write to RSP debugging file imem.dat");
         fclose(f);

         f = fopen("dmem.dat", "wb");
         if (f == NULL || fwrite(rsp.RDRAM + task->ucode_data, 1, task->ucode_data_size, f) != task->ucode_data_size)
            DebugMessage(M64MSG_WARNING, "couldn't write to RSP debugging file dmem.dat");
         fclose(f);
      }
    else
      {
         f = fopen("imem.dat", "wb");
         if (f == NULL || fwrite(rsp.IMEM, 1, 0x1000, f) != 0x1000)
            DebugMessage(M64MSG_WARNING, "couldn't write to RSP debugging file imem.dat");
         fclose(f);

         f = fopen("dmem.dat", "wb");
         if (f == NULL || fwrite(rsp.DMEM, 1, 0x1000, f) != 0x1000)
            DebugMessage(M64MSG_WARNING, "couldn't write to RSP debugging file dmem.dat");
         fclose(f);
      }
     }
#endif

   return Cycles;
}
Example #18
0
void dvb_debug(char *str_temp)
{
    if(dvb_bug == 0)
        return;
    DebugMessage("===   PXWANG	dvb_debug	CallBy Function:%s", str_temp);
}
Example #19
0
static int ProcessIcmpUnreach(Packet *p)
{
    /* Handle ICMP unreachable */
    SessionKey skey;
    SessionControlBlock *ssn = NULL;
    uint16_t sport;
    uint16_t dport;
    sfaddr_t *src;
    sfaddr_t *dst;

    /* No "orig" IP Header */
    if (!p->orig_iph)
        return 0;

    /* Get TCP/UDP/ICMP session from original protocol/port info
     * embedded in the ICMP Unreach message.  This is already decoded
     * in p->orig_foo.  TCP/UDP ports are decoded as p->orig_sp/dp.
     */
    skey.protocol = GET_ORIG_IPH_PROTO(p);
    sport = p->orig_sp;
    dport = p->orig_dp;

    src = GET_ORIG_SRC(p);
    dst = GET_ORIG_DST(p);

    if (sfip_fast_lt6(src, dst))
    {
        COPY4(skey.ip_l, sfaddr_get_ip6_ptr(src));
        skey.port_l = sport;
        COPY4(skey.ip_h, sfaddr_get_ip6_ptr(dst));
        skey.port_h = dport;
    }
    else if (IP_EQUALITY(src, dst))
    {
        COPY4(skey.ip_l, sfaddr_get_ip6_ptr(src));
        COPY4(skey.ip_h, skey.ip_l);
        if (sport < dport)
        {
            skey.port_l = sport;
            skey.port_h = dport;
        }
        else
        {
            skey.port_l = dport;
            skey.port_h = sport;
        }
    }
    else
    {
        COPY4(skey.ip_l, sfaddr_get_ip6_ptr(dst));
        COPY4(skey.ip_h, sfaddr_get_ip6_ptr(src));
        skey.port_l = dport;
        skey.port_h = sport;
    }

    if (p->vh)
        skey.vlan_tag = (uint16_t)VTH_VLAN(p->vh);
    else
        skey.vlan_tag = 0;

    switch (skey.protocol)
    {
    case IPPROTO_TCP:
        /* Lookup a TCP session */
        ssn = GetLWTcpSession(&skey);
        break;
    case IPPROTO_UDP:
        /* Lookup a UDP session */
        ssn = GetLWUdpSession(&skey);
        break;
    case IPPROTO_ICMP:
        /* Lookup a ICMP session */
        ssn = session_api->get_session_by_key(icmp_lws_cache, &skey);
        break;
    }

    if (ssn)
    {
        /* Mark this session as dead. */
        DEBUG_WRAP(DebugMessage(DEBUG_STREAM_STATE,
            "Marking session as dead, per ICMP Unreachable!\n"););
        ssn->ha_state.session_flags |= SSNFLAG_DROP_CLIENT;
        ssn->ha_state.session_flags |= SSNFLAG_DROP_SERVER;
        ssn->session_state |= STREAM_STATE_UNREACH;
    }
Example #20
0
static int load_controller_config(const char *SectionName, int i, int bIsAutoconfig)
{
    m64p_handle pConfig;
    char input_str[256], value1_str[16], value2_str[16];
    const char *config_ptr;
    int j;

    /* Open the configuration section for this controller */
    if (ConfigOpenSection(SectionName, &pConfig) != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "Couldn't open config section '%s'", SectionName);
        return 0;
    }
    /* Check version number, and if it doesn't match: delete the config section and return with error */
    if (!bIsAutoconfig)
    {
        float fVersion = 0.0f;
        if (ConfigGetParameter(pConfig, "version", M64TYPE_FLOAT, &fVersion, sizeof(float)) != M64ERR_SUCCESS)
        {
            ConfigDeleteSection(SectionName);
            return -1;
        }
        if (((int) fVersion) != ((int) CONFIG_VERSION))
        {
            DebugMessage(M64MSG_WARNING, "Incompatible version %.2f in config section '%s': current is %.2f. Clearing.", fVersion, SectionName, (float) CONFIG_VERSION);
            ConfigDeleteSection(SectionName);
            return -1;
        }
    }
    /* check for the required parameters */
    if (ConfigGetParameter(pConfig, "plugged", M64TYPE_BOOL, &controller[i].control->Present, sizeof(int)) != M64ERR_SUCCESS)
        return -1;
    if (ConfigGetParameter(pConfig, "plugin", M64TYPE_INT, &controller[i].control->Plugin, sizeof(int)) != M64ERR_SUCCESS)
        return -1;
    if (ConfigGetParameter(pConfig, "device", M64TYPE_INT, &controller[i].device, sizeof(int)) != M64ERR_SUCCESS)
        return -1;
    /* Name validation only applies to stored configurations (not auto-configs) */
    if (!bIsAutoconfig)
    {
        char device_name[256];
        if (ConfigGetParameter(pConfig, "name", M64TYPE_STRING, device_name, 256) != M64ERR_SUCCESS)
            device_name[0] = 0;
        if (controller[i].device == DEVICE_NOT_JOYSTICK)
        {
            /* do not load automatically generated keyboard config that was stored to disk (prefer any joysticks attached) */
            if (strcmp(device_name, "AutoKeyboard") == 0)
                return -2;
        }
        else if (controller[i].device >= 0 && device_name[0] != 0)
        {
            /* check that the SDL device name matches the name stored in the config section */
            const char *sdl_name = get_sdl_joystick_name(controller[i].device);
            if (sdl_name == NULL || strncmp(device_name, sdl_name, 255) != 0)
            {
                DebugMessage(M64MSG_WARNING, "N64 Controller #%i: SDL joystick name '%s' doesn't match stored configuration name '%s'", i + 1, sdl_name, device_name);
                return -3;
            }
        }
    }
    /* then do the optional parameters */
    ConfigGetParameter(pConfig, "mouse", M64TYPE_BOOL, &controller[i].mouse, sizeof(int));
    if (ConfigGetParameter(pConfig, "MouseSensitivity", M64TYPE_STRING, input_str, 256) == M64ERR_SUCCESS)
    {
        if (sscanf(input_str, "%f,%f", &controller[i].mouse_sens[0], &controller[i].mouse_sens[1]) != 2)
            DebugMessage(M64MSG_WARNING, "parsing error in MouseSensitivity parameter for controller %i", i + 1);
    }
    if (ConfigGetParameter(pConfig, "AnalogDeadzone", M64TYPE_STRING, input_str, 256) == M64ERR_SUCCESS)
    {
        if (sscanf(input_str, "%i,%i", &controller[i].axis_deadzone[0], &controller[i].axis_deadzone[1]) != 2)
            DebugMessage(M64MSG_WARNING, "parsing error in AnalogDeadzone parameter for controller %i", i + 1);
    }
    if (ConfigGetParameter(pConfig, "AnalogPeak", M64TYPE_STRING, input_str, 256) == M64ERR_SUCCESS)
    {
        if (sscanf(input_str, "%i,%i", &controller[i].axis_peak[0], &controller[i].axis_peak[1]) != 2)
            DebugMessage(M64MSG_WARNING, "parsing error in AnalogPeak parameter for controller %i", i + 1);
    }
    /* load configuration for all the digital buttons */
    for (j = 0; j < X_AXIS; j++)
    {
        if (ConfigGetParameter(pConfig, button_names[j], M64TYPE_STRING, input_str, 256) != M64ERR_SUCCESS)
        {
            DebugMessage(M64MSG_WARNING, "missing config key '%s' for controller %i button %i", button_names[j], i+1, j);
            continue;
        }
        if ((config_ptr = strstr(input_str, "key")) != NULL)
            if (sscanf(config_ptr, "key(%i)", (int *) &controller[i].button[j].key) != 1)
                DebugMessage(M64MSG_WARNING, "parsing error in key() parameter of button '%s' for controller %i", button_names[j], i + 1);
        if ((config_ptr = strstr(input_str, "button")) != NULL)
            if (sscanf(config_ptr, "button(%i)", &controller[i].button[j].button) != 1)
                DebugMessage(M64MSG_WARNING, "parsing error in button() parameter of button '%s' for controller %i", button_names[j], i + 1);
        if ((config_ptr = strstr(input_str, "axis")) != NULL)
        {
            char chAxisDir;
            if (sscanf(config_ptr, "axis(%d%c,%d", &controller[i].button[j].axis, &chAxisDir, &controller[i].button[j].axis_deadzone) != 3 &&
                sscanf(config_ptr, "axis(%i%c", &controller[i].button[j].axis, &chAxisDir) != 2)
                DebugMessage(M64MSG_WARNING, "parsing error in axis() parameter of button '%s' for controller %i", button_names[j], i + 1);
            controller[i].button[j].axis_dir = (chAxisDir == '+' ? 1 : (chAxisDir == '-' ? -1 : 0));
        }
        if ((config_ptr = strstr(input_str, "hat")) != NULL)
        {
            char *lastchar = NULL;
            if (sscanf(config_ptr, "hat(%i %15s", &controller[i].button[j].hat, value1_str) != 2)
                DebugMessage(M64MSG_WARNING, "parsing error in hat() parameter of button '%s' for controller %i", button_names[j], i + 1);
            value1_str[15] = 0;
            /* chop off the last character of value1_str if it is the closing parenthesis */
            lastchar = &value1_str[strlen(value1_str) - 1];
            if (lastchar > value1_str && *lastchar == ')') *lastchar = 0;
            controller[i].button[j].hat_pos = get_hat_pos_by_name(value1_str);
        }
        if ((config_ptr = strstr(input_str, "mouse")) != NULL)
            if (sscanf(config_ptr, "mouse(%i)", &controller[i].button[j].mouse) != 1)
                DebugMessage(M64MSG_WARNING, "parsing error in mouse() parameter of button '%s' for controller %i", button_names[j], i + 1);
    }
    /* load configuration for the 2 analog joystick axes */
    for (j = X_AXIS; j <= Y_AXIS; j++)
    {
        int axis_idx = j - X_AXIS;
        if (ConfigGetParameter(pConfig, button_names[j], M64TYPE_STRING, input_str, 256) != M64ERR_SUCCESS)
        {
            DebugMessage(M64MSG_WARNING, "missing config key '%s' for controller %i axis %i", button_names[j], i+1, axis_idx);
            continue;
        }
        if ((config_ptr = strstr(input_str, "key")) != NULL)
            if (sscanf(config_ptr, "key(%i,%i)", (int *) &controller[i].axis[axis_idx].key_a, (int *) &controller[i].axis[axis_idx].key_b) != 2)
                DebugMessage(M64MSG_WARNING, "parsing error in key() parameter of axis '%s' for controller %i", button_names[j], i + 1);
        if ((config_ptr = strstr(input_str, "button")) != NULL)
            if (sscanf(config_ptr, "button(%i,%i)", &controller[i].axis[axis_idx].button_a, &controller[i].axis[axis_idx].button_b) != 2)
                DebugMessage(M64MSG_WARNING, "parsing error in button() parameter of axis '%s' for controller %i", button_names[j], i + 1);
        if ((config_ptr = strstr(input_str, "axis")) != NULL)
        {
            char chAxisDir1, chAxisDir2;
            if (sscanf(config_ptr, "axis(%i%c,%i%c)", &controller[i].axis[axis_idx].axis_a, &chAxisDir1,
                                                      &controller[i].axis[axis_idx].axis_b, &chAxisDir2) != 4)
                DebugMessage(M64MSG_WARNING, "parsing error in axis() parameter of axis '%s' for controller %i", button_names[j], i + 1);
            controller[i].axis[axis_idx].axis_dir_a = (chAxisDir1 == '+' ? 1 : (chAxisDir1 == '-' ? -1 : 0));
            controller[i].axis[axis_idx].axis_dir_b = (chAxisDir2 == '+' ? 1 : (chAxisDir2 == '-' ? -1 : 0));
        }
        if ((config_ptr = strstr(input_str, "hat")) != NULL)
        {
            char *lastchar = NULL;
            if (sscanf(config_ptr, "hat(%i %15s %15s", &controller[i].axis[axis_idx].hat, value1_str, value2_str) != 3)
                DebugMessage(M64MSG_WARNING, "parsing error in hat() parameter of axis '%s' for controller %i", button_names[j], i + 1);
            value1_str[15] = value2_str[15] = 0;
            /* chop off the last character of value2_str if it is the closing parenthesis */
            lastchar = &value2_str[strlen(value2_str) - 1];
            if (lastchar > value2_str && *lastchar == ')') *lastchar = 0;
            controller[i].axis[axis_idx].hat_pos_a = get_hat_pos_by_name(value1_str);
            controller[i].axis[axis_idx].hat_pos_b = get_hat_pos_by_name(value2_str);
        }
    }

    return 1;
}
Example #21
0
void lircCheckInput(void)
{
    struct pollfd lircpoll;
    lircpoll.fd = g_lircfd;
    lircpoll.events = POLLIN;

    if(poll(&lircpoll, 1, 0) > 0)
    {
        char *code;
        char *c;
        int ret;

        if(lirc_nextcode(&code) == 0 && code != NULL)
        {
            while((ret = lirc_code2char(g_config, code, &c)) == 0 && c!=NULL)
            {
                char *c_ind = c;
                while(*c_ind != '\0')
                {
                    *c_ind = toupper(*c_ind);
                    c_ind++;
                }
                DebugMessage(M64MSG_VERBOSE, "LIRC Execing command \"%s\"", c);

                if(strcmp(c, "SAVE") == 0)
                    savestates_job |= SAVESTATE;
                else if(strcmp(c, "LOAD") == 0)
                    savestates_job |= LOADSTATE;
                else if(strcmp(c, "QUIT") == 0)
                    main_stop();
                else if(strcmp(c, "FULLSCREEN") == 0)
                    changeWindow();
                else if(strcmp(c, "MUTE") == 0)
                {
                    volumeMute();
                    main_draw_volume_osd();
                }
                else if(strcmp(c, "VOL+") == 0)
                {
                    volumeUp();
                    main_draw_volume_osd();
                }
                else if(strcmp(c, "VOL-") == 0)
                {
                    volumeDown();
                    main_draw_volume_osd();
                }
                else if(strcmp(c, "SCREENSHOT") == 0)
                    main_take_next_screenshot();
                else if(strcmp(c, "SPEED+") == 0)
                    main_speedup(5);
                else if(strcmp(c, "SPEED-") == 0)
                    main_speeddown(5);
                else if(strcmp(c, "ADVANCE") == 0)
                    main_advance_one();
                else if(strcmp(c, "PAUSE") == 0)
                    main_toggle_pause();
                else
                {
                    int val = ((int)c[0])-((int) '0');
                    if (val >= 0 && val <= 9)
                        savestates_select_slot( val );
                }
            }
            free(code);
        }
    }
}
Example #22
0
void load_configuration(int bPrintSummary)
{
    char SectionName[32];
    const char *JoyName;
    int joy_found = 0, joy_plugged = 0;
    int readOK;
    int n64CtrlIdx, sdlCtrlIdx, j;

    /* loop through all 4 simulated N64 controllers */
    for (n64CtrlIdx=0,sdlCtrlIdx=0; n64CtrlIdx < 4; n64CtrlIdx++)
    {
        /* reset the controller configuration */
        clear_controller(n64CtrlIdx);
        /* try to load the config from the core's configuration api */
        sprintf(SectionName, "Input-SDL-Control%i", n64CtrlIdx + 1);
        readOK = load_controller_config(SectionName, n64CtrlIdx, 0);

        if (readOK <= 0 || controller[n64CtrlIdx].device == DEVICE_AUTO)
        {
            int ControllersFound = 0;
            /* make sure that SDL device number hasn't already been used for a different N64 controller */
            for (j = 0; j < n64CtrlIdx; j++)
            {
                if (controller[j].device == sdlCtrlIdx)
                {
                    sdlCtrlIdx++;
                    j = -1;
                }
            }
            /* if auto / bad config, get joystick name based on SDL order */
            JoyName = get_sdl_joystick_name(sdlCtrlIdx);
            /* reset the controller configuration again and try to auto-configure */
            ControllersFound = auto_set_defaults(sdlCtrlIdx, JoyName);
            sdlCtrlIdx++;
            if (ControllersFound == 0)
            {
                controller[n64CtrlIdx].device = DEVICE_AUTO;
                controller[n64CtrlIdx].control->Present = 0;
                DebugMessage(M64MSG_WARNING, "N64 Controller #%i: Disabled, SDL joystick %i is not available", n64CtrlIdx+1, sdlCtrlIdx-1);
            }
            else
            {
                for (j = 0; j < ControllersFound; j++) /* a USB device may have > 1 controller */
                {
                    sprintf(SectionName, "AutoConfig%i", j);
                    if (n64CtrlIdx + j > 3)
                    {
                        ConfigDeleteSection(SectionName);
                        continue;
                    }
                    clear_controller(n64CtrlIdx + j);
                    if (load_controller_config(SectionName, n64CtrlIdx + j, 1) > 0)
                    {
                        /* use ConfigSetDefault*() to save this auto-config if config section was empty */
                        save_controller_config(n64CtrlIdx + j, JoyName);
                        DebugMessage(M64MSG_INFO, "N64 Controller #%i: Using auto-config for SDL joystick %i ('%s')", n64CtrlIdx+1, controller[n64CtrlIdx].device, JoyName);
                    }
                    else
                    {
                        DebugMessage(M64MSG_ERROR, "Autoconfig data invalid for controller #%i in device '%s'", j + 1, JoyName);
                    }
                    ConfigDeleteSection(SectionName);
                }
                n64CtrlIdx += ControllersFound - 1;
                continue;
            }
        }
        else if (controller[n64CtrlIdx].device >= 0)
        {
            /* if joystick found in cfg, take its SDL number from there */
            JoyName = get_sdl_joystick_name(controller[n64CtrlIdx].device);
            /* valid joystick configuration was read; check if the specified joystick is available in SDL */
            if (JoyName == NULL)
            {
                controller[n64CtrlIdx].device = DEVICE_AUTO;
                controller[n64CtrlIdx].control->Present = 0;
                DebugMessage(M64MSG_WARNING, "N64 Controller #%i: Disabled, SDL joystick %i is not available", n64CtrlIdx+1, controller[n64CtrlIdx].device);
            }
            else
                DebugMessage(M64MSG_INFO, "N64 Controller #%i: Using stored config for SDL joystick %i ('%s')", n64CtrlIdx+1, controller[n64CtrlIdx].device, JoyName);
        }
        else /* controller is configured for keyboard/mouse */
        {
            DebugMessage(M64MSG_INFO, "N64 Controller #%i: Using keyboard/mouse", n64CtrlIdx+1);
        }
    }

    /* see how many joysticks were found */
    joy_found = 0, joy_plugged = 0;
    for (j = 0; j < 4; j++)
    {
        if (controller[j].device >= 0 || controller[j].device == DEVICE_NOT_JOYSTICK)
        {
            joy_found++;
            if (controller[j].control->Present)
                joy_plugged++;
        }
    }

    /* fallback to keyboard if no joysticks are available and 'plugged in' */
    if (joy_found == 0 || joy_plugged == 0)
    {
        force_controller_keyboard(0);
    }

    if (bPrintSummary)
    {
        if (joy_found > 0 && joy_plugged > 0)
        {
            DebugMessage(M64MSG_INFO, "%i controller(s) found, %i plugged in and usable in the emulator", joy_found, joy_plugged);
        }
        else
        {
            if (joy_found == 0)
                DebugMessage(M64MSG_WARNING, "No joysticks/controllers found");
            else if (joy_plugged == 0)
                DebugMessage(M64MSG_WARNING, "%i controllers found, but none were 'plugged in'", joy_found);
        }
    }

}
Example #23
0
void gen_interupt(void)
{
    if (stop == 1)
    {
        vi_counter = 0; // debug
        dyna_stop();
    }

    if (!interupt_unsafe_state)
    {
        if (savestates_get_job() == savestates_job_load)
        {
            savestates_load();
            return;
        }

        if (reset_hard_job)
        {
            reset_hard();
            reset_hard_job = 0;
            return;
        }
    }
   
    if (skip_jump)
    {
        unsigned int dest = skip_jump;
        skip_jump = 0;

        if (q->count > Count || (Count - q->count) < 0x80000000)
            next_interupt = q->count;
        else
            next_interupt = 0;
        
        last_addr = dest;
        generic_jump_to(dest);
        return;
    } 

    switch(q->type)
    {
        case SPECIAL_INT:
            if (Count > 0x10000000) return;
            remove_interupt_event();
            add_interupt_event_count(SPECIAL_INT, 0);
            return;
            break;
        case VI_INT:
            if(vi_counter < 60)
            {
                if (vi_counter == 0)
                    cheat_apply_cheats(ENTRY_BOOT);
                vi_counter++;
            }
            else
            {
                cheat_apply_cheats(ENTRY_VI);
            }
            gfx.updateScreen();
#ifdef WITH_LIRC
            lircCheckInput();
#endif
            SDL_PumpEvents();

            refresh_stat();

            // if paused, poll for input events
            //if(rompause)
            //{
                osd_render();  // draw Paused message in case gfx.updateScreen didn't do it
                //VidExt_GL_SwapBuffers();
            //    while(rompause)
            //    {
                    //SDL_Delay(10);

                    SDL_PumpEvents();
#ifdef WITH_LIRC
                    lircCheckInput();
#endif //WITH_LIRC
            //    }
            //}

            new_vi();
			WaitForSingleObject(rompausesem, INFINITE);
            if (vi_register.vi_v_sync == 0) vi_register.vi_delay = 500000;
            else vi_register.vi_delay = ((vi_register.vi_v_sync + 1)*1500);
            next_vi += vi_register.vi_delay;
            if (vi_register.vi_status&0x40) vi_field=1-vi_field;
            else vi_field=0;

            remove_interupt_event();
            add_interupt_event_count(VI_INT, next_vi);
    
            MI_register.mi_intr_reg |= 0x08;
            if (MI_register.mi_intr_reg & MI_register.mi_intr_mask_reg)
                Cause = (Cause | 0x400) & 0xFFFFFF83;
            else
                return;
            if ((Status & 7) != 1) return;
            if (!(Status & Cause & 0xFF00)) return;
            break;
    
        case COMPARE_INT:
            remove_interupt_event();
            Count+=2;
            add_interupt_event_count(COMPARE_INT, Compare);
            Count-=2;
    
            Cause = (Cause | 0x8000) & 0xFFFFFF83;
            if ((Status & 7) != 1) return;
            if (!(Status & Cause & 0xFF00)) return;
            break;
    
        case CHECK_INT:
            remove_interupt_event();
            break;
    
        case SI_INT:
#ifdef WITH_LIRC
            lircCheckInput();
#endif //WITH_LIRC
            SDL_PumpEvents();
            PIF_RAMb[0x3F] = 0x0;
            remove_interupt_event();
            MI_register.mi_intr_reg |= 0x02;
            si_register.si_stat |= 0x1000;
            if (MI_register.mi_intr_reg & MI_register.mi_intr_mask_reg)
                Cause = (Cause | 0x400) & 0xFFFFFF83;
            else
                return;
            if ((Status & 7) != 1) return;
            if (!(Status & Cause & 0xFF00)) return;
            break;
    
        case PI_INT:
            remove_interupt_event();
            MI_register.mi_intr_reg |= 0x10;
            pi_register.read_pi_status_reg &= ~3;
            if (MI_register.mi_intr_reg & MI_register.mi_intr_mask_reg)
                Cause = (Cause | 0x400) & 0xFFFFFF83;
            else
                return;
            if ((Status & 7) != 1) return;
            if (!(Status & Cause & 0xFF00)) return;
            break;
    
        case AI_INT:
            if (ai_register.ai_status & 0x80000000) // full
            {
                unsigned int ai_event = get_event(AI_INT);
                remove_interupt_event();
                ai_register.ai_status &= ~0x80000000;
                ai_register.current_delay = ai_register.next_delay;
                ai_register.current_len = ai_register.next_len;
                add_interupt_event_count(AI_INT, ai_event+ai_register.next_delay);
         
                MI_register.mi_intr_reg |= 0x04;
                if (MI_register.mi_intr_reg & MI_register.mi_intr_mask_reg)
                    Cause = (Cause | 0x400) & 0xFFFFFF83;
                else
                    return;
                if ((Status & 7) != 1) return;
                if (!(Status & Cause & 0xFF00)) return;
            }
            else
            {
                remove_interupt_event();
                ai_register.ai_status &= ~0x40000000;

                //-------
                MI_register.mi_intr_reg |= 0x04;
                if (MI_register.mi_intr_reg & MI_register.mi_intr_mask_reg)
                    Cause = (Cause | 0x400) & 0xFFFFFF83;
                else
                    return;
                if ((Status & 7) != 1) return;
                if (!(Status & Cause & 0xFF00)) return;
            }
            break;

        case SP_INT:
            remove_interupt_event();
            sp_register.sp_status_reg |= 0x203;
            // sp_register.sp_status_reg |= 0x303;
    
            if (!(sp_register.sp_status_reg & 0x40)) return; // !intr_on_break
            MI_register.mi_intr_reg |= 0x01;
            if (MI_register.mi_intr_reg & MI_register.mi_intr_mask_reg)
                Cause = (Cause | 0x400) & 0xFFFFFF83;
            else
                return;
            if ((Status & 7) != 1) return;
            if (!(Status & Cause & 0xFF00)) return;
            break;
    
        case DP_INT:
            remove_interupt_event();
            dpc_register.dpc_status &= ~2;
            dpc_register.dpc_status |= 0x81;
            MI_register.mi_intr_reg |= 0x20;
            if (MI_register.mi_intr_reg & MI_register.mi_intr_mask_reg)
                Cause = (Cause | 0x400) & 0xFFFFFF83;
            else
                return;
            if ((Status & 7) != 1) return;
            if (!(Status & Cause & 0xFF00)) return;
            break;

        case HW2_INT:
            // Hardware Interrupt 2 -- remove interrupt event from queue
            remove_interupt_event();
            // setup r4300 Status flags: reset TS, and SR, set IM2
            Status = (Status & ~0x00380000) | 0x1000;
            Cause = (Cause | 0x1000) & 0xFFFFFF83;
            /* the exception_general() call below will jump to the interrupt vector (0x80000180) and setup the
             * interpreter or dynarec
             */
            break;

        case NMI_INT:
            // Non Maskable Interrupt -- remove interrupt event from queue
            remove_interupt_event();
            // setup r4300 Status flags: reset TS and SR, set BEV, ERL, and SR
            Status = (Status & ~0x00380000) | 0x00500004;
            Cause  = 0x00000000;
            // simulate the soft reset code which would run from the PIF ROM
            r4300_reset_soft();
            // clear all interrupts, reset interrupt counters back to 0
            Count = 0;
            vi_counter = 0;
            init_interupt();
            // clear the audio status register so that subsequent write_ai() calls will work properly
            ai_register.ai_status = 0;
            // set ErrorEPC with the last instruction address
            ErrorEPC = PC->addr;
            // reset the r4300 internal state
            if (r4300emu != CORE_PURE_INTERPRETER)
            {
                // clear all the compiled instruction blocks and re-initialize
                free_blocks();
                init_blocks();
            }
            // adjust ErrorEPC if we were in a delay slot, and clear the delay_slot and dyna_interp flags
            if(delay_slot==1 || delay_slot==3)
            {
                ErrorEPC-=4;
            }
            delay_slot = 0;
            dyna_interp = 0;
            // set next instruction address to reset vector
            last_addr = 0xa4000040;
            generic_jump_to(0xa4000040);
            return;

        default:
            DebugMessage(M64MSG_ERROR, "Unknown interrupt queue event type %.8X.", q->type);
            remove_interupt_event();
            break;
    }

#ifdef NEW_DYNAREC
    if (r4300emu == CORE_DYNAREC) {
        EPC = pcaddr;
        pcaddr = 0x80000180;
        Status |= 2;
        Cause &= 0x7FFFFFFF;
        pending_exception=1;
    } else {
        exception_general();
    }
#else
    exception_general();
#endif

    if (!interupt_unsafe_state)
    {
        if (savestates_get_job() == savestates_job_save)
        {
            savestates_save();
            return;
        }
    }
}
Example #24
0
/****************************************************************************
 *
 * Function: RegisterPlugin(char *, void (*func)())
 *
 * Purpose:  Associates a rule option keyword with an option setup/linking
 *           function.
 *
 * Arguments: keyword => The option keyword to associate with the option
 *                       handler
 *            *func => function pointer to the handler
 *
 * Returns: void function
 *
 ***************************************************************************/
void RegisterPlugin(char *keyword, void (*func) (char *, OptTreeNode *, int))
{
    KeywordXlateList *idx;

    DEBUG_WRAP(DebugMessage(DEBUG_PLUGIN, "Registering keyword:func => %s:%p\n",
               keyword, func););
Example #25
0
void add_interupt_event_count(int type, unsigned int count)
{
    struct node* event;
    struct node* e;
    int special;

    special = (type == SPECIAL_INT);
   
    if(g_cp0_regs[CP0_COUNT_REG] > UINT32_C(0x80000000)) SPECIAL_done = 0;
   
    if (get_event(type)) {
        DebugMessage(M64MSG_WARNING, "two events of type 0x%x in interrupt queue", type);
        /* FIXME: hack-fix for freezing in Perfect Dark
         * http://code.google.com/p/mupen64plus/issues/detail?id=553
         * https://github.com/mupen64plus-ae/mupen64plus-ae/commit/802d8f81d46705d64694d7a34010dc5f35787c7d
         */
        return;
    }

    event = alloc_node(&q.pool);
    if (event == NULL)
    {
        DebugMessage(M64MSG_ERROR, "Failed to allocate node for new interrupt event");
        return;
    }

    event->data.count = count;
    event->data.type = type;

    if (q.first == NULL)
    {
        q.first = event;
        event->next = NULL;
        next_interupt = q.first->data.count;
    }
    else if (before_event(count, q.first->data.count, q.first->data.type) && !special)
    {
        event->next = q.first;
        q.first = event;
        next_interupt = q.first->data.count;
    }
    else
    {
        for(e = q.first;
            e->next != NULL &&
            (!before_event(count, e->next->data.count, e->next->data.type) || special);
            e = e->next);

        if (e->next == NULL)
        {
            e->next = event;
            event->next = NULL;
        }
        else
        {
            if (!special)
                for(; e->next != NULL && e->next->data.count == count; e = e->next);

            event->next = e->next;
            e->next = event;
        }
    }
}
Example #26
0
void JudgeTask::doRun()
{
    ILogger *logger = LoggerFactory::getLogger(LoggerId::AppInitLoggerId);

    OJString infoBuffer;

    FormatString(infoBuffer, OJStr("[JudgeTask] task %d"), Input.SolutionID);
    logger->logInfo(infoBuffer);

    //编译
    if(!compile())
    {
        return;
    }

    //搜索测试数据

    OJString path;
    FormatString(path, OJStr("%s/%d"), AppConfig::Path::TestDataPath.c_str(), Input.ProblemID);
    
    DebugMessage(OJStr("[JudgeTask] %d search path: %s"), Input.SolutionID, path.c_str());

    //TODO: 根据是否specialJudge,决定搜索.out还是.in文件。
    FileTool::FileNameList fileList;
    FileTool::GetSpecificExtFiles(fileList, path, OJStr(".out"), true);

    OJUInt32_t testCount = fileList.size();
    if(testCount <= 0)//没有测试数据
    {
        output_.Result = AppConfig::JudgeCode::SystemError;

        FormatString(infoBuffer, OJStr("[JudgeTask] not found test data for solution %d problem %d."),
            Input.SolutionID, Input.ProblemID);
        logger->logError(infoBuffer);
        return;
    }

    //测试多组数据
    OJUInt32_t accepted = 0;
    for(OJUInt32_t i=0; i<testCount; ++i)
    {
        answerOutputFile_ = fileList[i];
        answerInputFile_ = FileTool::RemoveFileExt(answerOutputFile_);
        answerInputFile_ += OJStr(".in");

        DebugMessage(OJStr("[JudgeTask] %d input file: %s"), 
            Input.SolutionID, answerInputFile_.c_str());
        DebugMessage(OJStr("[JudgeTask] %d output file: %s"), 
            Input.SolutionID, answerOutputFile_.c_str());

        if(!safeRemoveFile(userOutputFile_))
        {
            output_.Result = AppConfig::JudgeCode::SystemError;
            break;
        }

        if(!excute())
        {
            break;
        }
            
        if(!match())
        {
            break;
        }
        
        ++accepted;
    }

    output_.PassRate = float(accepted)/testCount;
}
Example #27
0
static m64p_error OpenConfigurationHandles(void)
{
    float fConfigParamsVersion;
    int bSaveConfig = 0;
    m64p_error rval;
    unsigned int i;

    /* Open Configuration sections for core library and console User Interface */
    rval = (*ConfigOpenSection)("Core", &l_ConfigCore);
    if (rval != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "failed to open 'Core' configuration section");
        return rval;
    }

    rval = (*ConfigOpenSection)("Video-General", &l_ConfigVideo);
    if (rval != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "failed to open 'Video-General' configuration section");
        return rval;
    }

    rval = (*ConfigOpenSection)("Transferpak", &l_ConfigTransferPak);
    if (rval != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "failed to open 'Transferpak' configuration section");
        return rval;
    }

    rval = (*ConfigOpenSection)("64DD", &l_Config64DD);
    if (rval != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "failed to open '64DD' configuration section");
        return rval;
    }

    rval = (*ConfigOpenSection)("UI-Console", &l_ConfigUI);
    if (rval != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_ERROR, "failed to open 'UI-Console' configuration section");
        return rval;
    }

    if ((*ConfigGetParameter)(l_ConfigUI, "Version", M64TYPE_FLOAT, &fConfigParamsVersion, sizeof(float)) != M64ERR_SUCCESS)
    {
        DebugMessage(M64MSG_WARNING, "No version number in 'UI-Console' config section. Setting defaults.");
        (*ConfigDeleteSection)("UI-Console");
        (*ConfigOpenSection)("UI-Console", &l_ConfigUI);
        bSaveConfig = 1;
    }
    else if (((int) fConfigParamsVersion) != ((int) CONFIG_PARAM_VERSION))
    {
        DebugMessage(M64MSG_WARNING, "Incompatible version %.2f in 'UI-Console' config section: current is %.2f. Setting defaults.", fConfigParamsVersion, (float) CONFIG_PARAM_VERSION);
        (*ConfigDeleteSection)("UI-Console");
        (*ConfigOpenSection)("UI-Console", &l_ConfigUI);
        bSaveConfig = 1;
    }
    else if ((CONFIG_PARAM_VERSION - fConfigParamsVersion) >= 0.0001f)
    {
        /* handle upgrades */
        float fVersion = CONFIG_PARAM_VERSION;
        ConfigSetParameter(l_ConfigUI, "Version", M64TYPE_FLOAT, &fVersion);
        DebugMessage(M64MSG_INFO, "Updating parameter set version in 'UI-Console' config section to %.2f", fVersion);
        bSaveConfig = 1;
    }

    /* Set default values for my Config parameters */
    (*ConfigSetDefaultFloat)(l_ConfigUI, "Version", CONFIG_PARAM_VERSION,  "Mupen64Plus UI-Console config parameter set version number.  Please don't change this version number.");
    (*ConfigSetDefaultString)(l_ConfigUI, "PluginDir", OSAL_CURRENT_DIR, "Directory in which to search for plugins");
    (*ConfigSetDefaultString)(l_ConfigUI, "VideoPlugin", "mupen64plus-video-rice" OSAL_DLL_EXTENSION, "Filename of video plugin");
    (*ConfigSetDefaultString)(l_ConfigUI, "AudioPlugin", "mupen64plus-audio-sdl" OSAL_DLL_EXTENSION, "Filename of audio plugin");
    (*ConfigSetDefaultString)(l_ConfigUI, "InputPlugin", "mupen64plus-input-sdl" OSAL_DLL_EXTENSION, "Filename of input plugin");
    (*ConfigSetDefaultString)(l_ConfigUI, "RspPlugin", "mupen64plus-rsp-hle" OSAL_DLL_EXTENSION, "Filename of RSP plugin");

    for(i = 1; i < 5; ++i) {
        char key[64];
        char desc[2048];
#define SET_DEFAULT_STRING(key_fmt, default_value, desc_fmt) \
        do { \
            snprintf(key, sizeof(key), key_fmt, i); \
            snprintf(desc, sizeof(desc), desc_fmt, i); \
            (*ConfigSetDefaultString)(l_ConfigTransferPak, key, default_value, desc); \
        } while(0)

        SET_DEFAULT_STRING("GB-rom-%u", "", "Filename of the GB ROM to load into transferpak %u");
        SET_DEFAULT_STRING("GB-ram-%u", "", "Filename of the GB RAM to load into transferpak %u");
#undef SET_DEFAULT_STRING
    }

    (*ConfigSetDefaultString)(l_Config64DD, "IPL-ROM", "", "Filename of the 64DD IPL ROM");
    (*ConfigSetDefaultString)(l_Config64DD, "Disk", "", "Filename of the disk to load into Disk Drive");

    if (bSaveConfig && ConfigSaveSection != NULL) { /* ConfigSaveSection was added in Config API v2.1.0 */
        (*ConfigSaveSection)("UI-Console");
        (*ConfigSaveSection)("Transferpak");
    }

    return M64ERR_SUCCESS;
}