Beispiel #1
0
int sceKernelRegisterSysEventHandler(SceSysEventHandler* handler)
{
    int oldIntr1 = suspendIntr();
    int oldIntr2 = suspendIntr();
    SceSysEventHandler *cur = g_sysEvHandlers;
    // CA90
    while (cur != NULL)
    {
        if (cur == handler)
            break;
        cur = cur->next;
    }
    // CAA4
    resumeIntr(oldIntr2);
    if (cur == NULL)
    {   
        handler->busy = 0;
        // CAE0
        handler->gp = pspGetGp();
        handler->next = g_sysEvHandlers;
        g_sysEvHandlers = handler;
        resumeIntr(oldIntr1);
        return 0;
    }
    resumeIntr(oldIntr1);
    return 0x80020067;
}
Beispiel #2
0
int sceKernelSysEventDispatch(int ev_type_mask, int ev_id, char* ev_name, void* param, int* result, int break_nonzero, SceSysEventHandler **break_handler)
{
    int oldGp = pspGetGp();
    int ret = 0;
    int oldIntr = suspendIntr();
    SceSysEventHandler *cur = g_sysEvHandlers;
    // C928
    while (cur != NULL)
    {
        if ((cur->type_mask & ev_type_mask) != 0)
        {
            // C984
            cur->busy = 1;
            resumeIntr(oldIntr);
            pspSetGp(cur->gp);
            ret = cur->handler(ev_id, ev_name, param, result);
            oldIntr = suspendIntr();
            cur->busy = 0;
            if (ret < 0 && break_nonzero != 0)
            {
                // C9D8
                if (break_handler != NULL)
                    *break_handler = cur;
                break;
            }
            ret = 0;
        }
        // C934
        cur = cur->next;
    }
    // C940
    resumeIntr(oldIntr);
    pspSetGp(oldGp);
    return ret;
}
Beispiel #3
0
int sceKernelUnregisterSysEventHandler(SceSysEventHandler *handler)
{
    int oldIntr = suspendIntr();
    if (handler->busy != 0)
    {
        // C8A8
        resumeIntr(oldIntr);
        return 0x80020001;
    }
    SceSysEventHandler *cur = g_sysEvHandlers;
    SceSysEventHandler *prev = NULL;
    // C84C
    while (cur != NULL)
    {
        if (cur == handler)
        {
            // C88C
            if (prev == NULL) {
                // C8A0
                g_sysEvHandlers = cur->next;
            }
            else
                prev->next = cur->next;
            break;
        }
        prev = cur;
        cur = cur->next;
    }
    // C864
    resumeIntr(oldIntr);
    if (cur == NULL)
        return 0x80020068;
    return 0;
}
Beispiel #4
0
void
SH4dev::hd64465_dump()
{

    DPRINTF((TEXT("<<<HD64465>>>\n")));
    if (_reg_read_2(HD64465_SDIDR) != 0x8122) {
        DPRINTF((TEXT("not found.\n")));
        return;
    }

    DPRINTF((TEXT("SMSCR:  ")));	// standby
    bitdisp(_reg_read_2(HD64465_SMSCR));
    DPRINTF((TEXT("SPCCR:  ")));	// clock
    bitdisp(_reg_read_2(HD64465_SPCCR));

    DPRINTF((TEXT("\nNIRR:   ")));	// request
    bitdisp(_reg_read_2(HD64465_NIRR));
    DPRINTF((TEXT("NIMR:   ")));	// mask
    bitdisp(_reg_read_2(HD64465_NIMR));
    DPRINTF((TEXT("NITR:   ")));	// trigger
    bitdisp(_reg_read_2(HD64465_NITR));

#if 0 // monitoring HD64465 interrupt request.
    suspendIntr();
    while (1)
        bitdisp(_reg_read_2(HD64465_NIRR));
    /* NOTREACHED */
#endif
}
Beispiel #5
0
int sceKernelPowerUnlock(int unk)
{
    if (g_powerHandlers == NULL)
    {
        // CB90
        int oldIntr = suspendIntr();
        g_numPowerLock--;
        resumeIntr(oldIntr);
        return 0;
    }
    return g_powerHandlers->unlock(unk);
}
Beispiel #6
0
int sceKernelRegisterResumeHandler(int reg, int (*handler)(int, void*), void *param)
{
    if (reg < 0 || reg >= 32)
        return -1;
    int oldIntr = suspendIntr();
    SceResumeHandler *cur = &g_resumeHandlers[reg];
    cur->handler = handler;
    cur->param = param;
    cur->gp = pspGetGp();
    resumeIntr(oldIntr);
    return 0;
}
Beispiel #7
0
int sceKernelIsRegisterSysEventHandler(SceSysEventHandler* handler)
{
    int oldIntr = suspendIntr();
    SceSysEventHandler *cur = g_sysEvHandlers;
    // CA24
    while (cur != NULL)
    {
        if (cur == handler)
            break;
        cur = cur->next;
    }
    // CA38
    resumeIntr(oldIntr);
    return (cur != NULL);
}
Beispiel #8
0
//
// Get physical address from memory mapped TLB.
// SH3 version. SH4 can't do this method. because address/data array must be
// accessed from P2.
//
paddr_t
MemoryManager_SHMMU::searchPage(vaddr_t vaddr)
{
	u_int32_t vpn, idx, s, dum, aae, dae, entry_idx, asid;
	paddr_t paddr = ~0;
	int way, kmode;

	vpn = vaddr & SH3_PAGE_MASK;
	// Windows CE uses VPN-only index-mode.
	idx = vaddr & SH3_MMU_VPN_MASK;

	kmode = SetKMode(1);
	// Get current ASID 
	asid = _reg_read_4(SH3_PTEH) & SH3_PTEH_ASID_MASK;

	// to avoid another TLB access, disable external interrupt.
	s = suspendIntr();

	do {
		// load target address page to TLB
		dum = _reg_read_4(vaddr);
		_reg_write_4(vaddr, dum);

		for (way = 0; way < SH3_MMU_WAY; way++) {
			entry_idx = idx | (way << SH3_MMU_WAY_SHIFT);
			// inquire MMU address array.
			aae = _reg_read_4(SH3_MMUAA | entry_idx);
						      
			if (!(aae & SH3_MMU_D_VALID) ||
			    ((aae & SH3_MMUAA_D_ASID_MASK) != asid) ||
			    (((aae | idx) & SH3_PAGE_MASK) != vpn))
				continue;

			// entry found.
			// inquire MMU data array to get its physical address.
			dae = _reg_read_4(SH3_MMUDA | entry_idx);
			paddr = (dae & SH3_PAGE_MASK) | (vaddr & ~SH3_PAGE_MASK);
			break;
		}
	} while (paddr == ~0);

	resumeIntr(s);
	SetKMode(kmode);

	return paddr;
}
Beispiel #9
0
// INTC
void
SH4dev::icu_dump()
{
#define ON(x, c)	((x) & (c) ? check[1] : check[0])
#define _(n)		DPRINTF((TEXT("%S %S "), #n, ON(r, SH4_ICR_ ## n)))
    static const char *check[] = { "[_]", "[x]" };
    u_int16_t r;

    super::icu_dump_priority(_ipr_table);

    r = _reg_read_2(SH4_ICR);
    DPRINTF((TEXT("ICR: ")));
    _(NMIL);
    _(MAI);
    _(NMIB);
    _(NMIE);
    _(IRLM);
    DPRINTF((TEXT("0x%04x\n"), r));

#if 0 // monitoring SH4 interrupt request.
    // disable SH3 internal devices interrupt.
    suspendIntr();
    _reg_write_2(SH4_IPRA, 0);
    _reg_write_2(SH4_IPRB, 0);
    _reg_write_2(SH4_IPRC, 0);
//	_reg_write_2(SH4_IPRD, 0);  SH7709S only.
    resumeIntr(0);	// all interrupts enable.
    while (1) {
        DPRINTF((TEXT("%04x ", _reg_read_2(HD64465_NIRR))));
        bitdisp(_reg_read_4(SH4_INTEVT));
    }
    /* NOTREACHED */
#endif
#undef _
#undef ON
}
	bitdisp(_reg_read_2(HD64461_GPC##x##R_REG16));			\
	bitdisp(_reg_read_2(HD64461_GPD##x##R_REG16))

	DPRINTF((TEXT("GPIO Port Control Register\n")));
	GPIO_DUMP(C);
	DPRINTF((TEXT("GPIO Port Data Register\n")));
	GPIO_DUMP(D);
	DPRINTF((TEXT("GPIO Port Interrupt Control Register\n")));
	GPIO_DUMP(IC);
	DPRINTF((TEXT("GPIO Port Interrupt Status  Register\n")));
	GPIO_DUMP(IS);
}

#ifdef SH7709TEST
uint32_t sh7707_fb_dma_addr;
uint16_t val;
int s;

s = suspendIntr();
VOLATILE_REF16(SH7707_LCDAR) = SH7707_LCDAR_LCDDMR0;
val = VOLATILE_REF16(SH7707_LCDDMR);
sh7707_fb_dma_addr = val;
VOLATILE_REF16(SH7707_LCDAR) = SH7707_LCDAR_LCDDMR1;
val = VOLATILE_REF16(SH7707_LCDDMR);
sh7707_fb_dma_addr |= (val << 16);
resumeIntr(s);

DPRINTF((TEXT("SH7707 frame buffer DMA address: 0x%08x\n"),
    sh7707_fb_dma_addr));
#endif