Exemplo n.º 1
0
int gpio_AckoutFreqSel(unsigned long Freq)
{
	unsigned long tmpRead = 0;
	unsigned long tmpClkV = -1;

    switch(Freq) {
	case 54:
		tmpClkV = 0x0;
		break;
	case 27:
		tmpClkV = 0x1;
		break;
	case 24:
		tmpClkV = 0x2;
		break;
	default:
		tmpClkV = -1;
		break;
	}

	if(-1 != tmpClkV) {
        tmpRead  = reg_read32(PERI_CRG_REG(11));
		tmpRead &= 0xFFF3FFFF;
		tmpRead |= (tmpClkV << 18);
		reg_write32(PERI_CRG_REG(11), tmpRead);
		reg_write32(IO_CONFIG_REG(0), 1);  //VI_ADC_CLK
		return 0;
    }

    return -1;
}
Exemplo n.º 2
0
void tz_set_module_apc(unsigned int module, E_MASK_DOM domain_num , APC_ATTR permission_control)
{
    volatile unsigned int* base = 0;

    unsigned int clr_bit = 0x3 << ((module % MOD_NO_IN_1_DEVAPC) * 2);
    unsigned int set_bit = permission_control << ((module % MOD_NO_IN_1_DEVAPC) * 2);

    if(domain_num == E_DOMAIN_0)
    {
        base = (unsigned int*) ((unsigned int)DEVAPC0_D0_APC_0 + (module/16) *4);
    }
    else if(domain_num == E_DOMAIN_1)
    {
        base = (unsigned int*) ((unsigned int)DEVAPC0_D1_APC_0 + (module/16) *4);
    }
    else if(domain_num == E_DOMAIN_2)
    {
        base = (unsigned int*) ((unsigned int)DEVAPC0_D2_APC_0 + (module/16) *4); 
    }
    else if(domain_num == E_DOMAIN_3)
    {
        base = (unsigned int*) ((unsigned int)DEVAPC0_D3_APC_0 + (module/16) *4);
    }

#ifdef DBG_PRELOADER
    MSG(DOM, "(B)tz_set_module_apc is (0x%x) 0x%x\n", base, reg_read32(base));
#endif
    reg_write32(base, reg_read32(base) & ~clr_bit);
    reg_write32(base, reg_read32(base) | set_bit);
#ifdef DBG_PRELOADER    
    MSG(DOM, "(E)tz_set_module_apc is (0x%x) 0x%x\n", base, reg_read32(base));
#endif

}
Exemplo n.º 3
0
static void tnetw1130_write0l(tnetw1130_t *s, hwaddr addr,
                              uint32_t value)
{
    if (addr < TNETW1130_MEM0_SIZE) {
        reg_write32(s->mem0, addr, value);
    }
    if (addr == TNETW1130_SLV_MEM_ADDR) {
        s->fw_addr = value;
        if (value >= TNETW1130_FW_SIZE) {
            UNEXPECTED();
        }
    } else if (addr == TNETW1130_SLV_MEM_DATA) {
        reg_write32(s->fw, s->fw_addr, value);
    } else if (addr == TNETW1130_SLV_MEM_CTL) {
        if (value == 0) {
            TRACE(TNETW, logout("basic mode\n"));
        } else if (value == 1) {
            TRACE(TNETW, logout("autoincrement mode\n"));
            MISSING();
        } else {
            UNEXPECTED();
        }
    } else if (addr == TNETW1130_SLV_END_CTL) {
    }
    TRACE(TNETW, logout("addr %s = 0x%08x\n", tnetw1130_regname(addr), value));
}
Exemplo n.º 4
0
int32
cx23882_int(void *data)
{
	cx23882_device *device = data;
	uint32 mstat;
	uint32 wmstat;
	
	mstat = reg_read32(REG_PCI_INT_MSTAT);
	if (!mstat)
		return B_UNHANDLED_INTERRUPT;

	if (mstat & (PCI_INT_STAT_HST_INT | PCI_INT_STAT_VIP_INT | PCI_INT_STAT_AUD_INT | PCI_INT_STAT_VID_INT)) {
		// serious error, these bits should not be set
		dprintf("cx23882_int error: msk 0x%08" B_PRIx32 ", stat 0x%08" B_PRIx32
			", mstat 0x%08" B_PRIx32 "\n", reg_read32(REG_PCI_INT_MSK),
			reg_read32(REG_PCI_INT_STAT), mstat);
		reg_write32(REG_PCI_INT_MSK, 0);
		return B_HANDLED_INTERRUPT;
	}

	wmstat = mstat & ~(PCI_INT_STAT_HST_INT | PCI_INT_STAT_VIP_INT | PCI_INT_STAT_TS_INT | PCI_INT_STAT_AUD_INT | PCI_INT_STAT_VID_INT);
	if (wmstat)
		reg_write32(REG_PCI_INT_STAT, wmstat);

	if (wmstat)
		dprintf("cx23882_int got 0x%08" B_PRIx32 "\n", wmstat);

	if (mstat & PCI_INT_STAT_TS_INT) {
		cx23882_mpegts_int(device);
		return B_INVOKE_SCHEDULER;
	} else {
		return B_HANDLED_INTERRUPT;
	}
}
Exemplo n.º 5
0
void gpio_Platform_VerFix(int Ver)
{
	if(Ver == GPIO_PROBE_VER1) {
		reg_write32(IO_CONFIG_REG(1), 3);  //VIU0_MODE_LSB, GPIO_MODE, fephy_dbg_out[0~7], VIU0_MODE_MSB
		reg_write32(IO_CONFIG_REG(2), 3);  //VIU1_MODE_LSB, GPIO_MODE, fephy_dbg_out[8~15], VIU1_MODE_MSB
	}
	gpio_AckoutFreqSel(27);  //27MHz Output for All Support Platforms;
}
Exemplo n.º 6
0
status_t
cx23882_stop_capture(cx23882_device *device)
{
	TRACE("cx23882_stop_capture\n");

	// stop RISC processor and DMA
	reg_write32(REG_TS_DMA_CNTRL, reg_read32(REG_TS_DMA_CNTRL) & ~(TS_DMA_CNTRL_TS_FIFO_EN | TS_DMA_CNTRL_TS_RISC_EN));
	reg_write32(REG_DEV_CNTRL2, reg_read32(REG_DEV_CNTRL2) & ~DEV_CNTRL2_RUN_RISC);
	return B_OK;
}
Exemplo n.º 7
0
status_t
cx23882_init(cx23882_device *device)
{
	// assumes that cx23882_reset() has already been called
	
	status_t err;
	
	if ((err = cx23882_buffers_alloc(device)) < B_OK) {
		dprintf("cx23882: Error, buffer alloc failed\n");
		return err;
	}
	
	device->capture_size = DMA_BUFFER_SIZE;
	
	cx23882_via_sis_fixup(device);

	// Set FIFO thresholds, should be 0 < x <= 7
	reg_write32(REG_PDMA_STHRSH, PDMA_ISBTHRSH_6 | PDMA_PCITHRSH_6);
	reg_write32(REG_PDMA_DTHRSH, PDMA_ISBTHRSH_6 | PDMA_PCITHRSH_6);

	// init risc programm
	cx23882_risc_ram_setup(device);

	// init sram
	cx23882_sram_setup(device);

	// Reset counter to 0
	reg_write32(REG_TS_GP_CNT_CNTRL, 0x3);

	// Line length for RISC DMA
	reg_write32(REG_TS_LNGTH, BYTES_PER_LINE);
	
	// Set serial interface mode
	reg_write32(REG_TS_GEN_CONTROL, reg_read32(REG_TS_GEN_CONTROL) | TS_GEN_CONTROL_IPB_SMODE);
	
	// Setup hardware MPEG2 fec interface
	reg_write32(REG_HW_SOP_CONTROL, (MPEG2_SYNC_BYTE << 16) | (MPEG2_PACKET_SIZE << 4) | SYNC_PACKET_COUNT);

	// Setup TSSTOP status, active low, rising and falling edge, single bit width
	reg_write32(REG_TS_SOP_STATUS, reg_read32(REG_TS_SOP_STATUS) |  0x18000);
	reg_write32(REG_TS_SOP_STATUS, reg_read32(REG_TS_SOP_STATUS) & ~0x06000);

	// Enable interrupts for MPEG TS and all errors
	reg_write32(REG_PCI_INT_MSK, reg_read32(REG_PCI_INT_MSK) | PCI_INT_STAT_TS_INT | 0x00fc00);
	reg_write32(REG_TS_INT_MSK, reg_read32(REG_TS_INT_MSK) | TS_INT_STAT_TS_RISC1 | TS_INT_STAT_TS_RISC2 | 0x1f1100);
	
	TRACE("cx23882_init done\n");
	return B_OK;
}
Exemplo n.º 8
0
static void tnetw1130_write1l(tnetw1130_t *s, hwaddr addr,
                              uint32_t value)
{
    assert(addr < TNETW1130_MEM1_SIZE);
    reg_write32(s->mem1, addr, value);
    TRACE(TNETW, logout("addr %s = 0x%08x\n", tnetw1130_regname1(addr), value));
}
Exemplo n.º 9
0
static void tnetw1130_write1l(pci_tnetw1130_t * d, target_phys_addr_t addr,
                              uint32_t value)
{
    tnetw1130_t *s = &d->tnetw1130;
    assert(addr < TNETW1130_MEM1_SIZE);
    reg_write32(s->mem1, addr, value);
    TRACE(TNETW, logout("addr %s = 0x%08x\n", tnetw1130_regname1(addr), value));
}
Exemplo n.º 10
0
static void
cx23882_via_sis_fixup(cx23882_device *device)
{
	uint16 host_vendor;
	uint32 dev_cntrl1;
	
	host_vendor = gPci->read_pci_config(0, 0, 0, PCI_vendor_id, 2);
	dev_cntrl1 = reg_read32(REG_F2_DEV_CNTRL1);
	
	if (host_vendor == PCI_VENDOR_VIA || host_vendor == PCI_VENDOR_SIS) {
		dprintf("cx23882: enabling VIA/SIS compatibility mode\n");
		reg_write32(REG_F2_DEV_CNTRL1, dev_cntrl1 | F2_DEV_CNTRL1_EN_VSFX);
	} else {
		dprintf("cx23882: disabling VIA/SIS compatibility mode\n");
		reg_write32(REG_F2_DEV_CNTRL1, dev_cntrl1 & ~F2_DEV_CNTRL1_EN_VSFX);
	}
}
Exemplo n.º 11
0
void device_APC_dom_setup(void)
{
    MSG(DOM, "\nDevice APC domain init setup:\n\n");
    reg_write32(DEVAPC0_APC_CON, 0x0);
#ifdef DBG_PRELOADER
	MSG(DOM, "Domain Setup (0x%x)\n", reg_read32(DEVAPC0_APC_CON));
    MSG(DOM, "Domain Setup (0x%x)\n", reg_read32(DEVAPC0_MAS_DOM_0));
    MSG(DOM, "Domain Setup (0x%x)\n", reg_read32(DEVAPC0_MAS_DOM_1));
#endif


#if defined(MACH_TYPE_MT6735)

    /*Set modem0 master to DOMAIN1*/
    reg_set_field(DEVAPC0_MAS_DOM_1 , MD1_DOMAIN, DOMAIN_1);
    /*Set connsys master to DOMAIN2*/
    reg_set_field(DEVAPC0_MAS_DOM_1 , CONN2AP,    DOMAIN_2);
    /*Set modem1 master to DOMAIN5*/
    reg_set_field(DEVAPC0_MAS_DOM_2 , MD3_DOMAIN, DOMAIN_5);
    /*Set gpu master to DOMAIN6*/
    reg_set_field(DEVAPC0_MAS_DOM_2 , GPU,        DOMAIN_6);

#elif defined(MACH_TYPE_MT6735M)

	// Notice: Compare to Denali-2: (1)Denali-2 does not have Master "MD3"  (2)Denali-2 does not have Domain 4, 5, 6, 7.

    /*Set modem0 master to DOMAIN1*/
    reg_set_field(DEVAPC0_MAS_DOM_0 , MD1_DOMAIN, DOMAIN_1);
    /*Set connsys master to DOMAIN2*/
    reg_set_field(DEVAPC0_MAS_DOM_0 , CONN2AP,    DOMAIN_2);
    /*Set gpu master to DOMAIN3*/
    reg_set_field(DEVAPC0_MAS_DOM_1 , GPU,        DOMAIN_3);

#elif defined(MACH_TYPE_MT6753)

    /*Set modem0 master to DOMAIN1*/
    reg_set_field(DEVAPC0_MAS_DOM_1 , MD1_DOMAIN, DOMAIN_1);
    /*Set connsys master to DOMAIN2*/
    reg_set_field(DEVAPC0_MAS_DOM_1 , CONN2AP,    DOMAIN_2);
    /*Set modem1 master to DOMAIN5*/
    reg_set_field(DEVAPC0_MAS_DOM_2 , MD3_DOMAIN, DOMAIN_5);
    /*Set gpu master to DOMAIN6*/
    reg_set_field(DEVAPC0_MAS_DOM_2 , GPU,        DOMAIN_6);

#else

#error "Wrong MACH type"
	
#endif


#ifdef DBG_PRELOADER
    MSG(DOM, "Device APC domain after setup:\n");
    MSG(DOM, "Domain Setup (0x%x)\n", reg_read32(DEVAPC0_MAS_DOM_0));
    MSG(DOM, "Domain Setup (0x%x)\n", reg_read32(DEVAPC0_MAS_DOM_1));
#endif
}
Exemplo n.º 12
0
static inline void
cx23882_mpegts_int(cx23882_device *device)
{
	uint32 mstat = reg_read32(REG_TS_INT_MSTAT);
	reg_write32(REG_TS_INT_STAT, mstat);
	
//	dprintf("cx23882_mpegts_int got 0x%08lx\n", mstat);

	if (mstat & TS_INT_STAT_OPC_ERR) {
		dprintf("cx23882_mpegts_int RISC opcode error\n");
		reg_write32(REG_PCI_INT_MSK, 0);
		return;
	}

	if ((mstat & (TS_INT_STAT_TS_RISC1 | TS_INT_STAT_TS_RISC2)) == (TS_INT_STAT_TS_RISC1 | TS_INT_STAT_TS_RISC2)) {
		dprintf("cx23882_mpegts_int both buffers ready\n");
		mstat = TS_INT_STAT_TS_RISC1;
	}
	
	if (mstat & TS_INT_STAT_TS_RISC1) {
		int32 count;
//		dprintf("cx23882_mpegts_int buffer 1 at %Ld\n", system_time());
		device->capture_data = device->dma_buf1_virt;
		device->capture_end_time = system_time();
		get_sem_count(device->capture_sem, &count);
		if (count <= 0)
			release_sem_etc(device->capture_sem, 1, B_DO_NOT_RESCHEDULE);
	}

	if (mstat & TS_INT_STAT_TS_RISC2) {
		int32 count;
//		dprintf("cx23882_mpegts_int buffer 2 at %Ld\n", system_time());
		device->capture_data = device->dma_buf2_virt;
		device->capture_end_time = system_time();
		get_sem_count(device->capture_sem, &count);
		if (count <= 0)
			release_sem_etc(device->capture_sem, 1, B_DO_NOT_RESCHEDULE);
	}
}
Exemplo n.º 13
0
void device_APC_dom_setup(void)
{
    MSG(DOM, "\nDevice APC domain init setup:\n\n");
    reg_write32(DEVAPC0_APC_CON, 0x0);
#ifdef DBG_PRELOADER
    MSG(DOM, "Domain Setup (0x%x)\n", reg_read32(DEVAPC0_MAS_DOM_0));
    MSG(DOM, "Domain Setup (0x%x)\n", reg_read32(DEVAPC0_MAS_DOM_1));
#endif

	/*Set modem master to DOMAIN1(MD0),DOMAIN5(MD1)*/
    reg_set_field(DEVAPC0_MAS_DOM_0 , MD1_AHB_0, DOMAIN_1);
    reg_set_field(DEVAPC0_MAS_DOM_1 , MD1_AXI_1, DOMAIN_1);
    reg_set_field(DEVAPC0_MAS_DOM_1 , MD1_AXI_2, DOMAIN_1);
    reg_set_field(DEVAPC0_MAS_DOM_1 , MD2_AHB_0, DOMAIN_1);
    reg_set_field(DEVAPC0_MAS_DOM_1 , MD2_AXI_1, DOMAIN_1);
    reg_set_field(DEVAPC0_MAS_DOM_1 , MD2_AXI_2, DOMAIN_1);

    /*Set connsys master to DOMAIN2*/

     reg_set_field(DEVAPC0_MAS_DOM_1 , CONNSYS, DOMAIN_2);

    /*Set MD32 to DOMAIN3*/

     reg_set_field(DEVAPC0_MAS_DOM_0 ,  MD32 , DOMAIN_3);

      /*Set MFG to DOMAIN6*/

     reg_set_field(DEVAPC0_MAS_DOM_1 ,  MFG , DOMAIN_6);



#ifdef DBG_PRELOADER
    MSG(DOM, "Device APC domain after setup:\n");
    MSG(DOM, "Domain Setup (0x%x)\n", reg_read32(DEVAPC0_MAS_DOM_0));
    MSG(DOM, "Domain Setup (0x%x)\n", reg_read32(DEVAPC0_MAS_DOM_1));
#endif
}
Exemplo n.º 14
0
static void gpio_mode_conf(void)
{
    reg_write32(IO_CONFIG_REG(0), 0);  //VIU0_CLK, GPIO0_0, VOU0_CLK
    reg_write32(IO_CONFIG_REG(1), 1);  //VIU0_VS, GPIO0_1, UART2_TXD
    reg_write32(IO_CONFIG_REG(2), 3);  //VIU0_HS, GPIO0_2, VOU1_CLK, VIU0_CLKA
    reg_write32(IO_CONFIG_REG(3), 0);  //VIU0_DAT15, GPIO0_3, VOU0_DATA7
    reg_write32(IO_CONFIG_REG(4), 0);  //VIU0_DAT14, GPIO0_4, VOU0_DATA6
    reg_write32(IO_CONFIG_REG(5), 0);  //VIU0_DAT13, GPIO0_5, VOU0_DATA5
    reg_write32(IO_CONFIG_REG(6), 0);  //VIU0_DAT12, GPIO0_6, VOU0_DATA4
    reg_write32(IO_CONFIG_REG(7), 0);  //VIU0_DAT11, GPIO0_7, VOU0_DATA3
    reg_write32(IO_CONFIG_REG(8), 0);  //VIU0_DAT10, GPIO1_0, VOU0_DATA2
    reg_write32(IO_CONFIG_REG(9), 0);  //VIU0_DAT9, GPIO1_1, VOU0_DATA1
    reg_write32(IO_CONFIG_REG(10), 0);  //VIU0_DAT8, GPIO1_2, VOU0_DATA0
    reg_write32(IO_CONFIG_REG(11), 0);  //VIU0_DAT7, GPIO1_3, VOU1_DATA7
    reg_write32(IO_CONFIG_REG(12), 0);  //VIU0_DAT6, GPIO1_4, VOU1_DATA6
    reg_write32(IO_CONFIG_REG(13), 0);  //VIU0_DAT5, GPIO1_5, VOU1_DATA5
    reg_write32(IO_CONFIG_REG(14), 0);  //VIU0_DAT4, GPIO1_6, VOU1_DATA4
    reg_write32(IO_CONFIG_REG(15), 0);  //VIU0_DAT3, GPIO1_7, VOU1_DATA3
    reg_write32(IO_CONFIG_REG(16), 0);  //VIU0_DAT2, GPIO2_0, VOU1_DATA2
    reg_write32(IO_CONFIG_REG(17), 0);  //VIU0_DAT1, GPIO2_1, VOU1_DATA1
    reg_write32(IO_CONFIG_REG(18), 0);  //VIU0_DAT0, GPIO2_2, VOU1_DATA0
    reg_write32(IO_CONFIG_REG(19), 0);  //VIU1_CLK, GPIO2_3, VOU2_CLK, VIU4_CLK
    reg_write32(IO_CONFIG_REG(20), 0);  //VIU1_VS, GPIO2_4, UART2_RXD
    reg_write32(IO_CONFIG_REG(21), 0);  //VIU1_HS, GPIO2_5, VOU3_CLK, VIU1_CLKA
    reg_write32(IO_CONFIG_REG(22), 0);  //VIU1_DAT15, GPIO2_6, VOU2_DATA7, VIU4_DAT15
    reg_write32(IO_CONFIG_REG(23), 0);  //VIU1_DAT14, GPIO2_7, VOU2_DATA6, VIU4_DAT14
    reg_write32(IO_CONFIG_REG(24), 0);  //VIU1_DAT13, GPIO3_0, VOU2_DATA5, VIU4_DAT13
    reg_write32(IO_CONFIG_REG(25), 0);  //VIU1_DAT12, GPIO3_1, VOU2_DATA4, VIU4_DAT12
    reg_write32(IO_CONFIG_REG(26), 0);  //VIU1_DAT11, GPIO3_2, VOU2_DATA3, VIU4_DAT11
    reg_write32(IO_CONFIG_REG(27), 0);  //VIU1_DAT10, GPIO3_3, VOU2_DATA2, VIU4_DAT10
    reg_write32(IO_CONFIG_REG(28), 0);  //VIU1_DAT9, GPIO3_4, VOU2_DATA1, VIU4_DAT9
    reg_write32(IO_CONFIG_REG(29), 0);  //VIU1_DAT8, GPIO3_5, VOU2_DATA0, VIU4_DAT8
    reg_write32(IO_CONFIG_REG(30), 0);  //VIU1_DAT7, GPIO3_6, VOU3_DATA7, VIU4_DAT7
    reg_write32(IO_CONFIG_REG(31), 0);  //VIU1_DAT6, GPIO3_7, VOU3_DATA6, VIU4_DAT6
    reg_write32(IO_CONFIG_REG(32), 0);  //VIU1_DAT5, GPIO4_0, VOU3_DATA5, VIU4_DAT5
    reg_write32(IO_CONFIG_REG(33), 0);  //VIU1_DAT4, GPIO4_1, VOU3_DATA4, VIU4_DAT4
    reg_write32(IO_CONFIG_REG(34), 0);  //VIU1_DAT3, GPIO4_2, VOU3_DATA3, VIU4_DAT3
    reg_write32(IO_CONFIG_REG(35), 0);  //VIU1_DAT2, GPIO4_3, VOU3_DATA2, VIU4_DAT2
    reg_write32(IO_CONFIG_REG(36), 0);  //VIU1_DAT1, GPIO4_4, VOU3_DATA1, VIU4_DAT1
    reg_write32(IO_CONFIG_REG(37), 0);  //VIU1_DAT0, GPIO4_5, VOU3_DATA0, VIU4_DAT0
    reg_write32(IO_CONFIG_REG(38), 0);  //VIU2_CLK, GPIO4_6, VOU4_CLK
    reg_write32(IO_CONFIG_REG(39), 2);  //VIU2_VS, GPIO4_7, UART3_TXD
    reg_write32(IO_CONFIG_REG(40), 3);  //VIU2_HS, GPIO5_0, VOU5_CLK, VIU2_CLKA
    reg_write32(IO_CONFIG_REG(41), 0);  //VIU2_DAT15, GPIO5_1, VOU4_DATA7
    reg_write32(IO_CONFIG_REG(42), 0);  //VIU2_DAT14, GPIO5_2, VOU4_DATA6
    reg_write32(IO_CONFIG_REG(43), 0);  //VIU2_DAT13, GPIO5_3, VOU4_DATA5
    reg_write32(IO_CONFIG_REG(44), 0);  //VIU2_DAT12, GPIO5_4, VOU4_DATA4
    reg_write32(IO_CONFIG_REG(45), 0);  //VIU2_DAT11, GPIO5_5, VOU4_DATA3
    reg_write32(IO_CONFIG_REG(46), 0);  //VIU2_DAT10, GPIO5_6, VOU4_DATA2
    reg_write32(IO_CONFIG_REG(47), 0);  //VIU2_DAT9, GPIO5_7, VOU4_DATA1
    reg_write32(IO_CONFIG_REG(48), 0);  //VIU2_DAT8, GPIO6_0, VOU4_DATA0
    reg_write32(IO_CONFIG_REG(49), 0);  //VIU2_DAT7, GPIO6_1, VOU5_DATA7
    reg_write32(IO_CONFIG_REG(50), 0);  //VIU2_DAT6, GPIO6_2, VOU5_DATA6
    reg_write32(IO_CONFIG_REG(51), 0);  //VIU2_DAT5, GPIO6_3, VOU5_DATA5
    reg_write32(IO_CONFIG_REG(52), 0);  //VIU2_DAT4, GPIO6_4, VOU5_DATA4
    reg_write32(IO_CONFIG_REG(53), 0);  //VIU2_DAT3, GPIO6_5, VOU5_DATA3
    reg_write32(IO_CONFIG_REG(54), 0);  //VIU2_DAT2, GPIO6_6, VOU5_DATA2
    reg_write32(IO_CONFIG_REG(55), 0);  //VIU2_DAT1, GPIO6_7, VOU5_DATA1
    reg_write32(IO_CONFIG_REG(56), 0);  //VIU2_DAT0, GPIO7_0, VOU5_DATA0
    reg_write32(IO_CONFIG_REG(57), 1);  //GPIO7_1, VGA_HS
    reg_write32(IO_CONFIG_REG(58), 1);  //GPIO7_2, VGA_VS
    reg_write32(IO_CONFIG_REG(59), 4);  //VIU3_CLK, GPIO7_3, VOU6_CLK, VOU1120_CLK, SDIO_CCLK_OUT
    reg_write32(IO_CONFIG_REG(60), 2);  //VIU3_VS, GPIO7_4, UART3_RXD, VOU1120_VS, SDIO_CARD_POWER_EN
    reg_write32(IO_CONFIG_REG(61), 1);  //VIU3_HS, GPIO7_5, VOU7_CLK, VOU1120_HS, VIU3_CLKA
    reg_write32(IO_CONFIG_REG(62), 1);  //VIU3_DAT15, GPIO7_6, VOU6_DATA7, VOU1120_DATA15, SDIO_CARD_DETECT
    reg_write32(IO_CONFIG_REG(63), 1);  //VIU3_DAT14, GPIO7_7, VOU6_DATA6, VOU1120_DATA14, SDIO_CWPR
    reg_write32(IO_CONFIG_REG(64), 1);  //VIU3_DAT13, GPIO8_0, VOU6_DATA5, VOU1120_DATA13, SDIO_CCMD
    reg_write32(IO_CONFIG_REG(65), 1);  //VIU3_DAT12, GPIO8_1, VOU6_DATA4, VOU1120_DATA12, SDIO_CDATA0
    reg_write32(IO_CONFIG_REG(66), 1);  //VIU3_DAT11, GPIO8_2, VOU6_DATA3, VOU1120_DATA11, SDIO_CDATA1
    reg_write32(IO_CONFIG_REG(67), 1);  //VIU3_DAT10, GPIO8_3, VOU6_DATA2, VOU1120_DATA10, SDIO_CDATA2
    reg_write32(IO_CONFIG_REG(68), 1);  //VIU3_DAT9, GPIO8_4, VOU6_DATA1, VOU1120_DATA9, SDIO_CDATA3
    reg_write32(IO_CONFIG_REG(69), 1);  //VIU3_DAT8, GPIO8_5, VOU6_DATA0, VOU1120_DATA8
    reg_write32(IO_CONFIG_REG(70), 1);  //VIU3_DAT7, GPIO8_6, VOU7_DATA7, VOU1120_DATA7
    reg_write32(IO_CONFIG_REG(71), 1);  //VIU3_DAT6, GPIO8_7, VOU7_DATA6, VOU1120_DATA6
    reg_write32(IO_CONFIG_REG(72), 1);  //VIU3_DAT5, GPIO9_0, VOU7_DATA5, VOU1120_DATA5
    reg_write32(IO_CONFIG_REG(73), 1);  //VIU3_DAT4, GPIO9_1, VOU7_DATA4, VOU1120_DATA4
    reg_write32(IO_CONFIG_REG(74), 1);  //VIU3_DAT3, GPIO9_2, VOU7_DATA3, VOU1120_DATA3
    reg_write32(IO_CONFIG_REG(75), 1);  //VIU3_DAT2, GPIO9_3, VOU7_DATA2, VOU1120_DATA2
    reg_write32(IO_CONFIG_REG(76), 1);  //VIU3_DAT1, GPIO9_4, VOU7_DATA1, VOU1120_DATA1
    reg_write32(IO_CONFIG_REG(77), 1);  //VIU3_DAT0, GPIO9_5, VOU7_DATA0, VOU1120_DATA0
    reg_write32(IO_CONFIG_REG(78), 0);  //GPIO9_6, SIO0_RCLK
    reg_write32(IO_CONFIG_REG(79), 0);  //GPIO9_7, SIO0_RFS
    reg_write32(IO_CONFIG_REG(80), 0);  //GPIO10_0, SIO0_DIN
    reg_write32(IO_CONFIG_REG(81), 0);  //GPIO10_1, SIO1_RCLK
    reg_write32(IO_CONFIG_REG(82), 0);  //GPIO10_2, SIO1_RFS
    reg_write32(IO_CONFIG_REG(83), 0);  //GPIO10_3, SIO1_DIN
    reg_write32(IO_CONFIG_REG(84), 0);  //GPIO10_4, SIO2_RCLK
    reg_write32(IO_CONFIG_REG(85), 0);  //GPIO10_5, SIO2_RFS
    reg_write32(IO_CONFIG_REG(86), 0);  //GPIO10_6, SIO2_DIN
    reg_write32(IO_CONFIG_REG(87), 1);  //GPIO10_7, SIO3_RCLK
    reg_write32(IO_CONFIG_REG(88), 1);  //GPIO11_0, SIO3_RFS
    reg_write32(IO_CONFIG_REG(89), 1);  //GPIO11_1, SIO3_DIN
    reg_write32(IO_CONFIG_REG(90), 1);  //GPIO11_2, SIO4_XCLK
    reg_write32(IO_CONFIG_REG(91), 1);  //GPIO11_3, SIO4_XFS
    reg_write32(IO_CONFIG_REG(92), 1);  //GPIO11_4, SIO4_RCLK
    reg_write32(IO_CONFIG_REG(93), 1);  //GPIO11_5, SIO4_RFS
    reg_write32(IO_CONFIG_REG(94), 1);  //GPIO11_6, SIO4_DOUT
    reg_write32(IO_CONFIG_REG(95), 1);  //GPIO11_7, SIO4_DIN
    reg_write32(IO_CONFIG_REG(96), 0);  //GPIO12_0, SPI_SCLK
    reg_write32(IO_CONFIG_REG(97), 0);  //GPIO12_1, SPI_SDO
    reg_write32(IO_CONFIG_REG(98), 0);  //GPIO12_2, SPI_SDI
    reg_write32(IO_CONFIG_REG(99), 0);  //GPIO12_3, SPI_CSN0
    reg_write32(IO_CONFIG_REG(100), 0);  //SPI_CSN6, NF_ECC_TYPE1
    reg_write32(IO_CONFIG_REG(101), 0);  //SPI_CSN7, NF_ECC_TYPE2, CLK_TEST_OUT0, CLK_TEST_OUT1, CLK_TEST_OUT2, CLK_TEST_OUT3
    reg_write32(IO_CONFIG_REG(102), 0);  //GPIO12_4, I2C_SDA
    reg_write32(IO_CONFIG_REG(103), 0);  //GPIO12_5, I2C_SCL
    reg_write32(IO_CONFIG_REG(104), 0);  //GPIO12_6, UART1_RTSN
    reg_write32(IO_CONFIG_REG(105), 1);  //GPIO12_7, UART1_RXD
    reg_write32(IO_CONFIG_REG(106), 1);  //GPIO13_0, UART1_TXD
    reg_write32(IO_CONFIG_REG(107), 0);  //GPIO13_1, UART1_CTSN
    reg_write32(IO_CONFIG_REG(108), 0);  //RGMII0_TXCK, GPIO13_2
    reg_write32(IO_CONFIG_REG(109), 1);  //GPIO13_3, RGMII0_CRS, RGMII0_RXER
    reg_write32(IO_CONFIG_REG(110), 1);  //GPIO13_4, RGMII0_COL, RGMII0_TXER
    reg_write32(IO_CONFIG_REG(111), 1);  //GPIO13_5, RGMII1_RXDV
    reg_write32(IO_CONFIG_REG(112), 1);  //GPIO13_6, RGMII1_RXD3
    reg_write32(IO_CONFIG_REG(113), 1);  //GPIO13_7, RGMII1_RXD2
    reg_write32(IO_CONFIG_REG(114), 1);  //GPIO14_0, RGMII1_RXD1
    reg_write32(IO_CONFIG_REG(115), 1);  //GPIO14_1, RGMII1_RXD0
    reg_write32(IO_CONFIG_REG(116), 1);  //GPIO14_2, RGMII1_RXCK
    reg_write32(IO_CONFIG_REG(117), 1);  //GPIO14_3, RGMII1_TXEN
    reg_write32(IO_CONFIG_REG(118), 1);  //GPIO14_4, RGMII1_TXD3
    reg_write32(IO_CONFIG_REG(119), 1);  //GPIO14_5, RGMII1_TXD2
    reg_write32(IO_CONFIG_REG(120), 1);  //GPIO14_6, RGMII1_TXD1
    reg_write32(IO_CONFIG_REG(121), 1);  //PLL_TEST_OUT0, RGMII1_TXD0, PLL_TEST_OUT1, PLL_TEST_OUT2, PLL_TEST_OUT3
    reg_write32(IO_CONFIG_REG(122), 1);  //GPIO15_0, RGMII1_TXCK
    reg_write32(IO_CONFIG_REG(123), 1);  //GPIO15_1, RGMII1_TXCKOUT
    reg_write32(IO_CONFIG_REG(124), 1);  //GPIO15_2, RGMII1_CRS, RGMII1_RXER
    reg_write32(IO_CONFIG_REG(125), 1);  //GPIO15_3, RGMII1_COL, RGMII1_TXER
    reg_write32(IO_CONFIG_REG(126), 0);  //IR_IN, GPIO15_4
    reg_write32(IO_CONFIG_REG(127), 1);  //NF_DQ0, GPIO15_5
    reg_write32(IO_CONFIG_REG(128), 1);  //NF_DQ1, GPIO15_6
    reg_write32(IO_CONFIG_REG(129), 1);  //NF_DQ2, GPIO15_7
    reg_write32(IO_CONFIG_REG(130), 1);  //NF_DQ3, GPIO16_0
    reg_write32(IO_CONFIG_REG(131), 1);  //NF_DQ4, GPIO16_1
    reg_write32(IO_CONFIG_REG(132), 1);  //NF_DQ5, GPIO16_2
    reg_write32(IO_CONFIG_REG(133), 1);  //NF_DQ6, GPIO16_3
    reg_write32(IO_CONFIG_REG(134), 1);  //NF_DQ7, GPIO16_4
    reg_write32(IO_CONFIG_REG(135), 1);  //NF_RDY0, GPIO16_5
    reg_write32(IO_CONFIG_REG(136), 1);  //NF_RDY1, GPIO16_6
    reg_write32(IO_CONFIG_REG(137), 0);  //SFC_DIO, GPIO16_7
    reg_write32(IO_CONFIG_REG(138), 0);  //SFC_WP_IO2, GPIO17_0
    reg_write32(IO_CONFIG_REG(139), 0);  //SFC_D0I, GPIO17_1
    reg_write32(IO_CONFIG_REG(140), 0);  //SFC_HOLD_IO3, GPIO17_2
    reg_write32(IO_CONFIG_REG(141), 0);  //GPIO17_3, USB0_OVRCUR
    reg_write32(IO_CONFIG_REG(142), 0);  //GPIO17_4, USB0_PWREN
    reg_write32(IO_CONFIG_REG(143), 0);  //GPIO17_5, USB1_OVRCUR
    reg_write32(IO_CONFIG_REG(144), 0);  //GPIO17_6, USB1_PWREN
    reg_write32(IO_CONFIG_REG(145), 1);  //GPIO17_7, HDMI_HOTPLUG
    reg_write32(IO_CONFIG_REG(146), 1);  //GPIO18_0, HDMI_CEC
    reg_write32(IO_CONFIG_REG(147), 1);  //GPIO18_1, HDMI_SDA
    reg_write32(IO_CONFIG_REG(148), 1);  //GPIO18_2, HDMI_SCL
    reg_write32(IO_CONFIG_REG(149), 1);  //GPIO18_3, SATA_LED_N0
    reg_write32(IO_CONFIG_REG(150), 1);  //GPIO18_4, SATA_LED_N1
}
Exemplo n.º 15
0
static void gpio_mode_conf(void)
{
	reg_write32(IO_CONFIG_REG(0), 0);  //GPIO8_5, VI_ADC_CLK, CLK_TEST_OUT0, CLK_TEST_OUT1, CLK_TEST_OUT2, CLK_TEST_OUT3, RTC_TEST_CLK
	reg_write32(IO_CONFIG_REG(1), 0);  //VIU0_MODE_LSB, GPIO_MODE, fephy_dbg_out[0~7], VIU0_MODE_MSB
	reg_write32(IO_CONFIG_REG(2), 0);  //VIU1_MODE_LSB, GPIO_MODE, fephy_dbg_out[8~15], VIU1_MODE_MSB
	reg_write32(IO_CONFIG_REG(3), 1);  //GPIO2_0, VGA_HS
	reg_write32(IO_CONFIG_REG(4), 1);  //GPIO1_5, VGA_VS
	reg_write32(IO_CONFIG_REG(5), 2);  //AIO_MCLK, GPIO7_0, BOOT_SEL
	reg_write32(IO_CONFIG_REG(6), 0);  //AIO_BLCK_TX, GPIO7_1
	reg_write32(IO_CONFIG_REG(7), 0);  //AIO_WS_TX, GPIO7_2
	reg_write32(IO_CONFIG_REG(8), 0);  //AIO_SD_TX, GPIO7_3, JTAG_SEL
	reg_write32(IO_CONFIG_REG(9), 0);  //AIO_BLCK_RX, GPIO7_4
	reg_write32(IO_CONFIG_REG(10), 0);  //AIO_WS_RX, GPIO7_5
	reg_write32(IO_CONFIG_REG(11), 0);  //AIO_SD_RX, GPIO7_6
	reg_write32(IO_CONFIG_REG(12), 0);  //GPIO8_0, SPI_SCLK
	reg_write32(IO_CONFIG_REG(13), 4);  //PLL_TEST_OUT0, SPI_SDO, PLL_TEST_OUT1, PLL_TEST_OUT2, GPIO8_1
	reg_write32(IO_CONFIG_REG(14), 0);  //GPIO8_2, SPI_SDI
	reg_write32(IO_CONFIG_REG(15), 0);  //GPIO8_3, SPI_CSN0
	reg_write32(IO_CONFIG_REG(16), 0);  //GPIO8_4, SPI_CSN1, PWM_SVB
	reg_write32(IO_CONFIG_REG(17), 0);  //GPIO1_6, I2C_SDA
	reg_write32(IO_CONFIG_REG(18), 0);  //GPIO1_7, I2C_SCL
	reg_write32(IO_CONFIG_REG(19), 0);  //GPIO5_0, UART1_RTSN
	reg_write32(IO_CONFIG_REG(20), 1);  //GPIO5_1, UART1_RXD
	reg_write32(IO_CONFIG_REG(21), 0);  //GPIO5_2, UART1_CTSN, PWM_SVB
	reg_write32(IO_CONFIG_REG(22), 1);  //GPIO5_3, UART1_TXD
	reg_write32(IO_CONFIG_REG(23), 1);  //GPIO5_4, UART2_RXD
	reg_write32(IO_CONFIG_REG(24), 1);  //GPIO5_5, UART2_TXD
	reg_write32(IO_CONFIG_REG(25), 1);  //GPIO7_7, IR_IN
	reg_write32(IO_CONFIG_REG(26), 0);  //GPIO6_0, USB0_OVRCUR
	reg_write32(IO_CONFIG_REG(27), 0);  //GPIO6_1, USB0_PWREN
	reg_write32(IO_CONFIG_REG(28), 0);  //GPIO6_2, USB1_OVRCUR
	reg_write32(IO_CONFIG_REG(29), 0);  //GPIO6_3, USB1_PWREN
	reg_write32(IO_CONFIG_REG(30), 1);  //GPIO6_4, HDMI_HOTPLUG
	reg_write32(IO_CONFIG_REG(31), 1);  //GPIO6_5, HDMI_CEC
	reg_write32(IO_CONFIG_REG(32), 1);  //GPIO6_6, HDMI_SDA
	reg_write32(IO_CONFIG_REG(33), 1);  //GPIO6_7, HDMI_SCL
	reg_write32(IO_CONFIG_REG(34), 0);  //GPIO2_1, SATA_LED_N0
	reg_write32(IO_CONFIG_REG(35), 0);  //GPIO2_2, SATA_LED_N1
	reg_write32(IO_CONFIG_REG(36), 1);  //GPIO5_6, ETH_LED1
	reg_write32(IO_CONFIG_REG(37), 1);  //GPIO5_7, ETH_LED0
	reg_write32(IO_CONFIG_REG(38), 0);  //GPIO0_0, RMII_CLK
	reg_write32(IO_CONFIG_REG(39), 0);  //GPIO0_1, RMII_TX_EN
	reg_write32(IO_CONFIG_REG(40), 0);  //GPIO0_2, RMII_TXD0
	reg_write32(IO_CONFIG_REG(41), 0);  //GPIO0_3, RMII_TXD1
	reg_write32(IO_CONFIG_REG(42), 0);  //GPIO0_4, RMII_CRS_DV
	reg_write32(IO_CONFIG_REG(43), 0);  //GPIO0_5, RMII_RXD0
	reg_write32(IO_CONFIG_REG(44), 0);  //GPIO0_6, RMII_RXD1
	reg_write32(IO_CONFIG_REG(45), 0);  //GPIO0_7, RMII_RX_ER
	reg_write32(IO_CONFIG_REG(46), 1);  //GPIO1_0, UART3_TXD
	reg_write32(IO_CONFIG_REG(47), 1);  //GPIO1_1, UART3_RXD
	reg_write32(IO_CONFIG_REG(48), 0);  //GPIO1_2, TEMPER_DQ
	reg_write32(IO_CONFIG_REG(49), 0);  //GPIO1_3, MDCK
	reg_write32(IO_CONFIG_REG(50), 0);  //GPIO1_4, MDIO
	gpio_Platform_VerFix(gpio_Platform_VerProbe());
}
Exemplo n.º 16
0
void
cx23882_reset(cx23882_device *device)
{
	// software reset (XXX Test)
	reg_write32(0x38c06c, 1);
	snooze(200000);
	
	// disable RISC controller
	reg_write32(REG_DEV_CNTRL2, 0);

	// disable TS interface DMA
	reg_write32(REG_TS_DMA_CNTRL, 0x0);
	
	// disable VIP interface up- & downstram DMA
	reg_write32(REG_VIP_STREAM_EN, 0x0);
	
	// disable host interface up- & downstram DMA
	reg_write32(REG_HST_STREAM_EN, 0x0);

	// stop all interrupts
	reg_write32(REG_PCI_INT_MSK, 0x0);
	reg_write32(REG_VID_INT_MSK, 0x0);
	reg_write32(REG_AUD_INT_MSK, 0x0);
	reg_write32(REG_TS_INT_MSK,  0x0);
	reg_write32(REG_VIP_INT_MSK, 0x0);
	reg_write32(REG_HST_INT_MSK, 0x0);
	reg_write32(REG_DMA_RISC_INT_MSK, 0x0);

	// clear all pending interrupts
	reg_write32(REG_PCI_INT_STAT, 0xffffffff);
	reg_write32(REG_VID_INT_STAT, 0xffffffff);
	reg_write32(REG_AUD_INT_STAT, 0xffffffff);
	reg_write32(REG_TS_INT_STAT,  0xffffffff);
	reg_write32(REG_VIP_INT_STAT, 0xffffffff);
	reg_write32(REG_HST_INT_STAT, 0xffffffff);
	reg_write32(REG_DMA_RISC_INT_MSK, 0xffffffff);
}	
Exemplo n.º 17
0
static void
cx23882_sram_setup(cx23882_device *device)
{
	dprintf("cx23882_sram_setup enter\n");

	// setup CDT entries for both FIFOs
	reg_write32(SRAM_START_ADDRESS + SRAM_BASE_CDT, SRAM_START_ADDRESS + SRAM_BASE_FIFO_0);
	reg_write32(SRAM_START_ADDRESS + SRAM_BASE_CDT + 16, SRAM_START_ADDRESS + SRAM_BASE_FIFO_1);

	// setup CDMS	
	reg_write32(SRAM_START_ADDRESS + SRAM_BASE_CMDS_TS + 0x00, SRAM_START_ADDRESS + SRAM_BASE_RISC_PROG);
	reg_write32(SRAM_START_ADDRESS + SRAM_BASE_CMDS_TS + 0x04, SRAM_START_ADDRESS + SRAM_BASE_CDT);
	reg_write32(SRAM_START_ADDRESS + SRAM_BASE_CMDS_TS + 0x08, (2 * 16) / 8); // FIFO count = 2
	reg_write32(SRAM_START_ADDRESS + SRAM_BASE_CMDS_TS + 0x0c, SRAM_START_ADDRESS + SRAM_BASE_RISC_QUEUE);
	reg_write32(SRAM_START_ADDRESS + SRAM_BASE_CMDS_TS + 0x10, 0x80000000 | (0x100 / 4));

	// setup DMA registers
	reg_write32(REG_DMA28_PTR1, SRAM_START_ADDRESS + SRAM_BASE_FIFO_0);
	reg_write32(REG_DMA28_PTR2, SRAM_START_ADDRESS + SRAM_BASE_CDT);
	reg_write32(REG_DMA28_CNT1, BYTES_PER_LINE / 8);
	reg_write32(REG_DMA28_CNT2, (2 * 16) / 8); // FIFO count = 2

	dprintf("cx23882_sram_setup leave\n");
}