static int ge_restore_reg(unsigned int addr, unsigned int size,
unsigned int *ptr)
{
#ifdef VPU
return vpp_restore_reg(addr, size, ptr);
#else
return 0;
#endif
}
void scl_resume(int sts)
{
switch( sts ){
case 0: // restore register
vpp_restore_reg(REG_SCL_BASE1_BEGIN,(REG_SCL_BASE1_END-REG_SCL_BASE1_BEGIN),p_scl->reg_bk);
vpp_restore_reg(REG_SCL_BASE2_BEGIN,(REG_SCL_BASE2_END-REG_SCL_BASE2_BEGIN),scl_pm_bk2);
p_scl->reg_bk = 0;
scl_pm_bk2 = 0;
break;
case 1: // enable module
vppif_reg32_write(SCLW_MIF_ENABLE,scl_pm_w_mif);
vppif_reg32_write(SCLR_MIF_ENABLE,scl_pm_r_mif1);
vppif_reg32_write(SCLR_MIF2_ENABLE,scl_pm_r_mif2);
vppif_reg32_write(SCL_ALU_ENABLE,scl_pm_enable);
break;
case 2: // enable tg
vppif_reg32_write(SCL_TG_ENABLE,scl_pm_tg);
vpp_mod_set_clock(VPP_MOD_SCL,VPP_FLAG_DISABLE,1);
break;
default:
break;
}
}
void lvds_resume(int sts)
{
switch( sts ){
case 0: // restore register
vpp_restore_reg(LVDS_BASE_ADDR+0x00,0x18,lvds_pm_bk); /* 0x120 - 0x420 */
lvds_pm_bk = 0;
break;
case 1: // enable module
break;
case 2: // enable tg
break;
default:
break;
}
}
void govm_resume(int sts)
{
switch( sts ){
case 0: // restore register
vpp_restore_reg(REG_GOVM_BEGIN,(REG_GOVM_END-REG_GOVM_BEGIN),p_govm->reg_bk);
p_govm->reg_bk = 0;
break;
case 1: // enable module
break;
case 2: // enable tg
break;
default:
break;
}
}
void vppm_resume(int sts)
{
switch( sts ){
case 0: // restore register
vpp_restore_reg(VPP_BASE_ADDR+0x00,0x1c,p_vppm->reg_bk);
p_vppm->reg_bk = 0;
break;
case 1: // enable module
break;
case 2: // enable tg
break;
default:
break;
}
}
void govw_resume(int sts)
{
switch( sts ){
case 0: // restore register
vpp_restore_reg(GOVW_BASE_ADDR+0x00,0xCC,p_govw->reg_bk); /* 0x00 - 0xCC */
p_govw->reg_bk = 0;
break;
case 1: // enable module
vppif_reg32_write(GOVW_HD_MIF_ENABLE,govw_pm_enable);
break;
case 2: // enable tg
vppif_reg32_write(GOVW_TG_ENABLE,govw_pm_tg);
break;
default:
break;
}
}
void govw_resume(int sts)
{
switch( sts ){
case 0: // restore register
vpp_restore_reg(REG_GOVW_BEGIN,(REG_GOVW_END-REG_GOVW_BEGIN),p_govw->reg_bk);
p_govw->reg_bk = 0;
break;
case 1: // enable module
vppif_reg32_write(GOVW_HD_MIF_ENABLE,govw_pm_enable);
break;
case 2: // enable tg
vppif_reg32_write(GOVW_TG_ENABLE,govw_pm_tg);
vpp_mod_set_clock(VPP_MOD_GOVW,VPP_FLAG_DISABLE,1);
break;
default:
break;
}
}
void lvds_resume(int sts)
{
switch (sts) {
case 0: /* restore register */
vpp_restore_reg(REG_LVDS_BEGIN,
(REG_LVDS_END-REG_LVDS_BEGIN), lvds_pm_bk);
lvds_pm_bk = 0;
if (lcd_get_lvds_id() != LCD_LVDS_1024x600)
lvds_set_power_down(lvds_pd_bk);
break;
case 1: /* enable module */
break;
case 2: /* enable tg */
break;
default:
break;
}
}
void wmt_cec_do_resume(void)
{
vppif_reg32_out(REG_VPP_SWRST2_SEL, 0x1011111);
/* disable GPIO function */
vppif_reg32_write(GPIO_BASE_ADDR + 0x40, BIT4, 4, 0);
/* GPIO4 disable GPIO out */
vppif_reg32_write(GPIO_BASE_ADDR + 0x80, BIT4, 4, 0);
/* GPIO4 disable pull ctrl */
vppif_reg32_write(GPIO_BASE_ADDR + 0x480, BIT4, 4, 0);
/* Suspend GPIO output enable */
vppif_reg32_write(GPIO_BASE_ADDR + 0x80, BIT23, 23, 1);
/* Suspend GPIO output high */
vppif_reg32_write(GPIO_BASE_ADDR + 0xC0, BIT23, 23, 1);
/* Wake3 disable pull ctrl */
vppif_reg32_write(GPIO_BASE_ADDR + 0x480, BIT19, 19, 0);
vpp_restore_reg(REG_CEC_BEGIN,
(REG_CEC_END - REG_CEC_BEGIN), wmt_cec_pm_bk);
wmt_cec_pm_bk = 0;
}
