static void dim2_transfer_madr(u32 val)
{
- dimcb_io_write(&g.dim2->MADR, val);
+ writel(val, &g.dim2->MADR);
/* wait for transfer completion */
while ((readl(&g.dim2->MCTL) & 1) != 1)
continue;
- dimcb_io_write(&g.dim2->MCTL, 0); /* clear transfer complete */
+ writel(0, &g.dim2->MCTL); /* clear transfer complete */
}
static void dim2_clear_dbr(u16 addr, u16 size)
u16 const end_addr = addr + size;
u32 const cmd = bit_mask(MADR_WNR_BIT) | bit_mask(MADR_TB_BIT);
- dimcb_io_write(&g.dim2->MCTL, 0); /* clear transfer complete */
- dimcb_io_write(&g.dim2->MDAT0, 0);
+ writel(0, &g.dim2->MCTL); /* clear transfer complete */
+ writel(0, &g.dim2->MDAT0);
for (; addr < end_addr; addr++)
dim2_transfer_madr(cmd | addr);
{
enum { MADR_WNR_BIT = 31 };
- dimcb_io_write(&g.dim2->MCTL, 0); /* clear transfer complete */
+ writel(0, &g.dim2->MCTL); /* clear transfer complete */
if (mask[0] != 0)
- dimcb_io_write(&g.dim2->MDAT0, value[0]);
+ writel(value[0], &g.dim2->MDAT0);
if (mask[1] != 0)
- dimcb_io_write(&g.dim2->MDAT1, value[1]);
+ writel(value[1], &g.dim2->MDAT1);
if (mask[2] != 0)
- dimcb_io_write(&g.dim2->MDAT2, value[2]);
+ writel(value[2], &g.dim2->MDAT2);
if (mask[3] != 0)
- dimcb_io_write(&g.dim2->MDAT3, value[3]);
+ writel(value[3], &g.dim2->MDAT3);
- dimcb_io_write(&g.dim2->MDWE0, mask[0]);
- dimcb_io_write(&g.dim2->MDWE1, mask[1]);
- dimcb_io_write(&g.dim2->MDWE2, mask[2]);
- dimcb_io_write(&g.dim2->MDWE3, mask[3]);
+ writel(mask[0], &g.dim2->MDWE0);
+ writel(mask[1], &g.dim2->MDWE1);
+ writel(mask[2], &g.dim2->MDWE2);
+ writel(mask[3], &g.dim2->MDWE3);
dim2_transfer_madr(bit_mask(MADR_WNR_BIT) | ctr_addr);
}
dim2_configure_cat(AHB_CAT, ch_addr, type, is_tx ? 0 : 1);
/* unmask interrupt for used channel, enable mlb_sys_int[0] interrupt */
- dimcb_io_write(&g.dim2->ACMR0,
- readl(&g.dim2->ACMR0) | bit_mask(ch_addr));
+ writel(readl(&g.dim2->ACMR0) | bit_mask(ch_addr), &g.dim2->ACMR0);
}
static void dim2_clear_channel(u8 ch_addr)
{
/* mask interrupt for used channel, disable mlb_sys_int[0] interrupt */
- dimcb_io_write(&g.dim2->ACMR0,
- readl(&g.dim2->ACMR0) & ~bit_mask(ch_addr));
+ writel(readl(&g.dim2->ACMR0) & ~bit_mask(ch_addr), &g.dim2->ACMR0);
dim2_clear_cat(AHB_CAT, ch_addr);
dim2_clear_adt(ch_addr);
dim2_clear_cdt(ch_addr);
/* clear channel status bit */
- dimcb_io_write(&g.dim2->ACSR0, bit_mask(ch_addr));
+ writel(bit_mask(ch_addr), &g.dim2->ACSR0);
}
/* -------------------------------------------------------------------------- */
static void dim2_cleanup(void)
{
/* disable MediaLB */
- dimcb_io_write(&g.dim2->MLBC0, false << MLBC0_MLBEN_BIT);
+ writel(false << MLBC0_MLBEN_BIT, &g.dim2->MLBC0);
dim2_clear_ctram();
/* disable mlb_int interrupt */
- dimcb_io_write(&g.dim2->MIEN, 0);
+ writel(0, &g.dim2->MIEN);
/* clear status for all dma channels */
- dimcb_io_write(&g.dim2->ACSR0, 0xFFFFFFFF);
- dimcb_io_write(&g.dim2->ACSR1, 0xFFFFFFFF);
+ writel(0xFFFFFFFF, &g.dim2->ACSR0);
+ writel(0xFFFFFFFF, &g.dim2->ACSR1);
/* mask interrupts for all channels */
- dimcb_io_write(&g.dim2->ACMR0, 0);
- dimcb_io_write(&g.dim2->ACMR1, 0);
+ writel(0, &g.dim2->ACMR0);
+ writel(0, &g.dim2->ACMR1);
}
static void dim2_initialize(bool enable_6pin, u8 mlb_clock)
dim2_cleanup();
/* configure and enable MediaLB */
- dimcb_io_write(&g.dim2->MLBC0,
- enable_6pin << MLBC0_MLBPEN_BIT |
- mlb_clock << MLBC0_MLBCLK_SHIFT |
- g.fcnt << MLBC0_FCNT_SHIFT |
- true << MLBC0_MLBEN_BIT);
+ writel(enable_6pin << MLBC0_MLBPEN_BIT |
+ mlb_clock << MLBC0_MLBCLK_SHIFT |
+ g.fcnt << MLBC0_FCNT_SHIFT |
+ true << MLBC0_MLBEN_BIT,
+ &g.dim2->MLBC0);
/* activate all HBI channels */
- dimcb_io_write(&g.dim2->HCMR0, 0xFFFFFFFF);
- dimcb_io_write(&g.dim2->HCMR1, 0xFFFFFFFF);
+ writel(0xFFFFFFFF, &g.dim2->HCMR0);
+ writel(0xFFFFFFFF, &g.dim2->HCMR1);
/* enable HBI */
- dimcb_io_write(&g.dim2->HCTL, bit_mask(HCTL_EN_BIT));
+ writel(bit_mask(HCTL_EN_BIT), &g.dim2->HCTL);
/* configure DMA */
- dimcb_io_write(&g.dim2->ACTL,
- ACTL_DMA_MODE_VAL_DMA_MODE_1 << ACTL_DMA_MODE_BIT |
- true << ACTL_SCE_BIT);
+ writel(ACTL_DMA_MODE_VAL_DMA_MODE_1 << ACTL_DMA_MODE_BIT |
+ true << ACTL_SCE_BIT, &g.dim2->ACTL);
}
static bool dim2_is_mlb_locked(void)
u32 const c1 = readl(&g.dim2->MLBC1);
u32 const nda_mask = (u32)MLBC1_NDA_MASK << MLBC1_NDA_SHIFT;
- dimcb_io_write(&g.dim2->MLBC1, c1 & nda_mask);
+ writel(c1 & nda_mask, &g.dim2->MLBC1);
return (readl(&g.dim2->MLBC1) & mask1) == 0 &&
(readl(&g.dim2->MLBC0) & mask0) != 0;
}
dim2_write_ctr_mask(ADT + ch_addr, mask, adt_w);
/* clear channel status bit */
- dimcb_io_write(&g.dim2->ACSR0, bit_mask(ch_addr));
+ writel(bit_mask(ch_addr), &g.dim2->ACSR0);
return true;
}
void dim_service_mlb_int_irq(void)
{
- dimcb_io_write(&g.dim2->MS0, 0);
- dimcb_io_write(&g.dim2->MS1, 0);
+ writel(0, &g.dim2->MS0);
+ writel(0, &g.dim2->MS1);
}
/**
if (is_tx && !g.atx_dbr.ch_addr) {
g.atx_dbr.ch_addr = ch->addr;
dbrcnt_init(ch->addr, ch->dbr_size);
- dimcb_io_write(&g.dim2->MIEN, bit_mask(20));
+ writel(bit_mask(20), &g.dim2->MIEN);
}
return ret;
return DIM_ERR_DRIVER_NOT_INITIALIZED;
if (ch->addr == g.atx_dbr.ch_addr) {
- dimcb_io_write(&g.dim2->MIEN, 0);
+ writel(0, &g.dim2->MIEN);
g.atx_dbr.ch_addr = 0;
}
projects / users / hch / block.git / commitdiff