/**
* calculate_sscr1 - Calculate sscr1 register.
* @settings: config settings
*
* Calculate sscr1 register.
*/
static uint32_t calculate_sscr1(const AplI2sSettings *settings)
{
uint32_t sscr1 = 0;
sscr1 = SSCR1_reg(TTE, TXD_TRISTATE_ON) |
SSCR1_reg(TTELP, TXD_TRISTATE_LAST_PHASE_ON) |
SSCR1_reg(RSRE, 1) |
SSCR1_reg(TSRE, 1) |
SSCR1_reg(TRAIL, 1);
return sscr1;
}
/**
* set_ssp_i2s_hw - configure the SSP driver according to the ps_settings
* @drv_data : structure that contains all details about the SSP Driver
* @ps_settings : structure that contains SSP Hardware settings
*
* it also store ps_settings the drv_data
*
* Output parameters
* NA
*/
static void set_ssp_i2s_hw(struct intel_mid_i2s_hdl *drv_data,
const struct intel_mid_i2s_settings *ps_settings)
{
u32 sscr0 = 0;
u32 sscr1 = 0;
u32 sstsa = 0;
u32 ssrsa = 0;
u32 sspsp = 0;
u32 sssr = 0;
/* Get the SSP Settings */
u16 l_ssp_clk_frm_mode = 0xFF;
void __iomem *reg = drv_data->ioaddr;
struct device *ddbg = &(drv_data->pdev->dev);
dev_dbg(ddbg,
"setup SSP I2S PCM1 configuration\n");
if ((ps_settings->sspsfrm_direction == SSPSFRM_MASTER_MODE)
&& (ps_settings->sspslclk_direction == SSPSCLK_MASTER_MODE)) {
l_ssp_clk_frm_mode = SSP_IN_MASTER_MODE;
} else if ((ps_settings->sspsfrm_direction == SSPSFRM_SLAVE_MODE)
&& (ps_settings->sspslclk_direction == SSPSCLK_SLAVE_MODE)) {
l_ssp_clk_frm_mode = SSP_IN_SLAVE_MODE;
} else {
dev_err(ddbg, "Unsupported I2S PCM1 configuration\n");
goto leave;
}
dev_dbg(ddbg, "SSPSFRM_DIRECTION:%d:\n",
ps_settings->sspsfrm_direction);
dev_dbg(ddbg, "SSPSCLK_DIRECTION:%d:\n",
ps_settings->sspslclk_direction);
if (ps_settings->frame_format != PSP_FORMAT) {
dev_err(ddbg, "UNSUPPORTED FRAME FORMAT:%d:\n",
ps_settings->frame_format);
goto leave;
}
if ((ps_settings->ssp_tx_dma != SSP_TX_DMA_ENABLE)
|| (ps_settings->ssp_rx_dma != SSP_RX_DMA_ENABLE)) {
dev_err(ddbg, "ONLY DMA MODE IS SUPPORTED");
goto leave;
}
/*********** DMA Transfer Mode ***********/
dev_dbg(ddbg, "FORMAT :%d:\n", ps_settings->frame_format);
sscr0 = calculate_sscr0_psp(ps_settings);
dev_dbg(ddbg, " sscr0 :0x%08X\n", sscr0);
sscr1 = calculate_sscr1_psp(ps_settings);
dev_dbg(ddbg, " sscr1 :0x%08X\n", sscr1);
if (ps_settings->mode == SSP_IN_NETWORK_MODE) {
dev_dbg(ddbg, "MODE :%d:\n", ps_settings->mode);
sscr0 |= SSCR0_reg(FRDC,
SSCR0_SlotsPerFrm(ps_settings->
frame_rate_divider_control));
dev_dbg(ddbg, "sscr0 :0x%08X\n", sscr0);
sspsp = calculate_sspsp_psp(ps_settings);
dev_dbg(ddbg, "sspsp :0x%08X\n", sspsp);
/* set the active TX time slot (bitmap) */
sstsa = SSTSA_reg(TTSA, ps_settings->ssp_active_tx_slots_map);
/* set the active RX time slot (bitmap) */
ssrsa = SSRSA_reg(RTSA, ps_settings->ssp_active_rx_slots_map);
if (l_ssp_clk_frm_mode == SSP_IN_MASTER_MODE) {
switch (ps_settings->master_mode_clk_selection) {
case SSP_ONCHIP_CLOCK:
break;
case SSP_NETWORK_CLOCK:
sscr0 |= SSCR0_reg(NCS, 1);
break;
case SSP_EXTERNAL_CLOCK:
sscr0 |= SSCR0_reg(ECS, 1);
break;
case SSP_ONCHIP_AUDIO_CLOCK:
sscr0 |= SSCR0_reg(ACS, 1);
break;
default:
dev_err(ddbg, "Master Mode clk selection UNKNOWN");
break;
}
sspsp |= SSPSP_reg(STRTDLY, ps_settings->ssp_psp_T1)
|SSPSP_reg(DMYSTRT, ps_settings->ssp_psp_T2);
} else { /* Set the Slave Clock Free Running Status */
sscr1 |= SSCR1_reg(SCFR,
ps_settings->slave_clk_free_running_status);
}
} else { /* SSP_IN_NORMAL_MODE */
dev_err(ddbg, "UNSUPPORTED MODE");
goto leave;
}
/* Clear status */
sssr = (SSSR_BCE_MASK << SSSR_BCE_SHIFT)
| (SSSR_TUR_MASK << SSSR_TUR_SHIFT)
| (SSSR_TINT_MASK << SSSR_TINT_SHIFT)
| (SSSR_PINT_MASK << SSSR_PINT_SHIFT)
| (SSSR_ROR_MASK << SSSR_ROR_SHIFT);
/* disable SSP */
clear_SSCR0_reg(reg, SSE);
dev_dbg(ddbg, "WRITE SSCR0 DISABLE\n");
/* Clear status */
write_SSSR(sssr, reg);
dev_dbg(ddbg, "WRITE SSSR: 0x%08X\n", sssr);
write_SSCR0(sscr0, reg);
dev_dbg(ddbg, "WRITE SSCR0\n");
/* first set CR1 without interrupt and service enables */
write_SSCR1(sscr1, reg);
write_SSPSP(sspsp, reg);
write_SSTSA(sstsa, reg);
write_SSRSA(ssrsa, reg);
/* set the time out for the reception */
write_SSTO(0, reg);
ssp1_dump_registers(drv_data);
leave:
return;
}
/**
* calculate_sscr1_psp - separate function that calculate sscr1 register
* @ps_settings : pointer of the settings struct
*
* this function is to simplify/clarify set_ssp_i2s_hw function
*
* Output parameters
* u32 : calculated SSCR1 register
*/
u32 calculate_sscr1_psp(const struct intel_mid_i2s_settings *ps_settings)
{
u32 sscr1;
sscr1 = SSCR1_reg(SFRMDIR, ps_settings->sspsfrm_direction)
|SSCR1_reg(SCLKDIR, ps_settings->sspslclk_direction)
|SSCR1_reg(TTELP, ps_settings->tx_tristate_phase)
|SSCR1_reg(TTE, ps_settings->tx_tristate_enable)
|SSCR1_reg(TRAIL, ps_settings->ssp_trailing_byte_mode)
|SSCR1_reg(TINTE, ps_settings->ssp_rx_timeout_interrupt_status)
|SSCR1_reg(PINTE,
ps_settings->ssp_trailing_byte_interrupt_status)
|SSCR1_reg(LBM, ps_settings->ssp_loopback_mode_status)
|SSCR1_reg(RWOT, ps_settings->ssp_duplex_mode)
|SSCR1_reg(RFT,
SSCR1_RxTresh(ps_settings->ssp_rx_fifo_threshold))
|SSCR1_reg(TFT,
SSCR1_TxTresh(ps_settings->ssp_tx_fifo_threshold));
return sscr1;
}
