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/* SPDX-License-Identifier: GPL-2.0-only */
#include <device/mmio.h>
#include <soc/infracfg.h>
#include <soc/pll.h>
#include <soc/pmic_wrap.h>
#include <timer.h>
#define PRIORITY_FIELD(x) ((x % 4) * 8)
#define PRIORITY_IN(id, priority) (id << PRIORITY_FIELD(priority))
#define PRIORITY_OUT(id, priority) (priority << PRIORITY_FIELD(id))
enum {
MD_ADCINF0 = 8,
MD_ADCINF1 = 9,
STAUPD = 10,
GPSINF0 = 11,
PRIORITY_IN_SEL_2 = PRIORITY_IN(MD_ADCINF0, 9) |
PRIORITY_IN(MD_ADCINF1, 10) |
PRIORITY_IN(STAUPD, 8) |
PRIORITY_IN(GPSINF0, 11),
PRIORITY_OUT_SEL_2 = PRIORITY_OUT(MD_ADCINF0, 9) |
PRIORITY_OUT(MD_ADCINF1, 10) |
PRIORITY_OUT(STAUPD, 8) |
PRIORITY_OUT(GPSINF0, 11),
};
#define PENDING_US(x) x
enum {
STARVE_ENABLE = 0x1 << 10,
COUNTER0_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x2),
COUNTER1_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x3),
COUNTER2_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x3),
COUNTER3_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x3),
COUNTER4_PENDING_THRES = STARVE_ENABLE | PENDING_US(0xf),
COUNTER5_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x20),
COUNTER6_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x28),
COUNTER7_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x28),
COUNTER8_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x13),
COUNTER9_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x17),
COUNTER10_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x17),
COUNTER11_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x7c),
COUNTER12_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x7c),
COUNTER13_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x340),
COUNTER16_PENDING_THRES = STARVE_ENABLE | PENDING_US(0x340),
};
static void pwrap_soft_reset(void)
{
write32(&mt8183_infracfg->infra_globalcon_rst2_set, 0x1);
write32(&mt8183_infracfg->infra_globalcon_rst2_clr, 0x1);
}
static void pwrap_spi_clk_set(void)
{
write32(&mtk_topckgen->clk_cfg_5_clr,
ULPOSC_OFF | ULPOSC_INV | ULPOSC_SEL_1 | ULPOSC_SEL_2);
write32(&mtk_topckgen->clk_cfg_5_set, ULPOSC_SEL_1);
write32(&mtk_topckgen->clk_cfg_update, ULPOSC_CLK);
write32(&mt8183_infracfg->module_sw_cg_0_set,
TIMER_CG | AP_CG | MD_CG | CONN_CG);
write32(&mt8183_infracfg->module_sw_cg_2_set, MODEM_TEMP_SHARE_CG);
pwrap_soft_reset();
write32(&mt8183_infracfg->module_sw_cg_0_clr,
TIMER_CG | AP_CG | MD_CG | CONN_CG);
write32(&mt8183_infracfg->module_sw_cg_2_clr, MODEM_TEMP_SHARE_CG);
}
static s32 pwrap_init_dio(u16 dio_en)
{
pwrap_write_nochk(PMIC_DEW_DIO_EN, dio_en);
if (!wait_us(100,
!wait_for_idle_and_sync(read32(&mtk_pwrap->wacs2_rdata))))
return -1;
write32(&mtk_pwrap->dio_en, dio_en);
return 0;
}
static void pwrap_lock_spislvreg(void)
{
pwrap_write_nochk(PMIC_SPISLV_KEY, 0x0);
}
static void pwrap_initstaupd(void)
{
write32(&mtk_pwrap->staupd_grpen,
SIG_PMIC_0 | INT_STA_PMIC_0 | MD_ADC_DATA0 |
MD_ADC_DATA1 | GPS_ADC_DATA0 | GPS_ADC_DATA1);
/* CRC */
pwrap_write_nochk(PMIC_DEW_CRC_EN, 0x1);
write32(&mtk_pwrap->crc_en, 0x1);
write32(&mtk_pwrap->sig_adr, PMIC_DEW_CRC_VAL);
write32(&mtk_pwrap->eint_sta0_adr, PMIC_CPU_INT_STA);
/* MD ADC Interface */
write32(&mtk_pwrap->md_auxadc_rdata_latest_addr,
(PMIC_AUXADC_ADC35 << 16) + PMIC_AUXADC_ADC31);
write32(&mtk_pwrap->md_auxadc_rdata_wp_addr,
(PMIC_AUXADC_ADC35 << 16) + PMIC_AUXADC_ADC31);
for (size_t i = 0; i < 32; i++)
write32(&mtk_pwrap->md_auxadc_rdata[i],
(PMIC_AUXADC_ADC35 << 16) + PMIC_AUXADC_ADC31);
write32(&mtk_pwrap->int_gps_auxadc_cmd_addr,
(PMIC_AUXADC_RQST1 << 16) + PMIC_AUXADC_RQST0);
write32(&mtk_pwrap->int_gps_auxadc_cmd, (GPS_MAIN << 16) + GPS_SUBSYS);
write32(&mtk_pwrap->int_gps_auxadc_rdata_addr,
(PMIC_AUXADC_ADC32 << 16) + PMIC_AUXADC_ADC17);
write32(&mtk_pwrap->ext_gps_auxadc_rdata_addr, PMIC_AUXADC_ADC31);
}
static void pwrap_starve_set(void)
{
write32(&mtk_pwrap->harb_hprio, ARB_PRIORITY);
write32(&mtk_pwrap->starv_counter_0, COUNTER0_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_1, COUNTER1_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_2, COUNTER2_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_3, COUNTER3_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_4, COUNTER4_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_5, COUNTER5_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_6, COUNTER6_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_7, COUNTER7_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_8, COUNTER8_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_9, COUNTER9_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_10, COUNTER10_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_11, COUNTER11_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_12, COUNTER12_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_13, COUNTER13_PENDING_THRES);
write32(&mtk_pwrap->starv_counter_16, COUNTER16_PENDING_THRES);
}
static void pwrap_enable(void)
{
write32(&mtk_pwrap->hiprio_arb_en, ARB_USER_EN);
write32(&mtk_pwrap->wacs0_en, 0x1);
write32(&mtk_pwrap->wacs2_en, 0x1);
write32(&mtk_pwrap->wacs_p2p_en, 0x1);
write32(&mtk_pwrap->wacs_md32_en, 0x1);
write32(&mtk_pwrap->staupd_ctrl, STA_PD_98_5_US);
write32(&mtk_pwrap->wdt_unit, WATCHDOG_TIMER_7_5_MS);
write32(&mtk_pwrap->wdt_src_en_0, WDT_MONITOR_ALL);
write32(&mtk_pwrap->wdt_src_en_1, WDT_MONITOR_ALL);
write32(&mtk_pwrap->timer_en, 0x1);
write32(&mtk_pwrap->int0_en, INT0_MONITOR);
write32(&mtk_pwrap->int1_en, INT1_MONITOR);
}
static s32 pwrap_init_sistrobe(void)
{
u16 rdata;
int si_sample_ctrl;
int test_data[30] = {
0x6996, 0x9669, 0x6996, 0x9669, 0x6996, 0x9669, 0x6996,
0x9669, 0x6996, 0x9669, 0x5AA5, 0xA55A, 0x5AA5, 0xA55A,
0x5AA5, 0xA55A, 0x5AA5, 0xA55A, 0x5AA5, 0xA55A, 0x1B27,
0x1B27, 0x1B27, 0x1B27, 0x1B27, 0x1B27, 0x1B27, 0x1B27,
0x1B27, 0x1B27};
for (si_sample_ctrl = 0; si_sample_ctrl < 16; si_sample_ctrl++) {
write32(&mtk_pwrap->si_sample_ctrl, si_sample_ctrl << 5);
pwrap_read_nochk(PMIC_DEW_READ_TEST, &rdata);
if (rdata == DEFAULT_VALUE_READ_TEST)
break;
}
if (si_sample_ctrl == 16)
return E_CLK_EDGE;
if (si_sample_ctrl == 15)
return E_CLK_LAST_SETTING;
/*
* Add the delay time of SPI data from PMIC to align the start boundary
* to current sampling clock edge.
*/
for (int si_dly = 0; si_dly < 10; si_dly++) {
pwrap_write_nochk(PMIC_RG_SPI_CON2, si_dly);
int start_boundary_found = 0;
for (size_t i = 0; i < 30; i++) {
pwrap_write_nochk(PMIC_DEW_WRITE_TEST, test_data[i]);
pwrap_read_nochk(PMIC_DEW_WRITE_TEST, &rdata);
if ((rdata & 0x7fff) != (test_data[i] & 0x7fff)) {
start_boundary_found = 1;
break;
}
}
if (start_boundary_found == 1)
break;
}
/*
* Change the sampling clock edge to the next one which is the middle
* of SPI data window.
*/
write32(&mtk_pwrap->si_sample_ctrl, ++si_sample_ctrl << 5);
/* Read Test */
pwrap_read_nochk(PMIC_DEW_READ_TEST, &rdata);
if (rdata != DEFAULT_VALUE_READ_TEST) {
pwrap_err("rdata = %#x, exp = %#x\n", rdata,
DEFAULT_VALUE_READ_TEST);
return E_PWR_READ_TEST_FAIL;
}
return 0;
}
static void pwrap_init_spislv(void)
{
/* Turn on IO filter function */
pwrap_write_nochk(PMIC_FILTER_CON0, SPI_FILTER);
/* Turn on IO SMT function to improve noise immunity */
pwrap_write_nochk(PMIC_SMT_CON1, SPI_SMT);
/* Turn off IO pull function for power saving */
pwrap_write_nochk(PMIC_GPIO_PULLEN0_CLR, SPI_PULL_DISABLE);
/* Enable SPI R/W in suspend mode */
pwrap_write_nochk(PMIC_RG_SPI_CON0, 0x1);
/* Set PMIC GPIO driving current to 4mA */
pwrap_write_nochk(PMIC_DRV_CON1, SPI_DRIVING);
}
static void pwrap_init_reg_clock(void)
{
write32(&mtk_pwrap->ext_ck_write, 0x1);
pwrap_write_nochk(PMIC_DEW_RDDMY_NO, DUMMY_READ_CYCLES);
write32(&mtk_pwrap->rddmy, DUMMY_READ_CYCLES);
write32(&mtk_pwrap->cshext_write, 0);
write32(&mtk_pwrap->cshext_read, 0);
write32(&mtk_pwrap->cslext_write, 0);
write32(&mtk_pwrap->cslext_read, 0);
}
s32 pwrap_init(void)
{
s32 sub_return = 0, sub_return1 = 0;
u16 rdata;
pwrap_spi_clk_set();
/* Reset spislv */
sub_return = pwrap_reset_spislv();
if (sub_return != 0) {
pwrap_err("reset_spislv fail, ret=%d\n", sub_return);
return E_PWR_INIT_RESET_SPI;
}
/* Enable WRAP */
write32(&mtk_pwrap->wrap_en, 0x1);
/* Enable WACS2 */
write32(&mtk_pwrap->wacs2_en, 0x1);
write32(&mtk_pwrap->hiprio_arb_en, WACS2); /* ONLY WACS2 */
/* SPI Waveform Configuration */
pwrap_init_reg_clock();
/* SPI Slave Configuration */
pwrap_init_spislv();
/* Enable DIO mode */
sub_return = pwrap_init_dio(1);
if (sub_return != 0) {
pwrap_err("dio test error, ret=%d\n", sub_return);
return E_PWR_INIT_DIO;
}
/* Input data calibration flow; */
sub_return = pwrap_init_sistrobe();
if (sub_return != 0) {
pwrap_err("InitSiStrobe fail,ret=%d\n", sub_return);
return E_PWR_INIT_SIDLY;
}
/*
* Write test using WACS2,
* make sure the read/write function ready.
*/
sub_return = pwrap_write_nochk(PMIC_DEW_WRITE_TEST, WRITE_TEST_VALUE);
sub_return1 = pwrap_read_nochk(PMIC_DEW_WRITE_TEST, &rdata);
if (rdata != WRITE_TEST_VALUE || sub_return || sub_return1) {
pwrap_err("write error, rdata=%#x, return=%d, return1=%d\n",
rdata, sub_return, sub_return1);
return E_PWR_INIT_WRITE_TEST;
}
/*
* Status update function initialization
* 1. Signature Checking using CRC (CRC 0 only)
* 2. EINT update
* 3. Read back Auxadc thermal data for GPS
*/
pwrap_initstaupd();
write32(&mtk_pwrap->priority_user_sel_2, PRIORITY_IN_SEL_2);
write32(&mtk_pwrap->arbiter_out_sel_2, PRIORITY_OUT_SEL_2);
pwrap_starve_set();
pwrap_enable();
/* Initialization Done */
write32(&mtk_pwrap->init_done0, 0x1);
write32(&mtk_pwrap->init_done2, 0x1);
write32(&mtk_pwrap->init_done_p2p, 0x1);
write32(&mtk_pwrap->init_done_md32, 0x1);
/* Lock SPISLV Registers */
pwrap_lock_spislvreg();
return 0;
}
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