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review.coreboot.org / coreboot / 27d6299d51744bda549b7764b8fde909ad812e33 / . / src / soc / mediatek / mt8192 / srclken_rc.c
blob: f6790c689834e4f85ae1509272f97fb1c60ec78d [file] [log] [blame]
/* SPDX-License-Identifier: GPL-2.0-only */
#include <console/console.h>
#include <delay.h>
#include <soc/addressmap.h>
#include <soc/pmif.h>
#include <soc/srclken_rc.h>
#define RCTAG "[SRCLKEN_RC]"
#define rc_info(fmt, arg ...) printk(BIOS_INFO, RCTAG "%s,%d: " fmt, \
__func__, __LINE__, ## arg)
#define SRCLKEN_DBG 1
/* RC settle time setting */
enum {
FULL_SET_HW_MODE = 0, /* dcxo mode use pmrc_en */
VCORE_SETTLE_TIME = 1, /* ~= 30us */
ULPOSC_SETTLE_TIME = 4, /* ~= 150us */
XO_SETTLE_TIME = 0x1, /* 2 ^ (step_sz + 5) * 0x33 * 30.77ns ~= 400us */
DCXO_SETTLE_TIME = 0x1, /* 2 ^ (step_sz + 5) * 0x87 * 30.77ns ~= 1063us */
CENTROL_CNT_STEP = 0x3, /* fix in 3, central align with Mxx channel */
DCXO_STABLE_TIME = 0x70,
XO_STABLE_TIME = 0x70,
KEEP_RC_SPI_ACTIVE_VAL = 1,
SRCLKEN_RC_EN_SEL_VAL = 0,
};
enum {
INIT_SUBSYS_FPM_TO_LPM = 1 << CHN_RF | 1 << CHN_DEEPIDLE | 1 << CHN_MD
| 1 << CHN_GPS | 1 << CHN_BT | 1 << CHN_WIFI
| 1 << CHN_MCU | 1 << CHN_COANT | 1 << CHN_NFC
| 1 << CHN_UFS | 1 << CHN_SCP | 1 << CHN_RESERVE,
INIT_SUBSYS_FPM_TO_BBLPM = 1 << CHN_DEEPIDLE,
INIT_SUBSYS_TO_HW = 1 << CHN_SUSPEND | 1 << CHN_DEEPIDLE | 1 << CHN_MCU,
};
/* RC central setting */
enum {
RC_CENTRAL_ENABLE = 1,
RC_CENTRAL_DISABLE = 0,
SPI_TRIG_MODE = SRCLKENAO_MODE, /* use srlckenao to set vcore */
IS_SPI_DONE_RELEASE = 0, /* release vcore when spi request done */
IS_SPI2PMIC_SET_CLR = 0, /* register direct write */
SRCLKENO_0_CTRL_M = MERGE_OR_MODE, /* merge with spm */
VREQ_CTRL_M = BYPASS_MODE, /* merge with vreq */
ULPOSC_CTRL_M_VAL = BYPASS_MODE, /* merge with ulposc */
PWRAP_CTRL_M = MERGE_OR_MODE, /* merge with pwrap_scp */
SPI_CLK_SRC = RC_32K, /* pmic spec under 200us */
};
/* Other setting */
enum {
DCXO_FPM_CTRL_MODE = MERGE_OR_MODE | ASYNC_MODE, /* merge with spm */
PWRAP_TMOUT_VAL = 0xA, /* 31us * 0xa ~= 310us */
FPM_MSK_B = FULL_SET_HW_MODE,
MD0_SRCLKENO_0_MASK_B = 0, /* md0 control by pmrc */
};
enum {
SUB_BBLPM_SET = 1 << CHN_COANT | 1 << CHN_DEEPIDLE,
SUB_FPM_SET = 1 << CHN_SUSPEND | 1 << CHN_RF | 1 << CHN_MD
| 1 << CHN_GPS | 1 << CHN_BT | 1 << CHN_WIFI
| 1 << CHN_MCU | 1 << CHN_NFC | 1 << CHN_UFS
| 1 << CHN_SCP | 1 << CHN_RESERVE,
};
enum {
SW_FPM_LOW = 0,
SW_FPM_HIGH = 1,
};
enum {
SW_BBLPM_LOW = 0,
SW_BBLPM_HIGH = 1,
};
enum {
DXCO_SETTLE_BLK_DIS = 0,
DXCO_SETTLE_BLK_EN = 1,
};
#define SUB_CTRL_CON(_dcxo_prd, _xo_prd, _bypass_cmd, _dcxo_settle_blk_en) { \
.dcxo_prd = _dcxo_prd, \
.xo_prd = _xo_prd, \
.cnt_step = CENTROL_CNT_STEP, \
.track_en = 0x0, \
.req_ack_imd_en = 0x1, \
.xo_soc_link_en = 0x0, \
.sw_bblpm = SW_BBLPM_LOW, \
.sw_fpm = SW_FPM_HIGH, \
.sw_rc = SW_MODE, \
.bypass_cmd = _bypass_cmd, \
.dcxo_settle_blk_en = _dcxo_settle_blk_en, \
}
static struct mtk_rc_regs *rc_regs = (struct mtk_rc_regs *)RC_BASE;
static struct mtk_rc_status_regs *rc_sta_regs = (struct mtk_rc_status_regs *)RC_STATUS_BASE;
static struct subsys_rc_con rc_ctrl[MAX_CHN_NUM] = {
[CHN_SUSPEND] = SUB_CTRL_CON(DCXO_STABLE_TIME, XO_STABLE_TIME, 0x0, DXCO_SETTLE_BLK_EN),
[CHN_RF] = SUB_CTRL_CON(DCXO_STABLE_TIME, XO_STABLE_TIME, 0x0, DXCO_SETTLE_BLK_EN),
[CHN_DEEPIDLE] = SUB_CTRL_CON(DCXO_STABLE_TIME, XO_STABLE_TIME,
0x0, DXCO_SETTLE_BLK_EN),
[CHN_MD] = SUB_CTRL_CON(DCXO_STABLE_TIME, XO_STABLE_TIME, 0x0, DXCO_SETTLE_BLK_EN),
[CHN_GPS] = SUB_CTRL_CON(DCXO_STABLE_TIME, XO_STABLE_TIME, 0x0, DXCO_SETTLE_BLK_EN),
[CHN_BT] = SUB_CTRL_CON(DCXO_STABLE_TIME, XO_STABLE_TIME, 0x0, DXCO_SETTLE_BLK_EN),
[CHN_WIFI] = SUB_CTRL_CON(DCXO_STABLE_TIME, XO_STABLE_TIME, 0x0, DXCO_SETTLE_BLK_EN),
[CHN_MCU] = SUB_CTRL_CON(DCXO_STABLE_TIME, XO_STABLE_TIME, 0x0, DXCO_SETTLE_BLK_EN),
[CHN_COANT] = SUB_CTRL_CON(0x0, 0x0, 0x1, DXCO_SETTLE_BLK_DIS),
[CHN_NFC] = SUB_CTRL_CON(DCXO_STABLE_TIME, XO_STABLE_TIME, 0x0, DXCO_SETTLE_BLK_EN),
[CHN_UFS] = SUB_CTRL_CON(DCXO_STABLE_TIME, XO_STABLE_TIME, 0x0, DXCO_SETTLE_BLK_EN),
[CHN_SCP] = SUB_CTRL_CON(0x0, 0x0, 0x1, DXCO_SETTLE_BLK_DIS),
[CHN_RESERVE] = SUB_CTRL_CON(0x0, 0x0, 0x1, DXCO_SETTLE_BLK_DIS),
};
static void pmic_read(u32 addr, u32 *rdata)
{
static struct pmif *pmif_arb;
if (pmif_arb == NULL)
pmif_arb = get_pmif_controller(PMIF_SPI, 0);
pmif_arb->read(pmif_arb, 0, addr, rdata);
}
static void rc_dump_reg_info(void)
{
unsigned int chn_n;
if (SRCLKEN_DBG) {
rc_info("SRCLKEN_RC_CFG:%#x\n", read32(&rc_regs->srclken_rc_cfg));
rc_info("RC_CENTRAL_CFG1:%#x\n", read32(&rc_regs->rc_central_cfg1));
rc_info("RC_CENTRAL_CFG2:%#x\n", read32(&rc_regs->rc_central_cfg2));
rc_info("RC_CENTRAL_CFG3:%#x\n", read32(&rc_regs->rc_central_cfg3));
rc_info("RC_CENTRAL_CFG4:%#x\n", read32(&rc_regs->rc_central_cfg4));
rc_info("RC_DCXO_FPM_CFG:%#x\n", read32(&rc_regs->rc_dcxo_fpm_cfg));
rc_info("SUBSYS_INTF_CFG:%#x\n", read32(&rc_regs->rc_subsys_intf_cfg));
rc_info("RC_SPI_STA_0:%#x\n", read32(&rc_sta_regs->rc_spi_sta_0));
rc_info("RC_PI_PO_STA:%#x\n", read32(&rc_sta_regs->rc_pi_po_sta_0));
for (chn_n = 0; chn_n < MAX_CHN_NUM; chn_n++) {
rc_info("M%02d: %#x\n", chn_n,
read32(&rc_regs->rc_mxx_srclken_cfg[chn_n]));
}
}
}
/* RC initial flow and relative setting */
static void __rc_ctrl_mode_switch(enum chn_id id, enum rc_ctrl_m mode)
{
switch (mode) {
case INIT_MODE:
SET32_BITFIELDS(&rc_regs->rc_mxx_srclken_cfg[id],
DCXO_SETTLE_BLK_EN, rc_ctrl[id].dcxo_settle_blk_en,
BYPASS_CMD_EN, rc_ctrl[id].bypass_cmd,
SW_SRCLKEN_RC, rc_ctrl[id].sw_rc,
SW_SRCLKEN_FPM, rc_ctrl[id].sw_fpm,
SW_SRCLKEN_BBLPM, rc_ctrl[id].sw_bblpm,
XO_SOC_LINK_EN, rc_ctrl[id].xo_soc_link_en,
REQ_ACK_LOW_IMD_EN, rc_ctrl[id].req_ack_imd_en,
SRCLKEN_TRACK_M_EN, rc_ctrl[id].track_en,
CNT_PRD_STEP, rc_ctrl[id].cnt_step,
XO_STABLE_PRD, rc_ctrl[id].xo_prd,
DCXO_STABLE_PRD, rc_ctrl[id].dcxo_prd);
break;
case SW_MODE:
SET32_BITFIELDS(&rc_regs->rc_mxx_srclken_cfg[id], SW_SRCLKEN_RC, 1);
break;
case HW_MODE:
SET32_BITFIELDS(&rc_regs->rc_mxx_srclken_cfg[id], SW_SRCLKEN_RC, 0);
break;
default:
die("Can't support rc_mode %d\n", mode);
}
rc_info("M%02d: %#x\n", id, read32(&rc_regs->rc_mxx_srclken_cfg[id]));
}
/* RC subsys FPM control */
static void __rc_ctrl_fpm_switch(enum chn_id id, unsigned int mode)
{
SET32_BITFIELDS(&rc_regs->rc_mxx_srclken_cfg[id], SW_SRCLKEN_FPM, !!mode);
rc_ctrl[id].sw_fpm = mode;
rc_info("M%02d FPM SWITCH: %#x\n", id, read32(&rc_regs->rc_mxx_srclken_cfg[id]));
}
static void __rc_ctrl_bblpm_switch(enum chn_id id, unsigned int mode)
{
SET32_BITFIELDS(&rc_regs->rc_mxx_srclken_cfg[id], SW_SRCLKEN_BBLPM, !!mode);
rc_ctrl[id].sw_bblpm = mode;
rc_info("M%02d BBLPM SWITCH: %#x\n", id, read32(&rc_regs->rc_mxx_srclken_cfg[id]));
}
static void rc_init_subsys_hw_mode(void)
{
unsigned int chn_n;
for (chn_n = 0; chn_n < MAX_CHN_NUM; chn_n++) {
if (INIT_SUBSYS_TO_HW & (1 << chn_n))
__rc_ctrl_mode_switch(chn_n, HW_MODE);
}
}
static void rc_init_subsys_lpm(void)
{
unsigned int chn_n;
for (chn_n = 0; chn_n < MAX_CHN_NUM; chn_n++) {
if (INIT_SUBSYS_FPM_TO_LPM & (1 << chn_n))
__rc_ctrl_fpm_switch(chn_n, SW_FPM_LOW);
}
for (chn_n = 0; chn_n < MAX_CHN_NUM; chn_n++) {
if (INIT_SUBSYS_FPM_TO_BBLPM & (1 << chn_n))
__rc_ctrl_bblpm_switch(chn_n, SW_BBLPM_HIGH);
}
}
static void rc_ctrl_mode_switch_init(enum chn_id id)
{
__rc_ctrl_mode_switch(id, INIT_MODE);
}
static enum rc_support srclken_rc_chk_init_cfg(void)
{
pmwrap_interface_init();
if (!CONFIG(SRCLKEN_RC_SUPPORT)) {
rc_info("Bring-UP : skip srclken_rc init\n");
return SRCLKEN_RC_DISABLE;
}
if (SRCLKEN_DBG) {
/* Enable debug trace */
write32(&rc_sta_regs->rc_debug_trace, 1);
SET32_BITFIELDS(&rc_regs->rc_debug_cfg, TRACE_MODE_EN, 1);
}
return SRCLKEN_RC_ENABLE;
}
int srclken_rc_init(void)
{
/* New co-clock architecture srclkenrc implement here */
unsigned int chn_n;
int ret = 0;
/* Check platform config to proceed init flow */
if (srclken_rc_chk_init_cfg() != SRCLKEN_RC_ENABLE)
return ret;
/* Set SW RESET 1 */
SET32_BITFIELDS(&rc_regs->srclken_rc_cfg, SW_RESET, 1);
/* Wait 100us */
udelay(100);
/* Set SW CG 1 */
write32(&rc_regs->srclken_rc_cfg,
_BF_VALUE(SW_RESET, 1) | _BF_VALUE(CG_32K_EN, 1) |
_BF_VALUE(CG_FCLK_EN, 1) | _BF_VALUE(CG_FCLK_FR_EN, 1));
/* Wait 100us */
udelay(100);
/* Set Clock Mux */
write32(&rc_regs->srclken_rc_cfg,
_BF_VALUE(SW_RESET, 1) | _BF_VALUE(CG_32K_EN, 1) |
_BF_VALUE(CG_FCLK_EN, 1) | _BF_VALUE(CG_FCLK_FR_EN, 1) |
_BF_VALUE(MUX_FCLK_FR, 1));
/* Set req_filter m00~m12 as default SW_FPM */
for (chn_n = 0; chn_n < MAX_CHN_NUM; chn_n++)
rc_ctrl_mode_switch_init(chn_n);
/* Set PMIC addr for SPI CMD */
write32(&rc_regs->rc_pmic_rcen_addr, PMIC_PMRC_CON0);
write32(&rc_regs->rc_pmic_rcen_set_clr_addr,
(PMIC_PMRC_CON0_CLR << 16) | PMIC_PMRC_CON0_SET);
write32(&rc_regs->rc_cmd_arb_cfg, 0);
/* CFG1 setting for spi cmd config */
write32(&rc_regs->rc_central_cfg1,
_BF_VALUE(DCXO_SETTLE_T, DCXO_SETTLE_TIME) |
_BF_VALUE(NON_DCXO_SETTLE_T, XO_SETTLE_TIME) |
_BF_VALUE(ULPOSC_SETTLE_T, ULPOSC_SETTLE_TIME) |
_BF_VALUE(VCORE_SETTLE_T, VCORE_SETTLE_TIME) |
_BF_VALUE(SRCLKEN_RC_EN_SEL, SRCLKEN_RC_EN_SEL_VAL) |
_BF_VALUE(RC_SPI_ACTIVE, KEEP_RC_SPI_ACTIVE_VAL) |
_BF_VALUE(RCEN_ISSUE_M, IS_SPI2PMIC_SET_CLR) |
_BF_VALUE(SRCLKEN_RC_EN, RC_CENTRAL_DISABLE));
/* CFG2 setting for signal mode of each control mux */
write32(&rc_regs->rc_central_cfg2,
_BF_VALUE(PWRAP_SLP_MUX_SEL, SPI_CLK_SRC) |
_BF_VALUE(PWRAP_SLP_CTRL_M, PWRAP_CTRL_M) |
_BF_VALUE(ULPOSC_CTRL_M, ULPOSC_CTRL_M_VAL) |
_BF_VALUE(SRCVOLTEN_VREQ_M, IS_SPI_DONE_RELEASE) |
_BF_VALUE(SRCVOLTEN_VREQ_SEL, SPI_TRIG_MODE) |
_BF_VALUE(VREQ_CTRL, VREQ_CTRL_M) |
_BF_VALUE(SRCVOLTEN_CTRL, SRCLKENO_0_CTRL_M));
write32(&rc_regs->rc_central_cfg3,
_BF_VALUE(TO_LPM_SETTLE_T, 0x4) |
_BF_VALUE(TO_BBLPM_SETTLE_EN, 1) |
_BF_VALUE(BLK_COANT_DXCO_MD_TARGET, 1) |
_BF_VALUE(BLK_SCP_DXCO_MD_TARGET, 1) |
_BF_VALUE(TO_LPM_SETTLE_EN, 1));
/* Set srclkeno_0/conn_bt as factor to allow dcxo change to FPM */
write32(&rc_regs->rc_dcxo_fpm_cfg,
_BF_VALUE(SUB_SRCLKEN_FPM_MSK_B, FPM_MSK_B) |
_BF_VALUE(SRCVOLTEN_FPM_MSK_B, MD0_SRCLKENO_0_MASK_B) |
_BF_VALUE(DCXO_FPM_CTRL_M, DCXO_FPM_CTRL_MODE));
/* Set bblpm/fpm channel */
write32(&rc_regs->rc_subsys_intf_cfg,
_BF_VALUE(SRCLKEN_BBLPM_MASK_B, SUB_BBLPM_SET) |
_BF_VALUE(SRCLKEN_FPM_MASK_B, SUB_FPM_SET));
/* Trigger srclken_rc enable */
SET32_BITFIELDS(&rc_regs->rc_central_cfg1,
SRCLKEN_RC_EN, RC_CENTRAL_ENABLE);
write32(&rc_regs->rc_central_cfg4,
_BF_VALUE(SLEEP_VLD_MODE, 0x1) |
_BF_VALUE(PWRAP_VLD_FORCE, 0x1) |
_BF_VALUE(KEEP_RC_SPI_ACTIVE, 0x800));
/* Wait 100us */
udelay(100);
/* Set SW RESET 0 */
write32(&rc_regs->srclken_rc_cfg,
_BF_VALUE(CG_32K_EN, 1) | _BF_VALUE(CG_FCLK_EN, 1) |
_BF_VALUE(CG_FCLK_FR_EN, 1) | _BF_VALUE(MUX_FCLK_FR, 1));
/* Wait 100us */
udelay(100);
/* Set SW CG 0 */
write32(&rc_regs->srclken_rc_cfg, _BF_VALUE(MUX_FCLK_FR, 1));
/* Wait 500us */
udelay(500);
/* Set req_filter m00~m12 FPM to LPM */
rc_init_subsys_lpm();
/* Polling ACK of Initial Subsys Input */
for (chn_n = 0; chn_n < MAX_CHN_NUM; chn_n++) {
unsigned int chk_sta, shift_chn_n = 0;
int retry;
u32 temp;
/* Fix RC_MXX_REQ_STA_0 register shift */
if (chn_n > 0)
shift_chn_n = 1;
chk_sta = (rc_ctrl[chn_n].sw_fpm & SW_SRCLKEN_FPM_MSK) << 1 |
(rc_ctrl[chn_n].sw_bblpm & SW_SRCLKEN_BBLPM_MSK) << 3;
retry = 200;
while ((read32(&rc_sta_regs->rc_mxx_req_sta_0[chn_n + shift_chn_n]) & 0xa)
!= chk_sta && retry-- > 0)
udelay(10);
if (retry < 0) {
pmic_read(PMIC_PMRC_CON0, &temp);
rc_info("polling M%02d failed.(R:%#x)(C:%#x)(PMRC:%#x)\n",
chn_n,
read32(&rc_sta_regs->rc_mxx_req_sta_0[chn_n + shift_chn_n]),
read32(&rc_regs->rc_mxx_srclken_cfg[chn_n]), temp);
ret = -1;
}
}
/* Set req_filter m00~m12 */
rc_init_subsys_hw_mode();
/* Release force pmic req signal */
write32(&rc_regs->rc_central_cfg4,
_BF_VALUE(SLEEP_VLD_MODE, 0x1) |
_BF_VALUE(KEEP_RC_SPI_ACTIVE, 0x800));
rc_dump_reg_info();
return ret;
}