soc/mediatek/mt8192: Do dramc software impedance calibration

Signed-off-by: Huayang Duan <huayang.duan@mediatek.com>
Change-Id: I2c6ffe885717997540a0a9721310e355a3b6a87d
Reviewed-on: https://review.coreboot.org/c/coreboot/+/44704
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Yu-Ping Wu <yupingso@google.com>
This commit is contained in:
Huayang Duan 2020-06-23 11:09:30 +08:00 committed by Hung-Te Lin
parent cc064c6c93
commit e05298b1d2
3 changed files with 174 additions and 1 deletions

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@ -25,7 +25,7 @@ verstage-y += ../common/uart.c
romstage-y += ../common/auxadc.c
romstage-y += ../common/cbmem.c
romstage-y += dramc_pi_main.c dramc_pi_basic_api.c dramc_utility.c
romstage-y += dramc_pi_main.c dramc_pi_basic_api.c dramc_pi_calibration_api.c dramc_utility.c
romstage-y += emi.c
romstage-y += flash_controller.c
romstage-y += ../common/gpio.c gpio.c

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@ -0,0 +1,170 @@
/* SPDX-License-Identifier: GPL-2.0-only */
#include <soc/dramc_pi_api.h>
#include <soc/dramc_register.h>
static const u8 imp_vref_sel[ODT_MAX][IMP_DRV_MAX] = {
/* DRVP DRVN ODTP ODTN */
[ODT_OFF] = {0x37, 0x33, 0x00, 0x37},
[ODT_ON] = {0x3a, 0x33, 0x00, 0x3a},
};
static void dramc_imp_cal_vref_sel(dram_odt_state odt, imp_drv_type drv_type)
{
u8 vref_tmp = imp_vref_sel[odt][drv_type];
switch (drv_type) {
case DRVP:
SET32_BITFIELDS(&ch[0].phy_ao.shu_ca_cmd12,
SHU_CA_CMD12_RG_RIMP_VREF_SEL_DRVP, vref_tmp);
break;
case DRVN:
SET32_BITFIELDS(&ch[0].phy_ao.shu_ca_cmd12,
SHU_CA_CMD12_RG_RIMP_VREF_SEL_DRVN, vref_tmp);
break;
case ODTN:
SET32_BITFIELDS(&ch[0].phy_ao.shu_ca_cmd12,
SHU_CA_CMD12_RG_RIMP_VREF_SEL_ODTN, vref_tmp);
break;
default:
die("Can't support drv_type %d\n", drv_type);
break;
}
}
static u32 dramc_sw_imp_cal_result(imp_drv_type drv_type)
{
u32 drive = 0, cal_res = 0;
u32 change = (drv_type == DRVP) ? 1 : 0;
static const char *const drv_type_str[IMP_DRV_MAX] = {
[DRVP] = "DRVP",
[DRVN] = "DRVN",
[ODTP] = "ODTP",
[ODTN] = "ODTN",
};
if (drv_type >= IMP_DRV_MAX)
die("Can't support drv_type %d", drv_type);
const char *drv_str = drv_type_str[drv_type];
for (drive = 0; drive < 32; drive++) {
if (drv_type == DRVP)
SET32_BITFIELDS(&ch[0].phy_ao.shu_misc_impcal1,
SHU_MISC_IMPCAL1_IMPDRVP, drive);
else if (drv_type == DRVN || drv_type == ODTN)
SET32_BITFIELDS(&ch[0].phy_ao.shu_misc_impcal1,
SHU_MISC_IMPCAL1_IMPDRVN, drive);
udelay(1);
cal_res = READ32_BITFIELD(&ch[0].phy_nao.misc_phy_rgs_cmd,
MISC_PHY_RGS_CMD_RGS_RIMPCALOUT);
dramc_dbg("OCD %s=%d ,CALOUT=%d\n", drv_str, drive, cal_res);
if (cal_res == change) {
dramc_info("%s calibration passed! result=%d\n", drv_str, drive);
break;
}
}
if (drive == 32) {
drive = 31;
dramc_err("OCD %s calibration failed! %s=%d\n", drv_str, drv_str, drive);
}
return drive;
}
void dramc_sw_impedance_cal(dram_odt_state odt, struct dram_impedance *imp)
{
const u8 chn = 0;
u8 i_chn, enp, enn;
u32 bc_bak, impcal_bak, cal_res;
u32 drvp_result = 0xff, odtn_result = 0xff, drvn_result = 0xff;
bc_bak = dramc_get_broadcast();
dramc_set_broadcast(DRAMC_BROADCAST_OFF);
for (i_chn = 0; i_chn < CHANNEL_MAX; i_chn++) {
SET32_BITFIELDS(&ch[i_chn].phy_ao.misc_lp_ctrl,
MISC_LP_CTRL_RG_ARDMSUS_10, 0x0,
MISC_LP_CTRL_RG_ARDMSUS_10_LP_SEL, 0x0,
MISC_LP_CTRL_RG_RIMP_DMSUS_10, 0x0,
MISC_LP_CTRL_RG_RIMP_DMSUS_10_LP_SEL, 0x0);
SET32_BITFIELDS(&ch[i_chn].phy_ao.misc_impcal, MISC_IMPCAL_IMPCAL_HW, 0);
}
impcal_bak = read32(&ch[chn].phy_ao.misc_impcal);
SET32_BITFIELDS(&ch[chn].phy_ao.misc_imp_ctrl1, MISC_IMP_CTRL1_RG_RIMP_PRE_EN, 0);
SET32_BITFIELDS(&ch[chn].phy_ao.misc_impcal,
MISC_IMPCAL_IMPCAL_CALI_ENN, 0,
MISC_IMPCAL_IMPCAL_IMPPDP, 1,
MISC_IMPCAL_IMPCAL_IMPPDN, 1);
SET32_BITFIELDS(&ch[chn].phy_ao.misc_imp_ctrl1,
MISC_IMP_CTRL1_RG_IMP_EN, 1,
MISC_IMP_CTRL1_RG_RIMP_DDR3_SEL, 0,
MISC_IMP_CTRL1_RG_RIMP_VREF_EN, 1,
MISC_IMP_CTRL1_RG_RIMP_DDR4_SEL, 1);
udelay(1);
SET32_BITFIELDS(&ch[chn].phy_ao.misc_impcal, MISC_IMPCAL_IMPCAL_CALI_EN, 1);
SET32_BITFIELDS(&ch[chn].phy_ao.shu_misc_impcal1,
SHU_MISC_IMPCAL1_IMPDRVN, 0,
SHU_MISC_IMPCAL1_IMPDRVP, 0);
for (imp_drv_type drv_type = DRVP; drv_type < IMP_DRV_MAX; drv_type++) {
if (drv_type == ODTP)
continue;
dramc_imp_cal_vref_sel(odt, drv_type);
switch (drv_type) {
case DRVP:
enp = 0x1;
enn = 0x0;
drvp_result = 0;
break;
case DRVN:
case ODTN:
enp = 0x0;
enn = (drv_type == DRVN) ? 0x0 : 0x1;
break;
default:
die("Can't support drv_type %d\n", drv_type);
break;
}
SET32_BITFIELDS(&ch[chn].phy_ao.misc_impcal,
MISC_IMPCAL_IMPCAL_CALI_ENP, enp);
SET32_BITFIELDS(&ch[chn].phy_ao.misc_impcal,
MISC_IMPCAL_IMPCAL_CALI_ENN, enn);
SET32_BITFIELDS(&ch[chn].phy_ao.shu_misc_impcal1,
SHU_MISC_IMPCAL1_IMPDRVP, drvp_result);
SET32_BITFIELDS(&ch[chn].phy_ao.shu_ca_cmd12,
SHU_CA_CMD12_RG_RIMP_DRV05, 0);
cal_res = dramc_sw_imp_cal_result(drv_type);
switch (drv_type) {
case DRVP:
drvp_result = cal_res;
break;
case DRVN:
drvn_result = cal_res;
break;
case ODTN:
odtn_result = cal_res;
break;
default:
die("Can't support drv_type %d\n", drv_type);
break;
}
}
imp->result[odt][DRVP] = drvp_result;
imp->result[odt][DRVN] = drvn_result;
imp->result[odt][ODTP] = 0;
imp->result[odt][ODTN] = odtn_result;
dramc_info("freq_region=%d, Reg: DRVP=%d, DRVN=%d, ODTN=%d\n",
odt, drvp_result, drvn_result, odtn_result);
write32(&ch[chn].phy_ao.misc_impcal, impcal_bak);
dramc_set_broadcast(bc_bak);
}

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@ -64,6 +64,9 @@ void init_dram(const struct dramc_data *dparam)
emi_mdl_init(cali.emi_config);
dramc_set_broadcast(bc_bak);
dramc_sw_impedance_cal(ODT_OFF, &cali.impedance);
dramc_sw_impedance_cal(ODT_ON, &cali.impedance);
if (ddr_info->config_dvfs == DRAMC_ENABLE_DVFS)
k_shuffle_end = CALI_SEQ_MAX;
else