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|
/*
* Copyright (C) Marvell International Ltd. and its affiliates
*
* SPDX-License-Identifier: GPL-2.0
*/
#include <common.h>
#include <i2c.h>
#include <spl.h>
#include <asm/io.h>
#include <asm/arch/cpu.h>
#include <asm/arch/soc.h>
#include "ddr3_init.h"
#define A38X_NUMBER_OF_INTERFACES 5
#define SAR_DEV_ID_OFFS 27
#define SAR_DEV_ID_MASK 0x7
/* Termal Sensor Registers */
#define TSEN_STATE_REG 0xe4070
#define TSEN_STATE_OFFSET 31
#define TSEN_STATE_MASK (0x1 << TSEN_STATE_OFFSET)
#define TSEN_CONF_REG 0xe4074
#define TSEN_CONF_RST_OFFSET 8
#define TSEN_CONF_RST_MASK (0x1 << TSEN_CONF_RST_OFFSET)
#define TSEN_STATUS_REG 0xe4078
#define TSEN_STATUS_READOUT_VALID_OFFSET 10
#define TSEN_STATUS_READOUT_VALID_MASK (0x1 << \
TSEN_STATUS_READOUT_VALID_OFFSET)
#define TSEN_STATUS_TEMP_OUT_OFFSET 0
#define TSEN_STATUS_TEMP_OUT_MASK (0x3ff << TSEN_STATUS_TEMP_OUT_OFFSET)
static struct dfx_access interface_map[] = {
/* Pipe Client */
{ 0, 17 },
{ 1, 7 },
{ 1, 11 },
{ 0, 3 },
{ 1, 25 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 }
};
/* This array hold the board round trip delay (DQ and CK) per <interface,bus> */
struct trip_delay_element a38x_board_round_trip_delay_array[] = {
/* 1st board */
/* Interface bus DQS-delay CK-delay */
{ 3952, 5060 },
{ 3192, 4493 },
{ 4785, 6677 },
{ 3413, 7267 },
{ 4282, 6086 }, /* ECC PUP */
{ 3952, 5134 },
{ 3192, 4567 },
{ 4785, 6751 },
{ 3413, 7341 },
{ 4282, 6160 }, /* ECC PUP */
/* 2nd board */
/* Interface bus DQS-delay CK-delay */
{ 3952, 5060 },
{ 3192, 4493 },
{ 4785, 6677 },
{ 3413, 7267 },
{ 4282, 6086 }, /* ECC PUP */
{ 3952, 5134 },
{ 3192, 4567 },
{ 4785, 6751 },
{ 3413, 7341 },
{ 4282, 6160 } /* ECC PUP */
};
#ifdef STATIC_ALGO_SUPPORT
/* package trace */
static struct trip_delay_element a38x_package_round_trip_delay_array[] = {
/* IF BUS DQ_DELAY CK_DELAY */
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 }
};
static int a38x_silicon_delay_offset[] = {
/* board 0 */
0,
/* board 1 */
0,
/* board 2 */
0
};
#endif
static u8 a38x_bw_per_freq[DDR_FREQ_LIMIT] = {
0x3, /* DDR_FREQ_100 */
0x4, /* DDR_FREQ_400 */
0x4, /* DDR_FREQ_533 */
0x5, /* DDR_FREQ_667 */
0x5, /* DDR_FREQ_800 */
0x5, /* DDR_FREQ_933 */
0x5, /* DDR_FREQ_1066 */
0x3, /* DDR_FREQ_311 */
0x3, /* DDR_FREQ_333 */
0x4, /* DDR_FREQ_467 */
0x5, /* DDR_FREQ_850 */
0x5, /* DDR_FREQ_600 */
0x3, /* DDR_FREQ_300 */
0x5, /* DDR_FREQ_900 */
0x3, /* DDR_FREQ_360 */
0x5 /* DDR_FREQ_1000 */
};
static u8 a38x_rate_per_freq[DDR_FREQ_LIMIT] = {
/*TBD*/ 0x1, /* DDR_FREQ_100 */
0x2, /* DDR_FREQ_400 */
0x2, /* DDR_FREQ_533 */
0x2, /* DDR_FREQ_667 */
0x2, /* DDR_FREQ_800 */
0x3, /* DDR_FREQ_933 */
0x3, /* DDR_FREQ_1066 */
0x1, /* DDR_FREQ_311 */
0x1, /* DDR_FREQ_333 */
0x2, /* DDR_FREQ_467 */
0x2, /* DDR_FREQ_850 */
0x2, /* DDR_FREQ_600 */
0x1, /* DDR_FREQ_300 */
0x2, /* DDR_FREQ_900 */
0x1, /* DDR_FREQ_360 */
0x2 /* DDR_FREQ_1000 */
};
static u16 a38x_vco_freq_per_sar[] = {
666, /* 0 */
1332,
800,
1600,
1066,
2132,
1200,
2400,
1332,
1332,
1500,
1500,
1600, /* 12 */
1600,
1700,
1700,
1866,
1866,
1800, /* 18 */
2000,
2000,
4000,
2132,
2132,
2300,
2300,
2400,
2400,
2500,
2500,
800
};
u32 pipe_multicast_mask;
u32 dq_bit_map_2_phy_pin[] = {
1, 0, 2, 6, 9, 8, 3, 7, /* 0 */
8, 9, 1, 7, 2, 6, 3, 0, /* 1 */
3, 9, 7, 8, 1, 0, 2, 6, /* 2 */
1, 0, 6, 2, 8, 3, 7, 9, /* 3 */
0, 1, 2, 9, 7, 8, 3, 6, /* 4 */
};
static int ddr3_tip_a38x_set_divider(u8 dev_num, u32 if_id,
enum hws_ddr_freq freq);
/*
* Read temperature TJ value
*/
u32 ddr3_ctrl_get_junc_temp(u8 dev_num)
{
int reg = 0;
/* Initiates TSEN hardware reset once */
if ((reg_read(TSEN_CONF_REG) & TSEN_CONF_RST_MASK) == 0)
reg_bit_set(TSEN_CONF_REG, TSEN_CONF_RST_MASK);
mdelay(10);
/* Check if the readout field is valid */
if ((reg_read(TSEN_STATUS_REG) & TSEN_STATUS_READOUT_VALID_MASK) == 0) {
printf("%s: TSEN not ready\n", __func__);
return 0;
}
reg = reg_read(TSEN_STATUS_REG);
reg = (reg & TSEN_STATUS_TEMP_OUT_MASK) >> TSEN_STATUS_TEMP_OUT_OFFSET;
return ((((10000 * reg) / 21445) * 1000) - 272674) / 1000;
}
/*
* Name: ddr3_tip_a38x_get_freq_config.
* Desc:
* Args:
* Notes:
* Returns: MV_OK if success, other error code if fail.
*/
int ddr3_tip_a38x_get_freq_config(u8 dev_num, enum hws_ddr_freq freq,
struct hws_tip_freq_config_info
*freq_config_info)
{
if (a38x_bw_per_freq[freq] == 0xff)
return MV_NOT_SUPPORTED;
if (freq_config_info == NULL)
return MV_BAD_PARAM;
freq_config_info->bw_per_freq = a38x_bw_per_freq[freq];
freq_config_info->rate_per_freq = a38x_rate_per_freq[freq];
freq_config_info->is_supported = 1;
return MV_OK;
}
/*
* Name: ddr3_tip_a38x_pipe_enable.
* Desc:
* Args:
* Notes:
* Returns: MV_OK if success, other error code if fail.
*/
int ddr3_tip_a38x_pipe_enable(u8 dev_num, enum hws_access_type interface_access,
u32 if_id, int enable)
{
u32 data_value, pipe_enable_mask = 0;
if (enable == 0) {
pipe_enable_mask = 0;
} else {
if (interface_access == ACCESS_TYPE_MULTICAST)
pipe_enable_mask = pipe_multicast_mask;
else
pipe_enable_mask = (1 << interface_map[if_id].pipe);
}
CHECK_STATUS(ddr3_tip_reg_read
(dev_num, PIPE_ENABLE_ADDR, &data_value, MASK_ALL_BITS));
data_value = (data_value & (~0xff)) | pipe_enable_mask;
CHECK_STATUS(ddr3_tip_reg_write(dev_num, PIPE_ENABLE_ADDR, data_value));
return MV_OK;
}
/*
* Name: ddr3_tip_a38x_if_write.
* Desc:
* Args:
* Notes:
* Returns: MV_OK if success, other error code if fail.
*/
int ddr3_tip_a38x_if_write(u8 dev_num, enum hws_access_type interface_access,
u32 if_id, u32 reg_addr, u32 data_value,
u32 mask)
{
u32 ui_data_read;
if (mask != MASK_ALL_BITS) {
CHECK_STATUS(ddr3_tip_a38x_if_read
(dev_num, ACCESS_TYPE_UNICAST, if_id, reg_addr,
&ui_data_read, MASK_ALL_BITS));
data_value = (ui_data_read & (~mask)) | (data_value & mask);
}
reg_write(reg_addr, data_value);
return MV_OK;
}
/*
* Name: ddr3_tip_a38x_if_read.
* Desc:
* Args:
* Notes:
* Returns: MV_OK if success, other error code if fail.
*/
int ddr3_tip_a38x_if_read(u8 dev_num, enum hws_access_type interface_access,
u32 if_id, u32 reg_addr, u32 *data, u32 mask)
{
*data = reg_read(reg_addr) & mask;
return MV_OK;
}
/*
* Name: ddr3_tip_a38x_select_ddr_controller.
* Desc: Enable/Disable access to Marvell's server.
* Args: dev_num - device number
* enable - whether to enable or disable the server
* Notes:
* Returns: MV_OK if success, other error code if fail.
*/
int ddr3_tip_a38x_select_ddr_controller(u8 dev_num, int enable)
{
u32 reg;
reg = reg_read(CS_ENABLE_REG);
if (enable)
reg |= (1 << 6);
else
reg &= ~(1 << 6);
reg_write(CS_ENABLE_REG, reg);
return MV_OK;
}
/*
* Name: ddr3_tip_init_a38x_silicon.
* Desc: init Training SW DB.
* Args:
* Notes:
* Returns: MV_OK if success, other error code if fail.
*/
static int ddr3_tip_init_a38x_silicon(u32 dev_num, u32 board_id)
{
struct hws_tip_config_func_db config_func;
enum hws_ddr_freq ddr_freq;
int status;
struct hws_topology_map *tm = ddr3_get_topology_map();
/* new read leveling version */
config_func.tip_dunit_read_func = ddr3_tip_a38x_if_read;
config_func.tip_dunit_write_func = ddr3_tip_a38x_if_write;
config_func.tip_dunit_mux_select_func =
ddr3_tip_a38x_select_ddr_controller;
config_func.tip_get_freq_config_info_func =
ddr3_tip_a38x_get_freq_config;
config_func.tip_set_freq_divider_func = ddr3_tip_a38x_set_divider;
config_func.tip_get_device_info_func = ddr3_tip_a38x_get_device_info;
config_func.tip_get_temperature = ddr3_ctrl_get_junc_temp;
ddr3_tip_init_config_func(dev_num, &config_func);
ddr3_tip_register_dq_table(dev_num, dq_bit_map_2_phy_pin);
#ifdef STATIC_ALGO_SUPPORT
{
struct hws_tip_static_config_info static_config;
u32 board_offset =
board_id * A38X_NUMBER_OF_INTERFACES *
tm->num_of_bus_per_interface;
static_config.silicon_delay =
a38x_silicon_delay_offset[board_id];
static_config.package_trace_arr =
a38x_package_round_trip_delay_array;
static_config.board_trace_arr =
&a38x_board_round_trip_delay_array[board_offset];
ddr3_tip_init_static_config_db(dev_num, &static_config);
}
#endif
status = ddr3_tip_a38x_get_init_freq(dev_num, &ddr_freq);
if (MV_OK != status) {
DEBUG_TRAINING_ACCESS(DEBUG_LEVEL_ERROR,
("DDR3 silicon get target frequency - FAILED 0x%x\n",
status));
return status;
}
rl_version = 1;
mask_tune_func = (SET_LOW_FREQ_MASK_BIT |
LOAD_PATTERN_MASK_BIT |
SET_MEDIUM_FREQ_MASK_BIT | WRITE_LEVELING_MASK_BIT |
/* LOAD_PATTERN_2_MASK_BIT | */
WRITE_LEVELING_SUPP_MASK_BIT |
READ_LEVELING_MASK_BIT |
PBS_RX_MASK_BIT |
PBS_TX_MASK_BIT |
SET_TARGET_FREQ_MASK_BIT |
WRITE_LEVELING_TF_MASK_BIT |
WRITE_LEVELING_SUPP_TF_MASK_BIT |
READ_LEVELING_TF_MASK_BIT |
CENTRALIZATION_RX_MASK_BIT |
CENTRALIZATION_TX_MASK_BIT);
rl_mid_freq_wa = 1;
if ((ddr_freq == DDR_FREQ_333) || (ddr_freq == DDR_FREQ_400)) {
mask_tune_func = (WRITE_LEVELING_MASK_BIT |
LOAD_PATTERN_2_MASK_BIT |
WRITE_LEVELING_SUPP_MASK_BIT |
READ_LEVELING_MASK_BIT |
PBS_RX_MASK_BIT |
PBS_TX_MASK_BIT |
CENTRALIZATION_RX_MASK_BIT |
CENTRALIZATION_TX_MASK_BIT);
rl_mid_freq_wa = 0; /* WA not needed if 333/400 is TF */
}
/* Supplementary not supported for ECC modes */
if (1 == ddr3_if_ecc_enabled()) {
mask_tune_func &= ~WRITE_LEVELING_SUPP_TF_MASK_BIT;
mask_tune_func &= ~WRITE_LEVELING_SUPP_MASK_BIT;
mask_tune_func &= ~PBS_TX_MASK_BIT;
mask_tune_func &= ~PBS_RX_MASK_BIT;
}
if (ck_delay == -1)
ck_delay = 160;
if (ck_delay_16 == -1)
ck_delay_16 = 160;
ca_delay = 0;
delay_enable = 1;
calibration_update_control = 1;
init_freq = tm->interface_params[first_active_if].memory_freq;
ddr3_tip_a38x_get_medium_freq(dev_num, &medium_freq);
return MV_OK;
}
int ddr3_a38x_update_topology_map(u32 dev_num, struct hws_topology_map *tm)
{
u32 if_id = 0;
enum hws_ddr_freq freq;
ddr3_tip_a38x_get_init_freq(dev_num, &freq);
tm->interface_params[if_id].memory_freq = freq;
/*
* re-calc topology parameters according to topology updates
* (if needed)
*/
CHECK_STATUS(hws_ddr3_tip_load_topology_map(dev_num, tm));
return MV_OK;
}
int ddr3_tip_init_a38x(u32 dev_num, u32 board_id)
{
struct hws_topology_map *tm = ddr3_get_topology_map();
if (NULL == tm)
return MV_FAIL;
ddr3_a38x_update_topology_map(dev_num, tm);
ddr3_tip_init_a38x_silicon(dev_num, board_id);
return MV_OK;
}
int ddr3_tip_a38x_get_init_freq(int dev_num, enum hws_ddr_freq *freq)
{
u32 reg;
/* Read sample at reset setting */
reg = (reg_read(REG_DEVICE_SAR1_ADDR) >>
RST2_CPU_DDR_CLOCK_SELECT_IN_OFFSET) &
RST2_CPU_DDR_CLOCK_SELECT_IN_MASK;
switch (reg) {
case 0x0:
case 0x1:
*freq = DDR_FREQ_333;
break;
case 0x2:
case 0x3:
*freq = DDR_FREQ_400;
break;
case 0x4:
case 0xd:
*freq = DDR_FREQ_533;
break;
case 0x6:
*freq = DDR_FREQ_600;
break;
case 0x8:
case 0x11:
case 0x14:
*freq = DDR_FREQ_667;
break;
case 0xc:
case 0x15:
case 0x1b:
*freq = DDR_FREQ_800;
break;
case 0x10:
*freq = DDR_FREQ_933;
break;
case 0x12:
*freq = DDR_FREQ_900;
break;
case 0x13:
*freq = DDR_FREQ_900;
break;
default:
*freq = 0;
return MV_NOT_SUPPORTED;
}
return MV_OK;
}
int ddr3_tip_a38x_get_medium_freq(int dev_num, enum hws_ddr_freq *freq)
{
u32 reg;
/* Read sample at reset setting */
reg = (reg_read(REG_DEVICE_SAR1_ADDR) >>
RST2_CPU_DDR_CLOCK_SELECT_IN_OFFSET) &
RST2_CPU_DDR_CLOCK_SELECT_IN_MASK;
switch (reg) {
case 0x0:
case 0x1:
/* Medium is same as TF to run PBS in this freq */
*freq = DDR_FREQ_333;
break;
case 0x2:
case 0x3:
/* Medium is same as TF to run PBS in this freq */
*freq = DDR_FREQ_400;
break;
case 0x4:
case 0xd:
*freq = DDR_FREQ_533;
break;
case 0x8:
case 0x11:
case 0x14:
*freq = DDR_FREQ_333;
break;
case 0xc:
case 0x15:
case 0x1b:
*freq = DDR_FREQ_400;
break;
case 0x6:
*freq = DDR_FREQ_300;
break;
case 0x12:
*freq = DDR_FREQ_360;
break;
case 0x13:
*freq = DDR_FREQ_400;
break;
default:
*freq = 0;
return MV_NOT_SUPPORTED;
}
return MV_OK;
}
u32 ddr3_tip_get_init_freq(void)
{
enum hws_ddr_freq freq;
ddr3_tip_a38x_get_init_freq(0, &freq);
return freq;
}
static int ddr3_tip_a38x_set_divider(u8 dev_num, u32 if_id,
enum hws_ddr_freq frequency)
{
u32 divider = 0;
u32 sar_val;
if (if_id != 0) {
DEBUG_TRAINING_ACCESS(DEBUG_LEVEL_ERROR,
("A38x does not support interface 0x%x\n",
if_id));
return MV_BAD_PARAM;
}
/* get VCO freq index */
sar_val = (reg_read(REG_DEVICE_SAR1_ADDR) >>
RST2_CPU_DDR_CLOCK_SELECT_IN_OFFSET) &
RST2_CPU_DDR_CLOCK_SELECT_IN_MASK;
divider = a38x_vco_freq_per_sar[sar_val] / freq_val[frequency];
/* Set Sync mode */
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0x20220, 0x0,
0x1000));
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0xe42f4, 0x0,
0x200));
/* cpupll_clkdiv_reset_mask */
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0xe4264, 0x1f,
0xff));
/* cpupll_clkdiv_reload_smooth */
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0xe4260,
(0x2 << 8), (0xff << 8)));
/* cpupll_clkdiv_relax_en */
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0xe4260,
(0x2 << 24), (0xff << 24)));
/* write the divider */
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0xe4268,
(divider << 8), (0x3f << 8)));
/* set cpupll_clkdiv_reload_ratio */
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0xe4264,
(1 << 8), (1 << 8)));
/* undet cpupll_clkdiv_reload_ratio */
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0xe4264, 0,
(1 << 8)));
/* clear cpupll_clkdiv_reload_force */
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0xe4260, 0,
(0xff << 8)));
/* clear cpupll_clkdiv_relax_en */
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0xe4260, 0,
(0xff << 24)));
/* clear cpupll_clkdiv_reset_mask */
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0xe4264, 0,
0xff));
/* Dunit training clock + 1:1 mode */
if ((frequency == DDR_FREQ_LOW_FREQ) || (freq_val[frequency] <= 400)) {
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0x18488,
(1 << 16), (1 << 16)));
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0x1524,
(0 << 15), (1 << 15)));
} else {
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0x18488,
0, (1 << 16)));
CHECK_STATUS(ddr3_tip_a38x_if_write
(dev_num, ACCESS_TYPE_UNICAST, if_id, 0x1524,
(1 << 15), (1 << 15)));
}
return MV_OK;
}
/*
* external read from memory
*/
int ddr3_tip_ext_read(u32 dev_num, u32 if_id, u32 reg_addr,
u32 num_of_bursts, u32 *data)
{
u32 burst_num;
for (burst_num = 0; burst_num < num_of_bursts * 8; burst_num++)
data[burst_num] = readl(reg_addr + 4 * burst_num);
return MV_OK;
}
/*
* external write to memory
*/
int ddr3_tip_ext_write(u32 dev_num, u32 if_id, u32 reg_addr,
u32 num_of_bursts, u32 *data) {
u32 burst_num;
for (burst_num = 0; burst_num < num_of_bursts * 8; burst_num++)
writel(data[burst_num], reg_addr + 4 * burst_num);
return MV_OK;
}
int ddr3_silicon_pre_init(void)
{
int result;
result = ddr3_silicon_init();
return result;
}
int ddr3_post_run_alg(void)
{
return MV_OK;
}
int ddr3_silicon_post_init(void)
{
struct hws_topology_map *tm = ddr3_get_topology_map();
/* Set half bus width */
if (DDR3_IS_16BIT_DRAM_MODE(tm->bus_act_mask)) {
CHECK_STATUS(ddr3_tip_if_write
(0, ACCESS_TYPE_UNICAST, PARAM_NOT_CARE,
REG_SDRAM_CONFIG_ADDR, 0x0, 0x8000));
}
return MV_OK;
}
int ddr3_tip_a38x_get_device_info(u8 dev_num, struct ddr3_device_info *info_ptr)
{
info_ptr->device_id = 0x6800;
info_ptr->ck_delay = ck_delay;
return MV_OK;
}
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