mediatek/mt8183: Add EMI init for DDR driver init

Add EMI config to initialize memory.

BRANCH=none
TEST=Boots correctly on Kukui, and inits DRAM successfully with related
     patches.
Signed-off-by: Huayang Duan <huayang.duan@mediatek.com>

Change-Id: I945181aa1c901fe78ec1f4478a928c600c1b1dea
Reviewed-on: https://review.coreboot.org/28835
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Hung-Te Lin <hungte@chromium.org>
This commit is contained in:
Huayang Duan 2018-09-26 14:24:02 +08:00 committed by Patrick Georgi
parent 91a580308c
commit c2ef1029fa
6 changed files with 505 additions and 2 deletions

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@ -21,6 +21,7 @@ verstage-$(CONFIG_DRIVERS_UART) += ../common/uart.c
verstage-y += ../common/wdt.c verstage-y += ../common/wdt.c
romstage-y += ../common/cbmem.c emi.c romstage-y += ../common/cbmem.c emi.c
romstage-y += memory.c
romstage-y += ../common/gpio.c gpio.c romstage-y += ../common/gpio.c gpio.c
romstage-y += ../common/mmu_operations.c mmu_operations.c romstage-y += ../common/mmu_operations.c mmu_operations.c
romstage-$(CONFIG_SPI_FLASH) += ../common/spi.c spi.c romstage-$(CONFIG_SPI_FLASH) += ../common/spi.c spi.c

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@ -13,9 +13,278 @@
* GNU General Public License for more details. * GNU General Public License for more details.
*/ */
#include <arch/io.h>
#include <soc/emi.h> #include <soc/emi.h>
#include <soc/infracfg.h>
#include <soc/dramc_pi_api.h>
#include <soc/dramc_register.h>
struct emi_regs *emi_regs = (void *)EMI_BASE;
const u8 phy_mapping[CHANNEL_MAX][16] = {
[CHANNEL_A] = {
1, 0, 2, 4, 3, 7, 5, 6,
9, 8, 12, 11, 10, 15, 13, 14
},
[CHANNEL_B] = {
0, 1, 5, 6, 3, 7, 4, 2,
9, 8, 12, 15, 11, 14, 13, 10
}
};
void dramc_set_broadcast(u32 onoff)
{
write32(&mt8183_infracfg->dramc_wbr, onoff);
}
u32 dramc_get_broadcast(void)
{
return read32(&mt8183_infracfg->dramc_wbr);
}
static u64 get_ch_rank_size(u8 chn, u8 rank)
{
u32 shift_for_16bit = 1;
u32 col_bit, row_bit;
u32 emi_cona = read32(&emi_regs->cona);
shift_for_16bit = (emi_cona & 0x2) ? 0 : 1;
col_bit = ((emi_cona >> (chn * 16 + rank * 2 + 4)) & 0x03) + 9;
row_bit = ((((emi_cona >> (24 - chn * 20 + rank)) & 0x01) << 2) +
((emi_cona >> (12 + chn * 16 + rank * 2)) & 0x03)) + 13;
/* data width (bytes) * 8 banks */
return ((u64)(1 << (row_bit + col_bit))) *
((u64)(4 >> shift_for_16bit) * 8);
}
void dramc_get_rank_size(u64 *dram_rank_size)
{
u64 ch0_rank0_size, ch0_rank1_size, ch1_rank0_size, ch1_rank1_size;
u64 ch_rank0_size = 0, ch_rank1_size = 0;
u32 emi_cona = read32(&emi_regs->cona);
u32 emi_conh = read32(&emi_regs->conh);
dram_rank_size[0] = 0;
dram_rank_size[1] = 0;
ch0_rank0_size = (emi_conh >> 16) & 0xf;
ch0_rank1_size = (emi_conh >> 20) & 0xf;
ch1_rank0_size = (emi_conh >> 24) & 0xf;
ch1_rank1_size = (emi_conh >> 28) & 0xf;
/* CH0 EMI */
if (ch0_rank0_size == 0)
ch_rank0_size = get_ch_rank_size(CHANNEL_A, RANK_0);
else
ch_rank0_size = (ch0_rank0_size * 256 << 20);
/* dual rank enable */
if ((emi_cona & (1 << 17)) != 0) {
if (ch0_rank1_size == 0)
ch_rank1_size = get_ch_rank_size(CHANNEL_A, RANK_1);
else
ch_rank1_size = (ch0_rank1_size * 256 << 20);
}
dram_rank_size[0] = ch_rank0_size;
dram_rank_size[1] = ch_rank1_size;
if (ch1_rank0_size == 0)
ch_rank0_size = get_ch_rank_size(CHANNEL_B, RANK_0);
else
ch_rank0_size = (ch1_rank0_size * 256 << 20);
if ((emi_cona & (1 << 16)) != 0) {
if (ch1_rank1_size == 0)
ch_rank1_size = get_ch_rank_size(CHANNEL_B, RANK_1);
else
ch_rank1_size = (ch1_rank1_size * 256 << 20);
}
dram_rank_size[0] += ch_rank0_size;
dram_rank_size[1] += ch_rank1_size;
}
size_t sdram_size(void) size_t sdram_size(void)
{ {
return (size_t)4 * GiB; size_t dram_size = 0;
u64 rank_size[RANK_MAX];
dramc_get_rank_size(&rank_size[0]);
for (int i = 0; i < RANK_MAX; i++) {
dram_size += rank_size[i];
dramc_show("rank%d size:0x%llx\n", i, rank_size[i]);
}
return dram_size;
}
static void set_rank_info_to_conf(const struct sdram_params *params)
{
u8 u4value = 0;
/* CONA 17th bit 0: Disable dual rank mode
* 1: Enable dual rank mode */
u4value = ((params->emi_cona_val & (0x1 << 17)) >> 17) ? 0 : 1;
clrsetbits_le32(&ch[0].ao.arbctl, 0x1 << 12, u4value << 12);
}
static void set_MRR_pinmux_mapping(void)
{
for (u8 chn = 0; chn < CHANNEL_MAX; chn++) {
const u8 *map = phy_mapping[chn];
write32(&ch[chn].ao.mrr_bit_mux1,
(map[0] << 0) | (map[1] << 8) |
(map[2] << 16) | (map[3] << 24));
write32(&ch[chn].ao.mrr_bit_mux2,
(map[4] << 0) | (map[5] << 8) |
(map[6] << 16) | (map[7] << 24));
write32(&ch[chn].ao.mrr_bit_mux3,
(map[8] << 0) | (map[9] << 8) |
(map[10] << 16) | (map[11] << 24));
write32(&ch[chn].ao.mrr_bit_mux4,
(map[12] << 0) | (map[13] << 8) |
(map[14] << 16) | (map[15] << 24));
}
}
static void global_option_init(const struct sdram_params *params)
{
set_rank_info_to_conf(params);
set_MRR_pinmux_mapping();
}
static void emi_esl_setting1(void)
{
dramc_set_broadcast(DRAMC_BROADCAST_ON);
write32(&emi_regs->cona, 0xa053a154);
write32(&emi_regs->conb, 0x17283544);
write32(&emi_regs->conc, 0x0a1a0b1a);
write32(&emi_regs->cond, 0x3657587a);
write32(&emi_regs->cone, 0x80400148);
write32(&emi_regs->conf, 0x00000000);
write32(&emi_regs->cong, 0x2b2b2a38);
write32(&emi_regs->conh, 0x00000000);
write32(&emi_regs->coni, 0x00008803);
write32(&emi_regs->conm, 0x000001ff);
write32(&emi_regs->conn, 0x00000000);
write32(&emi_regs->mdct, 0x11338c17);
write32(&emi_regs->mdct_2nd, 0x00001112);
write32(&emi_regs->iocl, 0xa8a8a8a8);
write32(&emi_regs->iocl_2nd, 0x25252525);
write32(&emi_regs->iocm, 0xa8a8a8a8);
write32(&emi_regs->iocm_2nd, 0x25252525);
write32(&emi_regs->testb, 0x00060037);
write32(&emi_regs->testc, 0x38460000);
write32(&emi_regs->testd, 0x00000000);
write32(&emi_regs->arba, 0x4020524f);
write32(&emi_regs->arbb, 0x4020504f);
write32(&emi_regs->arbc, 0xa0a050c6);
write32(&emi_regs->arbd, 0x000070cc);
write32(&emi_regs->arbe, 0x40406045);
write32(&emi_regs->arbf, 0xa0a070d5);
write32(&emi_regs->arbg, 0xa0a0504f);
write32(&emi_regs->arbh, 0xa0a0504f);
write32(&emi_regs->arbi, 0x00007108);
write32(&emi_regs->arbi_2nd, 0x00007108);
write32(&emi_regs->slct, 0x0001ff00);
write32(&ch[0].emi.chn_cona, 0x0400a051);
write32(&ch[0].emi.chn_conb, 0x00ff2048);
write32(&ch[0].emi.chn_conc, 0x00000000);
write32(&ch[0].emi.chn_mdct, 0x88008817);
write32(&ch[0].emi.chn_testb, 0x00030027);
write32(&ch[0].emi.chn_testc, 0x38460002);
write32(&ch[0].emi.chn_testd, 0x00000000);
write32(&ch[0].emi.chn_md_pre_mask, 0x00000f00);
write32(&ch[0].emi.chn_md_pre_mask_shf, 0x00000b00);
write32(&ch[0].emi.chn_arbi, 0x20406188);
write32(&ch[0].emi.chn_arbi_2nd, 0x20406188);
write32(&ch[0].emi.chn_arbj, 0x3719595e);
write32(&ch[0].emi.chn_arbj_2nd, 0x3719595e);
write32(&ch[0].emi.chn_arbk, 0x64f3fc79);
write32(&ch[0].emi.chn_arbk_2nd, 0x64f3fc79);
write32(&ch[0].emi.chn_slct, 0x00080888);
write32(&ch[0].emi.chn_arb_ref, 0x82410222);
write32(&ch[0].emi.chn_emi_shf0, 0x8a228c17);
write32(&ch[0].emi.chn_rkarb0, 0x0006002f);
write32(&ch[0].emi.chn_rkarb1, 0x01010101);
write32(&ch[0].emi.chn_rkarb2, 0x10100820);
write32(&ch[0].emi.chn_eco3, 0x00000000);
dramc_set_broadcast(DRAMC_BROADCAST_OFF);
}
static void emi_esl_setting2(void)
{
dramc_set_broadcast(DRAMC_BROADCAST_ON);
write32(&ch[0].emi.chn_conc, 0x01);
write32(&emi_regs->conm, 0x05ff);
dramc_set_broadcast(DRAMC_BROADCAST_OFF);
}
static void emi_init(const struct sdram_params *params)
{
emi_esl_setting1();
write32(&emi_regs->cona, params->emi_cona_val);
write32(&emi_regs->conf, params->emi_conf_val);
write32(&emi_regs->conh, params->emi_conh_val);
for (size_t chn = CHANNEL_A; chn < CHANNEL_MAX; chn++) {
write32(&ch[chn].emi.chn_cona, params->chn_emi_cona_val[chn]);
write32(&ch[chn].emi.chn_conc, 0);
}
}
static void emi_init2(const struct sdram_params *params)
{
emi_esl_setting2();
setbits_le32(&emi_mpu->mpu_ctrl_d0 + 0x4 * 1, 0x1 << 4);
setbits_le32(&emi_mpu->mpu_ctrl_d0 + 0x4 * 7, 0x1 << 4);
write32(&emi_regs->bwct0, 0x0a000705);
write32(&emi_regs->bwct0_3rd, 0x0);
/* EMI QoS 0.5 */
write32(&emi_regs->bwct0_2nd, 0x00030023);
write32(&emi_regs->bwct0_4th, 0x00c00023);
write32(&emi_regs->bwct0_5th, 0x00240023);
}
static void dramc_init_pre_settings(void)
{
clrsetbits_le32(&ch[0].phy.ca_cmd[8],
(0x1 << 21) | (0x1 << 20) | (0x1 << 19) | (0x1 << 18) |
(0x1f << 8) | (0x1f << 0),
(0x1 << 19) | (0xa << 8) | (0xa << 0));
setbits_le32(&ch[0].phy.misc_ctrl1, 0x1 << 12);
clrbits_le32(&ch[0].phy.misc_ctrl1, 0x1 << 13);
setbits_le32(&ch[0].phy.misc_ctrl1, 0x1 << 31);
}
static void init_dram(const struct sdram_params *params)
{
global_option_init(params);
emi_init(params);
dramc_set_broadcast(DRAMC_BROADCAST_ON);
dramc_init_pre_settings();
emi_init2(params);
}
void mt_set_emi(const struct sdram_params *params)
{
init_dram(params);
} }

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@ -0,0 +1,56 @@
/*
* This file is part of the coreboot project.
*
* Copyright 2018 MediaTek Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#ifndef _DRAMC_COMMON_MT8183_H_
#define _DRAMC_COMMON_MT8183_H_
#define DRAM_DFS_SHUFFLE_MAX 3
enum {
CHANNEL_A = 0,
CHANNEL_B,
CHANNEL_MAX
};
enum {
RANK_0 = 0,
RANK_1,
RANK_MAX
};
enum dram_odt_type {
ODT_OFF = 0,
ODT_ON
};
enum {
DQ_DATA_WIDTH = 16,
DQS_BIT_NUMBER = 8,
DQS_NUMBER = (DQ_DATA_WIDTH / DQS_BIT_NUMBER)
};
/*
* Internal CBT mode enum
* 1. Calibration flow uses vGet_Dram_CBT_Mode to
* differentiate between mixed vs non-mixed LP4
* 2. Declared as dram_cbt_mode[RANK_MAX] internally to
* store each rank's CBT mode type
*/
enum {
CBT_NORMAL_MODE = 0,
CBT_BYTE_MODE1
};
#endif /* _DRAMC_COMMON_MT8183_H_ */

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@ -0,0 +1,135 @@
/*
* This file is part of the coreboot project.
*
* Copyright 2018 MediaTek Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#ifndef _DRAMC_PI_API_MT8183_H
#define _DRAMC_PI_API_MT8183_H
#include <types.h>
#include <soc/emi.h>
#include <console/console.h>
#define dramc_show(_x_...) printk(BIOS_INFO, _x_)
#if IS_ENABLED(CONFIG_DEBUG_DRAM)
#define dramc_dbg(_x_...) printk(BIOS_DEBUG, _x_)
#else
#define dramc_dbg(_x_...)
#endif
#define ENABLE 1
#define DISABLE 0
#define DATLAT_TAP_NUMBER 32
#define MAX_CMP_CPT_WAIT_LOOP 10000
#define TIME_OUT_CNT 100
#define DRAMC_BROADCAST_ON 0x1f
#define DRAMC_BROADCAST_OFF 0x0
#define MAX_BACKUP_REG_CNT 32
enum dram_te_op {
TE_OP_WRITE_READ_CHECK = 0,
TE_OP_READ_CHECK
};
enum {
DBI_OFF = 0,
DBI_ON
};
enum {
FSP_0 = 0,
FSP_1,
FSP_MAX
};
enum {
TX_DQ_DQS_MOVE_DQ_ONLY = 0,
TX_DQ_DQS_MOVE_DQM_ONLY,
TX_DQ_DQS_MOVE_DQ_DQM
};
enum {
MAX_CA_FINE_TUNE_DELAY = 63,
MAX_CS_FINE_TUNE_DELAY = 63,
MAX_CLK_FINE_TUNE_DELAY = 31,
CATRAINING_NUM = 6,
PASS_RANGE_NA = 0x7fff
};
enum {
GATING_OFF = 0,
GATING_ON = 1
};
enum {
CKE_FIXOFF = 0,
CKE_FIXON,
CKE_DYNAMIC
};
enum {
GATING_PATTERN_NUM = 0x23,
GATING_GOLDEND_DQSCNT = 0x4646
};
enum {
IMPCAL_STAGE_DRVP = 0x1,
IMPCAL_STAGE_DRVN,
IMPCAL_STAGE_TRACKING
};
enum {
DQS_GW_COARSE_STEP = 1,
DQS_GW_FINE_START = 0,
DQS_GW_FINE_END = 32,
DQS_GW_FINE_STEP = 4,
DQS_GW_FREQ_DIV = 4,
RX_DQS_CTL_LOOP = 8,
RX_DLY_DQSIENSTB_LOOP = 32
};
enum {
SAVE_VALUE,
RESTORE_VALUE
};
enum {
DQ_DIV_SHIFT = 3,
DQ_DIV_MASK = BIT(DQ_DIV_SHIFT) - 1,
OEN_SHIFT = 16,
DQS_DELAY_2T = 3,
DQS_DELAY_0P5T = 4,
DQS_DELAY = ((DQS_DELAY_2T << DQ_DIV_SHIFT) + DQS_DELAY_0P5T) << 5,
DQS_OEN_DELAY_2T = 3,
DQS_OEN_DELAY_0P5T = 1,
SELPH_DQS0 = (DQS_DELAY_2T << 0) | (DQS_DELAY_2T << 4) |
(DQS_DELAY_2T << 8) | (DQS_DELAY_2T << 12) |
(DQS_OEN_DELAY_2T << 16) | (DQS_OEN_DELAY_2T << 20) |
(DQS_OEN_DELAY_2T << 24) | (DQS_OEN_DELAY_2T << 28),
SELPH_DQS1 = (DQS_DELAY_0P5T << 0) | (DQS_DELAY_0P5T << 4) |
(DQS_DELAY_0P5T << 8) | (DQS_DELAY_0P5T << 12) |
(DQS_OEN_DELAY_0P5T << 16) | (DQS_OEN_DELAY_0P5T << 20) |
(DQS_OEN_DELAY_0P5T << 24) | (DQS_OEN_DELAY_0P5T << 28)
};
void dramc_get_rank_size(u64 *dram_rank_size);
void dramc_set_broadcast(u32 onoff);
u32 dramc_get_broadcast(void);
#endif /* _DRAMC_PI_API_MT8183_H */

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@ -18,7 +18,27 @@
#include <stdint.h> #include <stdint.h>
#include <types.h> #include <types.h>
#include <soc/dramc_common_mt8183.h>
struct sdram_params {
u32 impedance[2][4];
u8 wr_level[CHANNEL_MAX][RANK_MAX][DQS_NUMBER];
u8 cbt_cs[CHANNEL_MAX][RANK_MAX];
u8 cbt_mr12[CHANNEL_MAX][RANK_MAX];
s8 clk_delay;
s8 dqs_delay[CHANNEL_MAX];
u32 emi_cona_val;
u32 emi_conh_val;
u32 emi_conf_val;
u32 chn_emi_cona_val[CHANNEL_MAX];
u32 cbt_mode_extern;
u16 delay_cell_unit;
};
int complex_mem_test(u8 *start, unsigned int len);
size_t sdram_size(void); size_t sdram_size(void);
const struct sdram_params *get_sdram_config(void);
void mt_set_emi(const struct sdram_params *params);
void mt_mem_init(const struct sdram_params *params);
#endif #endif /* SOC_MEDIATEK_MT8183_EMI_H */

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@ -0,0 +1,22 @@
/*
* This file is part of the coreboot project.
*
* Copyright 2018 MediaTek Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <soc/emi.h>
void mt_mem_init(const struct sdram_params *params)
{
/* memory calibration */
mt_set_emi(params);
}