board/phytium/pe2201/ddr.c - u-boot - Git at Google

 // SPDX-License-Identifier: GPL-2.0+
 /*
  * Copyright (C) 2023, Phytium Technology Co., Ltd.
  * lixinde          <lixinde@phytium.com.cn>
  * weichangzheng    <weichangzheng@phytium.com.cn>
  */

 #include <stdio.h>
 #include <linux/arm-smccc.h>
 #include <init.h>
 #include "cpu.h"

 struct ddr_spd {
 	/***************** read from spd ******************/
 	u8 dimm_type;        /* 1: RDIMM;	2: UDIMM;	3: SODIMM;	4: LRDIMM */
 	u8 data_width;       /* 0: x4;		1: x8;		2: x16;		3: x32 */
 	u8 mirror_type;      /* 0: standard;	1: mirror */
 	u8 ecc_type;         /* 0: no-ecc;	1: ecc */
 	u8 dram_type;        /* 0xB: DDR3;	0xC: DDR4 */
 	u8 rank_num;
 	u8 row_num;
 	u8 col_num;

 	u8 bg_num;           /* DDR4/DDR5 */
 	u8 bank_num;
 	u16 module_manufacturer_id;
 	u16 taamin;
 	u16 trcdmin;

 	u16 trpmin;
 	u16 trasmin;
 	u16 trcmin;
 	u16 tfawmin;         /* only DDR3/DDR4 */

 	u16 trrd_smin;       /* only DDR4 */
 	u16 trrd_lmin;       /* only DDR4 */
 	u16 tccd_lmin;       /* only DDR4 */
 	u16 twrmin;

 	u16 twtr_smin;       /* only DDR4 */
 	u16 twtr_lmin;       /* only DDR4 */
 	u32 trfc1min;

 	u32 trfc2min;
 	u32 trfc4_rfcsbmin;  /* DDR4: tRFC4min;	DDR5: tRFCsbmin */
 	u8 resv[8];

 	/***************** RCD control words ******************/
 	u8 f0rc03;           /* bit[3:2]:CS	bit[1:0]:CA */
 	u8 f0rc04;           /* bit[3:2]:ODT  bit[1:0]:CKE */
 	u8 f0rc05;           /* bit[3:2]:CLK-A side  bit[1:0]:CLK-B side */
 	u8 rcd_num;          /* Registers used on RDIMM */

 	u8 lrdimm_resv[4];
 	u8 lrdimm_resv1[8];
 	u8 lrdimm_resv2[8];
 } __attribute((aligned(4)));

 struct mcu_config {
 	u32 magic;
 	u32 version;
 	u32 size;
 	u8 rev1[4];

 	u8 ch_enable;
 	u8 resv1[7];

 	u64 misc_enable;

 	u8 train_debug;
 	u8 train_recover;
 	u8 train_param_type;
 	u8 train_param_1;    /* DDR4: cpu_odt */
 	u8 train_param_2;    /* DDR4: cpu_drv */
 	u8 train_param_3;    /* DDR4: mr_drv */
 	u8 train_param_4;    /* DDR4: rtt_nom */
 	u8 train_param_5;    /* DDR4: rtt_park */

 	u8 train_param_6;    /* DDR4: rtt_wr */
 	u8 resv2[7];

 	/***************** for LPDDR4 dq swap ******************/
 	u32 data_byte_swap;
 	u32 slice0_dq_swizzle;

 	u32 slice1_dq_swizzle;
 	u32 slice2_dq_swizzle;

 	u32 slice3_dq_swizzle;
 	u32 slice4_dq_swizzle;

 	u32 slice5_dq_swizzle;
 	u32 slice6_dq_swizzle;

 	u32 slice7_dq_swizzle;
 	u8 resv3[4];
 	u8 resv4[8];

 	struct ddr_spd ddr_spd_info;
 } __attribute((aligned(4)));

 static void get_mcu_up_info_default(struct mcu_config *pm)
 {
 	pm->magic		= PARAMETER_MCU_MAGIC;
 	pm->version		= PARAM_MCU_VERSION;
 	pm->size		= PARAM_MCU_SIZE;
 	pm->ch_enable	= PARAM_CH_ENABLE;
 }

 static u8 init_dimm_param(struct mcu_config *pm)
 {
 	debug("manual config dimm info...\n");
 	pm->misc_enable = 0x2001;
 	pm->train_debug = 0x0;
 	pm->train_recover = 0x0;
 	pm->train_param_type = 0x0;
 	pm->train_param_1 = 0x0;
 	pm->train_param_2 = 0x0;
 	pm->train_param_3 = 0x0;
 	pm->train_param_4 = 0x0;
 	pm->train_param_5 = 0x0;
 	pm->train_param_6 = 0x0;

 	pm->data_byte_swap = 0x76543210;
 	pm->slice0_dq_swizzle = 0x3145726;

 	pm->slice1_dq_swizzle = 0x54176230;
 	pm->slice2_dq_swizzle = 0x57604132;

 	pm->slice3_dq_swizzle = 0x20631547;
 	pm->slice4_dq_swizzle = 0x16057423;

 	pm->slice5_dq_swizzle = 0x16057423;
 	pm->slice6_dq_swizzle = 0x16057423;

 	pm->slice7_dq_swizzle = 0x16057423;

 	pm->ddr_spd_info.dimm_type = RDIMM_TYPE;
 	pm->ddr_spd_info.data_width = DIMM_X16;
 	pm->ddr_spd_info.mirror_type = NO_MIRROR;
 	pm->ddr_spd_info.ecc_type = NO_ECC_TYPE;
 	pm->ddr_spd_info.dram_type = LPDDR4_TYPE;
 	pm->ddr_spd_info.rank_num = 0x1;
 	pm->ddr_spd_info.row_num = 0x10;
 	pm->ddr_spd_info.col_num = 0xa;
 	pm->ddr_spd_info.bg_num = 0x0;
 	pm->ddr_spd_info.bank_num = 0x8;
 	pm->ddr_spd_info.taamin = 0x0;
 	pm->ddr_spd_info.trcdmin = 0x0;

 	pm->ddr_spd_info.trpmin = 0x0;
 	pm->ddr_spd_info.trasmin = 0x0;
 	pm->ddr_spd_info.trcmin = 0x0;
 	pm->ddr_spd_info.tfawmin = 0x0;

 	pm->ddr_spd_info.trrd_smin = 0x0;
 	pm->ddr_spd_info.trrd_lmin = 0x0;
 	pm->ddr_spd_info.tccd_lmin = 0x0;
 	pm->ddr_spd_info.twrmin = 0x0;

 	pm->ddr_spd_info.twtr_smin = 0x0;
 	pm->ddr_spd_info.twtr_lmin = 0x0;

 	return 0;
 }

 void get_default_mcu_info(u8 *data)
 {
 	get_mcu_up_info_default((struct mcu_config *)data);
 }

 void fix_mcu_info(u8 *data)
 {
 	struct mcu_config *mcu_info = (struct mcu_config *)data;

 	init_dimm_param(mcu_info);
 }

 void ddr_init(void)
 {
 	u8 buffer[0x100];
 	struct arm_smccc_res res;

 	get_default_mcu_info(buffer);
 	fix_mcu_info(buffer);

 	arm_smccc_smc(CPU_INIT_MEM, 0, (u64)buffer, 0, 0, 0, 0, 0, &res);
 	if (res.a0 != 0)
 		panic("DRAM init failed :0x%lx\n", res.a0);
 }
	// SPDX-License-Identifier: GPL-2.0+
	/*
	* Copyright (C) 2023, Phytium Technology Co., Ltd.
	* lixinde <lixinde@phytium.com.cn>
	* weichangzheng <weichangzheng@phytium.com.cn>
	*/

	#include <stdio.h>
	#include <linux/arm-smccc.h>
	#include <init.h>
	#include "cpu.h"

	struct ddr_spd {
	/*************** read from spd ****************/
	u8 dimm_type; /* 1: RDIMM; 2: UDIMM; 3: SODIMM; 4: LRDIMM */
	u8 data_width; /* 0: x4; 1: x8; 2: x16; 3: x32 */
	u8 mirror_type; /* 0: standard; 1: mirror */
	u8 ecc_type; /* 0: no-ecc; 1: ecc */
	u8 dram_type; /* 0xB: DDR3; 0xC: DDR4 */
	u8 rank_num;
	u8 row_num;
	u8 col_num;

	u8 bg_num; /* DDR4/DDR5 */
	u8 bank_num;
	u16 module_manufacturer_id;
	u16 taamin;
	u16 trcdmin;

	u16 trpmin;
	u16 trasmin;
	u16 trcmin;
	u16 tfawmin; /* only DDR3/DDR4 */

	u16 trrd_smin; /* only DDR4 */
	u16 trrd_lmin; /* only DDR4 */
	u16 tccd_lmin; /* only DDR4 */
	u16 twrmin;

	u16 twtr_smin; /* only DDR4 */
	u16 twtr_lmin; /* only DDR4 */
	u32 trfc1min;

	u32 trfc2min;
	u32 trfc4_rfcsbmin; /* DDR4: tRFC4min; DDR5: tRFCsbmin */
	u8 resv[8];

	/*************** RCD control words ****************/
	u8 f0rc03; /* bit[3:2]:CS bit[1:0]:CA */
	u8 f0rc04; /* bit[3:2]:ODT bit[1:0]:CKE */
	u8 f0rc05; /* bit[3:2]:CLK-A side bit[1:0]:CLK-B side */
	u8 rcd_num; /* Registers used on RDIMM */

	u8 lrdimm_resv[4];
	u8 lrdimm_resv1[8];
	u8 lrdimm_resv2[8];
	} __attribute((aligned(4)));

	struct mcu_config {
	u32 magic;
	u32 version;
	u32 size;
	u8 rev1[4];

	u8 ch_enable;
	u8 resv1[7];

	u64 misc_enable;

	u8 train_debug;
	u8 train_recover;
	u8 train_param_type;
	u8 train_param_1; /* DDR4: cpu_odt */
	u8 train_param_2; /* DDR4: cpu_drv */
	u8 train_param_3; /* DDR4: mr_drv */
	u8 train_param_4; /* DDR4: rtt_nom */
	u8 train_param_5; /* DDR4: rtt_park */

	u8 train_param_6; /* DDR4: rtt_wr */
	u8 resv2[7];

	/*************** for LPDDR4 dq swap ****************/
	u32 data_byte_swap;
	u32 slice0_dq_swizzle;

	u32 slice1_dq_swizzle;
	u32 slice2_dq_swizzle;

	u32 slice3_dq_swizzle;
	u32 slice4_dq_swizzle;

	u32 slice5_dq_swizzle;
	u32 slice6_dq_swizzle;

	u32 slice7_dq_swizzle;
	u8 resv3[4];
	u8 resv4[8];

	struct ddr_spd ddr_spd_info;
	} __attribute((aligned(4)));

	static void get_mcu_up_info_default(struct mcu_config *pm)
	{
	pm->magic = PARAMETER_MCU_MAGIC;
	pm->version = PARAM_MCU_VERSION;
	pm->size = PARAM_MCU_SIZE;
	pm->ch_enable = PARAM_CH_ENABLE;
	}

	static u8 init_dimm_param(struct mcu_config *pm)
	{
	debug("manual config dimm info...\n");
	pm->misc_enable = 0x2001;
	pm->train_debug = 0x0;
	pm->train_recover = 0x0;
	pm->train_param_type = 0x0;
	pm->train_param_1 = 0x0;
	pm->train_param_2 = 0x0;
	pm->train_param_3 = 0x0;
	pm->train_param_4 = 0x0;
	pm->train_param_5 = 0x0;
	pm->train_param_6 = 0x0;

	pm->data_byte_swap = 0x76543210;
	pm->slice0_dq_swizzle = 0x3145726;

	pm->slice1_dq_swizzle = 0x54176230;
	pm->slice2_dq_swizzle = 0x57604132;

	pm->slice3_dq_swizzle = 0x20631547;
	pm->slice4_dq_swizzle = 0x16057423;

	pm->slice5_dq_swizzle = 0x16057423;
	pm->slice6_dq_swizzle = 0x16057423;

	pm->slice7_dq_swizzle = 0x16057423;

	pm->ddr_spd_info.dimm_type = RDIMM_TYPE;
	pm->ddr_spd_info.data_width = DIMM_X16;
	pm->ddr_spd_info.mirror_type = NO_MIRROR;
	pm->ddr_spd_info.ecc_type = NO_ECC_TYPE;
	pm->ddr_spd_info.dram_type = LPDDR4_TYPE;
	pm->ddr_spd_info.rank_num = 0x1;
	pm->ddr_spd_info.row_num = 0x10;
	pm->ddr_spd_info.col_num = 0xa;
	pm->ddr_spd_info.bg_num = 0x0;
	pm->ddr_spd_info.bank_num = 0x8;
	pm->ddr_spd_info.taamin = 0x0;
	pm->ddr_spd_info.trcdmin = 0x0;

	pm->ddr_spd_info.trpmin = 0x0;
	pm->ddr_spd_info.trasmin = 0x0;
	pm->ddr_spd_info.trcmin = 0x0;
	pm->ddr_spd_info.tfawmin = 0x0;

	pm->ddr_spd_info.trrd_smin = 0x0;
	pm->ddr_spd_info.trrd_lmin = 0x0;
	pm->ddr_spd_info.tccd_lmin = 0x0;
	pm->ddr_spd_info.twrmin = 0x0;

	pm->ddr_spd_info.twtr_smin = 0x0;
	pm->ddr_spd_info.twtr_lmin = 0x0;

	return 0;
	}

	void get_default_mcu_info(u8 *data)
	{
	get_mcu_up_info_default((struct mcu_config *)data);
	}

	void fix_mcu_info(u8 *data)
	{
	struct mcu_config mcu_info = (struct mcu_config )data;

	init_dimm_param(mcu_info);
	}

	void ddr_init(void)
	{
	u8 buffer[0x100];
	struct arm_smccc_res res;

	get_default_mcu_info(buffer);
	fix_mcu_info(buffer);

	arm_smccc_smc(CPU_INIT_MEM, 0, (u64)buffer, 0, 0, 0, 0, 0, &res);
	if (res.a0 != 0)
	panic("DRAM init failed :0x%lx\n", res.a0);
	}