blob: 8669b1d68ad0ab63b4aa53fa16c4182b7a7c5e21 [file] [log] [blame]
/*
* Copyright 2021 NXP
*
* SPDX-License-Identifier: BSD-3-Clause
*
*/
#include <assert.h>
#include <errno.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <common/debug.h>
#include <ddr.h>
#include <lib/utils.h>
#include <load_img.h>
#include "plat_common.h"
#include <platform_def.h>
#ifdef CONFIG_STATIC_DDR
const struct ddr_cfg_regs static_1600 = {
.cs[0].config = U(0xA8050322),
.cs[1].config = U(0x80000322),
.cs[0].bnds = U(0x3FF),
.cs[1].bnds = U(0x3FF),
.sdram_cfg[0] = U(0xE5044000),
.sdram_cfg[1] = U(0x401011),
.timing_cfg[0] = U(0xFF550018),
.timing_cfg[1] = U(0xBAB48C42),
.timing_cfg[2] = U(0x48C111),
.timing_cfg[3] = U(0x10C1000),
.timing_cfg[4] = U(0x2),
.timing_cfg[5] = U(0x3401400),
.timing_cfg[7] = U(0x13300000),
.timing_cfg[8] = U(0x2114600),
.sdram_mode[0] = U(0x6010210),
.sdram_mode[8] = U(0x500),
.sdram_mode[9] = U(0x4240000),
.interval = U(0x18600000),
.data_init = U(0xDEADBEEF),
.zq_cntl = U(0x8A090705),
};
const struct dimm_params static_dimm = {
.rdimm = U(0),
.primary_sdram_width = U(64),
.ec_sdram_width = U(8),
.n_ranks = U(2),
.device_width = U(8),
.mirrored_dimm = U(1),
};
/* Sample code using two UDIMM MT18ASF1G72AZ-2G6B1, on each DDR controller */
unsigned long long board_static_ddr(struct ddr_info *priv)
{
memcpy(&priv->ddr_reg, &static_1600, sizeof(static_1600));
memcpy(&priv->dimm, &static_dimm, sizeof(static_dimm));
priv->conf.cs_on_dimm[0] = 0x3;
ddr_board_options(priv);
compute_ddr_phy(priv);
return ULL(0x400000000);
}
#elif defined(CONFIG_DDR_NODIMM)
/*
* Sample code to bypass reading SPD. This is a sample, not recommended
* for boards with slots. DDR model number: UDIMM MT18ASF1G72AZ-2G6B1.
*/
const struct dimm_params ddr_raw_timing = {
.n_ranks = U(2),
.rank_density = U(4294967296u),
.capacity = U(8589934592u),
.primary_sdram_width = U(64),
.ec_sdram_width = U(8),
.device_width = U(8),
.die_density = U(0x4),
.rdimm = U(0),
.mirrored_dimm = U(1),
.n_row_addr = U(15),
.n_col_addr = U(10),
.bank_addr_bits = U(0),
.bank_group_bits = U(2),
.edc_config = U(2),
.burst_lengths_bitmask = U(0x0c),
.tckmin_x_ps = 750,
.tckmax_ps = 1600,
.caslat_x = U(0x00FFFC00),
.taa_ps = 13750,
.trcd_ps = 13750,
.trp_ps = 13750,
.tras_ps = 32000,
.trc_ps = 457500,
.twr_ps = 15000,
.trfc1_ps = 260000,
.trfc2_ps = 160000,
.trfc4_ps = 110000,
.tfaw_ps = 21000,
.trrds_ps = 3000,
.trrdl_ps = 4900,
.tccdl_ps = 5000,
.refresh_rate_ps = U(7800000),
};
int ddr_get_ddr_params(struct dimm_params *pdimm,
struct ddr_conf *conf)
{
static const char dimm_model[] = "Fixed DDR on board";
conf->dimm_in_use[0] = 1; /* Modify accordingly */
memcpy(pdimm, &ddr_raw_timing, sizeof(struct dimm_params));
memcpy(pdimm->mpart, dimm_model, sizeof(dimm_model) - 1);
/* valid DIMM mask, change accordingly, together with dimm_on_ctlr. */
return 0x5;
}
#endif /* CONFIG_DDR_NODIMM */
int ddr_board_options(struct ddr_info *priv)
{
struct memctl_opt *popts = &priv->opt;
const struct ddr_conf *conf = &priv->conf;
popts->vref_dimm = U(0x24); /* range 1, 83.4% */
popts->rtt_override = 0;
popts->rtt_park = U(240);
popts->otf_burst_chop_en = 0;
popts->burst_length = U(DDR_BL8);
popts->trwt_override = U(1);
popts->bstopre = U(0); /* auto precharge */
popts->addr_hash = 1;
/* Set ODT impedance on PHY side */
switch (conf->cs_on_dimm[1]) {
case 0xc: /* Two slots dual rank */
case 0x4: /* Two slots single rank, not valid for interleaving */
popts->trwt = U(0xf);
popts->twrt = U(0x7);
popts->trrt = U(0x7);
popts->twwt = U(0x7);
popts->vref_phy = U(0x6B); /* 83.6% */
popts->odt = U(60);
popts->phy_tx_impedance = U(28);
break;
case 0: /* One slot used */
default:
popts->trwt = U(0x3);
popts->twrt = U(0x3);
popts->trrt = U(0x3);
popts->twwt = U(0x3);
popts->vref_phy = U(0x60); /* 75% */
popts->odt = U(48);
popts->phy_tx_impedance = U(28);
break;
}
return 0;
}
long long init_ddr(void)
{
int spd_addr[] = { 0x51, 0x52, 0x53, 0x54 };
struct ddr_info info;
struct sysinfo sys;
long long dram_size;
zeromem(&sys, sizeof(sys));
if (get_clocks(&sys) != 0) {
ERROR("System clocks are not set\n");
panic();
}
debug("platform clock %lu\n", sys.freq_platform);
debug("DDR PLL1 %lu\n", sys.freq_ddr_pll0);
debug("DDR PLL2 %lu\n", sys.freq_ddr_pll1);
zeromem(&info, sizeof(info));
/* Set two DDRC. Unused DDRC will be removed automatically. */
info.num_ctlrs = NUM_OF_DDRC;
info.spd_addr = spd_addr;
info.ddr[0] = (void *)NXP_DDR_ADDR;
info.ddr[1] = (void *)NXP_DDR2_ADDR;
info.phy[0] = (void *)NXP_DDR_PHY1_ADDR;
info.phy[1] = (void *)NXP_DDR_PHY2_ADDR;
info.clk = get_ddr_freq(&sys, 0);
info.img_loadr = load_img;
info.phy_gen2_fw_img_buf = PHY_GEN2_FW_IMAGE_BUFFER;
if (info.clk == 0) {
info.clk = get_ddr_freq(&sys, 1);
}
info.dimm_on_ctlr = DDRC_NUM_DIMM;
info.warm_boot_flag = DDR_WRM_BOOT_NT_SUPPORTED;
dram_size = dram_init(&info
#if defined(NXP_HAS_CCN504) || defined(NXP_HAS_CCN508)
, NXP_CCN_HN_F_0_ADDR
#endif
);
if (dram_size < 0) {
ERROR("DDR init failed.\n");
}
return dram_size;
}