/* * Copyright 2018-2020 NXP * * SPDX-License-Identifier: BSD-3-Clause * */ #include #include #include #include #include #include #include #include #include #include #include #include "plat_common.h" #include #ifdef CONFIG_STATIC_DDR const struct ddr_cfg_regs static_3200 = { .cs[0].bnds = U(0x03FF), .cs[1].bnds = U(0x03FF), .cs[0].config = U(0x80050422), .cs[1].config = U(0x80000422), .cs[2].bnds = U(0x00), .cs[3].bnds = U(0x00), .cs[2].config = U(0x00), .cs[3].config = U(0x00), .timing_cfg[0] = U(0xFFAA0018), .timing_cfg[1] = U(0x646A8844), .timing_cfg[2] = U(0x00058022), .timing_cfg[3] = U(0x13622100), .timing_cfg[4] = U(0x02), .timing_cfg[5] = U(0x07401400), .timing_cfg[7] = U(0x3BB00000), .timing_cfg[8] = U(0x0944AC00), .sdram_cfg[0] = U(0x65044008), .sdram_cfg[1] = U(0x00401011), .sdram_cfg[2] = U(0x00), .sdram_mode[0] = U(0x06010C50), .sdram_mode[1] = U(0x00280400), .sdram_mode[2] = U(0x00), .sdram_mode[3] = U(0x00), .sdram_mode[4] = U(0x00), .sdram_mode[5] = U(0x00), .sdram_mode[6] = U(0x00), .sdram_mode[7] = U(0x00), .sdram_mode[8] = U(0x0500), .sdram_mode[9] = U(0x10240000), .sdram_mode[10] = U(0x00), .sdram_mode[11] = U(0x00), .sdram_mode[12] = U(0x00), .sdram_mode[13] = U(0x00), .sdram_mode[14] = U(0x00), .sdram_mode[15] = U(0x00), .md_cntl = U(0x00), .interval = U(0x30C00000), .data_init = U(0xDEADBEEF), .init_addr = U(0x00), .zq_cntl = U(0x8A090705), .sdram_rcw[0] = U(0x00), .sdram_rcw[1] = U(0x00), .sdram_rcw[2] = U(0x00), .sdram_rcw[3] = U(0x00), .sdram_rcw[4] = U(0x00), .sdram_rcw[5] = U(0x00), .err_disable = U(0x00), .err_int_en = U(0x00), }; const struct ddr_cfg_regs static_2900 = { .cs[0].bnds = U(0x03FF), .cs[1].bnds = U(0x03FF), .cs[0].config = U(0x80050422), .cs[1].config = U(0x80000422), .cs[2].bnds = U(0x00), .cs[3].bnds = U(0x00), .cs[2].config = U(0x00), .cs[3].config = U(0x00), .timing_cfg[0] = U(0xFF990018), .timing_cfg[1] = U(0x4F4A4844), .timing_cfg[2] = U(0x0005601F), .timing_cfg[3] = U(0x125F2100), .timing_cfg[4] = U(0x02), .timing_cfg[5] = U(0x07401400), .timing_cfg[7] = U(0x3AA00000), .timing_cfg[8] = U(0x09449B00), .sdram_cfg[0] = U(0x65044008), .sdram_cfg[1] = U(0x00401011), .sdram_cfg[2] = U(0x00), .sdram_mode[0] = U(0x06010C50), .sdram_mode[1] = U(0x00280400), .sdram_mode[2] = U(0x00), .sdram_mode[3] = U(0x00), .sdram_mode[4] = U(0x00), .sdram_mode[5] = U(0x00), .sdram_mode[6] = U(0x00), .sdram_mode[7] = U(0x00), .sdram_mode[8] = U(0x0500), .sdram_mode[9] = U(0x10240000), .sdram_mode[10] = U(0x00), .sdram_mode[11] = U(0x00), .sdram_mode[12] = U(0x00), .sdram_mode[13] = U(0x00), .sdram_mode[14] = U(0x00), .sdram_mode[15] = U(0x00), .md_cntl = U(0x00), .interval = U(0x2C2E0000), .data_init = U(0xDEADBEEF), .init_addr = U(0x00), .zq_cntl = U(0x8A090705), .sdram_rcw[0] = U(0x00), .sdram_rcw[1] = U(0x00), .sdram_rcw[2] = U(0x00), .sdram_rcw[3] = U(0x00), .sdram_rcw[4] = U(0x00), .sdram_rcw[5] = U(0x00), .err_disable = U(0x00), .err_int_en = U(0x00), }; const struct ddr_cfg_regs static_2600 = { .cs[0].bnds = U(0x03FF), .cs[1].bnds = U(0x03FF), .cs[0].config = U(0x80050422), .cs[1].config = U(0x80000422), .cs[2].bnds = U(0x00), .cs[3].bnds = U(0x00), .cs[2].config = U(0x00), .cs[3].config = U(0x00), .timing_cfg[0] = U(0xFF880018), .timing_cfg[1] = U(0x2A24F444), .timing_cfg[2] = U(0x007141DC), .timing_cfg[3] = U(0x125B2100), .timing_cfg[4] = U(0x02), .timing_cfg[5] = U(0x06401400), .timing_cfg[7] = U(0x28800000), .timing_cfg[8] = U(0x07338A00), .sdram_cfg[0] = U(0x65044008), .sdram_cfg[1] = U(0x00401011), .sdram_cfg[2] = U(0x00), .sdram_mode[0] = U(0x06010A70), .sdram_mode[1] = U(0x00200400), .sdram_mode[2] = U(0x00), .sdram_mode[3] = U(0x00), .sdram_mode[4] = U(0x00), .sdram_mode[5] = U(0x00), .sdram_mode[6] = U(0x00), .sdram_mode[7] = U(0x00), .sdram_mode[8] = U(0x0500), .sdram_mode[9] = U(0x0C240000), .sdram_mode[10] = U(0x00), .sdram_mode[11] = U(0x00), .sdram_mode[12] = U(0x00), .sdram_mode[13] = U(0x00), .sdram_mode[14] = U(0x00), .sdram_mode[15] = U(0x00), .md_cntl = U(0x00), .interval = U(0x279C0000), .data_init = U(0xDEADBEEF), .init_addr = U(0x00), .zq_cntl = U(0x8A090705), .sdram_rcw[0] = U(0x00), .sdram_rcw[1] = U(0x00), .sdram_rcw[2] = U(0x00), .sdram_rcw[3] = U(0x00), .sdram_rcw[4] = U(0x00), .sdram_rcw[5] = U(0x00), .err_disable = U(0x00), .err_int_en = U(0x00), }; 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) { (void)memcpy(&priv->ddr_reg, &static_2900, sizeof(static_2900)); (void)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; } #ifdef NXP_WARM_BOOT long long init_ddr(uint32_t wrm_bt_flg) #else long long init_ddr(void) #endif { int spd_addr[] = {0x51U, 0x52U, 0x53U, 0x54U}; struct ddr_info info; struct sysinfo sys; long long dram_size; zeromem(&sys, sizeof(sys)); if (get_clocks(&sys) == 1) { 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; #ifdef NXP_WARM_BOOT info.warm_boot_flag = DDR_COLD_BOOT; if (wrm_bt_flg != 0U) { info.warm_boot_flag = DDR_WARM_BOOT; } else { info.warm_boot_flag = DDR_COLD_BOOT; } #endif 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; }