// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) Marvell International Ltd. and its affiliates */ #include "ddr_ml_wrapper.h" #include "mv_ddr_plat.h" #include "mv_ddr_topology.h" #include "mv_ddr_common.h" #include "mv_ddr_spd.h" #include "ddr_topology_def.h" #include "ddr3_training_ip_db.h" #include "ddr3_training_ip.h" #include "mv_ddr_training_db.h" unsigned int mv_ddr_cl_calc(unsigned int taa_min, unsigned int tclk) { unsigned int cl = ceil_div(taa_min, tclk); return mv_ddr_spd_supported_cl_get(cl); } unsigned int mv_ddr_cwl_calc(unsigned int tclk) { unsigned int cwl; if (tclk >= 1250) cwl = 9; else if (tclk >= 1071) cwl = 10; else if (tclk >= 938) cwl = 11; else if (tclk >= 833) cwl = 12; else if (tclk >= 750) cwl = 14; else if (tclk >= 625) cwl = 16; else cwl = 0; return cwl; } int mv_ddr_topology_map_update(void) { struct mv_ddr_topology_map *tm = mv_ddr_topology_map_get(); struct if_params *iface_params = &(tm->interface_params[0]); unsigned int octets_per_if_num = ddr3_tip_dev_attr_get(0, MV_ATTR_OCTET_PER_INTERFACE); enum mv_ddr_speed_bin speed_bin_index; enum mv_ddr_freq freq = MV_DDR_FREQ_LAST; unsigned int tclk; unsigned char val = 0; int i; if (iface_params->memory_freq == MV_DDR_FREQ_SAR) iface_params->memory_freq = mv_ddr_init_freq_get(); if (tm->cfg_src == MV_DDR_CFG_SPD) { /* check dram device type */ val = mv_ddr_spd_dev_type_get(&tm->spd_data); if (val != MV_DDR_SPD_DEV_TYPE_DDR4) { printf("mv_ddr: unsupported dram device type found\n"); return -1; } /* update topology map with timing data */ if (mv_ddr_spd_timing_calc(&tm->spd_data, tm->timing_data) > 0) { printf("mv_ddr: negative timing data found\n"); return -1; } /* update device width in topology map */ iface_params->bus_width = mv_ddr_spd_dev_width_get(&tm->spd_data); /* update die capacity in topology map */ iface_params->memory_size = mv_ddr_spd_die_capacity_get(&tm->spd_data); /* update bus bit mask in topology map */ tm->bus_act_mask = mv_ddr_bus_bit_mask_get(); /* update cs bit mask in topology map */ val = mv_ddr_spd_cs_bit_mask_get(&tm->spd_data); for (i = 0; i < octets_per_if_num; i++) iface_params->as_bus_params[i].cs_bitmask = val; /* check dram module type */ val = mv_ddr_spd_module_type_get(&tm->spd_data); switch (val) { case MV_DDR_SPD_MODULE_TYPE_UDIMM: case MV_DDR_SPD_MODULE_TYPE_SO_DIMM: case MV_DDR_SPD_MODULE_TYPE_MINI_UDIMM: case MV_DDR_SPD_MODULE_TYPE_72BIT_SO_UDIMM: case MV_DDR_SPD_MODULE_TYPE_16BIT_SO_DIMM: case MV_DDR_SPD_MODULE_TYPE_32BIT_SO_DIMM: break; default: printf("mv_ddr: unsupported dram module type found\n"); return -1; } /* update mirror bit mask in topology map */ val = mv_ddr_spd_mem_mirror_get(&tm->spd_data); for (i = 0; i < octets_per_if_num; i++) iface_params->as_bus_params[i].mirror_enable_bitmask = val << 1; tclk = 1000000 / mv_ddr_freq_get(iface_params->memory_freq); /* update cas write latency (cwl) */ val = mv_ddr_cwl_calc(tclk); if (val == 0) { printf("mv_ddr: unsupported cas write latency value found\n"); return -1; } iface_params->cas_wl = val; /* update cas latency (cl) */ mv_ddr_spd_supported_cls_calc(&tm->spd_data); val = mv_ddr_cl_calc(tm->timing_data[MV_DDR_TAA_MIN], tclk); if (val == 0) { printf("mv_ddr: unsupported cas latency value found\n"); return -1; } iface_params->cas_l = val; } else if (tm->cfg_src == MV_DDR_CFG_DEFAULT) { /* set cas and cas-write latencies per speed bin, if they unset */ speed_bin_index = iface_params->speed_bin_index; freq = iface_params->memory_freq; if (tm->twin_die_combined == COMBINED) { iface_params->bus_width = MV_DDR_DEV_WIDTH_8BIT; iface_params->memory_size -= 1; } if (iface_params->cas_l == 0) iface_params->cas_l = mv_ddr_cl_val_get(speed_bin_index, freq); if (iface_params->cas_wl == 0) iface_params->cas_wl = mv_ddr_cwl_val_get(speed_bin_index, freq); } return 0; } unsigned short mv_ddr_bus_bit_mask_get(void) { unsigned short pri_and_ext_bus_width = 0x0; struct mv_ddr_topology_map *tm = mv_ddr_topology_map_get(); unsigned int octets_per_if_num = ddr3_tip_dev_attr_get(0, MV_ATTR_OCTET_PER_INTERFACE); if (tm->cfg_src == MV_DDR_CFG_SPD) { if (tm->bus_act_mask == MV_DDR_32BIT_ECC_PUP8_BUS_MASK) tm->spd_data.byte_fields.byte_13.bit_fields.primary_bus_width = MV_DDR_PRI_BUS_WIDTH_32; enum mv_ddr_pri_bus_width pri_bus_width = mv_ddr_spd_pri_bus_width_get(&tm->spd_data); enum mv_ddr_bus_width_ext bus_width_ext = mv_ddr_spd_bus_width_ext_get(&tm->spd_data); switch (pri_bus_width) { case MV_DDR_PRI_BUS_WIDTH_16: pri_and_ext_bus_width = BUS_MASK_16BIT; break; case MV_DDR_PRI_BUS_WIDTH_32: /*each bit represents byte, so 0xf-is means 4 bytes-32 bit*/ pri_and_ext_bus_width = BUS_MASK_32BIT; break; case MV_DDR_PRI_BUS_WIDTH_64: pri_and_ext_bus_width = MV_DDR_64BIT_BUS_MASK; break; default: pri_and_ext_bus_width = 0x0; } if (bus_width_ext == MV_DDR_BUS_WIDTH_EXT_8) pri_and_ext_bus_width |= 1 << (octets_per_if_num - 1); } return pri_and_ext_bus_width; } unsigned int mv_ddr_if_bus_width_get(void) { struct mv_ddr_topology_map *tm = mv_ddr_topology_map_get(); unsigned int bus_width; switch (tm->bus_act_mask) { case BUS_MASK_16BIT: case BUS_MASK_16BIT_ECC: case BUS_MASK_16BIT_ECC_PUP3: bus_width = 16; break; case BUS_MASK_32BIT: case BUS_MASK_32BIT_ECC: case MV_DDR_32BIT_ECC_PUP8_BUS_MASK: bus_width = 32; break; case MV_DDR_64BIT_BUS_MASK: case MV_DDR_64BIT_ECC_PUP8_BUS_MASK: bus_width = 64; break; default: printf("mv_ddr: unsupported bus active mask parameter found\n"); bus_width = 0; } return bus_width; } unsigned int mv_ddr_cs_num_get(void) { unsigned int cs_num = 0; unsigned int cs, sphy; struct mv_ddr_topology_map *tm = mv_ddr_topology_map_get(); struct if_params *iface_params = &(tm->interface_params[0]); unsigned int sphy_max = ddr3_tip_dev_attr_get(0, MV_ATTR_OCTET_PER_INTERFACE); for (sphy = 0; sphy < sphy_max; sphy++) { VALIDATE_BUS_ACTIVE(tm->bus_act_mask, sphy); break; } for (cs = 0; cs < MAX_CS_NUM; cs++) { VALIDATE_ACTIVE(iface_params->as_bus_params[sphy].cs_bitmask, cs); cs_num++; } return cs_num; } int mv_ddr_is_ecc_ena(void) { struct mv_ddr_topology_map *tm = mv_ddr_topology_map_get(); if (DDR3_IS_ECC_PUP4_MODE(tm->bus_act_mask) || DDR3_IS_ECC_PUP3_MODE(tm->bus_act_mask) || DDR3_IS_ECC_PUP8_MODE(tm->bus_act_mask)) return 1; else return 0; } int mv_ddr_ck_delay_get(void) { struct mv_ddr_topology_map *tm = mv_ddr_topology_map_get(); if (tm->ck_delay) return tm->ck_delay; return -1; } /* translate topology map definition to real memory size in bits */ static unsigned int mem_size[] = { ADDR_SIZE_512MB, ADDR_SIZE_1GB, ADDR_SIZE_2GB, ADDR_SIZE_4GB, ADDR_SIZE_8GB, ADDR_SIZE_16GB /* TODO: add capacity up to 256GB */ }; unsigned long long mv_ddr_mem_sz_per_cs_get(void) { unsigned long long mem_sz_per_cs; unsigned int i, sphys, sphys_per_dunit; unsigned int sphy_max = ddr3_tip_dev_attr_get(0, MV_ATTR_OCTET_PER_INTERFACE); struct mv_ddr_topology_map *tm = mv_ddr_topology_map_get(); struct if_params *iface_params = &(tm->interface_params[0]); /* calc number of active subphys excl. ecc one */ for (i = 0, sphys = 0; i < sphy_max - 1; i++) { VALIDATE_BUS_ACTIVE(tm->bus_act_mask, i); sphys++; } /* calc number of subphys per ddr unit */ if (iface_params->bus_width == MV_DDR_DEV_WIDTH_8BIT) sphys_per_dunit = MV_DDR_ONE_SPHY_PER_DUNIT; else if (iface_params->bus_width == MV_DDR_DEV_WIDTH_16BIT) sphys_per_dunit = MV_DDR_TWO_SPHY_PER_DUNIT; else { printf("mv_ddr: unsupported bus width type found\n"); return 0; } /* calc dram size per cs */ mem_sz_per_cs = (unsigned long long)mem_size[iface_params->memory_size] * (unsigned long long)sphys / (unsigned long long)sphys_per_dunit; return mem_sz_per_cs; } unsigned long long mv_ddr_mem_sz_get(void) { unsigned long long tot_mem_sz = 0; unsigned long long mem_sz_per_cs = 0; unsigned long long max_cs = mv_ddr_cs_num_get(); mem_sz_per_cs = mv_ddr_mem_sz_per_cs_get(); tot_mem_sz = max_cs * mem_sz_per_cs; return tot_mem_sz; } unsigned int mv_ddr_rtt_nom_get(void) { struct mv_ddr_topology_map *tm = mv_ddr_topology_map_get(); unsigned int rtt_nom = tm->edata.mem_edata.rtt_nom; if (rtt_nom >= MV_DDR_RTT_NOM_PARK_RZQ_LAST) { printf("error: %s: unsupported rtt_nom parameter found\n", __func__); rtt_nom = PARAM_UNDEFINED; } return rtt_nom; } unsigned int mv_ddr_rtt_park_get(void) { struct mv_ddr_topology_map *tm = mv_ddr_topology_map_get(); unsigned int cs_num = mv_ddr_cs_num_get(); unsigned int rtt_park = MV_DDR_RTT_NOM_PARK_RZQ_LAST; if (cs_num > 0 && cs_num <= MAX_CS_NUM) rtt_park = tm->edata.mem_edata.rtt_park[cs_num - 1]; if (rtt_park >= MV_DDR_RTT_NOM_PARK_RZQ_LAST) { printf("error: %s: unsupported rtt_park parameter found\n", __func__); rtt_park = PARAM_UNDEFINED; } return rtt_park; } unsigned int mv_ddr_rtt_wr_get(void) { struct mv_ddr_topology_map *tm = mv_ddr_topology_map_get(); unsigned int cs_num = mv_ddr_cs_num_get(); unsigned int rtt_wr = MV_DDR_RTT_WR_RZQ_LAST; if (cs_num > 0 && cs_num <= MAX_CS_NUM) rtt_wr = tm->edata.mem_edata.rtt_wr[cs_num - 1]; if (rtt_wr >= MV_DDR_RTT_WR_RZQ_LAST) { printf("error: %s: unsupported rtt_wr parameter found\n", __func__); rtt_wr = PARAM_UNDEFINED; } return rtt_wr; } unsigned int mv_ddr_dic_get(void) { struct mv_ddr_topology_map *tm = mv_ddr_topology_map_get(); unsigned int dic = tm->edata.mem_edata.dic; if (dic >= MV_DDR_DIC_RZQ_LAST) { printf("error: %s: unsupported dic parameter found\n", __func__); dic = PARAM_UNDEFINED; } return dic; }