/* SPDX-License-Identifier: GPL-2.0 */ /* * Copyright (C) Marvell International Ltd. and its affiliates */ #ifndef _MV_DDR_SPD_H #define _MV_DDR_SPD_H #include "mv_ddr_topology.h" /* * Based on JEDEC Standard No. 21-C, 4.1.2.L-4: * Serial Presence Detect (SPD) for DDR4 SDRAM Modules */ /* block 0: base configuration and dram parameters */ #define MV_DDR_SPD_DATA_BLOCK0_SIZE 128 /* block 1: module specific parameters sub-block */ #define MV_DDR_SPD_DATA_BLOCK1M_SIZE 64 /* block 1: hybrid memory parameters sub-block */ #define MV_DDR_SPD_DATA_BLOCK1H_SIZE 64 /* block 2: extended function parameter block */ #define MV_DDR_SPD_DATA_BLOCK2E_SIZE 64 /* block 2: manufacturing information */ #define MV_DDR_SPD_DATA_BLOCK2M_SIZE 64 /* block 3: end user programmable */ #define MV_DDR_SPD_DATA_BLOCK3_SIZE 128 #define MV_DDR_SPD_DEV_TYPE_DDR4 0xc #define MV_DDR_SPD_MODULE_TYPE_UDIMM 0x2 #define MV_DDR_SPD_MODULE_TYPE_SO_DIMM 0x3 #define MV_DDR_SPD_MODULE_TYPE_MINI_UDIMM 0x6 #define MV_DDR_SPD_MODULE_TYPE_72BIT_SO_UDIMM 0x9 #define MV_DDR_SPD_MODULE_TYPE_16BIT_SO_DIMM 0xc #define MV_DDR_SPD_MODULE_TYPE_32BIT_SO_DIMM 0xd /* * TODO: For now, the struct contains block 0 & block 1 with module specific * parameters for unbuffered memory module types only. */ union mv_ddr_spd_data { unsigned char all_bytes[MV_DDR_SPD_DATA_BLOCK0_SIZE + MV_DDR_SPD_DATA_BLOCK1M_SIZE]; struct { /* block 0 */ union { /* num of bytes used/num of bytes in spd device/crc coverage */ unsigned char all_bits; struct { unsigned char spd_bytes_used:4, spd_bytes_total:3, reserved:1; } bit_fields; } byte_0; union { /* spd revision */ unsigned char all_bits; struct { unsigned char addtions_level:4, encoding_level:4; } bit_fields; } byte_1; unsigned char byte_2; /* key_byte/dram device type */ union { /* key byte/module type */ unsigned char all_bits; struct { unsigned char module_type:4, hybrid_media:3, hybrid:1; } bit_fields; } byte_3; union { /* sdram density & banks */ unsigned char all_bits; struct { unsigned char die_capacity:4, bank_address:2, bank_group:2; } bit_fields; } byte_4; union { /* sdram addressing */ unsigned char all_bits; struct { unsigned char col_address:3, row_address:3, reserved:2; } bit_fields; } byte_5; union { /* sdram package type */ unsigned char all_bits; struct { unsigned char signal_loading:2, reserved:2, die_count:3, sdram_package_type:1; } bit_fields; } byte_6; union { /* sdram optional features */ unsigned char all_bits; struct { unsigned char mac:4, /* max activate count */ t_maw:2, /* max activate window */ reserved:2; /* all 0s */ } bit_fields; } byte_7; unsigned char byte_8; /* sdram thermal & refresh options; reserved; 0x00 */ union { /* other sdram optional features */ unsigned char all_bits; struct { unsigned char reserved:5, /* all 0s */ soft_ppr:1, ppr:2; /* post package repair */ } bit_fields; } byte_9; union { /* secondary sdram package type */ unsigned char all_bits; struct { unsigned char signal_loading:2, density_ratio:2, /* dram density ratio */ die_count:3, sdram_package_type:1; } bit_fields; } byte_10; union { /* module nominal voltage, vdd */ unsigned char all_bits; struct { unsigned char operable:1, endurant:1, reserved:5; /* all 0s */ } bit_fields; } byte_11; union { /* module organization*/ unsigned char all_bits; struct { unsigned char device_width:3, dimm_pkg_ranks_num:3, /* package ranks per dimm number */ rank_mix:1, reserved:1; /* 0 */ } bit_fields; } byte_12; union { /* module memory bus width */ unsigned char all_bits; struct { unsigned char primary_bus_width:3, /* in bits */ bus_width_ext:2, /* in bits */ reserved:3; /* all 0s */ } bit_fields; } byte_13; union { /* module thernal sensor */ unsigned char all_bits; struct { unsigned char reserved:7, thermal_sensor:1; } bit_fields; } byte_14; union { /* extended module type */ unsigned char all_bits; struct { unsigned char ext_base_module_type:4, reserved:4; /* all 0s */ } bit_fields; } byte_15; unsigned char byte_16; /* reserved; 0x00 */ union { /* timebases */ unsigned char all_bits; struct { unsigned char ftb:2, /* fine timebase */ mtb:2, /* medium timebase */ reserved:4; /* all 0s */ } bit_fields; } byte_17; unsigned char byte_18; /* sdram min cycle time (t ck avg min), mtb */ unsigned char byte_19; /* sdram max cycle time (t ck avg max), mtb */ unsigned char byte_20; /* cas latencies supported, first byte */ unsigned char byte_21; /* cas latencies supported, second byte */ unsigned char byte_22; /* cas latencies supported, third byte */ unsigned char byte_23; /* cas latencies supported, fourth byte */ unsigned char byte_24; /* min cas latency time (t aa min), mtb */ unsigned char byte_25; /* min ras to cas delay time (t rcd min), mtb */ unsigned char byte_26; /* min row precharge delay time (t rp min), mtb */ union { /* upper nibbles for t ras min & t rc min */ unsigned char all_bits; struct { unsigned char t_ras_min_msn:4, /* t ras min most significant nibble */ t_rc_min_msn:4; /* t rc min most significant nibble */ } bit_fields; } byte_27; unsigned char byte_28; /* min active to precharge delay time (t ras min), l-s-byte, mtb */ unsigned char byte_29; /* min active to active/refresh delay time (t rc min), l-s-byte, mtb */ unsigned char byte_30; /* min refresh recovery delay time (t rfc1 min), l-s-byte, mtb */ unsigned char byte_31; /* min refresh recovery delay time (t rfc1 min), m-s-byte, mtb */ unsigned char byte_32; /* min refresh recovery delay time (t rfc2 min), l-s-byte, mtb */ unsigned char byte_33; /* min refresh recovery delay time (t rfc2 min), m-s-byte, mtb */ unsigned char byte_34; /* min refresh recovery delay time (t rfc4 min), l-s-byte, mtb */ unsigned char byte_35; /* min refresh recovery delay time (t rfc4 min), m-s-byte, mtb */ union { /* upper nibble for t faw */ unsigned char all_bits; struct { unsigned char t_faw_min_msn:4, /* t faw min most significant nibble */ reserved:4; } bit_fields; } byte_36; unsigned char byte_37; /* min four activate window delay time (t faw min), l-s-byte, mtb */ /* byte 38: min activate to activate delay time (t rrd_s min), diff bank group, mtb */ unsigned char byte_38; /* byte 39: min activate to activate delay time (t rrd_l min), same bank group, mtb */ unsigned char byte_39; unsigned char byte_40; /* min cas to cas delay time (t ccd_l min), same bank group, mtb */ union { /* upper nibble for t wr min */ unsigned char all_bits; struct { unsigned char t_wr_min_msn:4, /* t wr min most significant nibble */ reserved:4; } bit_fields; } byte_41; unsigned char byte_42; /* min write recovery time (t wr min) */ union { /* upper nibbles for t wtr min */ unsigned char all_bits; struct { unsigned char t_wtr_s_min_msn:4, /* t wtr s min most significant nibble */ t_wtr_l_min_msn:4; /* t wtr l min most significant nibble */ } bit_fields; } byte_43; unsigned char byte_44; /* min write to read time (t wtr s min), diff bank group, mtb */ unsigned char byte_45; /* min write to read time (t wtr l min), same bank group, mtb */ unsigned char bytes_46_59[14]; /* reserved; all 0s */ unsigned char bytes_60_77[18]; /* TODO: connector to sdram bit mapping */ unsigned char bytes_78_116[39]; /* reserved; all 0s */ /* fine offset for min cas to cas delay time (t ccd_l min), same bank group, ftb */ unsigned char byte_117; /* fine offset for min activate to activate delay time (t rrd_l min), same bank group, ftb */ unsigned char byte_118; /* fine offset for min activate to activate delay time (t rrd_s min), diff bank group, ftb */ unsigned char byte_119; /* fine offset for min active to active/refresh delay time (t rc min), ftb */ unsigned char byte_120; unsigned char byte_121; /* fine offset for min row precharge delay time (t rp min), ftb */ unsigned char byte_122; /* fine offset for min ras to cas delay time (t rcd min), ftb */ unsigned char byte_123; /* fine offset for min cas latency time (t aa min), ftb */ unsigned char byte_124; /* fine offset for sdram max cycle time (t ck avg max), ftb */ unsigned char byte_125; /* fine offset for sdram min cycle time (t ck avg min), ftb */ unsigned char byte_126; /* crc for base configuration section, l-s-byte */ unsigned char byte_127; /* crc for base configuration section, m-s-byte */ /* * block 1: module specific parameters for unbuffered memory module types only */ union { /* (unbuffered) raw card extension, module nominal height */ unsigned char all_bits; struct { unsigned char nom_height_max:5, /* in mm */ raw_cad_ext:3; } bit_fields; } byte_128; union { /* (unbuffered) module maximum thickness */ unsigned char all_bits; struct { unsigned char front_thickness_max:4, /* in mm */ back_thickness_max:4; /* in mm */ } bit_fields; } byte_129; union { /* (unbuffered) reference raw card used */ unsigned char all_bits; struct { unsigned char ref_raw_card:5, ref_raw_card_rev:2, ref_raw_card_ext:1; } bit_fields; } byte_130; union { /* (unbuffered) address mapping from edge connector to dram */ unsigned char all_bits; struct { unsigned char rank_1_mapping:1, reserved:7; } bit_fields; } byte_131; unsigned char bytes_132_191[60]; /* reserved; all 0s */ } byte_fields; }; int mv_ddr_spd_timing_calc(union mv_ddr_spd_data *spd_data, unsigned int timing_data[]); enum mv_ddr_dev_width mv_ddr_spd_dev_width_get(union mv_ddr_spd_data *spd_data); enum mv_ddr_die_capacity mv_ddr_spd_die_capacity_get(union mv_ddr_spd_data *spd_data); void mv_ddr_spd_die_capacity_user_get(union mv_ddr_spd_data *spd_data, enum mv_ddr_die_capacity capacity); unsigned char mv_ddr_spd_mem_mirror_get(union mv_ddr_spd_data *spd_data); unsigned char mv_ddr_spd_cs_bit_mask_get(union mv_ddr_spd_data *spd_data); unsigned char mv_ddr_spd_dev_type_get(union mv_ddr_spd_data *spd_data); unsigned char mv_ddr_spd_module_type_get(union mv_ddr_spd_data *spd_data); int mv_ddr_spd_supported_cls_calc(union mv_ddr_spd_data *spd_data); unsigned int mv_ddr_spd_supported_cl_get(unsigned int cl); enum mv_ddr_pkg_rank mv_ddr_spd_pri_bus_width_get(union mv_ddr_spd_data *spd_data); enum mv_ddr_pkg_rank mv_ddr_spd_bus_width_ext_get(union mv_ddr_spd_data *spd_data); #endif /* _MV_DDR_SPD_H */