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/* SPDX-License-Identifier: GPL-2.0-only */
/*
* JEDEC Standard No. 21-C
* Annex L: Serial Presence Detect (SPD) for DDR4 SDRAM Modules
*/
#ifndef DEVICE_DRAM_DDR4L_H
#define DEVICE_DRAM_DDR4L_H
/**
* @file ddr4.h
*
* \brief Utilities for decoding DDR4 SPDs
*/
#include <spd.h>
#include <device/dram/common.h>
#include <types.h>
/** Maximum SPD size supported */
#define SPD_SIZE_MAX_DDR4 512
#define SPD_DDR4_PART_OFF 329
#define SPD_DDR4_PART_LEN 20
/*
* Module type (byte 3, bits 3:0) of SPD
* This definition is specific to DDR4. DDR2/3 SPDs have a different structure.
*/
enum spd_dimm_type_ddr4 {
SPD_DDR4_DIMM_TYPE_EXTENDED = 0x0,
SPD_DDR4_DIMM_TYPE_RDIMM = 0x1,
SPD_DDR4_DIMM_TYPE_UDIMM = 0x2,
SPD_DDR4_DIMM_TYPE_SO_DIMM = 0x3,
SPD_DDR4_DIMM_TYPE_LRDIMM = 0x4,
SPD_DDR4_DIMM_TYPE_MINI_RDIMM = 0x5,
SPD_DDR4_DIMM_TYPE_MINI_UDIMM = 0x6,
SPD_DDR4_DIMM_TYPE_72B_SO_RDIMM = 0x8,
SPD_DDR4_DIMM_TYPE_72B_SO_UDIMM = 0x9,
SPD_DDR4_DIMM_TYPE_16B_SO_DIMM = 0xc,
SPD_DDR4_DIMM_TYPE_32B_SO_DIMM = 0xd,
/* Masks to bits 3:0 to give the dimm type */
SPD_DDR4_DIMM_TYPE_MASK = 0xf
};
/**
* \brief DIMM characteristics
*
* The characteristics of each DIMM, as presented by the SPD
*/
struct dimm_attr_ddr4_st {
enum spd_memory_type dram_type;
enum spd_dimm_type_ddr4 dimm_type;
char part_number[SPD_DDR4_PART_LEN + 1];
u8 serial_number[4];
u8 bus_width;
u8 ranks;
u8 sdram_width;
u16 cap_per_die_mbit;
u16 size_mb;
u16 manufacturer_id;
u16 vdd_voltage;
bool ecc_extension;
};
typedef u8 spd_ddr4_raw_data[SPD_SIZE_MAX_DDR4];
int spd_decode_ddr4(struct dimm_attr_ddr4_st *dimm, spd_ddr4_raw_data spd);
enum cb_err spd_add_smbios17_ddr4(const u8 channel, const u8 slot,
const u16 selected_freq,
const struct dimm_attr_ddr4_st *info);
/**
* Converts DDR4 clock speed in MHz to the standard reported speed in MT/s
*/
uint16_t ddr4_speed_mhz_to_reported_mts(uint16_t speed_mhz);
/**
* \brief Representation of an MRS command
*
* This represents an MRS command as seen by the DIMM. This is not a memory
* address that can be read to generate an MRS command. The mapping of CPU
* to memory pins is hardware-dependent.
* \n
* The idea is to generalize the MRS code, and only need a hardware-specific
* function to map the MRS bits to CPU address bits. An MRS command can be
* sent like:
* @code{.c}
* uint32_t addr;
* uint32_t mrs;
* chipset_enable_mrs_command_mode();
* mrs = ddr4_get_mr0(rtt_wr, srt, cas, asr, cwl)
* if (rank_has_mirrorred_pins)
* mrs = ddr4_mrs_mirror_pins(mrs);
* addr = chipset_specific_get_mrs_addr(mrs);
* volatile_read(addr);
* @endcode
*
* The MRS representation has the following structure:
* - cmd[17:0] = Address pins A[13:0]
* - cmd[21:20] = Bank address BA[1:0]
* - cmd[23:22] = Bank group BG[1:0]
*
* Address pins A[16:14] are always low for MRS commands. A17 is reserved for
* future use, cmd[19:18] is left as a placeholder in case it is needed.
*/
/* Swap A3<->A4, A5<->A6, A7<->A8, A11<->A13, BA0<->BA1, BG0<->BG1 */
static inline uint32_t ddr4_mrs_mirror_pins(uint32_t mrs_cmd)
{
mrs_cmd = (mrs_cmd & 0x5000A8) << 1 |
(mrs_cmd & 0xA00150) >> 1 |
(mrs_cmd & ~0xF001F8);
mrs_cmd = (mrs_cmd & 0x000800) << 2 |
(mrs_cmd & 0x002000) >> 2 |
(mrs_cmd & ~0x002800);
return mrs_cmd;
}
enum ddr4_mr0_mode {
DDR4_MR0_MODE_NORMAL = 0,
DDR4_MR0_MODE_TEST = 1,
};
enum ddr4_mr0_dll_reset {
DDR4_MR0_DLL_RESET_NO = 0,
DDR4_MR0_DLL_RESET_YES = 1,
};
enum ddr4_mr0_burst_type {
DDR4_MR0_BURST_TYPE_SEQUENTIAL = 0,
DDR4_MR0_BURST_TYPE_INTERLEAVED = 1,
};
enum ddr4_mr0_burst_length {
DDR4_MR0_BURST_LENGTH_FIXED_8 = 0,
DDR4_MR0_BURST_LENGTH_ON_THE_FLY = 1,
DDR4_MR0_BURST_LENGTH_FIXED_4 = 2,
};
/* Returns MRS command */
uint32_t ddr4_get_mr0(u8 write_recovery,
enum ddr4_mr0_dll_reset dll_reset,
u8 cas,
enum ddr4_mr0_burst_type burst_type,
enum ddr4_mr0_burst_length burst_length);
enum ddr4_mr1_qoff {
DDR4_MR1_QOFF_ENABLE = 0,
DDR4_MR1_QOFF_DISABLE = 1,
};
enum ddr4_mr1_tdqs {
DDR4_MR1_TDQS_DISABLE = 0,
DDR4_MR1_TDQS_ENABLE = 1,
};
enum ddr4_mr1_rtt_nom {
DDR4_MR1_RTT_NOM_OFF = 0,
DDR4_MR1_RTT_NOM_RZQ_4 = 1,
DDR4_MR1_RTT_NOM_RZQ_2 = 2,
DDR4_MR1_RTT_NOM_RZQ_6 = 3,
DDR4_MR1_RTT_NOM_RZQ_1 = 4,
DDR4_MR1_RTT_NOM_RZQ_5 = 5,
DDR4_MR1_RTT_NOM_RZQ_3 = 6,
DDR4_MR1_RTT_NOM_RZQ_7 = 7,
};
enum ddr4_mr1_write_leveling {
DDR4_MR1_WRLVL_DISABLE = 0,
DDR4_MR1_WRLVL_ENABLE = 1,
};
enum ddr4_mr1_additive_latency {
DDR4_MR1_AL_DISABLE = 0,
DDR4_MR1_AL_CL_MINUS_1 = 1,
DDR4_MR1_AL_CL_MINUS_2 = 2,
};
enum ddr4_mr1_odimp {
DDR4_MR1_ODIMP_RZQ_7 = 0,
DDR4_MR1_ODIMP_RZQ_5 = 1,
};
enum ddr4_mr1_dll {
DDR4_MR1_DLL_DISABLE = 0,
DDR4_MR1_DLL_ENABLE = 1,
};
/* Returns MRS command */
uint32_t ddr4_get_mr1(enum ddr4_mr1_qoff qoff,
enum ddr4_mr1_tdqs tdqs,
enum ddr4_mr1_rtt_nom rtt_nom,
enum ddr4_mr1_write_leveling write_leveling,
enum ddr4_mr1_odimp output_drive_impedance,
enum ddr4_mr1_additive_latency additive_latency,
enum ddr4_mr1_dll dll_enable);
enum ddr4_mr2_wr_crc {
DDR4_MR2_WR_CRC_DISABLE = 0,
DDR4_MR2_WR_CRC_ENABLE = 1,
};
enum ddr4_mr2_rtt_wr {
DDR4_MR2_RTT_WR_OFF = 0,
DDR4_MR2_RTT_WR_RZQ_2 = 1,
DDR4_MR2_RTT_WR_RZQ_1 = 2,
DDR4_MR2_RTT_WR_HI_Z = 3,
DDR4_MR2_RTT_WR_RZQ_3 = 4,
};
enum ddr4_mr2_lp_asr {
DDR4_MR2_ASR_MANUAL_NORMAL_RANGE = 0,
DDR4_MR2_ASR_MANUAL_REDUCED_RANGE = 1,
DDR4_MR2_ASR_MANUAL_EXTENDED_RANGE = 2,
DDR4_MR2_ASR_AUTO = 3,
};
/* Returns MRS command */
uint32_t ddr4_get_mr2(enum ddr4_mr2_wr_crc wr_crc,
enum ddr4_mr2_rtt_wr rtt_wr,
enum ddr4_mr2_lp_asr self_refresh, u8 cwl);
enum ddr4_mr3_mpr_read_format {
DDR4_MR3_MPR_SERIAL = 0,
DDR4_MR3_MPR_PARALLEL = 1,
DDR4_MR3_MPR_STAGGERED = 2,
};
enum ddr4_mr3_wr_cmd_lat_crc_dm {
DDR4_MR3_CRC_DM_4 = 0,
DDR4_MR3_CRC_DM_5 = 1,
DDR4_MR3_CRC_DM_6 = 2,
};
enum ddr4_mr3_fine_gran_ref {
DDR4_MR3_FINE_GRAN_REF_NORMAL = 0,
DDR4_MR3_FINE_GRAN_REF_FIXED_2 = 1,
DDR4_MR3_FINE_GRAN_REF_FIXED_4 = 2,
/* Two reserved values */
DDR4_MR3_FINE_GRAN_REF_ON_THE_FLY_2 = 5,
DDR4_MR3_FINE_GRAN_REF_ON_THE_FLY_4 = 6,
};
enum ddr4_mr3_temp_sensor_readout {
DDR4_MR3_TEMP_SENSOR_DISABLE = 0,
DDR4_MR3_TEMP_SENSOR_ENABLE = 1,
};
enum ddr4_mr3_pda {
DDR4_MR3_PDA_DISABLE = 0,
DDR4_MR3_PDA_ENABLE = 1,
};
enum ddr4_mr3_geardown_mode {
DDR4_MR3_GEARDOWN_1_2_RATE = 0,
DDR4_MR3_GEARDOWN_1_4_RATE = 1,
};
enum ddr4_mr3_mpr_operation {
DDR4_MR3_MPR_NORMAL = 0,
DDR4_MR3_MPR_MPR = 1,
};
/* Returns MRS command */
uint32_t ddr4_get_mr3(enum ddr4_mr3_mpr_read_format mpr_read_format,
enum ddr4_mr3_wr_cmd_lat_crc_dm command_latency_crc_dm,
enum ddr4_mr3_fine_gran_ref fine_refresh,
enum ddr4_mr3_temp_sensor_readout temp_sensor,
enum ddr4_mr3_pda pda,
enum ddr4_mr3_geardown_mode geardown,
enum ddr4_mr3_mpr_operation mpr_operation,
u8 mpr_page);
enum ddr4_mr4_hppr {
DDR4_MR4_HPPR_DISABLE = 0,
DDR4_MR4_HPPR_ENABLE = 1,
};
enum ddr4_mr4_wr_preamble {
DDR4_MR4_WR_PREAMBLE_1 = 0,
DDR4_MR4_WR_PREAMBLE_2 = 1,
};
enum ddr4_mr4_rd_preamble {
DDR4_MR4_RD_PREAMBLE_1 = 0,
DDR4_MR4_RD_PREAMBLE_2 = 1,
};
enum ddr4_mr4_rd_preamble_training {
DDR4_MR4_RD_PREAMBLE_TRAINING_DISABLE = 0,
DDR4_MR4_RD_PREAMBLE_TRAINING_ENABLE = 1,
};
enum ddr4_mr4_self_refr_abort {
DDR4_MR4_SELF_REFRESH_ABORT_DISABLE = 0,
DDR4_MR4_SELF_REFRESH_ABORT_ENABLE = 1,
};
enum ddr4_mr4_cs_to_cmd_latency {
DDR4_MR4_CS_TO_CMD_LAT_DISABLE = 0,
DDR4_MR4_CS_TO_CMD_LAT_3 = 1,
DDR4_MR4_CS_TO_CMD_LAT_4 = 2,
DDR4_MR4_CS_TO_CMD_LAT_5 = 3,
DDR4_MR4_CS_TO_CMD_LAT_6 = 4,
DDR4_MR4_CS_TO_CMD_LAT_8 = 5,
};
enum ddr4_mr4_sppr {
DDR4_MR4_SPPR_DISABLE = 0,
DDR4_MR4_SPPR_ENABLE = 1,
};
enum ddr4_mr4_internal_vref_mon {
DDR4_MR4_INTERNAL_VREF_MON_DISABLE = 0,
DDR4_MR4_INTERNAL_VREF_MON_ENABLE = 1,
};
enum ddr4_mr4_temp_controlled_refr {
DDR4_MR4_TEMP_CONTROLLED_REFR_DISABLE = 0,
DDR4_MR4_TEMP_CONTROLLED_REFR_NORMAL = 2,
DDR4_MR4_TEMP_CONTROLLED_REFR_EXTENDED = 3,
};
enum ddr4_mr4_max_pd_mode {
DDR4_MR4_MAX_PD_MODE_DISABLE = 0,
DDR4_MR4_MAX_PD_MODE_ENABLE = 1,
};
/* Returns MRS command */
uint32_t ddr4_get_mr4(enum ddr4_mr4_hppr hppr,
enum ddr4_mr4_wr_preamble wr_preamble,
enum ddr4_mr4_rd_preamble rd_preamble,
enum ddr4_mr4_rd_preamble_training rd_preamble_train,
enum ddr4_mr4_self_refr_abort self_ref_abrt,
enum ddr4_mr4_cs_to_cmd_latency cs2cmd_lat,
enum ddr4_mr4_sppr sppr,
enum ddr4_mr4_internal_vref_mon int_vref_mon,
enum ddr4_mr4_temp_controlled_refr temp_ctrl_ref,
enum ddr4_mr4_max_pd_mode max_pd);
enum ddr4_mr5_rd_dbi {
DDR4_MR5_RD_DBI_DISABLE = 0,
DDR4_MR5_RD_DBI_ENABLE = 1,
};
enum ddr4_mr5_wr_dbi {
DDR4_MR5_WR_DBI_DISABLE = 0,
DDR4_MR5_WR_DBI_ENABLE = 1,
};
enum ddr4_mr5_data_mask {
DDR4_MR5_DATA_MASK_DISABLE = 0,
DDR4_MR5_DATA_MASK_ENABLE = 1,
};
enum ddr4_mr5_rtt_park {
DDR4_MR5_RTT_PARK_OFF = 0,
DDR4_MR5_RTT_PARK_RZQ_4 = 1,
DDR4_MR5_RTT_PARK_RZQ_2 = 2,
DDR4_MR5_RTT_PARK_RZQ_6 = 3,
DDR4_MR5_RTT_PARK_RZQ_1 = 4,
DDR4_MR5_RTT_PARK_RZQ_5 = 5,
DDR4_MR5_RTT_PARK_RZQ_3 = 6,
DDR4_MR5_RTT_PARK_RZQ_7 = 7,
};
enum ddr4_mr5_odt_pd {
DDR4_MR5_ODT_PD_ACTIVADED = 0,
DDR4_MR5_ODT_PD_DEACTIVADED = 1,
};
enum ddr4_mr5_ca_parity_lat {
DDR4_MR5_CA_PARITY_LAT_DISABLE = 0,
DDR4_MR5_CA_PARITY_LAT_4 = 1, /* 1600-2133 MT/s */
DDR4_MR5_CA_PARITY_LAT_5 = 2, /* 2400-2666 MT/s */
DDR4_MR5_CA_PARITY_LAT_6 = 3, /* 2933-3200 MT/s */
DDR4_MR5_CA_PARITY_LAT_8 = 4, /* RFU */
};
/* Returns MRS command */
uint32_t ddr4_get_mr5(enum ddr4_mr5_rd_dbi rd_dbi,
enum ddr4_mr5_wr_dbi wr_dbi,
enum ddr4_mr5_data_mask dm,
enum ddr4_mr5_rtt_park rtt_park,
enum ddr4_mr5_odt_pd odt_pd,
enum ddr4_mr5_ca_parity_lat pl);
enum ddr4_mr6_vrefdq_training {
DDR4_MR6_VREFDQ_TRAINING_DISABLE = 0,
DDR4_MR6_VREFDQ_TRAINING_ENABLE = 1,
};
enum ddr4_mr6_vrefdq_training_range {
DDR4_MR6_VREFDQ_TRAINING_RANGE_1 = 0, /* 60% to 92.50% in 0.65% steps */
DDR4_MR6_VREFDQ_TRAINING_RANGE_2 = 1, /* 40% to 77.50% in 0.65% steps */
};
/* Returns MRS command */
uint32_t ddr4_get_mr6(u8 tccd_l,
enum ddr4_mr6_vrefdq_training vrefdq_training,
enum ddr4_mr6_vrefdq_training_range range,
u8 vrefdq_value);
enum ddr4_zqcal_ls {
DDR4_ZQCAL_SHORT = 0,
DDR4_ZQCAL_LONG = 1,
};
/* Returns MRS command */
uint32_t ddr4_get_zqcal_cmd(enum ddr4_zqcal_ls long_short);
#endif /* DEVICE_DRAM_DDR4L_H */
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