/*
* This file and its contents are supplied under the terms of the
* Common Development and Distribution License ("CDDL"), version 1.0.
* You may only use this file in accordance with the terms of version
* 1.0 of the CDDL.
*
* A full copy of the text of the CDDL should have accompanied this
* source. A copy of the CDDL is also available via the Internet at
* http://www.illumos.org/license/CDDL.
*/
/*
* Copyright 2024 Oxide Computer Company
*/
#ifndef _SPD_LP4_H
#define _SPD_LP4_H
/*
* Definitions for use in LPDDR3, LPDDR4, and LPDDR4x Serial Presence Decoding
* based on JEDEC Standard 21-C Section Title: Annex M: Serial Presence Detect
* (SPD) for LPDDR3 and LPDDR4 SDRAM Modules Release 2. While this covers
* multiple revisions, we'll generally refer to this collectively as LPDDR4.
*
* LPDDR4 modules are organized into a few regions that are generally similar to
* DDR4, though the contents vary:
*
* o Base Configuration and DRAM parameters (bytes 0x00-0x7f)
* o Standard Module Parameters (bytes 0x80-0xff) these vary on whether
* something is an LP-DIMM or soldered down.
* o Hybrid Module Extended Parameters (bytes 0x100-0x13f).
* o Manufacturing Information (bytes 0x140-0x17f)
* o End User Programmable data (0x180-0x1ff).
*/
#include <sys/bitext.h>
#include "spd_common.h"
#ifdef __cplusplus
extern "C" {
#endif
/*
* S3.1.1 Number of Bytes Used / Number of Bytes in SPD Device.
*/
#define SPD_LP4_NBYTES 0x000
#define SPD_LP4_NBYTES_TOTAL(r) bitx8(r, 6, 4)
#define SPD_LP4_NBYTES_TOTAL_UNDEF 0
#define SPD_LP4_NBYTES_TOTAL_256 1
#define SPD_LP4_NBYTES_TOTAL_512 2
#define SPD_LP4_NBYTES_USED(r) bitx8(r, 3, 0)
#define SPD_LP4_NBYTES_USED_UNDEF 0
#define SPD_LP4_NBYTES_USED_128 1
#define SPD_LP4_NBYTES_USED_256 2
#define SPD_LP4_NBYTES_USED_384 3
#define SPD_LP4_NBYTES_USED_512 4
/*
* S3.1.2 SPD Revision. This is the same as described in SPD_DDR4_SPD_REV as
* defined in spd_ddr4.h.
*/
#define SPD_LP4_SPD_REV 0x001
#define SPD_LP4_SPD_REV_ENC(r) bitx8(r, 7, 4)
#define SPD_LP4_SPD_REV_ADD(r) bitx8(r, 3, 0)
#define SPD_LP4_SPD_REV_V1 1
/*
* Key Byte / DRAM Device Type. This field identifies the type of DDR device and
* is actually consistent across all SPD versions. Known values are in the
* spd_dram_type_t enumeration.
*/
#define SPD_LP4_DRAM_TYPE 0x002
/*
* S3.1.4: Key Byte / Module type. This is used to describe what kind of DDR
* module it is, which tell us what the module-specific section contents are.
* These bits, unlike the one above are device specific.
*/
#define SPD_LP4_MOD_TYPE 0x003
#define SPD_LP4_MOD_TYPE_ISHYBRID(r) bitx8(r, 7, 7)
#define SPD_LP4_MOD_TYPE_HYBRID(r) bitx8(r, 6, 4)
#define SPD_LP4_MOD_TYPE_HYBRID_NONE 0
#define SPD_LP4_MOD_TYPE_TYPE(r) bitx8(r, 3, 0)
#define SPD_LP4_MOD_TYPE_TYPE_EXT 0
#define SPD_LP4_MOD_TYPE_TYPE_LPDIMM 0x7
#define SPD_LP4_MOD_TYPE_TYPE_SOLDER 0xe
/*
* S3.1.5 SDRAM Density and Banks.
*/
#define SPD_LP4_DENSITY 0x004
#define SPD_LP4_DENSITY_NBG_BITS(r) bitx8(r, 7, 6)
#define SPD_LP4_DENSITY_NBG_BITS_MAX 2
#define SPD_LP4_DENSITY_NBA_BITS(r) bitx8(r, 5, 4)
#define SPD_LP4_DENSITY_NBA_BITS_BASE 2
#define SPD_LP4_DENSITY_NBA_BITS_MAX 3
#define SPD_LP4_DENSITY_DENSITY(r) bitx8(r, 3, 0)
#define SPD_LP4_DENSITY_DENSITY_1Gb 2
#define SPD_LP4_DENSITY_DENSITY_2Gb 3
#define SPD_LP4_DENSITY_DENSITY_4Gb 4
#define SPD_LP4_DENSITY_DENSITY_8Gb 5
#define SPD_LP4_DENSITY_DENSITY_16Gb 6
#define SPD_LP4_DENSITY_DENSITY_32Gb 7
#define SPD_LP4_DENSITY_DENSITY_12Gb 8
#define SPD_LP4_DENSITY_DENSITY_24Gb 9
#define SPD_LP4_DENSITY_DENSITY_3Gb 10
#define SPD_LP4_DENSITY_DENSITY_6Gb 11
#define SPD_LP4_DENSITY_DENSITY_18Gb 12
/*
* S3.1.6 SDRAM Addressing.
*/
#define SPD_LP4_ADDR 0x005
#define SPD_LP4_ADDR_NROWS(r) bitx8(r, 5, 3)
#define SPD_LP4_ADDR_NROWS_BASE 12
#define SPD_LP4_ADDR_NROWS_MAX 18
#define SPD_LP4_ADDR_NCOLS(r) bitx8(r, 2, 0)
#define SPD_LP4_ADDR_NCOLS_BASE 9
#define SPD_LP4_ADDR_NCOLS_MAX 12
/*
* S3.1.7 SDRAM Package Type
*/
#define SPD_LP4_PKG 0x006
#define SPD_LP4_PKG_TYPE(r) bitx8(r, 7, 7)
#define SPD_LP4_PKG_TYPE_MONO 0
#define SPD_LP4_PKG_TYPE_NOT 1
#define SPD_LP4_PKG_DIE_CNT(r) bitx8(r, 6, 4)
#define SPD_LP4_PKG_DIE_CNT_BASE 1
#define SPD_LP4_PKG_NCHAN(r) bitx8(r, 3, 2)
#define SPD_LP4_PKG_NCHAN_MAX 4
#define SPD_LP4_PKG_SL(r) bitx8(r, 1, 0)
#define SPD_LP4_PKG_SL_M1 1
#define SPD_LP4_PKG_SL_M2 3
/*
* S3.1.8 SDRAM Optional Features.
*/
#define SPD_LP4_OPT_FEAT 0x007
#define SPD_LP4_OPT_FEAT_MAW(r) bitx8(r, 5, 4)
#define SPD_LP4_OPT_FEAT_MAW_8192X 0
#define SPD_LP4_OPT_FEAT_MAW_4096X 1
#define SPD_LP4_OPT_FEAT_MAW_2048X 2
#define SPD_LP4_OPT_FEAT_MAC(r) bitx8(r, 3, 0)
#define SPD_LP4_OPT_FEAT_MAC_UNTESTED 0
#define SPD_LP4_OPT_FEAT_MAC_700K 1
#define SPD_LP4_OPT_FEAT_MAC_600K 2
#define SPD_LP4_OPT_FEAT_MAC_500K 3
#define SPD_LP4_OPT_FEAT_MAC_400K 4
#define SPD_LP4_OPT_FEAT_MAC_300K 5
#define SPD_LP4_OPT_FEAT_MAC_200K 6
#define SPD_LP4_OPT_FEAT_MAC_UNLIMITED 8
/*
* S3.1.10 Other SDRAM Optional Features. These are even more that aren't in the
* first set of optional features.
*/
#define SPD_LP4_OPT_FEAT2 0x009
#define SPD_LP4_OPT_FEAT2_PPR(r) bitx8(r, 7, 6)
#define SPD_LP4_OPT_FEAT2_PPR_NOTSUP 0
#define SPD_LP4_OPT_FEAT2_PPR_1RPBG 1
#define SPD_LP4_OPT_FEAT2_SOFT_PPR(r) bitx8(r, 5, 5)
/*
* S3.1.13 Module Organization
*/
#define SPD_LP4_MOD_ORG 0x00c
#define SPD_LP4_MOD_ORG_IDENT(r) bitx8(r, 6, 6)
#define SPD_LP4_MOD_ORG_IDENT_STD 0
#define SPD_LP4_MOD_ORG_IDENT_BYTE 1
#define SPD_LP4_MOD_ORG_RANK_MIX(r) bitx8(r, 6, 6)
#define SPD_LP4_MOD_ORG_RANK_MIX_SYM 0
#define SPD_LP4_MOD_ORG_RANK_MIX_ASYM 1
#define SPD_LP4_MOD_ORG_NPKG_RANK(r) bitx8(r, 5, 3)
#define SPD_LP4_MOD_ORG_NPKG_RANK_BASE 1
#define SPD_LP4_MOD_ORG_NPKG_RANK_MAX 4
#define SPD_LP4_MOD_ORG_WIDTH(r) bitx8(r, 2, 0)
#define SPD_LP4_MOD_ORG_WIDTH_BASE 2
#define SPD_LP4_MOD_ORG_WIDTH_MAX 32
/*
* S3.1.14 Memory Bus Width.
*/
#define SPD_LP4_BUS_WIDTH 0x00d
#define SPD_LP4_BUS_WIDTH_NCHAN(r) bitx8(r, 7, 5)
#define SPD_LP4_BUS_WIDTH_NCHAN_1ch 0
#define SPD_LP4_BUS_WIDTH_NCHAN_2ch 1
#define SPD_LP4_BUS_WIDTH_NCHAN_3ch 2
#define SPD_LP4_BUS_WIDTH_NCHAN_4ch 3
#define SPD_LP4_BUS_WIDTH_NCHAN_8ch 4
#define SPD_LP4_BUS_WIDTH_EXT(r) bitx8(r, 4, 3)
#define SPD_LP4_BUS_WIDTH_EXT_NONE 0
#define SPD_LP4_BUS_WIDTH_PRI(r) bitx8(r, 2, 0)
#define SPD_LP4_BUS_WIDTH_PRI_BASE 3
#define SPD_LP4_BUS_WIDTH_PRI_MAX 64
/*
* S8.1.15 Module Thermal Sensor.
*/
#define SPD_LP4_MOD_THERM 0x00e
#define SPD_LP4_MOD_THERM_PRES(r) bitx8(r, 7, 7)
/*
* S3.1.17 Signal Loading
*
* The values of the signal loading are dependent on the value found in the
* SPD_LP4_PKG (byte 6) register, The interpretation varies based on the value
* of SPD_LP4_PKG_SL(). However, the only defined signal loading matrix is
* matrix 1.
*/
#define SPD_LP4_SIGLOAD 0x010
#define SPD_LP4_SIGLOAD1_DSM_LOAD(r) bitx8(r, 7, 6)
#define SPD_LP4_SIGLOAD1_DSM_LOAD_MAX 4
#define SPD_LP4_SIGLOAD1_CAC_LOAD(r) bitx8(r, 5, 3)
#define SPD_LP4_SIGLOAD1_CAC_LOAD_MAX 8
#define SPD_LP4_SIGLOAD1_CS_LOAD(r) bitx8(r, 2, 0)
#define SPD_LP4_SIGLOAD1_CS_LOAD_MAX 8
/*
* Timebases
*
* Like with DDR4, there are strictly speaking timebase values encoded in the
* registers that describe how to calculate other values. These are broken into
* the Medium and Fine timebases respectively which as of v1.0 have fixed
* values of 125ps and 1ps respectively. See the DDR4 version for more
* information.
*/
#define SPD_LP4_TIMEBASE 0x011
#define SPD_LP4_TIMEBASE_MTB(r) bitx8(r, 3, 2)
#define SPD_LP4_TIMEBASE_MTB_125ps 0
#define SPD_LP4_TIMEBASE_FTB(r) bitx8(r, 1, 0)
#define SPD_LP4_TIMEBASE_FTB_1ps 0
#define SPD_LP4_MTB_PS 125
#define SPD_LP4_FTB_PS 1
/*
* S3.1.19 SDRAM Minimum Cycle Time t~ckavg~min.
* S3.1.37 Fine Offset for ^
* S3.1.20 SDRAM Maximum Cycle Time t~ckavg~max.
* S3.1.36 Fine Offset for ^
*/
#define SPD_LP4_TCKAVG_MIN 0x012
#define SPD_LP4_TCKAVG_MIN_FINE 0x07d
#define SPD_LP4_TCKAVG_MAX 0x013
#define SPD_LP4_TCKAVG_MAX_FINE 0x07c
/*
* S3.1.21 CAS Latencies. These are four bytes that are used to get at what
* speeds are supported. These always start at CL3, but the mapping of bits to
* CL values is not uniform.
*/
#define SPD_LP4_CAS_SUP0 0x014
#define SPD_LP4_CAS_SUP1 0x015
#define SPD_LP4_CAS_SUP2 0x016
#define SPD_LP4_CAS_SUP3 0x017
/*
* S3.1.22 Minimum CAS Latency Time t~AA~min. This uses the MTB.
* S3.1.35 Fine Offset for ^
*/
#define SPD_LP4_TAA_MIN 0x018
#define SPD_LP4_TAA_MIN_FINE 0x07b
/*
* S3.1.23 Read and Write Latency Set Options
*/
#define SPD_LP4_RWLAT 0x019
#define SPD_LP4_RWLAT_WRITE(r) bitx8(r, 3, 2)
#define SPD_LP4_RWLAT_WRITE_A 0
#define SPD_LP4_RWLAT_WRITE_B 1
#define SPD_LP4_RWLAT_READ(r) bitx8(r, 1, 0)
#define SPD_LP4_RWLAT_DBIRD_DIS 0
#define SPD_LP4_RWLAT_DBIRD_EN 1
/*
* S3.1.24 Minimum RAS to CAS Delay Time t~RCD~min.
* S3.1.34 Fine Offset for ^
*/
#define SPD_LP4_TRCD_MIN 0x01a
#define SPD_LP4_TRCD_MIN_FINE 0x07a
/*
* S3.1.25 All Banks Minimum Row Precharge Delay Time t~RPab~min.
* S3.1.33 Fine Offset for ^
*/
#define SPD_LP4_TRPAB_MIN 0x01b
#define SPD_LP4_TRPAB_MIN_FINE 0x079
/*
* S3.1.26 Per Bank Minimum Row Precharge Delay Time t~RPpb~min.
* S3.1.32 Fine Offset for ^
*/
#define SPD_LP4_TRPPB_MIN 0x01c
#define SPD_LP4_TRPPB_MIN_FINE 0x078
/*
* S3.1.27 All Banks Minimum Refresh Recovery Delay Time t~RFCab~min. This is a
* 16-bit quantity that is split between a lower and upper value. Both registers
* are in terms of the medium time base.
*/
#define SPD_LP4_TRFCAB_MIN_LO 0x1d
#define SPD_LP4_TRFCAB_MIN_HI 0x1e
/*
* S3.1.28 Per Bank Minimum Refresh Recovery Delay Time t~RFCpb~min. This is a
* 16-bit quantity that is split between a lower and upper value. Both registers
* are in terms of the medium time base.
*/
#define SPD_LP4_TRFCPB_MIN_LO 0x1f
#define SPD_LP4_TRFCPB_MIN_HI 0x20
/*
* S3.1.30 Connector to SDRAM bit mapping. Each of the bytes defines a different
* set of pins here. These all have a fairly standard set of transformations
* that can be applied. These include a package rank map which only has a single
* identity transformation applied and a separate nibble map encoding.
*/
#define SPD_LP4_MAP_DQ0 0x03c
#define SPD_LP4_MAP_DQ4 0x03d
#define SPD_LP4_MAP_DQ8 0x03e
#define SPD_LP4_MAP_DQ12 0x03f
#define SPD_LP4_MAP_DQ16 0x040
#define SPD_LP4_MAP_DQ20 0x041
#define SPD_LP4_MAP_DQ24 0x042
#define SPD_LP4_MAP_DQ28 0x043
#define SPD_LP4_MAP_CB0 0x044
#define SPD_LP4_MAP_CB4 0x045
#define SPD_LP4_MAP_DQ32 0x046
#define SPD_LP4_MAP_DQ36 0x047
#define SPD_LP4_MAP_DQ40 0x048
#define SPD_LP4_MAP_DQ44 0x049
#define SPD_LP4_MAP_DQ48 0x04a
#define SPD_LP4_MAP_DQ52 0x04b
#define SPD_LP4_MAP_DQ56 0x04c
#define SPD_LP4_MAP_DQ60 0x04d
#define SPD_LP4_MAP_PKG(r) bitx8(r, 7, 6)
#define SPD_LP4_MAP_PKG_FLIP 0
#define SPD_LP4_MAP_NIBBLE(r) bitx8(r, 5, 5)
#define SPD_LP4_MAP_IDX(r) bitx8(r, 4, 0)
#define SPD_LP4_MAP_IDX_UNSPEC 0
/*
* S3.1.38 CRC For Base Configuration Section. This is a CRC that covers bytes
* 0x00 to 0x7D using a specific CRC16.
*/
#define SPD_LP4_CRC_LSB 0x07e
#define SPD_LP4_CRC_MSB 0x07f
/*
* The manufacturing information section is identical to DDR4.
*/
/*
* LPDDR3/4 only define an annex for the LP-DIMM form factor.
*/
/*
* S4.1.1 LP-DIMM: Raw Card Extension, Module Nominal Height. Bits 7-5 here have
* a raw card revision. The revision extension, bits 7:5, are only valid when
* the value of the normal reference card used in byte 0x82 is set to 0b11 (3).
*/
#define SPD_LP4_LPDIMM_HEIGHT 0x080
#define SPD_LP4_LPDIMM_HEIGHT_REV(r) bitx8(r, 7, 5)
#define SPD_LP4_LPDIMM_HEIGHT_MM(r) bitx8(r, 4, 0)
#define SPD_LP4_LPDIMM_HEIGHT_LT15MM 0
#define SPD_LP4_LPDIMM_HEIGHT_BASE 15
/*
* S4.1.2 LP-DIMM: Module Maximum Thickness. These measure thicknesses in mm,
* with zero value meaning less than or equal to 1mm.
*/
#define SPD_LP4_LPDIMM_THICK 0x081
#define SPD_LP4_LPDIMM_THICK_BACK(r) bitx8(r, 7, 4)
#define SPD_LP4_LPDIMM_THICK_FRONT(r) bitx8(r, 3, 0)
#define SPD_LP4_LPDIMM_THICK_BASE 1
/*
* S4.1.3 LP-DIMM: Reference Raw Card Used. Bit 7 is used as basically another
* bit for bits 4-0. We do not define each meaning of these bit combinations in
* this header, that is left for tables in the library. When bits 6:5 are 0b11
* (3) then we must add in the reference card value in byte 0x80 to bits 6:5.
*/
#define SPD_LP4_LPDIMM_REF 0x082
#define SPD_LP4_LPDIMM_REF_EXT(r) bitx8(r, 7, 7)
#define SPD_LP4_LPDIMM_REF_REV(r) bitx8(r, 6, 5)
#define SPD_LP4_LPDIMM_REV_USE_HEIGHT 3
#define SPD_LP4_LPDIMM_REF_CARD(r) bitx8(r, 4, 0)
/*
* S4.1.5 LP-DIMM: CRC. Like DDR4, this is the CRC for the upper page. However,
* it is only defined on a per-Annex basis.
*/
#define SPD_LP4_BLK1_CRC_START 0x80
#define SPD_LP4_BLK1_CRC_LSB 0xfe
#define SPD_LP4_BLK1_CRC_MSB 0xff
#ifdef __cplusplus
}
#endif
#endif /* _SPD_LP4_H */