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authorPatrick Rudolph <siro@das-labor.org>2017-01-31 19:43:17 +0100
committerMartin Roth <martinroth@google.com>2017-03-10 11:17:27 +0100
commit6e53ae6f5c12b70c2a86370f0dd9df37a12c8118 (patch)
treec647451229c70fe79a50bdba06f5359d9413d093 /src/device/dram
parent7e4d12c5b12107bb7682e050c66f97000e064ce2 (diff)
device/dram/ddr2: Add common ddr2 spd decoder
Decode DDR2 SPD similar to DDR3 SPD decoder to ease readability, reduce code complexity and reduce size of maintainable code. Rename dimm_is_registered to spd_dimm_is_registered_ddr3 to avoid compilation errors. Change-Id: I741f0e61ab23e3999ae9e31f57228ba034c2509e Signed-off-by: Patrick Rudolph <siro@das-labor.org> Reviewed-on: https://review.coreboot.org/18273 Reviewed-by: Arthur Heymans <arthur@aheymans.xyz> Tested-by: build bot (Jenkins)
Diffstat (limited to 'src/device/dram')
-rw-r--r--src/device/dram/Makefile.inc2
-rw-r--r--src/device/dram/ddr2.c630
-rw-r--r--src/device/dram/ddr3.c2
3 files changed, 632 insertions, 2 deletions
diff --git a/src/device/dram/Makefile.inc b/src/device/dram/Makefile.inc
index b1a6755128..c982ef49e8 100644
--- a/src/device/dram/Makefile.inc
+++ b/src/device/dram/Makefile.inc
@@ -1 +1 @@
-romstage-y += ddr3.c
+romstage-y += ddr3.c ddr2.c
diff --git a/src/device/dram/ddr2.c b/src/device/dram/ddr2.c
new file mode 100644
index 0000000000..1471ed548b
--- /dev/null
+++ b/src/device/dram/ddr2.c
@@ -0,0 +1,630 @@
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2017 Patrick Rudolph <siro@das-labor.org>
+ *
+ * This program is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 2 of the License, or
+ * (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ */
+
+/**
+ * @file ddr2.c
+ *
+ * \brief Utilities for decoding DDR2 SPDs
+ */
+
+#include <console/console.h>
+#include <device/device.h>
+#include <device/dram/ddr2.h>
+#include <string.h>
+
+/*==============================================================================
+ * = DDR2 SPD decoding helpers
+ *----------------------------------------------------------------------------*/
+
+/**
+ * \brief Checks if the DIMM is Registered based on byte[20] of the SPD
+ *
+ * Tells if the DIMM type is registered or not.
+ *
+ * @param type DIMM type. This is byte[20] of the SPD.
+ */
+int spd_dimm_is_registered_ddr2(enum spd_dimm_type type)
+{
+ if ((type == SPD_DIMM_TYPE_RDIMM)
+ | (type == SPD_DIMM_TYPE_72B_SO_RDIMM))
+ return 1;
+
+ return 0;
+}
+
+/**
+ * \brief Calculate the checksum of a DDR2 SPD unique identifier
+ *
+ * @param spd pointer to raw SPD data
+ * @param len length of data in SPD
+ *
+ * @return the checksum of SPD data bytes 63, or 0 when spd data is truncated.
+ */
+u8 spd_ddr2_calc_checksum(u8 *spd, int len)
+{
+ int i;
+ u8 c = 0;
+
+ if (len < 63)
+ /* Not enough bytes available to get the checksum */
+ return 0;
+
+ for (i = 0; i < 63; i++)
+ c += spd[i];
+
+ return c;
+}
+
+/**
+ * \brief Return size of SPD.
+ *
+ * Returns size of SPD. Usually 128 Byte.
+ */
+u32 spd_decode_spd_size_ddr2(u8 byte0)
+{
+ return MIN(byte0, SPD_SIZE_MAX_DDR2);
+}
+
+/**
+ * \brief Return size of eeprom.
+ *
+ * Returns size of eeprom. Usually 256 Byte.
+ */
+u32 spd_decode_eeprom_size_ddr2(u8 byte1)
+{
+ if (!byte1)
+ return 0;
+
+ if (byte1 > 0x0e)
+ return 0x3fff;
+
+ return 1 << byte1;
+}
+
+/**
+ * \brief Return index of MSB set
+ *
+ * Returns the index fof MSB set.
+ */
+static u8 spd_get_msbs(u8 c)
+{
+ int i;
+ for (i = 7; i >= 0; i--)
+ if (c & (1 << i))
+ return i;
+
+ return 0;
+}
+
+/**
+ * \brief Decode SPD tck cycle time
+ *
+ * Decodes a raw SPD data from a DDR2 DIMM.
+ * Returns cycle time in 1/256th ns.
+ */
+static u32 spd_decode_tck_time(u8 c)
+{
+ u8 high, low;
+
+ high = c >> 4;
+
+ switch (c & 0xf) {
+ case 0xa:
+ low = 25;
+ break;
+ case 0xb:
+ low = 33;
+ break;
+ case 0xc:
+ low = 66;
+ break;
+ case 0xd:
+ low = 75;
+ break;
+ default:
+ low = (c & 0xf) * 10;
+ }
+
+ return ((high * 100 + low) << 8) / 100;
+}
+
+/**
+ * \brief Decode SPD bcd style timings
+ *
+ * Decodes a raw SPD data from a DDR2 DIMM.
+ * Returns cycle time in 1/256th ns.
+ */
+static u32 spd_decode_bcd_time(u8 c)
+{
+ u8 high, low;
+
+ high = c >> 4;
+ low = c & 0xf;
+
+ return ((high * 10 + low) << 8) / 100;
+}
+
+/**
+ * \brief Decode SPD tRP, tRRP cycle time
+ *
+ * Decodes a raw SPD data from a DDR2 DIMM.
+ * Returns cycle time in 1/256th ns.
+ */
+static u32 spd_decode_quarter_time(u8 c)
+{
+ u8 high, low;
+
+ high = c >> 2;
+ low = 25 * (c & 0x3);
+
+ return ((high * 100 + low) << 8) / 100;
+}
+
+/**
+ * \brief Decode SPD tRR time
+ *
+ * Decodes a raw SPD data from a DDR2 DIMM.
+ * Returns cycle time in 1/256th us.
+ */
+static u32 spd_decode_tRR_time(u8 c)
+{
+ switch (c) {
+ default:
+ case 0:
+ return 15625 << 8;
+ case 1:
+ return 15625 << 6;
+ case 2:
+ return 15625 << 7;
+ case 3:
+ return 15625 << 9;
+ case 4:
+ return 15625 << 10;
+ case 5:
+ return 15625 << 11;
+ }
+}
+
+/**
+ * \brief Decode SPD tRC,tRFC time
+ *
+ * Decodes a raw SPD data from a DDR2 DIMM.
+ * Returns cycle time in 1/256th us.
+ */
+static void spd_decode_tRCtRFC_time(u8 *spd_40_41_42, u32 *tRC, u32 *tRFC)
+{
+ u8 b40, b41, b42;
+
+ b40 = spd_40_41_42[0];
+ b41 = spd_40_41_42[1];
+ b42 = spd_40_41_42[2];
+
+ *tRC = b41 * 100;
+ *tRFC = b42 * 100;
+
+ if (b40 & 0x01)
+ *tRFC += 256 * 100;
+
+ switch ((b40 >> 1) & 0x07) {
+ case 1:
+ *tRFC += 25;
+ break;
+ case 2:
+ *tRFC += 33;
+ break;
+ case 3:
+ *tRFC += 50;
+ break;
+ case 4:
+ *tRFC += 66;
+ break;
+ case 5:
+ *tRFC += 75;
+ break;
+ default:
+ break;
+ }
+
+ switch ((b40 >> 4) & 0x07) {
+ case 1:
+ *tRC += 25;
+ break;
+ case 2:
+ *tRC += 33;
+ break;
+ case 3:
+ *tRC += 50;
+ break;
+ case 4:
+ *tRC += 66;
+ break;
+ case 5:
+ *tRC += 75;
+ break;
+ default:
+ break;
+ }
+
+ /* Convert to 1/256th us */
+ *tRC = (*tRC << 8) / 100;
+ *tRFC = (*tRFC << 8) / 100;
+}
+
+/**
+ * \brief Decode the raw SPD data
+ *
+ * Decodes a raw SPD data from a DDR2 DIMM, and organizes it into a
+ * @ref dimm_attr structure. The SPD data must first be read in a contiguous
+ * array, and passed to this function.
+ *
+ * @param dimm pointer to @ref dimm_attr structure where the decoded data is to
+ * be stored
+ * @param spd array of raw data previously read from the SPD.
+ *
+ * @return @ref spd_status enumerator
+ * SPD_STATUS_OK -- decoding was successful
+ * SPD_STATUS_INVALID -- invalid SPD or not a DDR2 SPD
+ * SPD_STATUS_CRC_ERROR -- CRC did not verify
+ * SPD_STATUS_INVALID_FIELD -- A field with an invalid value was
+ * detected.
+ */
+int spd_decode_ddr2(struct dimm_attr_st *dimm, u8 spd[SPD_SIZE_MAX_DDR2])
+{
+ u8 spd_size, cl, reg8;
+ u16 eeprom_size;
+ int ret = SPD_STATUS_OK;
+
+ memset(dimm, 0, sizeof(*dimm));
+
+ spd_size = spd_decode_spd_size_ddr2(spd[0]);
+ eeprom_size = spd_decode_eeprom_size_ddr2(spd[1]);
+
+ printram("EEPROM with 0x%04x bytes\n", eeprom_size);
+ printram("SPD contains 0x%02x bytes\n", spd_size);
+
+ if (spd_size < 64 || eeprom_size < 64) {
+ printram("ERROR: SPD to small\n");
+ dimm->dram_type = SPD_MEMORY_TYPE_UNDEFINED;
+ return SPD_STATUS_INVALID;
+ }
+
+ if (spd_ddr2_calc_checksum(spd, spd_size) != spd[63]) {
+ printram("ERROR: SPD checksum error\n");
+ dimm->dram_type = SPD_MEMORY_TYPE_UNDEFINED;
+ return SPD_STATUS_CRC_ERROR;
+ }
+
+ reg8 = spd[62];
+ if ((reg8 & 0xf0) != 0x10) {
+ printram("ERROR: Unsupported SPD revision %01x.%01x\n",
+ reg8 >> 4, reg8 & 0xf);
+ dimm->dram_type = SPD_MEMORY_TYPE_UNDEFINED;
+ return SPD_STATUS_INVALID;
+ }
+ dimm->rev = reg8;
+ printram(" Revision : %01x.%01x\n", dimm->rev >> 4, dimm->rev & 0xf);
+
+ reg8 = spd[2];
+ printram(" Type : 0x%02x\n", reg8);
+ if (reg8 != 0x08) {
+ printram("ERROR: Unsupported SPD type %x\n", reg8);
+ dimm->dram_type = SPD_MEMORY_TYPE_UNDEFINED;
+ return SPD_STATUS_INVALID;
+ }
+ dimm->dram_type = SPD_MEMORY_TYPE_SDRAM_DDR2;
+
+ dimm->row_bits = spd[3];
+ printram(" Rows : %u\n", dimm->row_bits);
+ if ((dimm->row_bits > 31) ||
+ ((dimm->row_bits > 15) && (dimm->rev < 0x13))) {
+ printram(" Invalid number of memory rows\n");
+ ret = SPD_STATUS_INVALID_FIELD;
+ }
+
+ dimm->col_bits = spd[4];
+ printram(" Columns : %u\n", dimm->col_bits);
+ if (dimm->col_bits > 15) {
+ printram(" Invalid number of memory columns\n");
+ ret = SPD_STATUS_INVALID_FIELD;
+ }
+
+ dimm->ranks = (spd[5] & 0x7) + 1;
+ printram(" Ranks : %u\n", dimm->ranks);
+
+ dimm->mod_width = spd[6];
+ printram(" Module data width : x%u\n", dimm->mod_width);
+ if (!dimm->mod_width) {
+ printram(" Invalid module data width\n");
+ ret = SPD_STATUS_INVALID_FIELD;
+ }
+
+ dimm->width = spd[13];
+ printram(" SDRAM width : x%u\n", dimm->width);
+ if (!dimm->width) {
+ printram(" Invalid SDRAM width\n");
+ ret = SPD_STATUS_INVALID_FIELD;
+ }
+
+ dimm->banks = spd[17];
+ printram(" Banks : %u\n", dimm->banks);
+ if (!dimm->banks) {
+ printram(" Invalid module banks count\n");
+ ret = SPD_STATUS_INVALID_FIELD;
+ }
+
+ switch (spd[8]) {
+ case 0:
+ dimm->flags.operable_5_00V = 1;
+ printram(" Voltage : 5.0V\n");
+ break;
+ case 1:
+ dimm->flags.operable_3_33V = 1;
+ printram(" Voltage : 3.3V\n");
+ break;
+ case 2:
+ dimm->flags.operable_1_50V = 1;
+ printram(" Voltage : 1.5V\n");
+ break;
+ case 3:
+ dimm->flags.operable_3_33V = 1;
+ printram(" Voltage : 3.3V\n");
+ break;
+ case 4:
+ dimm->flags.operable_2_50V = 1;
+ printram(" Voltage : 2.5V\n");
+ break;
+ case 5:
+ dimm->flags.operable_1_80V = 1;
+ printram(" Voltage : 1.8V\n");
+ break;
+ default:
+ printram(" Unknown voltage level.\n");
+ ret = SPD_STATUS_INVALID_FIELD;
+ }
+
+ dimm->cas_supported = spd[18];
+ if ((dimm->cas_supported & 0x3) || !dimm->cas_supported) {
+ printram(" Invalid CAS support advertised.\n");
+ ret = SPD_STATUS_INVALID_FIELD;
+ }
+ printram(" Supported CAS mask : 0x%x\n", dimm->cas_supported);
+
+ if ((dimm->rev < 0x13) && (dimm->cas_supported & 0x80)) {
+ printram(" Invalid CAS support advertised.\n");
+ ret = SPD_STATUS_INVALID_FIELD;
+ }
+ if ((dimm->rev < 0x12) && (dimm->cas_supported & 0x40)) {
+ printram(" Invalid CAS support advertised.\n");
+ ret = SPD_STATUS_INVALID_FIELD;
+ }
+
+ /* CL=X */
+ cl = spd_get_msbs(dimm->cas_supported);
+
+ /* SDRAM Cycle time at Maximum Supported CAS Latency (CL), CL=X */
+ dimm->cycle_time[cl] = spd_decode_tck_time(spd[9]);
+ /* SDRAM Access from Clock */
+ dimm->access_time[cl] = spd_decode_bcd_time(spd[10]);
+
+ if (dimm->cas_supported & (1 << (cl - 1))) {
+ /* Minimum Clock Cycle at CLX-1 */
+ dimm->cycle_time[cl - 1] = spd_decode_tck_time(spd[23]);
+ /* Maximum Data Access Time (tAC) from Clock at CLX-1 */
+ dimm->access_time[cl - 1] = spd_decode_bcd_time(spd[24]);
+ }
+ if (dimm->cas_supported & (1 << (cl - 2))) {
+ /* Minimum Clock Cycle at CLX-2 */
+ dimm->cycle_time[cl - 2] = spd_decode_tck_time(spd[25]);
+ /* Maximum Data Access Time (tAC) from Clock at CLX-2 */
+ dimm->access_time[cl - 2] = spd_decode_bcd_time(spd[26]);
+ }
+
+ reg8 = (spd[31] >> 5) | (spd[31] << 3);
+ if (!reg8) {
+ printram(" Invalid rank density.\n");
+ ret = SPD_STATUS_INVALID_FIELD;
+ }
+
+ /* Rank density */
+ dimm->ranksize_mb = 128 * reg8;
+ /* Module density */
+ dimm->size_mb = dimm->ranksize_mb * dimm->ranks;
+ if (dimm->size_mb < 1024)
+ printram(" Capacity : %u MB\n", dimm->size_mb);
+ else
+ printram(" Capacity : %u GB\n", dimm->size_mb >> 10);
+
+ /* SDRAM Maximum Cycle Time (tCKmax) */
+ dimm->tCK = spd_decode_tck_time(spd[43]);
+ /* Minimum Write Recovery Time (tWRmin) */
+ dimm->tWR = spd_decode_quarter_time(spd[36]);
+ /* Minimum RAS# to CAS# Delay Time (tRCDmin) */
+ dimm->tRCD = spd_decode_quarter_time(spd[29]);
+ /* Minimum Row Active to Row Active Delay Time (tRRDmin) */
+ dimm->tRRD = spd_decode_quarter_time(spd[28]);
+ /* Minimum Row Precharge Delay Time (tRPmin) */
+ dimm->tRP = spd_decode_quarter_time(spd[27]);
+ /* Minimum Active to Precharge Delay Time (tRASmin) */
+ dimm->tRAS = spd[30] << 8;
+ /* Minimum Active to Active/Refresh Delay Time (tRCmin) */
+ /* Minimum Refresh Recovery Delay Time (tRFCmin) */
+ spd_decode_tRCtRFC_time(&spd[40], &dimm->tRC, &dimm->tRFC);
+ /* Minimum Internal Write to Read Command Delay Time (tWTRmin) */
+ dimm->tWTR = spd_decode_quarter_time(spd[37]);
+ /* Minimum Internal Read to Precharge Command Delay Time (tRTPmin) */
+ dimm->tRTP = spd_decode_quarter_time(spd[38]);
+ /* Data Input Setup Time Before Strobe */
+ dimm->tDS = spd_decode_bcd_time(spd[34]);
+ /* Data Input Hold Time After Strobe */
+ dimm->tDH = spd_decode_bcd_time(spd[35]);
+ /* SDRAM Device DQS-DQ Skew for DQS and associated DQ signals */
+ dimm->tDQSQ = (spd[44] << 8) / 100;
+ /* SDRAM Device Maximum Read Data Hold Skew Factor */
+ dimm->tQHS = (spd[45] << 8) / 100;
+ /* PLL Relock Time in us */
+ dimm->tPLL = spd[46] << 8;
+ /* Refresh rate in us */
+ dimm->tRR = spd_decode_tRR_time(spd[12]);
+
+ /* Number of PLLs on DIMM */
+ if (dimm->rev >= 0x11)
+ dimm->plls = (spd[21] >> 2) & 0x3;
+
+ /* SDRAM Thermal and Refresh Options */
+ printram(" General features :");
+ if ((dimm->rev >= 0x12) && (spd[22] & 0x04)) {
+ dimm->flags.pasr = 1;
+ printram(" PASR");
+ }
+ if ((dimm->rev >= 0x12) && (spd[22] & 0x02)) {
+ dimm->flags.terminate_50ohms = 1;
+ printram(" 50Ohm");
+ }
+ if (spd[22] & 0x01) {
+ dimm->flags.weak_driver = 1;
+ printram(" WEAK_DRIVER");
+ }
+ printram("\n");
+
+ /* SDRAM Supported Burst length */
+ printram(" Burst length :");
+ if (spd[16] & 0x06) {
+ dimm->flags.bl8 = 1;
+ printram(" BL8");
+ }
+ if (spd[22] & 0x04) {
+ dimm->flags.bl4 = 1;
+ printram(" BL4");
+ }
+ printram("\n");
+
+ dimm->dimm_type = spd[20] & SPD_DIMM_TYPE_MASK;
+ printram(" Dimm type : %x\n", dimm->dimm_type);
+
+ dimm->flags.is_ecc = !!(spd[11] & 0x3);
+ printram(" ECC support : %x\n", dimm->flags.is_ecc);
+
+ dimm->flags.stacked = !!(spd[5] & 0x10);
+ printram(" Package : %s\n",
+ dimm->flags.stacked ? "stack" : "planar");
+
+ if (spd_size > 71) {
+ memcpy(&dimm->manufacturer_id, &spd[64], 4);
+ printram(" Manufacturer ID : %x\n", dimm->manufacturer_id);
+ }
+
+ if (spd_size > 90) {
+ dimm->part_number[16] = 0;
+ memcpy(dimm->part_number, &spd[73], 16);
+ printram(" Part number : %s\n", dimm->part_number);
+ }
+
+ if (spd_size > 94) {
+ dimm->year = spd[93] + 2000;
+ dimm->weeks = spd[94];
+ printram(" Date : %d week %d\n", dimm->year, dimm->weeks);
+ }
+
+ if (spd_size > 98) {
+ memcpy(&dimm->serial, &spd[95], 4);
+ printram(" Serial number : 0x%08x\n", dimm->serial);
+ }
+ return ret;
+}
+
+/*
+ * The information printed below has a more informational character, and is not
+ * necessarily tied in to RAM init debugging. Hence, we stop using printram(),
+ * and use the standard printk()'s below.
+ */
+
+static void print_ns(const char *msg, u32 val)
+{
+ u32 mant, fp;
+ mant = val / 256;
+ fp = (val % 256) * 1000 / 256;
+
+ printk(BIOS_INFO, "%s%3u.%.3u ns\n", msg, mant, fp);
+}
+
+static void print_us(const char *msg, u32 val)
+{
+ u32 mant, fp;
+ mant = val / 256;
+ fp = (val % 256) * 1000 / 256;
+
+ printk(BIOS_INFO, "%s%3u.%.3u us\n", msg, mant, fp);
+}
+
+/**
+* \brief Print the info in DIMM
+*
+* Print info about the DIMM. Useful to use when CONFIG_DEBUG_RAM_SETUP is
+* selected, or for a purely informative output.
+*
+* @param dimm pointer to already decoded @ref dimm_attr structure
+*/
+void dram_print_spd_ddr2(const struct dimm_attr_st *dimm)
+{
+ char buf[32];
+ int i;
+
+ printk(BIOS_INFO, " Row addr bits : %u\n", dimm->row_bits);
+ printk(BIOS_INFO, " Column addr bits : %u\n", dimm->col_bits);
+ printk(BIOS_INFO, " Number of ranks : %u\n", dimm->ranks);
+ printk(BIOS_INFO, " DIMM Capacity : %u MB\n", dimm->size_mb);
+ printk(BIOS_INFO, " Width : x%u\n", dimm->width);
+ printk(BIOS_INFO, " Banks : %u\n", dimm->banks);
+
+ /* CAS Latencies Supported */
+ printk(BIOS_INFO, " CAS latencies :");
+ for (i = 2; i < 8; i++) {
+ if (dimm->cas_supported & (1 << i))
+ printk(BIOS_INFO, " %u", i);
+ }
+ printk(BIOS_INFO, "\n");
+
+ for (i = 2; i < 8; i++) {
+ if (!(dimm->cas_supported & (1 << i)))
+ continue;
+
+ strcpy(buf, " tCK at CLx : ");
+ /* Simple snprintf replacement */
+ buf[11] = '0' + i;
+ print_ns(buf, dimm->cycle_time[i]);
+
+ strcpy(buf, " tAC at CLx : ");
+ /* Simple snprintf replacement */
+ buf[11] = '0' + i;
+ print_ns(buf, dimm->access_time[i]);
+ }
+ print_ns(" tCKmax : ", dimm->tCK);
+ print_ns(" tWRmin : ", dimm->tWR);
+ print_ns(" tRCDmin : ", dimm->tRCD);
+ print_ns(" tRRDmin : ", dimm->tRRD);
+ print_ns(" tRPmin : ", dimm->tRP);
+ print_ns(" tRASmin : ", dimm->tRAS);
+ print_ns(" tRCmin : ", dimm->tRC);
+ print_ns(" tRFCmin : ", dimm->tRFC);
+ print_ns(" tWTRmin : ", dimm->tWTR);
+ print_ns(" tRTPmin : ", dimm->tRTP);
+ print_ns(" tDS : ", dimm->tDS);
+ print_ns(" tDH : ", dimm->tDH);
+ print_ns(" tDQSQmax : ", dimm->tDQSQ);
+ print_ns(" tQHSmax : ", dimm->tQHS);
+ print_us(" tPLL : ", dimm->tPLL);
+ print_us(" tRR : ", dimm->tRR);
+}
diff --git a/src/device/dram/ddr3.c b/src/device/dram/ddr3.c
index db661a9886..87aa3c5362 100644
--- a/src/device/dram/ddr3.c
+++ b/src/device/dram/ddr3.c
@@ -36,7 +36,7 @@
*
* @param type DIMM type. This is byte[3] of the SPD.
*/
-int dimm_is_registered(enum spd_dimm_type type)
+int spd_dimm_is_registered_ddr3(enum spd_dimm_type type)
{
if ((type == SPD_DIMM_TYPE_RDIMM)
| (type == SPD_DIMM_TYPE_MINI_RDIMM)