mirror of
https://github.com/AsahiLinux/u-boot
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353527d527
The offset of module information is at 128, different from DDR3. Signed-off-by: York Sun <yorksun@freescale.com>
2242 lines
69 KiB
C
2242 lines
69 KiB
C
/*
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* Copyright 2010-2014 Freescale Semiconductor, Inc.
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*
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* SPDX-License-Identifier: GPL-2.0+
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*/
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/*
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* Generic driver for Freescale DDR/DDR2/DDR3 memory controller.
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* Based on code from spd_sdram.c
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* Author: James Yang [at freescale.com]
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* York Sun [at freescale.com]
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*/
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#include <common.h>
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#include <cli.h>
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#include <linux/ctype.h>
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#include <asm/types.h>
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#include <asm/io.h>
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#include <fsl_ddr_sdram.h>
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#include <fsl_ddr.h>
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/* Option parameter Structures */
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struct options_string {
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const char *option_name;
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size_t offset;
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unsigned int size;
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const char printhex;
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};
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static unsigned int picos_to_mhz(unsigned int picos)
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{
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return 1000000 / picos;
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}
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static void print_option_table(const struct options_string *table,
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int table_size,
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const void *base)
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{
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unsigned int i;
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unsigned int *ptr;
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unsigned long long *ptr_l;
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for (i = 0; i < table_size; i++) {
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switch (table[i].size) {
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case 4:
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ptr = (unsigned int *) (base + table[i].offset);
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if (table[i].printhex) {
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printf("%s = 0x%08X\n",
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table[i].option_name, *ptr);
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} else {
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printf("%s = %u\n",
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table[i].option_name, *ptr);
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}
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break;
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case 8:
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ptr_l = (unsigned long long *) (base + table[i].offset);
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printf("%s = %llu\n",
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table[i].option_name, *ptr_l);
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break;
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default:
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printf("Unrecognized size!\n");
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break;
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}
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}
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}
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static int handle_option_table(const struct options_string *table,
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int table_size,
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void *base,
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const char *opt,
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const char *val)
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{
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unsigned int i;
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unsigned int value, *ptr;
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unsigned long long value_l, *ptr_l;
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for (i = 0; i < table_size; i++) {
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if (strcmp(table[i].option_name, opt) != 0)
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continue;
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switch (table[i].size) {
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case 4:
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value = simple_strtoul(val, NULL, 0);
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ptr = base + table[i].offset;
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*ptr = value;
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break;
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case 8:
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value_l = simple_strtoull(val, NULL, 0);
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ptr_l = base + table[i].offset;
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*ptr_l = value_l;
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break;
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default:
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printf("Unrecognized size!\n");
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break;
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}
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return 1;
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}
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return 0;
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}
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static void fsl_ddr_generic_edit(void *pdata,
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void *pend,
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unsigned int element_size,
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unsigned int element_num,
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unsigned int value)
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{
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char *pcdata = (char *)pdata; /* BIG ENDIAN ONLY */
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pcdata += element_num * element_size;
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if ((pcdata + element_size) > (char *) pend) {
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printf("trying to write past end of data\n");
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return;
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}
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switch (element_size) {
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case 1:
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__raw_writeb(value, pcdata);
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break;
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case 2:
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__raw_writew(value, pcdata);
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break;
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case 4:
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__raw_writel(value, pcdata);
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break;
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default:
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printf("unexpected element size %u\n", element_size);
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break;
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}
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}
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static void fsl_ddr_spd_edit(fsl_ddr_info_t *pinfo,
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unsigned int ctrl_num,
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unsigned int dimm_num,
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unsigned int element_num,
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unsigned int value)
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{
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generic_spd_eeprom_t *pspd;
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pspd = &(pinfo->spd_installed_dimms[ctrl_num][dimm_num]);
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fsl_ddr_generic_edit(pspd, pspd + 1, 1, element_num, value);
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}
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#define COMMON_TIMING(x) {#x, offsetof(common_timing_params_t, x), \
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sizeof((common_timing_params_t *)0)->x, 0}
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static void lowest_common_dimm_parameters_edit(fsl_ddr_info_t *pinfo,
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unsigned int ctrl_num,
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const char *optname_str,
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const char *value_str)
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{
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common_timing_params_t *p = &pinfo->common_timing_params[ctrl_num];
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static const struct options_string options[] = {
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COMMON_TIMING(tckmin_x_ps),
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COMMON_TIMING(tckmax_ps),
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COMMON_TIMING(taamin_ps),
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COMMON_TIMING(trcd_ps),
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COMMON_TIMING(trp_ps),
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COMMON_TIMING(tras_ps),
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#ifdef CONFIG_SYS_FSL_DDR4
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COMMON_TIMING(trfc1_ps),
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COMMON_TIMING(trfc2_ps),
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COMMON_TIMING(trfc4_ps),
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COMMON_TIMING(trrds_ps),
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COMMON_TIMING(trrdl_ps),
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COMMON_TIMING(tccdl_ps),
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#else
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COMMON_TIMING(twtr_ps),
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COMMON_TIMING(trfc_ps),
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COMMON_TIMING(trrd_ps),
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COMMON_TIMING(trtp_ps),
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#endif
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COMMON_TIMING(twr_ps),
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COMMON_TIMING(trc_ps),
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COMMON_TIMING(refresh_rate_ps),
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COMMON_TIMING(extended_op_srt),
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#if defined(CONFIG_SYS_FSL_DDR1) || defined(CONFIG_SYS_FSL_DDR2)
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COMMON_TIMING(tis_ps),
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COMMON_TIMING(tih_ps),
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COMMON_TIMING(tds_ps),
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COMMON_TIMING(tdh_ps),
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COMMON_TIMING(tdqsq_max_ps),
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COMMON_TIMING(tqhs_ps),
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#endif
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COMMON_TIMING(ndimms_present),
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COMMON_TIMING(lowest_common_spd_caslat),
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COMMON_TIMING(highest_common_derated_caslat),
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COMMON_TIMING(additive_latency),
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COMMON_TIMING(all_dimms_burst_lengths_bitmask),
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COMMON_TIMING(all_dimms_registered),
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COMMON_TIMING(all_dimms_unbuffered),
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COMMON_TIMING(all_dimms_ecc_capable),
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COMMON_TIMING(total_mem),
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COMMON_TIMING(base_address),
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};
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static const unsigned int n_opts = ARRAY_SIZE(options);
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if (handle_option_table(options, n_opts, p, optname_str, value_str))
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return;
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printf("Error: couldn't find option string %s\n", optname_str);
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}
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#define DIMM_PARM(x) {#x, offsetof(dimm_params_t, x), \
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sizeof((dimm_params_t *)0)->x, 0}
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static void fsl_ddr_dimm_parameters_edit(fsl_ddr_info_t *pinfo,
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unsigned int ctrl_num,
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unsigned int dimm_num,
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const char *optname_str,
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const char *value_str)
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{
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dimm_params_t *p = &(pinfo->dimm_params[ctrl_num][dimm_num]);
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static const struct options_string options[] = {
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DIMM_PARM(n_ranks),
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DIMM_PARM(data_width),
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DIMM_PARM(primary_sdram_width),
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DIMM_PARM(ec_sdram_width),
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DIMM_PARM(registered_dimm),
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DIMM_PARM(device_width),
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DIMM_PARM(n_row_addr),
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DIMM_PARM(n_col_addr),
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DIMM_PARM(edc_config),
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#ifdef CONFIG_SYS_FSL_DDR4
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DIMM_PARM(bank_addr_bits),
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DIMM_PARM(bank_group_bits),
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#else
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DIMM_PARM(n_banks_per_sdram_device),
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#endif
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DIMM_PARM(burst_lengths_bitmask),
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DIMM_PARM(row_density),
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DIMM_PARM(tckmin_x_ps),
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DIMM_PARM(tckmin_x_minus_1_ps),
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DIMM_PARM(tckmin_x_minus_2_ps),
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DIMM_PARM(tckmax_ps),
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DIMM_PARM(caslat_x),
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DIMM_PARM(caslat_x_minus_1),
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DIMM_PARM(caslat_x_minus_2),
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DIMM_PARM(caslat_lowest_derated),
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DIMM_PARM(trcd_ps),
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DIMM_PARM(trp_ps),
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DIMM_PARM(tras_ps),
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#ifdef CONFIG_SYS_FSL_DDR4
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DIMM_PARM(trfc1_ps),
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DIMM_PARM(trfc2_ps),
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DIMM_PARM(trfc4_ps),
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DIMM_PARM(trrds_ps),
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DIMM_PARM(trrdl_ps),
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DIMM_PARM(tccdl_ps),
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#else
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DIMM_PARM(twr_ps),
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DIMM_PARM(twtr_ps),
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DIMM_PARM(trfc_ps),
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DIMM_PARM(trrd_ps),
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DIMM_PARM(trtp_ps),
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#endif
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DIMM_PARM(trc_ps),
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DIMM_PARM(refresh_rate_ps),
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DIMM_PARM(extended_op_srt),
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#if defined(CONFIG_SYS_FSL_DDR1) || defined(CONFIG_SYS_FSL_DDR2)
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DIMM_PARM(tis_ps),
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DIMM_PARM(tih_ps),
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DIMM_PARM(tds_ps),
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DIMM_PARM(tdh_ps),
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DIMM_PARM(tdqsq_max_ps),
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DIMM_PARM(tqhs_ps),
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#endif
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DIMM_PARM(rank_density),
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DIMM_PARM(capacity),
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DIMM_PARM(base_address),
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};
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static const unsigned int n_opts = ARRAY_SIZE(options);
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if (handle_option_table(options, n_opts, p, optname_str, value_str))
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return;
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printf("couldn't find option string %s\n", optname_str);
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}
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static void print_dimm_parameters(const dimm_params_t *pdimm)
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{
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static const struct options_string options[] = {
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DIMM_PARM(n_ranks),
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DIMM_PARM(data_width),
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DIMM_PARM(primary_sdram_width),
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DIMM_PARM(ec_sdram_width),
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DIMM_PARM(registered_dimm),
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DIMM_PARM(device_width),
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DIMM_PARM(n_row_addr),
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DIMM_PARM(n_col_addr),
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DIMM_PARM(edc_config),
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#ifdef CONFIG_SYS_FSL_DDR4
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DIMM_PARM(bank_addr_bits),
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DIMM_PARM(bank_group_bits),
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#else
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DIMM_PARM(n_banks_per_sdram_device),
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#endif
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DIMM_PARM(tckmin_x_ps),
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DIMM_PARM(tckmin_x_minus_1_ps),
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DIMM_PARM(tckmin_x_minus_2_ps),
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DIMM_PARM(tckmax_ps),
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DIMM_PARM(caslat_x),
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DIMM_PARM(taa_ps),
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DIMM_PARM(caslat_x_minus_1),
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DIMM_PARM(caslat_x_minus_2),
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DIMM_PARM(caslat_lowest_derated),
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DIMM_PARM(trcd_ps),
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DIMM_PARM(trp_ps),
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DIMM_PARM(tras_ps),
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#ifdef CONFIG_SYS_FSL_DDR4
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DIMM_PARM(trfc1_ps),
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DIMM_PARM(trfc2_ps),
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DIMM_PARM(trfc4_ps),
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DIMM_PARM(trrds_ps),
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DIMM_PARM(trrdl_ps),
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DIMM_PARM(tccdl_ps),
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#else
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DIMM_PARM(twr_ps),
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DIMM_PARM(twtr_ps),
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DIMM_PARM(trfc_ps),
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DIMM_PARM(trrd_ps),
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DIMM_PARM(trtp_ps),
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#endif
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DIMM_PARM(trc_ps),
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DIMM_PARM(refresh_rate_ps),
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#if defined(CONFIG_SYS_FSL_DDR1) || defined(CONFIG_SYS_FSL_DDR2)
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DIMM_PARM(tis_ps),
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DIMM_PARM(tih_ps),
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DIMM_PARM(tds_ps),
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DIMM_PARM(tdh_ps),
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DIMM_PARM(tdqsq_max_ps),
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DIMM_PARM(tqhs_ps),
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#endif
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};
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static const unsigned int n_opts = ARRAY_SIZE(options);
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if (pdimm->n_ranks == 0) {
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printf("DIMM not present\n");
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return;
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}
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printf("DIMM organization parameters:\n");
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printf("module part name = %s\n", pdimm->mpart);
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printf("rank_density = %llu bytes (%llu megabytes)\n",
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pdimm->rank_density, pdimm->rank_density / 0x100000);
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printf("capacity = %llu bytes (%llu megabytes)\n",
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pdimm->capacity, pdimm->capacity / 0x100000);
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printf("burst_lengths_bitmask = %02X\n",
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pdimm->burst_lengths_bitmask);
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printf("base_addresss = %llu (%08llX %08llX)\n",
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pdimm->base_address,
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(pdimm->base_address >> 32),
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pdimm->base_address & 0xFFFFFFFF);
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print_option_table(options, n_opts, pdimm);
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}
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static void print_lowest_common_dimm_parameters(
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const common_timing_params_t *plcd_dimm_params)
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{
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static const struct options_string options[] = {
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COMMON_TIMING(taamin_ps),
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COMMON_TIMING(trcd_ps),
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COMMON_TIMING(trp_ps),
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COMMON_TIMING(tras_ps),
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#ifdef CONFIG_SYS_FSL_DDR4
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COMMON_TIMING(trfc1_ps),
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COMMON_TIMING(trfc2_ps),
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COMMON_TIMING(trfc4_ps),
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COMMON_TIMING(trrds_ps),
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COMMON_TIMING(trrdl_ps),
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COMMON_TIMING(tccdl_ps),
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#else
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COMMON_TIMING(twtr_ps),
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COMMON_TIMING(trfc_ps),
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COMMON_TIMING(trrd_ps),
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COMMON_TIMING(trtp_ps),
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#endif
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COMMON_TIMING(twr_ps),
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COMMON_TIMING(trc_ps),
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COMMON_TIMING(refresh_rate_ps),
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COMMON_TIMING(extended_op_srt),
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#if defined(CONFIG_SYS_FSL_DDR1) || defined(CONFIG_SYS_FSL_DDR2)
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COMMON_TIMING(tis_ps),
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COMMON_TIMING(tih_ps),
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COMMON_TIMING(tds_ps),
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COMMON_TIMING(tdh_ps),
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COMMON_TIMING(tdqsq_max_ps),
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COMMON_TIMING(tqhs_ps),
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#endif
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COMMON_TIMING(lowest_common_spd_caslat),
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COMMON_TIMING(highest_common_derated_caslat),
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COMMON_TIMING(additive_latency),
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COMMON_TIMING(ndimms_present),
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COMMON_TIMING(all_dimms_registered),
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COMMON_TIMING(all_dimms_unbuffered),
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COMMON_TIMING(all_dimms_ecc_capable),
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};
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static const unsigned int n_opts = ARRAY_SIZE(options);
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/* Clock frequencies */
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printf("tckmin_x_ps = %u (%u MHz)\n",
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plcd_dimm_params->tckmin_x_ps,
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picos_to_mhz(plcd_dimm_params->tckmin_x_ps));
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printf("tckmax_ps = %u (%u MHz)\n",
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plcd_dimm_params->tckmax_ps,
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picos_to_mhz(plcd_dimm_params->tckmax_ps));
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printf("all_dimms_burst_lengths_bitmask = %02X\n",
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plcd_dimm_params->all_dimms_burst_lengths_bitmask);
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print_option_table(options, n_opts, plcd_dimm_params);
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printf("total_mem = %llu (%llu megabytes)\n",
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plcd_dimm_params->total_mem,
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plcd_dimm_params->total_mem / 0x100000);
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printf("base_address = %llu (%llu megabytes)\n",
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plcd_dimm_params->base_address,
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plcd_dimm_params->base_address / 0x100000);
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}
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#define CTRL_OPTIONS(x) {#x, offsetof(memctl_options_t, x), \
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sizeof((memctl_options_t *)0)->x, 0}
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#define CTRL_OPTIONS_CS(x, y) {"cs" #x "_" #y, \
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offsetof(memctl_options_t, cs_local_opts[x].y), \
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sizeof((memctl_options_t *)0)->cs_local_opts[x].y, 0}
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|
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static void fsl_ddr_options_edit(fsl_ddr_info_t *pinfo,
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unsigned int ctl_num,
|
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const char *optname_str,
|
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const char *value_str)
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{
|
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memctl_options_t *p = &(pinfo->memctl_opts[ctl_num]);
|
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/*
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* This array all on the stack and *computed* each time this
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* function is rung.
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*/
|
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static const struct options_string options[] = {
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CTRL_OPTIONS_CS(0, odt_rd_cfg),
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CTRL_OPTIONS_CS(0, odt_wr_cfg),
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#if (CONFIG_CHIP_SELECTS_PER_CTRL > 1)
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CTRL_OPTIONS_CS(1, odt_rd_cfg),
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CTRL_OPTIONS_CS(1, odt_wr_cfg),
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#endif
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#if (CONFIG_CHIP_SELECTS_PER_CTRL > 2)
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CTRL_OPTIONS_CS(2, odt_rd_cfg),
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CTRL_OPTIONS_CS(2, odt_wr_cfg),
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#endif
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 2)
|
|
CTRL_OPTIONS_CS(3, odt_rd_cfg),
|
|
CTRL_OPTIONS_CS(3, odt_wr_cfg),
|
|
#endif
|
|
#if defined(CONFIG_SYS_FSL_DDR3)
|
|
CTRL_OPTIONS_CS(0, odt_rtt_norm),
|
|
CTRL_OPTIONS_CS(0, odt_rtt_wr),
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 1)
|
|
CTRL_OPTIONS_CS(1, odt_rtt_norm),
|
|
CTRL_OPTIONS_CS(1, odt_rtt_wr),
|
|
#endif
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 2)
|
|
CTRL_OPTIONS_CS(2, odt_rtt_norm),
|
|
CTRL_OPTIONS_CS(2, odt_rtt_wr),
|
|
#endif
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 2)
|
|
CTRL_OPTIONS_CS(3, odt_rtt_norm),
|
|
CTRL_OPTIONS_CS(3, odt_rtt_wr),
|
|
#endif
|
|
#endif
|
|
CTRL_OPTIONS(memctl_interleaving),
|
|
CTRL_OPTIONS(memctl_interleaving_mode),
|
|
CTRL_OPTIONS(ba_intlv_ctl),
|
|
CTRL_OPTIONS(ecc_mode),
|
|
CTRL_OPTIONS(ecc_init_using_memctl),
|
|
CTRL_OPTIONS(dqs_config),
|
|
CTRL_OPTIONS(self_refresh_in_sleep),
|
|
CTRL_OPTIONS(dynamic_power),
|
|
CTRL_OPTIONS(data_bus_width),
|
|
CTRL_OPTIONS(burst_length),
|
|
CTRL_OPTIONS(cas_latency_override),
|
|
CTRL_OPTIONS(cas_latency_override_value),
|
|
CTRL_OPTIONS(use_derated_caslat),
|
|
CTRL_OPTIONS(additive_latency_override),
|
|
CTRL_OPTIONS(additive_latency_override_value),
|
|
CTRL_OPTIONS(clk_adjust),
|
|
CTRL_OPTIONS(cpo_override),
|
|
CTRL_OPTIONS(write_data_delay),
|
|
CTRL_OPTIONS(half_strength_driver_enable),
|
|
|
|
/*
|
|
* These can probably be changed to 2T_EN and 3T_EN
|
|
* (using a leading numerical character) without problem
|
|
*/
|
|
CTRL_OPTIONS(twot_en),
|
|
CTRL_OPTIONS(threet_en),
|
|
CTRL_OPTIONS(ap_en),
|
|
CTRL_OPTIONS(x4_en),
|
|
CTRL_OPTIONS(bstopre),
|
|
CTRL_OPTIONS(wrlvl_override),
|
|
CTRL_OPTIONS(wrlvl_sample),
|
|
CTRL_OPTIONS(wrlvl_start),
|
|
CTRL_OPTIONS(rcw_override),
|
|
CTRL_OPTIONS(rcw_1),
|
|
CTRL_OPTIONS(rcw_2),
|
|
CTRL_OPTIONS(ddr_cdr1),
|
|
CTRL_OPTIONS(ddr_cdr2),
|
|
CTRL_OPTIONS(tcke_clock_pulse_width_ps),
|
|
CTRL_OPTIONS(tfaw_window_four_activates_ps),
|
|
CTRL_OPTIONS(trwt_override),
|
|
CTRL_OPTIONS(trwt),
|
|
CTRL_OPTIONS(rtt_override),
|
|
CTRL_OPTIONS(rtt_override_value),
|
|
CTRL_OPTIONS(rtt_wr_override_value),
|
|
};
|
|
|
|
static const unsigned int n_opts = ARRAY_SIZE(options);
|
|
|
|
if (handle_option_table(options, n_opts, p,
|
|
optname_str, value_str))
|
|
return;
|
|
|
|
printf("couldn't find option string %s\n", optname_str);
|
|
}
|
|
|
|
#define CFG_REGS(x) {#x, offsetof(fsl_ddr_cfg_regs_t, x), \
|
|
sizeof((fsl_ddr_cfg_regs_t *)0)->x, 1}
|
|
#define CFG_REGS_CS(x, y) {"cs" #x "_" #y, \
|
|
offsetof(fsl_ddr_cfg_regs_t, cs[x].y), \
|
|
sizeof((fsl_ddr_cfg_regs_t *)0)->cs[x].y, 1}
|
|
|
|
static void print_fsl_memctl_config_regs(const fsl_ddr_cfg_regs_t *ddr)
|
|
{
|
|
unsigned int i;
|
|
static const struct options_string options[] = {
|
|
CFG_REGS_CS(0, bnds),
|
|
CFG_REGS_CS(0, config),
|
|
CFG_REGS_CS(0, config_2),
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 1)
|
|
CFG_REGS_CS(1, bnds),
|
|
CFG_REGS_CS(1, config),
|
|
CFG_REGS_CS(1, config_2),
|
|
#endif
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 2)
|
|
CFG_REGS_CS(2, bnds),
|
|
CFG_REGS_CS(2, config),
|
|
CFG_REGS_CS(2, config_2),
|
|
#endif
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 2)
|
|
CFG_REGS_CS(3, bnds),
|
|
CFG_REGS_CS(3, config),
|
|
CFG_REGS_CS(3, config_2),
|
|
#endif
|
|
CFG_REGS(timing_cfg_3),
|
|
CFG_REGS(timing_cfg_0),
|
|
CFG_REGS(timing_cfg_1),
|
|
CFG_REGS(timing_cfg_2),
|
|
CFG_REGS(ddr_sdram_cfg),
|
|
CFG_REGS(ddr_sdram_cfg_2),
|
|
CFG_REGS(ddr_sdram_cfg_3),
|
|
CFG_REGS(ddr_sdram_mode),
|
|
CFG_REGS(ddr_sdram_mode_2),
|
|
CFG_REGS(ddr_sdram_mode_3),
|
|
CFG_REGS(ddr_sdram_mode_4),
|
|
CFG_REGS(ddr_sdram_mode_5),
|
|
CFG_REGS(ddr_sdram_mode_6),
|
|
CFG_REGS(ddr_sdram_mode_7),
|
|
CFG_REGS(ddr_sdram_mode_8),
|
|
#ifdef CONFIG_SYS_FSL_DDR4
|
|
CFG_REGS(ddr_sdram_mode_9),
|
|
CFG_REGS(ddr_sdram_mode_10),
|
|
CFG_REGS(ddr_sdram_mode_11),
|
|
CFG_REGS(ddr_sdram_mode_12),
|
|
CFG_REGS(ddr_sdram_mode_13),
|
|
CFG_REGS(ddr_sdram_mode_14),
|
|
CFG_REGS(ddr_sdram_mode_15),
|
|
CFG_REGS(ddr_sdram_mode_16),
|
|
#endif
|
|
CFG_REGS(ddr_sdram_interval),
|
|
CFG_REGS(ddr_data_init),
|
|
CFG_REGS(ddr_sdram_clk_cntl),
|
|
CFG_REGS(ddr_init_addr),
|
|
CFG_REGS(ddr_init_ext_addr),
|
|
CFG_REGS(timing_cfg_4),
|
|
CFG_REGS(timing_cfg_5),
|
|
#ifdef CONFIG_SYS_FSL_DDR4
|
|
CFG_REGS(timing_cfg_6),
|
|
CFG_REGS(timing_cfg_7),
|
|
CFG_REGS(timing_cfg_8),
|
|
CFG_REGS(timing_cfg_9),
|
|
#endif
|
|
CFG_REGS(ddr_zq_cntl),
|
|
CFG_REGS(ddr_wrlvl_cntl),
|
|
CFG_REGS(ddr_wrlvl_cntl_2),
|
|
CFG_REGS(ddr_wrlvl_cntl_3),
|
|
CFG_REGS(ddr_sr_cntr),
|
|
CFG_REGS(ddr_sdram_rcw_1),
|
|
CFG_REGS(ddr_sdram_rcw_2),
|
|
CFG_REGS(ddr_cdr1),
|
|
CFG_REGS(ddr_cdr2),
|
|
CFG_REGS(dq_map_0),
|
|
CFG_REGS(dq_map_1),
|
|
CFG_REGS(dq_map_2),
|
|
CFG_REGS(dq_map_3),
|
|
CFG_REGS(err_disable),
|
|
CFG_REGS(err_int_en),
|
|
CFG_REGS(ddr_eor),
|
|
};
|
|
static const unsigned int n_opts = ARRAY_SIZE(options);
|
|
|
|
print_option_table(options, n_opts, ddr);
|
|
|
|
for (i = 0; i < 32; i++)
|
|
printf("debug_%02d = 0x%08X\n", i+1, ddr->debug[i]);
|
|
}
|
|
|
|
static void fsl_ddr_regs_edit(fsl_ddr_info_t *pinfo,
|
|
unsigned int ctrl_num,
|
|
const char *regname,
|
|
const char *value_str)
|
|
{
|
|
unsigned int i;
|
|
fsl_ddr_cfg_regs_t *ddr;
|
|
char buf[20];
|
|
static const struct options_string options[] = {
|
|
CFG_REGS_CS(0, bnds),
|
|
CFG_REGS_CS(0, config),
|
|
CFG_REGS_CS(0, config_2),
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 1)
|
|
CFG_REGS_CS(1, bnds),
|
|
CFG_REGS_CS(1, config),
|
|
CFG_REGS_CS(1, config_2),
|
|
#endif
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 2)
|
|
CFG_REGS_CS(2, bnds),
|
|
CFG_REGS_CS(2, config),
|
|
CFG_REGS_CS(2, config_2),
|
|
#endif
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 3)
|
|
CFG_REGS_CS(3, bnds),
|
|
CFG_REGS_CS(3, config),
|
|
CFG_REGS_CS(3, config_2),
|
|
#endif
|
|
CFG_REGS(timing_cfg_3),
|
|
CFG_REGS(timing_cfg_0),
|
|
CFG_REGS(timing_cfg_1),
|
|
CFG_REGS(timing_cfg_2),
|
|
CFG_REGS(ddr_sdram_cfg),
|
|
CFG_REGS(ddr_sdram_cfg_2),
|
|
CFG_REGS(ddr_sdram_cfg_3),
|
|
CFG_REGS(ddr_sdram_mode),
|
|
CFG_REGS(ddr_sdram_mode_2),
|
|
CFG_REGS(ddr_sdram_mode_3),
|
|
CFG_REGS(ddr_sdram_mode_4),
|
|
CFG_REGS(ddr_sdram_mode_5),
|
|
CFG_REGS(ddr_sdram_mode_6),
|
|
CFG_REGS(ddr_sdram_mode_7),
|
|
CFG_REGS(ddr_sdram_mode_8),
|
|
#ifdef CONFIG_SYS_FSL_DDR4
|
|
CFG_REGS(ddr_sdram_mode_9),
|
|
CFG_REGS(ddr_sdram_mode_10),
|
|
CFG_REGS(ddr_sdram_mode_11),
|
|
CFG_REGS(ddr_sdram_mode_12),
|
|
CFG_REGS(ddr_sdram_mode_13),
|
|
CFG_REGS(ddr_sdram_mode_14),
|
|
CFG_REGS(ddr_sdram_mode_15),
|
|
CFG_REGS(ddr_sdram_mode_16),
|
|
#endif
|
|
CFG_REGS(ddr_sdram_interval),
|
|
CFG_REGS(ddr_data_init),
|
|
CFG_REGS(ddr_sdram_clk_cntl),
|
|
CFG_REGS(ddr_init_addr),
|
|
CFG_REGS(ddr_init_ext_addr),
|
|
CFG_REGS(timing_cfg_4),
|
|
CFG_REGS(timing_cfg_5),
|
|
#ifdef CONFIG_SYS_FSL_DDR4
|
|
CFG_REGS(timing_cfg_6),
|
|
CFG_REGS(timing_cfg_7),
|
|
CFG_REGS(timing_cfg_8),
|
|
CFG_REGS(timing_cfg_9),
|
|
#endif
|
|
CFG_REGS(ddr_zq_cntl),
|
|
CFG_REGS(ddr_wrlvl_cntl),
|
|
CFG_REGS(ddr_wrlvl_cntl_2),
|
|
CFG_REGS(ddr_wrlvl_cntl_3),
|
|
CFG_REGS(ddr_sr_cntr),
|
|
CFG_REGS(ddr_sdram_rcw_1),
|
|
CFG_REGS(ddr_sdram_rcw_2),
|
|
CFG_REGS(ddr_cdr1),
|
|
CFG_REGS(ddr_cdr2),
|
|
CFG_REGS(dq_map_0),
|
|
CFG_REGS(dq_map_1),
|
|
CFG_REGS(dq_map_2),
|
|
CFG_REGS(dq_map_3),
|
|
CFG_REGS(err_disable),
|
|
CFG_REGS(err_int_en),
|
|
CFG_REGS(ddr_sdram_rcw_2),
|
|
CFG_REGS(ddr_sdram_rcw_2),
|
|
CFG_REGS(ddr_eor),
|
|
};
|
|
static const unsigned int n_opts = ARRAY_SIZE(options);
|
|
|
|
debug("fsl_ddr_regs_edit: ctrl_num = %u, "
|
|
"regname = %s, value = %s\n",
|
|
ctrl_num, regname, value_str);
|
|
if (ctrl_num > CONFIG_NUM_DDR_CONTROLLERS)
|
|
return;
|
|
|
|
ddr = &(pinfo->fsl_ddr_config_reg[ctrl_num]);
|
|
|
|
if (handle_option_table(options, n_opts, ddr, regname, value_str))
|
|
return;
|
|
|
|
for (i = 0; i < 32; i++) {
|
|
unsigned int value = simple_strtoul(value_str, NULL, 0);
|
|
sprintf(buf, "debug_%u", i + 1);
|
|
if (strcmp(buf, regname) == 0) {
|
|
ddr->debug[i] = value;
|
|
return;
|
|
}
|
|
}
|
|
printf("Error: couldn't find register string %s\n", regname);
|
|
}
|
|
|
|
#define CTRL_OPTIONS_HEX(x) {#x, offsetof(memctl_options_t, x), \
|
|
sizeof((memctl_options_t *)0)->x, 1}
|
|
|
|
static void print_memctl_options(const memctl_options_t *popts)
|
|
{
|
|
static const struct options_string options[] = {
|
|
CTRL_OPTIONS_CS(0, odt_rd_cfg),
|
|
CTRL_OPTIONS_CS(0, odt_wr_cfg),
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 1)
|
|
CTRL_OPTIONS_CS(1, odt_rd_cfg),
|
|
CTRL_OPTIONS_CS(1, odt_wr_cfg),
|
|
#endif
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 2)
|
|
CTRL_OPTIONS_CS(2, odt_rd_cfg),
|
|
CTRL_OPTIONS_CS(2, odt_wr_cfg),
|
|
#endif
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 3)
|
|
CTRL_OPTIONS_CS(3, odt_rd_cfg),
|
|
CTRL_OPTIONS_CS(3, odt_wr_cfg),
|
|
#endif
|
|
#if defined(CONFIG_SYS_FSL_DDR3)
|
|
CTRL_OPTIONS_CS(0, odt_rtt_norm),
|
|
CTRL_OPTIONS_CS(0, odt_rtt_wr),
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 1)
|
|
CTRL_OPTIONS_CS(1, odt_rtt_norm),
|
|
CTRL_OPTIONS_CS(1, odt_rtt_wr),
|
|
#endif
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 2)
|
|
CTRL_OPTIONS_CS(2, odt_rtt_norm),
|
|
CTRL_OPTIONS_CS(2, odt_rtt_wr),
|
|
#endif
|
|
#if (CONFIG_CHIP_SELECTS_PER_CTRL > 3)
|
|
CTRL_OPTIONS_CS(3, odt_rtt_norm),
|
|
CTRL_OPTIONS_CS(3, odt_rtt_wr),
|
|
#endif
|
|
#endif
|
|
CTRL_OPTIONS(memctl_interleaving),
|
|
CTRL_OPTIONS(memctl_interleaving_mode),
|
|
CTRL_OPTIONS_HEX(ba_intlv_ctl),
|
|
CTRL_OPTIONS(ecc_mode),
|
|
CTRL_OPTIONS(ecc_init_using_memctl),
|
|
CTRL_OPTIONS(dqs_config),
|
|
CTRL_OPTIONS(self_refresh_in_sleep),
|
|
CTRL_OPTIONS(dynamic_power),
|
|
CTRL_OPTIONS(data_bus_width),
|
|
CTRL_OPTIONS(burst_length),
|
|
CTRL_OPTIONS(cas_latency_override),
|
|
CTRL_OPTIONS(cas_latency_override_value),
|
|
CTRL_OPTIONS(use_derated_caslat),
|
|
CTRL_OPTIONS(additive_latency_override),
|
|
CTRL_OPTIONS(additive_latency_override_value),
|
|
CTRL_OPTIONS(clk_adjust),
|
|
CTRL_OPTIONS(cpo_override),
|
|
CTRL_OPTIONS(write_data_delay),
|
|
CTRL_OPTIONS(half_strength_driver_enable),
|
|
/*
|
|
* These can probably be changed to 2T_EN and 3T_EN
|
|
* (using a leading numerical character) without problem
|
|
*/
|
|
CTRL_OPTIONS(twot_en),
|
|
CTRL_OPTIONS(threet_en),
|
|
CTRL_OPTIONS(registered_dimm_en),
|
|
CTRL_OPTIONS(ap_en),
|
|
CTRL_OPTIONS(x4_en),
|
|
CTRL_OPTIONS(bstopre),
|
|
CTRL_OPTIONS(wrlvl_override),
|
|
CTRL_OPTIONS(wrlvl_sample),
|
|
CTRL_OPTIONS(wrlvl_start),
|
|
CTRL_OPTIONS(rcw_override),
|
|
CTRL_OPTIONS(rcw_1),
|
|
CTRL_OPTIONS(rcw_2),
|
|
CTRL_OPTIONS_HEX(ddr_cdr1),
|
|
CTRL_OPTIONS_HEX(ddr_cdr2),
|
|
CTRL_OPTIONS(tcke_clock_pulse_width_ps),
|
|
CTRL_OPTIONS(tfaw_window_four_activates_ps),
|
|
CTRL_OPTIONS(trwt_override),
|
|
CTRL_OPTIONS(trwt),
|
|
CTRL_OPTIONS(rtt_override),
|
|
CTRL_OPTIONS(rtt_override_value),
|
|
CTRL_OPTIONS(rtt_wr_override_value),
|
|
};
|
|
static const unsigned int n_opts = ARRAY_SIZE(options);
|
|
|
|
print_option_table(options, n_opts, popts);
|
|
}
|
|
|
|
#ifdef CONFIG_SYS_FSL_DDR1
|
|
void ddr1_spd_dump(const ddr1_spd_eeprom_t *spd)
|
|
{
|
|
unsigned int i;
|
|
|
|
printf("%-3d : %02x %s\n", 0, spd->info_size,
|
|
" spd->info_size, * 0 # bytes written into serial memory *");
|
|
printf("%-3d : %02x %s\n", 1, spd->chip_size,
|
|
" spd->chip_size, * 1 Total # bytes of SPD memory device *");
|
|
printf("%-3d : %02x %s\n", 2, spd->mem_type,
|
|
" spd->mem_type, * 2 Fundamental memory type *");
|
|
printf("%-3d : %02x %s\n", 3, spd->nrow_addr,
|
|
" spd->nrow_addr, * 3 # of Row Addresses on this assembly *");
|
|
printf("%-3d : %02x %s\n", 4, spd->ncol_addr,
|
|
" spd->ncol_addr, * 4 # of Column Addrs on this assembly *");
|
|
printf("%-3d : %02x %s\n", 5, spd->nrows,
|
|
" spd->nrows * 5 # of DIMM Banks *");
|
|
printf("%-3d : %02x %s\n", 6, spd->dataw_lsb,
|
|
" spd->dataw_lsb, * 6 Data Width lsb of this assembly *");
|
|
printf("%-3d : %02x %s\n", 7, spd->dataw_msb,
|
|
" spd->dataw_msb, * 7 Data Width msb of this assembly *");
|
|
printf("%-3d : %02x %s\n", 8, spd->voltage,
|
|
" spd->voltage, * 8 Voltage intf std of this assembly *");
|
|
printf("%-3d : %02x %s\n", 9, spd->clk_cycle,
|
|
" spd->clk_cycle, * 9 SDRAM Cycle time at CL=X *");
|
|
printf("%-3d : %02x %s\n", 10, spd->clk_access,
|
|
" spd->clk_access, * 10 SDRAM Access from Clock at CL=X *");
|
|
printf("%-3d : %02x %s\n", 11, spd->config,
|
|
" spd->config, * 11 DIMM Configuration type *");
|
|
printf("%-3d : %02x %s\n", 12, spd->refresh,
|
|
" spd->refresh, * 12 Refresh Rate/Type *");
|
|
printf("%-3d : %02x %s\n", 13, spd->primw,
|
|
" spd->primw, * 13 Primary SDRAM Width *");
|
|
printf("%-3d : %02x %s\n", 14, spd->ecw,
|
|
" spd->ecw, * 14 Error Checking SDRAM width *");
|
|
printf("%-3d : %02x %s\n", 15, spd->min_delay,
|
|
" spd->min_delay, * 15 Back to Back Random Access *");
|
|
printf("%-3d : %02x %s\n", 16, spd->burstl,
|
|
" spd->burstl, * 16 Burst Lengths Supported *");
|
|
printf("%-3d : %02x %s\n", 17, spd->nbanks,
|
|
" spd->nbanks, * 17 # of Banks on Each SDRAM Device *");
|
|
printf("%-3d : %02x %s\n", 18, spd->cas_lat,
|
|
" spd->cas_lat, * 18 CAS# Latencies Supported *");
|
|
printf("%-3d : %02x %s\n", 19, spd->cs_lat,
|
|
" spd->cs_lat, * 19 Chip Select Latency *");
|
|
printf("%-3d : %02x %s\n", 20, spd->write_lat,
|
|
" spd->write_lat, * 20 Write Latency/Recovery *");
|
|
printf("%-3d : %02x %s\n", 21, spd->mod_attr,
|
|
" spd->mod_attr, * 21 SDRAM Module Attributes *");
|
|
printf("%-3d : %02x %s\n", 22, spd->dev_attr,
|
|
" spd->dev_attr, * 22 SDRAM Device Attributes *");
|
|
printf("%-3d : %02x %s\n", 23, spd->clk_cycle2,
|
|
" spd->clk_cycle2, * 23 Min SDRAM Cycle time at CL=X-1 *");
|
|
printf("%-3d : %02x %s\n", 24, spd->clk_access2,
|
|
" spd->clk_access2, * 24 SDRAM Access from Clock at CL=X-1 *");
|
|
printf("%-3d : %02x %s\n", 25, spd->clk_cycle3,
|
|
" spd->clk_cycle3, * 25 Min SDRAM Cycle time at CL=X-2 *");
|
|
printf("%-3d : %02x %s\n", 26, spd->clk_access3,
|
|
" spd->clk_access3, * 26 Max Access from Clock at CL=X-2 *");
|
|
printf("%-3d : %02x %s\n", 27, spd->trp,
|
|
" spd->trp, * 27 Min Row Precharge Time (tRP)*");
|
|
printf("%-3d : %02x %s\n", 28, spd->trrd,
|
|
" spd->trrd, * 28 Min Row Active to Row Active (tRRD) *");
|
|
printf("%-3d : %02x %s\n", 29, spd->trcd,
|
|
" spd->trcd, * 29 Min RAS to CAS Delay (tRCD) *");
|
|
printf("%-3d : %02x %s\n", 30, spd->tras,
|
|
" spd->tras, * 30 Minimum RAS Pulse Width (tRAS) *");
|
|
printf("%-3d : %02x %s\n", 31, spd->bank_dens,
|
|
" spd->bank_dens, * 31 Density of each bank on module *");
|
|
printf("%-3d : %02x %s\n", 32, spd->ca_setup,
|
|
" spd->ca_setup, * 32 Cmd + Addr signal input setup time *");
|
|
printf("%-3d : %02x %s\n", 33, spd->ca_hold,
|
|
" spd->ca_hold, * 33 Cmd and Addr signal input hold time *");
|
|
printf("%-3d : %02x %s\n", 34, spd->data_setup,
|
|
" spd->data_setup, * 34 Data signal input setup time *");
|
|
printf("%-3d : %02x %s\n", 35, spd->data_hold,
|
|
" spd->data_hold, * 35 Data signal input hold time *");
|
|
printf("%-3d : %02x %s\n", 36, spd->res_36_40[0],
|
|
" spd->res_36_40[0], * 36 Reserved / tWR *");
|
|
printf("%-3d : %02x %s\n", 37, spd->res_36_40[1],
|
|
" spd->res_36_40[1], * 37 Reserved / tWTR *");
|
|
printf("%-3d : %02x %s\n", 38, spd->res_36_40[2],
|
|
" spd->res_36_40[2], * 38 Reserved / tRTP *");
|
|
printf("%-3d : %02x %s\n", 39, spd->res_36_40[3],
|
|
" spd->res_36_40[3], * 39 Reserved / mem_probe *");
|
|
printf("%-3d : %02x %s\n", 40, spd->res_36_40[4],
|
|
" spd->res_36_40[4], * 40 Reserved / trc,trfc extensions *");
|
|
printf("%-3d : %02x %s\n", 41, spd->trc,
|
|
" spd->trc, * 41 Min Active to Auto refresh time tRC *");
|
|
printf("%-3d : %02x %s\n", 42, spd->trfc,
|
|
" spd->trfc, * 42 Min Auto to Active period tRFC *");
|
|
printf("%-3d : %02x %s\n", 43, spd->tckmax,
|
|
" spd->tckmax, * 43 Max device cycle time tCKmax *");
|
|
printf("%-3d : %02x %s\n", 44, spd->tdqsq,
|
|
" spd->tdqsq, * 44 Max DQS to DQ skew *");
|
|
printf("%-3d : %02x %s\n", 45, spd->tqhs,
|
|
" spd->tqhs, * 45 Max Read DataHold skew tQHS *");
|
|
printf("%-3d : %02x %s\n", 46, spd->res_46,
|
|
" spd->res_46, * 46 Reserved/ PLL Relock time *");
|
|
printf("%-3d : %02x %s\n", 47, spd->dimm_height,
|
|
" spd->dimm_height * 47 SDRAM DIMM Height *");
|
|
|
|
printf("%-3d-%3d: ", 48, 61);
|
|
|
|
for (i = 0; i < 14; i++)
|
|
printf("%02x", spd->res_48_61[i]);
|
|
|
|
printf(" * 48-61 IDD in SPD and Reserved space *\n");
|
|
|
|
printf("%-3d : %02x %s\n", 62, spd->spd_rev,
|
|
" spd->spd_rev, * 62 SPD Data Revision Code *");
|
|
printf("%-3d : %02x %s\n", 63, spd->cksum,
|
|
" spd->cksum, * 63 Checksum for bytes 0-62 *");
|
|
printf("%-3d-%3d: ", 64, 71);
|
|
|
|
for (i = 0; i < 8; i++)
|
|
printf("%02x", spd->mid[i]);
|
|
|
|
printf("* 64 Mfr's JEDEC ID code per JEP-108E *\n");
|
|
printf("%-3d : %02x %s\n", 72, spd->mloc,
|
|
" spd->mloc, * 72 Manufacturing Location *");
|
|
|
|
printf("%-3d-%3d: >>", 73, 90);
|
|
|
|
for (i = 0; i < 18; i++)
|
|
printf("%c", spd->mpart[i]);
|
|
|
|
printf("<<* 73 Manufacturer's Part Number *\n");
|
|
|
|
printf("%-3d-%3d: %02x %02x %s\n", 91, 92, spd->rev[0], spd->rev[1],
|
|
"* 91 Revision Code *");
|
|
printf("%-3d-%3d: %02x %02x %s\n", 93, 94, spd->mdate[0], spd->mdate[1],
|
|
"* 93 Manufacturing Date *");
|
|
printf("%-3d-%3d: ", 95, 98);
|
|
|
|
for (i = 0; i < 4; i++)
|
|
printf("%02x", spd->sernum[i]);
|
|
|
|
printf("* 95 Assembly Serial Number *\n");
|
|
|
|
printf("%-3d-%3d: ", 99, 127);
|
|
|
|
for (i = 0; i < 27; i++)
|
|
printf("%02x", spd->mspec[i]);
|
|
|
|
printf("* 99 Manufacturer Specific Data *\n");
|
|
}
|
|
#endif
|
|
|
|
#ifdef CONFIG_SYS_FSL_DDR2
|
|
void ddr2_spd_dump(const ddr2_spd_eeprom_t *spd)
|
|
{
|
|
unsigned int i;
|
|
|
|
printf("%-3d : %02x %s\n", 0, spd->info_size,
|
|
" spd->info_size, * 0 # bytes written into serial memory *");
|
|
printf("%-3d : %02x %s\n", 1, spd->chip_size,
|
|
" spd->chip_size, * 1 Total # bytes of SPD memory device *");
|
|
printf("%-3d : %02x %s\n", 2, spd->mem_type,
|
|
" spd->mem_type, * 2 Fundamental memory type *");
|
|
printf("%-3d : %02x %s\n", 3, spd->nrow_addr,
|
|
" spd->nrow_addr, * 3 # of Row Addresses on this assembly *");
|
|
printf("%-3d : %02x %s\n", 4, spd->ncol_addr,
|
|
" spd->ncol_addr, * 4 # of Column Addrs on this assembly *");
|
|
printf("%-3d : %02x %s\n", 5, spd->mod_ranks,
|
|
" spd->mod_ranks * 5 # of Module Rows on this assembly *");
|
|
printf("%-3d : %02x %s\n", 6, spd->dataw,
|
|
" spd->dataw, * 6 Data Width of this assembly *");
|
|
printf("%-3d : %02x %s\n", 7, spd->res_7,
|
|
" spd->res_7, * 7 Reserved *");
|
|
printf("%-3d : %02x %s\n", 8, spd->voltage,
|
|
" spd->voltage, * 8 Voltage intf std of this assembly *");
|
|
printf("%-3d : %02x %s\n", 9, spd->clk_cycle,
|
|
" spd->clk_cycle, * 9 SDRAM Cycle time at CL=X *");
|
|
printf("%-3d : %02x %s\n", 10, spd->clk_access,
|
|
" spd->clk_access, * 10 SDRAM Access from Clock at CL=X *");
|
|
printf("%-3d : %02x %s\n", 11, spd->config,
|
|
" spd->config, * 11 DIMM Configuration type *");
|
|
printf("%-3d : %02x %s\n", 12, spd->refresh,
|
|
" spd->refresh, * 12 Refresh Rate/Type *");
|
|
printf("%-3d : %02x %s\n", 13, spd->primw,
|
|
" spd->primw, * 13 Primary SDRAM Width *");
|
|
printf("%-3d : %02x %s\n", 14, spd->ecw,
|
|
" spd->ecw, * 14 Error Checking SDRAM width *");
|
|
printf("%-3d : %02x %s\n", 15, spd->res_15,
|
|
" spd->res_15, * 15 Reserved *");
|
|
printf("%-3d : %02x %s\n", 16, spd->burstl,
|
|
" spd->burstl, * 16 Burst Lengths Supported *");
|
|
printf("%-3d : %02x %s\n", 17, spd->nbanks,
|
|
" spd->nbanks, * 17 # of Banks on Each SDRAM Device *");
|
|
printf("%-3d : %02x %s\n", 18, spd->cas_lat,
|
|
" spd->cas_lat, * 18 CAS# Latencies Supported *");
|
|
printf("%-3d : %02x %s\n", 19, spd->mech_char,
|
|
" spd->mech_char, * 19 Mechanical Characteristics *");
|
|
printf("%-3d : %02x %s\n", 20, spd->dimm_type,
|
|
" spd->dimm_type, * 20 DIMM type *");
|
|
printf("%-3d : %02x %s\n", 21, spd->mod_attr,
|
|
" spd->mod_attr, * 21 SDRAM Module Attributes *");
|
|
printf("%-3d : %02x %s\n", 22, spd->dev_attr,
|
|
" spd->dev_attr, * 22 SDRAM Device Attributes *");
|
|
printf("%-3d : %02x %s\n", 23, spd->clk_cycle2,
|
|
" spd->clk_cycle2, * 23 Min SDRAM Cycle time at CL=X-1 *");
|
|
printf("%-3d : %02x %s\n", 24, spd->clk_access2,
|
|
" spd->clk_access2, * 24 SDRAM Access from Clock at CL=X-1 *");
|
|
printf("%-3d : %02x %s\n", 25, spd->clk_cycle3,
|
|
" spd->clk_cycle3, * 25 Min SDRAM Cycle time at CL=X-2 *");
|
|
printf("%-3d : %02x %s\n", 26, spd->clk_access3,
|
|
" spd->clk_access3, * 26 Max Access from Clock at CL=X-2 *");
|
|
printf("%-3d : %02x %s\n", 27, spd->trp,
|
|
" spd->trp, * 27 Min Row Precharge Time (tRP)*");
|
|
printf("%-3d : %02x %s\n", 28, spd->trrd,
|
|
" spd->trrd, * 28 Min Row Active to Row Active (tRRD) *");
|
|
printf("%-3d : %02x %s\n", 29, spd->trcd,
|
|
" spd->trcd, * 29 Min RAS to CAS Delay (tRCD) *");
|
|
printf("%-3d : %02x %s\n", 30, spd->tras,
|
|
" spd->tras, * 30 Minimum RAS Pulse Width (tRAS) *");
|
|
printf("%-3d : %02x %s\n", 31, spd->rank_dens,
|
|
" spd->rank_dens, * 31 Density of each rank on module *");
|
|
printf("%-3d : %02x %s\n", 32, spd->ca_setup,
|
|
" spd->ca_setup, * 32 Cmd + Addr signal input setup time *");
|
|
printf("%-3d : %02x %s\n", 33, spd->ca_hold,
|
|
" spd->ca_hold, * 33 Cmd and Addr signal input hold time *");
|
|
printf("%-3d : %02x %s\n", 34, spd->data_setup,
|
|
" spd->data_setup, * 34 Data signal input setup time *");
|
|
printf("%-3d : %02x %s\n", 35, spd->data_hold,
|
|
" spd->data_hold, * 35 Data signal input hold time *");
|
|
printf("%-3d : %02x %s\n", 36, spd->twr,
|
|
" spd->twr, * 36 Write Recovery time tWR *");
|
|
printf("%-3d : %02x %s\n", 37, spd->twtr,
|
|
" spd->twtr, * 37 Int write to read delay tWTR *");
|
|
printf("%-3d : %02x %s\n", 38, spd->trtp,
|
|
" spd->trtp, * 38 Int read to precharge delay tRTP *");
|
|
printf("%-3d : %02x %s\n", 39, spd->mem_probe,
|
|
" spd->mem_probe, * 39 Mem analysis probe characteristics *");
|
|
printf("%-3d : %02x %s\n", 40, spd->trctrfc_ext,
|
|
" spd->trctrfc_ext, * 40 Extensions to trc and trfc *");
|
|
printf("%-3d : %02x %s\n", 41, spd->trc,
|
|
" spd->trc, * 41 Min Active to Auto refresh time tRC *");
|
|
printf("%-3d : %02x %s\n", 42, spd->trfc,
|
|
" spd->trfc, * 42 Min Auto to Active period tRFC *");
|
|
printf("%-3d : %02x %s\n", 43, spd->tckmax,
|
|
" spd->tckmax, * 43 Max device cycle time tCKmax *");
|
|
printf("%-3d : %02x %s\n", 44, spd->tdqsq,
|
|
" spd->tdqsq, * 44 Max DQS to DQ skew *");
|
|
printf("%-3d : %02x %s\n", 45, spd->tqhs,
|
|
" spd->tqhs, * 45 Max Read DataHold skew tQHS *");
|
|
printf("%-3d : %02x %s\n", 46, spd->pll_relock,
|
|
" spd->pll_relock, * 46 PLL Relock time *");
|
|
printf("%-3d : %02x %s\n", 47, spd->t_casemax,
|
|
" spd->t_casemax, * 47 t_casemax *");
|
|
printf("%-3d : %02x %s\n", 48, spd->psi_ta_dram,
|
|
" spd->psi_ta_dram, * 48 Thermal Resistance of DRAM Package "
|
|
"from Top (Case) to Ambient (Psi T-A DRAM) *");
|
|
printf("%-3d : %02x %s\n", 49, spd->dt0_mode,
|
|
" spd->dt0_mode, * 49 DRAM Case Temperature Rise from "
|
|
"Ambient due to Activate-Precharge/Mode Bits "
|
|
"(DT0/Mode Bits) *)");
|
|
printf("%-3d : %02x %s\n", 50, spd->dt2n_dt2q,
|
|
" spd->dt2n_dt2q, * 50 DRAM Case Temperature Rise from "
|
|
"Ambient due to Precharge/Quiet Standby "
|
|
"(DT2N/DT2Q) *");
|
|
printf("%-3d : %02x %s\n", 51, spd->dt2p,
|
|
" spd->dt2p, * 51 DRAM Case Temperature Rise from "
|
|
"Ambient due to Precharge Power-Down (DT2P) *");
|
|
printf("%-3d : %02x %s\n", 52, spd->dt3n,
|
|
" spd->dt3n, * 52 DRAM Case Temperature Rise from "
|
|
"Ambient due to Active Standby (DT3N) *");
|
|
printf("%-3d : %02x %s\n", 53, spd->dt3pfast,
|
|
" spd->dt3pfast, * 53 DRAM Case Temperature Rise from "
|
|
"Ambient due to Active Power-Down with Fast PDN Exit "
|
|
"(DT3Pfast) *");
|
|
printf("%-3d : %02x %s\n", 54, spd->dt3pslow,
|
|
" spd->dt3pslow, * 54 DRAM Case Temperature Rise from "
|
|
"Ambient due to Active Power-Down with Slow PDN Exit "
|
|
"(DT3Pslow) *");
|
|
printf("%-3d : %02x %s\n", 55, spd->dt4r_dt4r4w,
|
|
" spd->dt4r_dt4r4w, * 55 DRAM Case Temperature Rise from "
|
|
"Ambient due to Page Open Burst Read/DT4R4W Mode Bit "
|
|
"(DT4R/DT4R4W Mode Bit) *");
|
|
printf("%-3d : %02x %s\n", 56, spd->dt5b,
|
|
" spd->dt5b, * 56 DRAM Case Temperature Rise from "
|
|
"Ambient due to Burst Refresh (DT5B) *");
|
|
printf("%-3d : %02x %s\n", 57, spd->dt7,
|
|
" spd->dt7, * 57 DRAM Case Temperature Rise from "
|
|
"Ambient due to Bank Interleave Reads with "
|
|
"Auto-Precharge (DT7) *");
|
|
printf("%-3d : %02x %s\n", 58, spd->psi_ta_pll,
|
|
" spd->psi_ta_pll, * 58 Thermal Resistance of PLL Package form"
|
|
" Top (Case) to Ambient (Psi T-A PLL) *");
|
|
printf("%-3d : %02x %s\n", 59, spd->psi_ta_reg,
|
|
" spd->psi_ta_reg, * 59 Thermal Reisitance of Register Package"
|
|
" from Top (Case) to Ambient (Psi T-A Register) *");
|
|
printf("%-3d : %02x %s\n", 60, spd->dtpllactive,
|
|
" spd->dtpllactive, * 60 PLL Case Temperature Rise from "
|
|
"Ambient due to PLL Active (DT PLL Active) *");
|
|
printf("%-3d : %02x %s\n", 61, spd->dtregact,
|
|
" spd->dtregact, "
|
|
"* 61 Register Case Temperature Rise from Ambient due to "
|
|
"Register Active/Mode Bit (DT Register Active/Mode Bit) *");
|
|
printf("%-3d : %02x %s\n", 62, spd->spd_rev,
|
|
" spd->spd_rev, * 62 SPD Data Revision Code *");
|
|
printf("%-3d : %02x %s\n", 63, spd->cksum,
|
|
" spd->cksum, * 63 Checksum for bytes 0-62 *");
|
|
|
|
printf("%-3d-%3d: ", 64, 71);
|
|
|
|
for (i = 0; i < 8; i++)
|
|
printf("%02x", spd->mid[i]);
|
|
|
|
printf("* 64 Mfr's JEDEC ID code per JEP-108E *\n");
|
|
|
|
printf("%-3d : %02x %s\n", 72, spd->mloc,
|
|
" spd->mloc, * 72 Manufacturing Location *");
|
|
|
|
printf("%-3d-%3d: >>", 73, 90);
|
|
for (i = 0; i < 18; i++)
|
|
printf("%c", spd->mpart[i]);
|
|
|
|
|
|
printf("<<* 73 Manufacturer's Part Number *\n");
|
|
|
|
printf("%-3d-%3d: %02x %02x %s\n", 91, 92, spd->rev[0], spd->rev[1],
|
|
"* 91 Revision Code *");
|
|
printf("%-3d-%3d: %02x %02x %s\n", 93, 94, spd->mdate[0], spd->mdate[1],
|
|
"* 93 Manufacturing Date *");
|
|
printf("%-3d-%3d: ", 95, 98);
|
|
|
|
for (i = 0; i < 4; i++)
|
|
printf("%02x", spd->sernum[i]);
|
|
|
|
printf("* 95 Assembly Serial Number *\n");
|
|
|
|
printf("%-3d-%3d: ", 99, 127);
|
|
for (i = 0; i < 27; i++)
|
|
printf("%02x", spd->mspec[i]);
|
|
|
|
|
|
printf("* 99 Manufacturer Specific Data *\n");
|
|
}
|
|
#endif
|
|
|
|
#ifdef CONFIG_SYS_FSL_DDR3
|
|
void ddr3_spd_dump(const ddr3_spd_eeprom_t *spd)
|
|
{
|
|
unsigned int i;
|
|
|
|
/* General Section: Bytes 0-59 */
|
|
|
|
#define PRINT_NXS(x, y, z...) printf("%-3d : %02x " z "\n", x, (u8)y);
|
|
#define PRINT_NNXXS(n0, n1, x0, x1, s) \
|
|
printf("%-3d-%3d: %02x %02x " s "\n", n0, n1, x0, x1);
|
|
|
|
PRINT_NXS(0, spd->info_size_crc,
|
|
"info_size_crc bytes written into serial memory, "
|
|
"CRC coverage");
|
|
PRINT_NXS(1, spd->spd_rev,
|
|
"spd_rev SPD Revision");
|
|
PRINT_NXS(2, spd->mem_type,
|
|
"mem_type Key Byte / DRAM Device Type");
|
|
PRINT_NXS(3, spd->module_type,
|
|
"module_type Key Byte / Module Type");
|
|
PRINT_NXS(4, spd->density_banks,
|
|
"density_banks SDRAM Density and Banks");
|
|
PRINT_NXS(5, spd->addressing,
|
|
"addressing SDRAM Addressing");
|
|
PRINT_NXS(6, spd->module_vdd,
|
|
"module_vdd Module Nominal Voltage, VDD");
|
|
PRINT_NXS(7, spd->organization,
|
|
"organization Module Organization");
|
|
PRINT_NXS(8, spd->bus_width,
|
|
"bus_width Module Memory Bus Width");
|
|
PRINT_NXS(9, spd->ftb_div,
|
|
"ftb_div Fine Timebase (FTB) Dividend / Divisor");
|
|
PRINT_NXS(10, spd->mtb_dividend,
|
|
"mtb_dividend Medium Timebase (MTB) Dividend");
|
|
PRINT_NXS(11, spd->mtb_divisor,
|
|
"mtb_divisor Medium Timebase (MTB) Divisor");
|
|
PRINT_NXS(12, spd->tck_min,
|
|
"tck_min SDRAM Minimum Cycle Time");
|
|
PRINT_NXS(13, spd->res_13,
|
|
"res_13 Reserved");
|
|
PRINT_NXS(14, spd->caslat_lsb,
|
|
"caslat_lsb CAS Latencies Supported, LSB");
|
|
PRINT_NXS(15, spd->caslat_msb,
|
|
"caslat_msb CAS Latencies Supported, MSB");
|
|
PRINT_NXS(16, spd->taa_min,
|
|
"taa_min Min CAS Latency Time");
|
|
PRINT_NXS(17, spd->twr_min,
|
|
"twr_min Min Write REcovery Time");
|
|
PRINT_NXS(18, spd->trcd_min,
|
|
"trcd_min Min RAS# to CAS# Delay Time");
|
|
PRINT_NXS(19, spd->trrd_min,
|
|
"trrd_min Min Row Active to Row Active Delay Time");
|
|
PRINT_NXS(20, spd->trp_min,
|
|
"trp_min Min Row Precharge Delay Time");
|
|
PRINT_NXS(21, spd->tras_trc_ext,
|
|
"tras_trc_ext Upper Nibbles for tRAS and tRC");
|
|
PRINT_NXS(22, spd->tras_min_lsb,
|
|
"tras_min_lsb Min Active to Precharge Delay Time, LSB");
|
|
PRINT_NXS(23, spd->trc_min_lsb,
|
|
"trc_min_lsb Min Active to Active/Refresh Delay Time, LSB");
|
|
PRINT_NXS(24, spd->trfc_min_lsb,
|
|
"trfc_min_lsb Min Refresh Recovery Delay Time LSB");
|
|
PRINT_NXS(25, spd->trfc_min_msb,
|
|
"trfc_min_msb Min Refresh Recovery Delay Time MSB");
|
|
PRINT_NXS(26, spd->twtr_min,
|
|
"twtr_min Min Internal Write to Read Command Delay Time");
|
|
PRINT_NXS(27, spd->trtp_min,
|
|
"trtp_min "
|
|
"Min Internal Read to Precharge Command Delay Time");
|
|
PRINT_NXS(28, spd->tfaw_msb,
|
|
"tfaw_msb Upper Nibble for tFAW");
|
|
PRINT_NXS(29, spd->tfaw_min,
|
|
"tfaw_min Min Four Activate Window Delay Time");
|
|
PRINT_NXS(30, spd->opt_features,
|
|
"opt_features SDRAM Optional Features");
|
|
PRINT_NXS(31, spd->therm_ref_opt,
|
|
"therm_ref_opt SDRAM Thermal and Refresh Opts");
|
|
PRINT_NXS(32, spd->therm_sensor,
|
|
"therm_sensor SDRAM Thermal Sensor");
|
|
PRINT_NXS(33, spd->device_type,
|
|
"device_type SDRAM Device Type");
|
|
PRINT_NXS(34, spd->fine_tck_min,
|
|
"fine_tck_min Fine offset for tCKmin");
|
|
PRINT_NXS(35, spd->fine_taa_min,
|
|
"fine_taa_min Fine offset for tAAmin");
|
|
PRINT_NXS(36, spd->fine_trcd_min,
|
|
"fine_trcd_min Fine offset for tRCDmin");
|
|
PRINT_NXS(37, spd->fine_trp_min,
|
|
"fine_trp_min Fine offset for tRPmin");
|
|
PRINT_NXS(38, spd->fine_trc_min,
|
|
"fine_trc_min Fine offset for tRCmin");
|
|
|
|
printf("%-3d-%3d: ", 39, 59); /* Reserved, General Section */
|
|
|
|
for (i = 39; i <= 59; i++)
|
|
printf("%02x ", spd->res_39_59[i - 39]);
|
|
|
|
puts("\n");
|
|
|
|
switch (spd->module_type) {
|
|
case 0x02: /* UDIMM */
|
|
case 0x03: /* SO-DIMM */
|
|
case 0x04: /* Micro-DIMM */
|
|
case 0x06: /* Mini-UDIMM */
|
|
PRINT_NXS(60, spd->mod_section.unbuffered.mod_height,
|
|
"mod_height (Unbuffered) Module Nominal Height");
|
|
PRINT_NXS(61, spd->mod_section.unbuffered.mod_thickness,
|
|
"mod_thickness (Unbuffered) Module Maximum Thickness");
|
|
PRINT_NXS(62, spd->mod_section.unbuffered.ref_raw_card,
|
|
"ref_raw_card (Unbuffered) Reference Raw Card Used");
|
|
PRINT_NXS(63, spd->mod_section.unbuffered.addr_mapping,
|
|
"addr_mapping (Unbuffered) Address mapping from "
|
|
"Edge Connector to DRAM");
|
|
break;
|
|
case 0x01: /* RDIMM */
|
|
case 0x05: /* Mini-RDIMM */
|
|
PRINT_NXS(60, spd->mod_section.registered.mod_height,
|
|
"mod_height (Registered) Module Nominal Height");
|
|
PRINT_NXS(61, spd->mod_section.registered.mod_thickness,
|
|
"mod_thickness (Registered) Module Maximum Thickness");
|
|
PRINT_NXS(62, spd->mod_section.registered.ref_raw_card,
|
|
"ref_raw_card (Registered) Reference Raw Card Used");
|
|
PRINT_NXS(63, spd->mod_section.registered.modu_attr,
|
|
"modu_attr (Registered) DIMM Module Attributes");
|
|
PRINT_NXS(64, spd->mod_section.registered.thermal,
|
|
"thermal (Registered) Thermal Heat "
|
|
"Spreader Solution");
|
|
PRINT_NXS(65, spd->mod_section.registered.reg_id_lo,
|
|
"reg_id_lo (Registered) Register Manufacturer ID "
|
|
"Code, LSB");
|
|
PRINT_NXS(66, spd->mod_section.registered.reg_id_hi,
|
|
"reg_id_hi (Registered) Register Manufacturer ID "
|
|
"Code, MSB");
|
|
PRINT_NXS(67, spd->mod_section.registered.reg_rev,
|
|
"reg_rev (Registered) Register "
|
|
"Revision Number");
|
|
PRINT_NXS(68, spd->mod_section.registered.reg_type,
|
|
"reg_type (Registered) Register Type");
|
|
for (i = 69; i <= 76; i++) {
|
|
printf("%-3d : %02x rcw[%d]\n", i,
|
|
spd->mod_section.registered.rcw[i-69], i-69);
|
|
}
|
|
break;
|
|
default:
|
|
/* Module-specific Section, Unsupported Module Type */
|
|
printf("%-3d-%3d: ", 60, 116);
|
|
|
|
for (i = 60; i <= 116; i++)
|
|
printf("%02x", spd->mod_section.uc[i - 60]);
|
|
|
|
break;
|
|
}
|
|
|
|
/* Unique Module ID: Bytes 117-125 */
|
|
PRINT_NXS(117, spd->mmid_lsb, "Module MfgID Code LSB - JEP-106");
|
|
PRINT_NXS(118, spd->mmid_msb, "Module MfgID Code MSB - JEP-106");
|
|
PRINT_NXS(119, spd->mloc, "Mfg Location");
|
|
PRINT_NNXXS(120, 121, spd->mdate[0], spd->mdate[1], "Mfg Date");
|
|
|
|
printf("%-3d-%3d: ", 122, 125);
|
|
|
|
for (i = 122; i <= 125; i++)
|
|
printf("%02x ", spd->sernum[i - 122]);
|
|
printf(" Module Serial Number\n");
|
|
|
|
/* CRC: Bytes 126-127 */
|
|
PRINT_NNXXS(126, 127, spd->crc[0], spd->crc[1], " SPD CRC");
|
|
|
|
/* Other Manufacturer Fields and User Space: Bytes 128-255 */
|
|
printf("%-3d-%3d: ", 128, 145);
|
|
for (i = 128; i <= 145; i++)
|
|
printf("%02x ", spd->mpart[i - 128]);
|
|
printf(" Mfg's Module Part Number\n");
|
|
|
|
PRINT_NNXXS(146, 147, spd->mrev[0], spd->mrev[1],
|
|
"Module Revision code");
|
|
|
|
PRINT_NXS(148, spd->dmid_lsb, "DRAM MfgID Code LSB - JEP-106");
|
|
PRINT_NXS(149, spd->dmid_msb, "DRAM MfgID Code MSB - JEP-106");
|
|
|
|
printf("%-3d-%3d: ", 150, 175);
|
|
for (i = 150; i <= 175; i++)
|
|
printf("%02x ", spd->msd[i - 150]);
|
|
printf(" Mfg's Specific Data\n");
|
|
|
|
printf("%-3d-%3d: ", 176, 255);
|
|
for (i = 176; i <= 255; i++)
|
|
printf("%02x", spd->cust[i - 176]);
|
|
printf(" Mfg's Specific Data\n");
|
|
|
|
}
|
|
#endif
|
|
|
|
#ifdef CONFIG_SYS_FSL_DDR4
|
|
void ddr4_spd_dump(const struct ddr4_spd_eeprom_s *spd)
|
|
{
|
|
unsigned int i;
|
|
|
|
/* General Section: Bytes 0-127 */
|
|
|
|
#define PRINT_NXS(x, y, z...) printf("%-3d : %02x " z "\n", x, (u8)y);
|
|
#define PRINT_NNXXS(n0, n1, x0, x1, s) \
|
|
printf("%-3d-%3d: %02x %02x " s "\n", n0, n1, x0, x1);
|
|
|
|
PRINT_NXS(0, spd->info_size_crc,
|
|
"info_size_crc bytes written into serial memory, CRC coverage");
|
|
PRINT_NXS(1, spd->spd_rev,
|
|
"spd_rev SPD Revision");
|
|
PRINT_NXS(2, spd->mem_type,
|
|
"mem_type Key Byte / DRAM Device Type");
|
|
PRINT_NXS(3, spd->module_type,
|
|
"module_type Key Byte / Module Type");
|
|
PRINT_NXS(4, spd->density_banks,
|
|
"density_banks SDRAM Density and Banks");
|
|
PRINT_NXS(5, spd->addressing,
|
|
"addressing SDRAM Addressing");
|
|
PRINT_NXS(6, spd->package_type,
|
|
"package_type Package type");
|
|
PRINT_NXS(7, spd->opt_feature,
|
|
"opt_feature Optional features");
|
|
PRINT_NXS(8, spd->thermal_ref,
|
|
"thermal_ref Thermal and Refresh options");
|
|
PRINT_NXS(9, spd->oth_opt_features,
|
|
"oth_opt_features Other SDRAM optional features");
|
|
PRINT_NXS(10, spd->res_10,
|
|
"res_10 Reserved");
|
|
PRINT_NXS(11, spd->module_vdd,
|
|
"module_vdd Module Nominal Voltage, VDD");
|
|
PRINT_NXS(12, spd->organization,
|
|
"organization Module Organization");
|
|
PRINT_NXS(13, spd->bus_width,
|
|
"bus_width Module Memory Bus Width");
|
|
PRINT_NXS(14, spd->therm_sensor,
|
|
"therm_sensor Module Thermal Sensor");
|
|
PRINT_NXS(15, spd->ext_type,
|
|
"ext_type Extended module type");
|
|
PRINT_NXS(16, spd->res_16,
|
|
"res_16 Reserved");
|
|
PRINT_NXS(17, spd->timebases,
|
|
"timebases MTb and FTB");
|
|
PRINT_NXS(18, spd->tck_min,
|
|
"tck_min tCKAVGmin");
|
|
PRINT_NXS(19, spd->tck_max,
|
|
"tck_max TCKAVGmax");
|
|
PRINT_NXS(20, spd->caslat_b1,
|
|
"caslat_b1 CAS latencies, 1st byte");
|
|
PRINT_NXS(21, spd->caslat_b2,
|
|
"caslat_b2 CAS latencies, 2nd byte");
|
|
PRINT_NXS(22, spd->caslat_b3,
|
|
"caslat_b3 CAS latencies, 3rd byte ");
|
|
PRINT_NXS(23, spd->caslat_b4,
|
|
"caslat_b4 CAS latencies, 4th byte");
|
|
PRINT_NXS(24, spd->taa_min,
|
|
"taa_min Min CAS Latency Time");
|
|
PRINT_NXS(25, spd->trcd_min,
|
|
"trcd_min Min RAS# to CAS# Delay Time");
|
|
PRINT_NXS(26, spd->trp_min,
|
|
"trp_min Min Row Precharge Delay Time");
|
|
PRINT_NXS(27, spd->tras_trc_ext,
|
|
"tras_trc_ext Upper Nibbles for tRAS and tRC");
|
|
PRINT_NXS(28, spd->tras_min_lsb,
|
|
"tras_min_lsb tRASmin, lsb");
|
|
PRINT_NXS(29, spd->trc_min_lsb,
|
|
"trc_min_lsb tRCmin, lsb");
|
|
PRINT_NXS(30, spd->trfc1_min_lsb,
|
|
"trfc1_min_lsb Min Refresh Recovery Delay Time, LSB");
|
|
PRINT_NXS(31, spd->trfc1_min_msb,
|
|
"trfc1_min_msb Min Refresh Recovery Delay Time, MSB ");
|
|
PRINT_NXS(32, spd->trfc2_min_lsb,
|
|
"trfc2_min_lsb Min Refresh Recovery Delay Time, LSB");
|
|
PRINT_NXS(33, spd->trfc2_min_msb,
|
|
"trfc2_min_msb Min Refresh Recovery Delay Time, MSB");
|
|
PRINT_NXS(34, spd->trfc4_min_lsb,
|
|
"trfc4_min_lsb Min Refresh Recovery Delay Time, LSB");
|
|
PRINT_NXS(35, spd->trfc4_min_msb,
|
|
"trfc4_min_msb Min Refresh Recovery Delay Time, MSB");
|
|
PRINT_NXS(36, spd->tfaw_msb,
|
|
"tfaw_msb Upper Nibble for tFAW");
|
|
PRINT_NXS(37, spd->tfaw_min,
|
|
"tfaw_min tFAW, lsb");
|
|
PRINT_NXS(38, spd->trrds_min,
|
|
"trrds_min tRRD_Smin, MTB");
|
|
PRINT_NXS(39, spd->trrdl_min,
|
|
"trrdl_min tRRD_Lmin, MTB");
|
|
PRINT_NXS(40, spd->tccdl_min,
|
|
"tccdl_min tCCS_Lmin, MTB");
|
|
|
|
printf("%-3d-%3d: ", 41, 59); /* Reserved, General Section */
|
|
for (i = 41; i <= 59; i++)
|
|
printf("%02x ", spd->res_41[i - 41]);
|
|
|
|
puts("\n");
|
|
printf("%-3d-%3d: ", 60, 77);
|
|
for (i = 60; i <= 77; i++)
|
|
printf("%02x ", spd->mapping[i - 60]);
|
|
puts(" mapping[] Connector to SDRAM bit map\n");
|
|
|
|
PRINT_NXS(117, spd->fine_tccdl_min,
|
|
"fine_tccdl_min Fine offset for tCCD_Lmin");
|
|
PRINT_NXS(118, spd->fine_trrdl_min,
|
|
"fine_trrdl_min Fine offset for tRRD_Lmin");
|
|
PRINT_NXS(119, spd->fine_trrds_min,
|
|
"fine_trrds_min Fine offset for tRRD_Smin");
|
|
PRINT_NXS(120, spd->fine_trc_min,
|
|
"fine_trc_min Fine offset for tRCmin");
|
|
PRINT_NXS(121, spd->fine_trp_min,
|
|
"fine_trp_min Fine offset for tRPmin");
|
|
PRINT_NXS(122, spd->fine_trcd_min,
|
|
"fine_trcd_min Fine offset for tRCDmin");
|
|
PRINT_NXS(123, spd->fine_taa_min,
|
|
"fine_taa_min Fine offset for tAAmin");
|
|
PRINT_NXS(124, spd->fine_tck_max,
|
|
"fine_tck_max Fine offset for tCKAVGmax");
|
|
PRINT_NXS(125, spd->fine_tck_min,
|
|
"fine_tck_min Fine offset for tCKAVGmin");
|
|
|
|
/* CRC: Bytes 126-127 */
|
|
PRINT_NNXXS(126, 127, spd->crc[0], spd->crc[1], " SPD CRC");
|
|
|
|
switch (spd->module_type) {
|
|
case 0x02: /* UDIMM */
|
|
case 0x03: /* SO-DIMM */
|
|
PRINT_NXS(128, spd->mod_section.unbuffered.mod_height,
|
|
"mod_height (Unbuffered) Module Nominal Height");
|
|
PRINT_NXS(129, spd->mod_section.unbuffered.mod_thickness,
|
|
"mod_thickness (Unbuffered) Module Maximum Thickness");
|
|
PRINT_NXS(130, spd->mod_section.unbuffered.ref_raw_card,
|
|
"ref_raw_card (Unbuffered) Reference Raw Card Used");
|
|
PRINT_NXS(131, spd->mod_section.unbuffered.addr_mapping,
|
|
"addr_mapping (Unbuffered) Address mapping from Edge Connector to DRAM");
|
|
PRINT_NNXXS(254, 255, spd->mod_section.unbuffered.crc[0],
|
|
spd->mod_section.unbuffered.crc[1], " Module CRC");
|
|
break;
|
|
case 0x01: /* RDIMM */
|
|
PRINT_NXS(128, spd->mod_section.registered.mod_height,
|
|
"mod_height (Registered) Module Nominal Height");
|
|
PRINT_NXS(129, spd->mod_section.registered.mod_thickness,
|
|
"mod_thickness (Registered) Module Maximum Thickness");
|
|
PRINT_NXS(130, spd->mod_section.registered.ref_raw_card,
|
|
"ref_raw_card (Registered) Reference Raw Card Used");
|
|
PRINT_NXS(131, spd->mod_section.registered.modu_attr,
|
|
"modu_attr (Registered) DIMM Module Attributes");
|
|
PRINT_NXS(132, spd->mod_section.registered.thermal,
|
|
"thermal (Registered) Thermal Heat Spreader Solution");
|
|
PRINT_NXS(133, spd->mod_section.registered.reg_id_lo,
|
|
"reg_id_lo (Registered) Register Manufacturer ID Code, LSB");
|
|
PRINT_NXS(134, spd->mod_section.registered.reg_id_hi,
|
|
"reg_id_hi (Registered) Register Manufacturer ID Code, MSB");
|
|
PRINT_NXS(135, spd->mod_section.registered.reg_rev,
|
|
"reg_rev (Registered) Register Revision Number");
|
|
PRINT_NXS(136, spd->mod_section.registered.reg_map,
|
|
"reg_map (Registered) Address mapping");
|
|
PRINT_NNXXS(254, 255, spd->mod_section.registered.crc[0],
|
|
spd->mod_section.registered.crc[1], " Module CRC");
|
|
break;
|
|
case 0x04: /* LRDIMM */
|
|
PRINT_NXS(128, spd->mod_section.loadreduced.mod_height,
|
|
"mod_height (Loadreduced) Module Nominal Height");
|
|
PRINT_NXS(129, spd->mod_section.loadreduced.mod_thickness,
|
|
"mod_thickness (Loadreduced) Module Maximum Thickness");
|
|
PRINT_NXS(130, spd->mod_section.loadreduced.ref_raw_card,
|
|
"ref_raw_card (Loadreduced) Reference Raw Card Used");
|
|
PRINT_NXS(131, spd->mod_section.loadreduced.modu_attr,
|
|
"modu_attr (Loadreduced) DIMM Module Attributes");
|
|
PRINT_NXS(132, spd->mod_section.loadreduced.thermal,
|
|
"thermal (Loadreduced) Thermal Heat Spreader Solution");
|
|
PRINT_NXS(133, spd->mod_section.loadreduced.reg_id_lo,
|
|
"reg_id_lo (Loadreduced) Register Manufacturer ID Code, LSB");
|
|
PRINT_NXS(134, spd->mod_section.loadreduced.reg_id_hi,
|
|
"reg_id_hi (Loadreduced) Register Manufacturer ID Code, MSB");
|
|
PRINT_NXS(135, spd->mod_section.loadreduced.reg_rev,
|
|
"reg_rev (Loadreduced) Register Revision Number");
|
|
PRINT_NXS(136, spd->mod_section.loadreduced.reg_map,
|
|
"reg_map (Loadreduced) Address mapping");
|
|
PRINT_NXS(137, spd->mod_section.loadreduced.reg_drv,
|
|
"reg_drv (Loadreduced) Reg output drive strength");
|
|
PRINT_NXS(138, spd->mod_section.loadreduced.reg_drv_ck,
|
|
"reg_drv_ck (Loadreduced) Reg output drive strength for CK");
|
|
PRINT_NXS(139, spd->mod_section.loadreduced.data_buf_rev,
|
|
"data_buf_rev (Loadreduced) Data Buffer Revision Numbe");
|
|
PRINT_NXS(140, spd->mod_section.loadreduced.vrefqe_r0,
|
|
"vrefqe_r0 (Loadreduced) DRAM VrefDQ for Package Rank 0");
|
|
PRINT_NXS(141, spd->mod_section.loadreduced.vrefqe_r1,
|
|
"vrefqe_r1 (Loadreduced) DRAM VrefDQ for Package Rank 1");
|
|
PRINT_NXS(142, spd->mod_section.loadreduced.vrefqe_r2,
|
|
"vrefqe_r2 (Loadreduced) DRAM VrefDQ for Package Rank 2");
|
|
PRINT_NXS(143, spd->mod_section.loadreduced.vrefqe_r3,
|
|
"vrefqe_r3 (Loadreduced) DRAM VrefDQ for Package Rank 3");
|
|
PRINT_NXS(144, spd->mod_section.loadreduced.data_intf,
|
|
"data_intf (Loadreduced) Data Buffer VrefDQ for DRAM Interface");
|
|
PRINT_NXS(145, spd->mod_section.loadreduced.data_drv_1866,
|
|
"data_drv_1866 (Loadreduced) Data Buffer MDQ Drive Strength and RTT");
|
|
PRINT_NXS(146, spd->mod_section.loadreduced.data_drv_2400,
|
|
"data_drv_2400 (Loadreduced) Data Buffer MDQ Drive Strength and RTT");
|
|
PRINT_NXS(147, spd->mod_section.loadreduced.data_drv_3200,
|
|
"data_drv_3200 (Loadreduced) Data Buffer MDQ Drive Strength and RTT");
|
|
PRINT_NXS(148, spd->mod_section.loadreduced.dram_drv,
|
|
"dram_drv (Loadreduced) DRAM Drive Strength");
|
|
PRINT_NXS(149, spd->mod_section.loadreduced.dram_odt_1866,
|
|
"dram_odt_1866 (Loadreduced) DRAM ODT (RTT_WR, RTT_NOM)");
|
|
PRINT_NXS(150, spd->mod_section.loadreduced.dram_odt_2400,
|
|
"dram_odt_2400 (Loadreduced) DRAM ODT (RTT_WR, RTT_NOM)");
|
|
PRINT_NXS(151, spd->mod_section.loadreduced.dram_odt_3200,
|
|
"dram_odt_3200 (Loadreduced) DRAM ODT (RTT_WR, RTT_NOM)");
|
|
PRINT_NXS(152, spd->mod_section.loadreduced.dram_odt_park_1866,
|
|
"dram_odt_park_1866 (Loadreduced) DRAM ODT (RTT_PARK)");
|
|
PRINT_NXS(153, spd->mod_section.loadreduced.dram_odt_park_2400,
|
|
"dram_odt_park_2400 (Loadreduced) DRAM ODT (RTT_PARK)");
|
|
PRINT_NXS(154, spd->mod_section.loadreduced.dram_odt_park_3200,
|
|
"dram_odt_park_3200 (Loadreduced) DRAM ODT (RTT_PARK)");
|
|
PRINT_NNXXS(254, 255, spd->mod_section.loadreduced.crc[0],
|
|
spd->mod_section.loadreduced.crc[1],
|
|
" Module CRC");
|
|
break;
|
|
default:
|
|
/* Module-specific Section, Unsupported Module Type */
|
|
printf("%-3d-%3d: ", 128, 255);
|
|
|
|
for (i = 128; i <= 255; i++)
|
|
printf("%02x", spd->mod_section.uc[i - 128]);
|
|
|
|
break;
|
|
}
|
|
|
|
/* Unique Module ID: Bytes 320-383 */
|
|
PRINT_NXS(320, spd->mmid_lsb, "Module MfgID Code LSB - JEP-106");
|
|
PRINT_NXS(321, spd->mmid_msb, "Module MfgID Code MSB - JEP-106");
|
|
PRINT_NXS(322, spd->mloc, "Mfg Location");
|
|
PRINT_NNXXS(323, 324, spd->mdate[0], spd->mdate[1], "Mfg Date");
|
|
|
|
printf("%-3d-%3d: ", 325, 328);
|
|
|
|
for (i = 325; i <= 328; i++)
|
|
printf("%02x ", spd->sernum[i - 325]);
|
|
printf(" Module Serial Number\n");
|
|
|
|
printf("%-3d-%3d: ", 329, 348);
|
|
for (i = 329; i <= 348; i++)
|
|
printf("%02x ", spd->mpart[i - 329]);
|
|
printf(" Mfg's Module Part Number\n");
|
|
|
|
PRINT_NXS(349, spd->mrev, "Module Revision code");
|
|
PRINT_NXS(350, spd->dmid_lsb, "DRAM MfgID Code LSB - JEP-106");
|
|
PRINT_NXS(351, spd->dmid_msb, "DRAM MfgID Code MSB - JEP-106");
|
|
PRINT_NXS(352, spd->stepping, "DRAM stepping");
|
|
|
|
printf("%-3d-%3d: ", 353, 381);
|
|
for (i = 353; i <= 381; i++)
|
|
printf("%02x ", spd->msd[i - 353]);
|
|
printf(" Mfg's Specific Data\n");
|
|
}
|
|
#endif
|
|
|
|
static inline void generic_spd_dump(const generic_spd_eeprom_t *spd)
|
|
{
|
|
#if defined(CONFIG_SYS_FSL_DDR1)
|
|
ddr1_spd_dump(spd);
|
|
#elif defined(CONFIG_SYS_FSL_DDR2)
|
|
ddr2_spd_dump(spd);
|
|
#elif defined(CONFIG_SYS_FSL_DDR3)
|
|
ddr3_spd_dump(spd);
|
|
#elif defined(CONFIG_SYS_FSL_DDR4)
|
|
ddr4_spd_dump(spd);
|
|
#endif
|
|
}
|
|
|
|
static void fsl_ddr_printinfo(const fsl_ddr_info_t *pinfo,
|
|
unsigned int ctrl_mask,
|
|
unsigned int dimm_mask,
|
|
unsigned int do_mask)
|
|
{
|
|
unsigned int i, j, retval;
|
|
|
|
/* STEP 1: DIMM SPD data */
|
|
if (do_mask & STEP_GET_SPD) {
|
|
for (i = 0; i < CONFIG_NUM_DDR_CONTROLLERS; i++) {
|
|
if (!(ctrl_mask & (1 << i)))
|
|
continue;
|
|
|
|
for (j = 0; j < CONFIG_DIMM_SLOTS_PER_CTLR; j++) {
|
|
if (!(dimm_mask & (1 << j)))
|
|
continue;
|
|
|
|
printf("SPD info: Controller=%u "
|
|
"DIMM=%u\n", i, j);
|
|
generic_spd_dump(
|
|
&(pinfo->spd_installed_dimms[i][j]));
|
|
printf("\n");
|
|
}
|
|
printf("\n");
|
|
}
|
|
printf("\n");
|
|
}
|
|
|
|
/* STEP 2: DIMM Parameters */
|
|
if (do_mask & STEP_COMPUTE_DIMM_PARMS) {
|
|
for (i = 0; i < CONFIG_NUM_DDR_CONTROLLERS; i++) {
|
|
if (!(ctrl_mask & (1 << i)))
|
|
continue;
|
|
for (j = 0; j < CONFIG_DIMM_SLOTS_PER_CTLR; j++) {
|
|
if (!(dimm_mask & (1 << j)))
|
|
continue;
|
|
printf("DIMM parameters: Controller=%u "
|
|
"DIMM=%u\n", i, j);
|
|
print_dimm_parameters(
|
|
&(pinfo->dimm_params[i][j]));
|
|
printf("\n");
|
|
}
|
|
printf("\n");
|
|
}
|
|
printf("\n");
|
|
}
|
|
|
|
/* STEP 3: Common Parameters */
|
|
if (do_mask & STEP_COMPUTE_COMMON_PARMS) {
|
|
for (i = 0; i < CONFIG_NUM_DDR_CONTROLLERS; i++) {
|
|
if (!(ctrl_mask & (1 << i)))
|
|
continue;
|
|
printf("\"lowest common\" DIMM parameters: "
|
|
"Controller=%u\n", i);
|
|
print_lowest_common_dimm_parameters(
|
|
&pinfo->common_timing_params[i]);
|
|
printf("\n");
|
|
}
|
|
printf("\n");
|
|
}
|
|
|
|
/* STEP 4: User Configuration Options */
|
|
if (do_mask & STEP_GATHER_OPTS) {
|
|
for (i = 0; i < CONFIG_NUM_DDR_CONTROLLERS; i++) {
|
|
if (!(ctrl_mask & (1 << i)))
|
|
continue;
|
|
printf("User Config Options: Controller=%u\n", i);
|
|
print_memctl_options(&pinfo->memctl_opts[i]);
|
|
printf("\n");
|
|
}
|
|
printf("\n");
|
|
}
|
|
|
|
/* STEP 5: Address assignment */
|
|
if (do_mask & STEP_ASSIGN_ADDRESSES) {
|
|
for (i = 0; i < CONFIG_NUM_DDR_CONTROLLERS; i++) {
|
|
if (!(ctrl_mask & (1 << i)))
|
|
continue;
|
|
for (j = 0; j < CONFIG_DIMM_SLOTS_PER_CTLR; j++) {
|
|
printf("Address Assignment: Controller=%u "
|
|
"DIMM=%u\n", i, j);
|
|
printf("Don't have this functionality yet\n");
|
|
}
|
|
printf("\n");
|
|
}
|
|
printf("\n");
|
|
}
|
|
|
|
/* STEP 6: computed controller register values */
|
|
if (do_mask & STEP_COMPUTE_REGS) {
|
|
for (i = 0; i < CONFIG_NUM_DDR_CONTROLLERS; i++) {
|
|
if (!(ctrl_mask & (1 << i)))
|
|
continue;
|
|
printf("Computed Register Values: Controller=%u\n", i);
|
|
print_fsl_memctl_config_regs(
|
|
&pinfo->fsl_ddr_config_reg[i]);
|
|
retval = check_fsl_memctl_config_regs(
|
|
&pinfo->fsl_ddr_config_reg[i]);
|
|
if (retval) {
|
|
printf("check_fsl_memctl_config_regs "
|
|
"result = %u\n", retval);
|
|
}
|
|
printf("\n");
|
|
}
|
|
printf("\n");
|
|
}
|
|
}
|
|
|
|
struct data_strings {
|
|
const char *data_name;
|
|
unsigned int step_mask;
|
|
unsigned int dimm_number_required;
|
|
};
|
|
|
|
#define DATA_OPTIONS(name, step, dimm) {#name, step, dimm}
|
|
|
|
static unsigned int fsl_ddr_parse_interactive_cmd(
|
|
char **argv,
|
|
int argc,
|
|
unsigned int *pstep_mask,
|
|
unsigned int *pctlr_mask,
|
|
unsigned int *pdimm_mask,
|
|
unsigned int *pdimm_number_required
|
|
) {
|
|
|
|
static const struct data_strings options[] = {
|
|
DATA_OPTIONS(spd, STEP_GET_SPD, 1),
|
|
DATA_OPTIONS(dimmparms, STEP_COMPUTE_DIMM_PARMS, 1),
|
|
DATA_OPTIONS(commonparms, STEP_COMPUTE_COMMON_PARMS, 0),
|
|
DATA_OPTIONS(opts, STEP_GATHER_OPTS, 0),
|
|
DATA_OPTIONS(addresses, STEP_ASSIGN_ADDRESSES, 0),
|
|
DATA_OPTIONS(regs, STEP_COMPUTE_REGS, 0),
|
|
};
|
|
static const unsigned int n_opts = ARRAY_SIZE(options);
|
|
|
|
unsigned int i, j;
|
|
unsigned int error = 0;
|
|
|
|
for (i = 1; i < argc; i++) {
|
|
unsigned int matched = 0;
|
|
|
|
for (j = 0; j < n_opts; j++) {
|
|
if (strcmp(options[j].data_name, argv[i]) != 0)
|
|
continue;
|
|
*pstep_mask |= options[j].step_mask;
|
|
*pdimm_number_required =
|
|
options[j].dimm_number_required;
|
|
matched = 1;
|
|
break;
|
|
}
|
|
|
|
if (matched)
|
|
continue;
|
|
|
|
if (argv[i][0] == 'c') {
|
|
char c = argv[i][1];
|
|
if (isdigit(c))
|
|
*pctlr_mask |= 1 << (c - '0');
|
|
continue;
|
|
}
|
|
|
|
if (argv[i][0] == 'd') {
|
|
char c = argv[i][1];
|
|
if (isdigit(c))
|
|
*pdimm_mask |= 1 << (c - '0');
|
|
continue;
|
|
}
|
|
|
|
printf("unknown arg %s\n", argv[i]);
|
|
*pstep_mask = 0;
|
|
error = 1;
|
|
break;
|
|
}
|
|
|
|
return error;
|
|
}
|
|
|
|
int fsl_ddr_interactive_env_var_exists(void)
|
|
{
|
|
char buffer[CONFIG_SYS_CBSIZE];
|
|
|
|
if (getenv_f("ddr_interactive", buffer, CONFIG_SYS_CBSIZE) >= 0)
|
|
return 1;
|
|
|
|
return 0;
|
|
}
|
|
|
|
unsigned long long fsl_ddr_interactive(fsl_ddr_info_t *pinfo, int var_is_set)
|
|
{
|
|
unsigned long long ddrsize;
|
|
const char *prompt = "FSL DDR>";
|
|
char buffer[CONFIG_SYS_CBSIZE];
|
|
char buffer2[CONFIG_SYS_CBSIZE];
|
|
char *p = NULL;
|
|
char *argv[CONFIG_SYS_MAXARGS + 1]; /* NULL terminated */
|
|
int argc;
|
|
unsigned int next_step = STEP_GET_SPD;
|
|
const char *usage = {
|
|
"commands:\n"
|
|
"print print SPD and intermediate computed data\n"
|
|
"reset reboot machine\n"
|
|
"recompute reload SPD and options to default and recompute regs\n"
|
|
"edit modify spd, parameter, or option\n"
|
|
"compute recompute registers from current next_step to end\n"
|
|
"copy copy parameters\n"
|
|
"next_step shows current next_step\n"
|
|
"help this message\n"
|
|
"go program the memory controller and continue with u-boot\n"
|
|
};
|
|
|
|
if (var_is_set) {
|
|
if (getenv_f("ddr_interactive", buffer2, CONFIG_SYS_CBSIZE) > 0) {
|
|
p = buffer2;
|
|
} else {
|
|
var_is_set = 0;
|
|
}
|
|
}
|
|
|
|
/*
|
|
* The strategy for next_step is that it points to the next
|
|
* step in the computation process that needs to be done.
|
|
*/
|
|
while (1) {
|
|
if (var_is_set) {
|
|
char *pend = strchr(p, ';');
|
|
if (pend) {
|
|
/* found command separator, copy sub-command */
|
|
*pend = '\0';
|
|
strcpy(buffer, p);
|
|
p = pend + 1;
|
|
} else {
|
|
/* separator not found, copy whole string */
|
|
strcpy(buffer, p);
|
|
p = NULL;
|
|
var_is_set = 0;
|
|
}
|
|
} else {
|
|
/*
|
|
* No need to worry for buffer overflow here in
|
|
* this function; cli_readline() maxes out at
|
|
* CFG_CBSIZE
|
|
*/
|
|
cli_readline_into_buffer(prompt, buffer, 0);
|
|
}
|
|
argc = cli_simple_parse_line(buffer, argv);
|
|
if (argc == 0)
|
|
continue;
|
|
|
|
|
|
if (strcmp(argv[0], "help") == 0) {
|
|
puts(usage);
|
|
continue;
|
|
}
|
|
|
|
if (strcmp(argv[0], "next_step") == 0) {
|
|
printf("next_step = 0x%02X (%s)\n",
|
|
next_step,
|
|
step_to_string(next_step));
|
|
continue;
|
|
}
|
|
|
|
if (strcmp(argv[0], "copy") == 0) {
|
|
unsigned int error = 0;
|
|
unsigned int step_mask = 0;
|
|
unsigned int src_ctlr_mask = 0;
|
|
unsigned int src_dimm_mask = 0;
|
|
unsigned int dimm_number_required = 0;
|
|
unsigned int src_ctlr_num = 0;
|
|
unsigned int src_dimm_num = 0;
|
|
unsigned int dst_ctlr_num = -1;
|
|
unsigned int dst_dimm_num = -1;
|
|
unsigned int i, num_dest_parms;
|
|
|
|
if (argc == 1) {
|
|
printf("copy <src c#> <src d#> <spd|dimmparms|commonparms|opts|addresses|regs> <dst c#> <dst d#>\n");
|
|
continue;
|
|
}
|
|
|
|
error = fsl_ddr_parse_interactive_cmd(
|
|
argv, argc,
|
|
&step_mask,
|
|
&src_ctlr_mask,
|
|
&src_dimm_mask,
|
|
&dimm_number_required
|
|
);
|
|
|
|
/* XXX: only dimm_number_required and step_mask will
|
|
be used by this function. Parse the controller and
|
|
DIMM number separately because it is easier. */
|
|
|
|
if (error)
|
|
continue;
|
|
|
|
/* parse source destination controller / DIMM */
|
|
|
|
num_dest_parms = dimm_number_required ? 2 : 1;
|
|
|
|
for (i = 0; i < argc; i++) {
|
|
if (argv[i][0] == 'c') {
|
|
char c = argv[i][1];
|
|
if (isdigit(c)) {
|
|
src_ctlr_num = (c - '0');
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
|
|
for (i = 0; i < argc; i++) {
|
|
if (argv[i][0] == 'd') {
|
|
char c = argv[i][1];
|
|
if (isdigit(c)) {
|
|
src_dimm_num = (c - '0');
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
|
|
/* parse destination controller / DIMM */
|
|
|
|
for (i = argc - 1; i >= argc - num_dest_parms; i--) {
|
|
if (argv[i][0] == 'c') {
|
|
char c = argv[i][1];
|
|
if (isdigit(c)) {
|
|
dst_ctlr_num = (c - '0');
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
|
|
for (i = argc - 1; i >= argc - num_dest_parms; i--) {
|
|
if (argv[i][0] == 'd') {
|
|
char c = argv[i][1];
|
|
if (isdigit(c)) {
|
|
dst_dimm_num = (c - '0');
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
|
|
/* TODO: validate inputs */
|
|
|
|
debug("src_ctlr_num = %u, src_dimm_num = %u, dst_ctlr_num = %u, dst_dimm_num = %u, step_mask = %x\n",
|
|
src_ctlr_num, src_dimm_num, dst_ctlr_num, dst_dimm_num, step_mask);
|
|
|
|
|
|
switch (step_mask) {
|
|
|
|
case STEP_GET_SPD:
|
|
memcpy(&(pinfo->spd_installed_dimms[dst_ctlr_num][dst_dimm_num]),
|
|
&(pinfo->spd_installed_dimms[src_ctlr_num][src_dimm_num]),
|
|
sizeof(pinfo->spd_installed_dimms[0][0]));
|
|
break;
|
|
|
|
case STEP_COMPUTE_DIMM_PARMS:
|
|
memcpy(&(pinfo->dimm_params[dst_ctlr_num][dst_dimm_num]),
|
|
&(pinfo->dimm_params[src_ctlr_num][src_dimm_num]),
|
|
sizeof(pinfo->dimm_params[0][0]));
|
|
break;
|
|
|
|
case STEP_COMPUTE_COMMON_PARMS:
|
|
memcpy(&(pinfo->common_timing_params[dst_ctlr_num]),
|
|
&(pinfo->common_timing_params[src_ctlr_num]),
|
|
sizeof(pinfo->common_timing_params[0]));
|
|
break;
|
|
|
|
case STEP_GATHER_OPTS:
|
|
memcpy(&(pinfo->memctl_opts[dst_ctlr_num]),
|
|
&(pinfo->memctl_opts[src_ctlr_num]),
|
|
sizeof(pinfo->memctl_opts[0]));
|
|
break;
|
|
|
|
/* someday be able to have addresses to copy addresses... */
|
|
|
|
case STEP_COMPUTE_REGS:
|
|
memcpy(&(pinfo->fsl_ddr_config_reg[dst_ctlr_num]),
|
|
&(pinfo->fsl_ddr_config_reg[src_ctlr_num]),
|
|
sizeof(pinfo->memctl_opts[0]));
|
|
break;
|
|
|
|
default:
|
|
printf("unexpected step_mask value\n");
|
|
}
|
|
|
|
continue;
|
|
|
|
}
|
|
|
|
if (strcmp(argv[0], "edit") == 0) {
|
|
unsigned int error = 0;
|
|
unsigned int step_mask = 0;
|
|
unsigned int ctlr_mask = 0;
|
|
unsigned int dimm_mask = 0;
|
|
char *p_element = NULL;
|
|
char *p_value = NULL;
|
|
unsigned int dimm_number_required = 0;
|
|
unsigned int ctrl_num;
|
|
unsigned int dimm_num;
|
|
|
|
if (argc == 1) {
|
|
/* Only the element and value must be last */
|
|
printf("edit <c#> <d#> "
|
|
"<spd|dimmparms|commonparms|opts|"
|
|
"addresses|regs> <element> <value>\n");
|
|
printf("for spd, specify byte number for "
|
|
"element\n");
|
|
continue;
|
|
}
|
|
|
|
error = fsl_ddr_parse_interactive_cmd(
|
|
argv, argc - 2,
|
|
&step_mask,
|
|
&ctlr_mask,
|
|
&dimm_mask,
|
|
&dimm_number_required
|
|
);
|
|
|
|
if (error)
|
|
continue;
|
|
|
|
|
|
/* Check arguments */
|
|
|
|
/* ERROR: If no steps were found */
|
|
if (step_mask == 0) {
|
|
printf("Error: No valid steps were specified "
|
|
"in argument.\n");
|
|
continue;
|
|
}
|
|
|
|
/* ERROR: If multiple steps were found */
|
|
if (step_mask & (step_mask - 1)) {
|
|
printf("Error: Multiple steps specified in "
|
|
"argument.\n");
|
|
continue;
|
|
}
|
|
|
|
/* ERROR: Controller not specified */
|
|
if (ctlr_mask == 0) {
|
|
printf("Error: controller number not "
|
|
"specified or no element and "
|
|
"value specified\n");
|
|
continue;
|
|
}
|
|
|
|
if (ctlr_mask & (ctlr_mask - 1)) {
|
|
printf("Error: multiple controllers "
|
|
"specified, %X\n", ctlr_mask);
|
|
continue;
|
|
}
|
|
|
|
/* ERROR: DIMM number not specified */
|
|
if (dimm_number_required && dimm_mask == 0) {
|
|
printf("Error: DIMM number number not "
|
|
"specified or no element and "
|
|
"value specified\n");
|
|
continue;
|
|
}
|
|
|
|
if (dimm_mask & (dimm_mask - 1)) {
|
|
printf("Error: multipled DIMMs specified\n");
|
|
continue;
|
|
}
|
|
|
|
p_element = argv[argc - 2];
|
|
p_value = argv[argc - 1];
|
|
|
|
ctrl_num = __ilog2(ctlr_mask);
|
|
dimm_num = __ilog2(dimm_mask);
|
|
|
|
switch (step_mask) {
|
|
case STEP_GET_SPD:
|
|
{
|
|
unsigned int element_num;
|
|
unsigned int value;
|
|
|
|
element_num = simple_strtoul(p_element,
|
|
NULL, 0);
|
|
value = simple_strtoul(p_value,
|
|
NULL, 0);
|
|
fsl_ddr_spd_edit(pinfo,
|
|
ctrl_num,
|
|
dimm_num,
|
|
element_num,
|
|
value);
|
|
next_step = STEP_COMPUTE_DIMM_PARMS;
|
|
}
|
|
break;
|
|
|
|
case STEP_COMPUTE_DIMM_PARMS:
|
|
fsl_ddr_dimm_parameters_edit(
|
|
pinfo, ctrl_num, dimm_num,
|
|
p_element, p_value);
|
|
next_step = STEP_COMPUTE_COMMON_PARMS;
|
|
break;
|
|
|
|
case STEP_COMPUTE_COMMON_PARMS:
|
|
lowest_common_dimm_parameters_edit(pinfo,
|
|
ctrl_num, p_element, p_value);
|
|
next_step = STEP_GATHER_OPTS;
|
|
break;
|
|
|
|
case STEP_GATHER_OPTS:
|
|
fsl_ddr_options_edit(pinfo, ctrl_num,
|
|
p_element, p_value);
|
|
next_step = STEP_ASSIGN_ADDRESSES;
|
|
break;
|
|
|
|
case STEP_ASSIGN_ADDRESSES:
|
|
printf("editing of address assignment "
|
|
"not yet implemented\n");
|
|
break;
|
|
|
|
case STEP_COMPUTE_REGS:
|
|
{
|
|
fsl_ddr_regs_edit(pinfo,
|
|
ctrl_num,
|
|
p_element,
|
|
p_value);
|
|
next_step = STEP_PROGRAM_REGS;
|
|
}
|
|
break;
|
|
|
|
default:
|
|
printf("programming error\n");
|
|
while (1)
|
|
;
|
|
break;
|
|
}
|
|
continue;
|
|
}
|
|
|
|
if (strcmp(argv[0], "reset") == 0) {
|
|
/*
|
|
* Reboot machine.
|
|
* Args don't seem to matter because this
|
|
* doesn't return
|
|
*/
|
|
do_reset(NULL, 0, 0, NULL);
|
|
printf("Reset didn't work\n");
|
|
}
|
|
|
|
if (strcmp(argv[0], "recompute") == 0) {
|
|
/*
|
|
* Recalculate everything, starting with
|
|
* loading SPD EEPROM from DIMMs
|
|
*/
|
|
next_step = STEP_GET_SPD;
|
|
ddrsize = fsl_ddr_compute(pinfo, next_step, 0);
|
|
continue;
|
|
}
|
|
|
|
if (strcmp(argv[0], "compute") == 0) {
|
|
/*
|
|
* Compute rest of steps starting at
|
|
* the current next_step/
|
|
*/
|
|
ddrsize = fsl_ddr_compute(pinfo, next_step, 0);
|
|
continue;
|
|
}
|
|
|
|
if (strcmp(argv[0], "print") == 0) {
|
|
unsigned int error = 0;
|
|
unsigned int step_mask = 0;
|
|
unsigned int ctlr_mask = 0;
|
|
unsigned int dimm_mask = 0;
|
|
unsigned int dimm_number_required = 0;
|
|
|
|
if (argc == 1) {
|
|
printf("print [c<n>] [d<n>] [spd] [dimmparms] "
|
|
"[commonparms] [opts] [addresses] [regs]\n");
|
|
continue;
|
|
}
|
|
|
|
error = fsl_ddr_parse_interactive_cmd(
|
|
argv, argc,
|
|
&step_mask,
|
|
&ctlr_mask,
|
|
&dimm_mask,
|
|
&dimm_number_required
|
|
);
|
|
|
|
if (error)
|
|
continue;
|
|
|
|
/* If no particular controller was found, print all */
|
|
if (ctlr_mask == 0)
|
|
ctlr_mask = 0xFF;
|
|
|
|
/* If no particular dimm was found, print all dimms. */
|
|
if (dimm_mask == 0)
|
|
dimm_mask = 0xFF;
|
|
|
|
/* If no steps were found, print all steps. */
|
|
if (step_mask == 0)
|
|
step_mask = STEP_ALL;
|
|
|
|
fsl_ddr_printinfo(pinfo, ctlr_mask,
|
|
dimm_mask, step_mask);
|
|
continue;
|
|
}
|
|
|
|
if (strcmp(argv[0], "go") == 0) {
|
|
if (next_step)
|
|
ddrsize = fsl_ddr_compute(pinfo, next_step, 0);
|
|
break;
|
|
}
|
|
|
|
printf("unknown command %s\n", argv[0]);
|
|
}
|
|
|
|
debug("end of memory = %llu\n", (u64)ddrsize);
|
|
|
|
return ddrsize;
|
|
}
|