[U-Boot] [Patch v3 2/2] powerpc/8xxx: Adding interactive DDR debugging
York Sun
yorksun at freescale.com
Fri May 27 01:32:51 CEST 2011
Use environment variable to activate the interactive DDR debugging.
Syntax:
setenv ddr_interactive on
After reset, U-boot prompts before initializing DDR controllers
FSL DDR>
The available commands are
print print SPD and intermediate computed data
reset reboot machine
recompute reload SPD and options to default and recompute regs
edit modify spd, parameter, or option
compute recompute registers from current next_step to end
next_step shows current next_step
help this message
go program the memory controller and continue with u-boot
Signed-off-by: York Sun <yorksun at freescale.com>
---
arch/powerpc/cpu/mpc8xxx/ddr/Makefile | 1 +
arch/powerpc/cpu/mpc8xxx/ddr/ddr.h | 40 +-
arch/powerpc/cpu/mpc8xxx/ddr/interactive.c | 1824 ++++++++++++++++++++++++++++
arch/powerpc/cpu/mpc8xxx/ddr/main.c | 9 +-
doc/README.fsl-ddr | 19 +
5 files changed, 1877 insertions(+), 16 deletions(-)
create mode 100644 arch/powerpc/cpu/mpc8xxx/ddr/interactive.c
diff --git a/arch/powerpc/cpu/mpc8xxx/ddr/Makefile b/arch/powerpc/cpu/mpc8xxx/ddr/Makefile
index d1b4c4b..169ffe0 100644
--- a/arch/powerpc/cpu/mpc8xxx/ddr/Makefile
+++ b/arch/powerpc/cpu/mpc8xxx/ddr/Makefile
@@ -30,6 +30,7 @@ COBJS-$(CONFIG_FSL_DDR2) += ddr2_dimm_params.o
COBJS-$(CONFIG_FSL_DDR3) += ddr3_dimm_params.o
endif
+COBJS-$(CONFIG_FSL_DDR_INTERACTIVE) += interactive.o
SRCS := $(START:.o=.S) $(SOBJS-y:.o=.S) $(COBJS-y:.o=.c)
OBJS := $(addprefix $(obj),$(SOBJS-y) $(COBJS-y))
diff --git a/arch/powerpc/cpu/mpc8xxx/ddr/ddr.h b/arch/powerpc/cpu/mpc8xxx/ddr/ddr.h
index f59aa33..c8b0f91 100644
--- a/arch/powerpc/cpu/mpc8xxx/ddr/ddr.h
+++ b/arch/powerpc/cpu/mpc8xxx/ddr/ddr.h
@@ -56,32 +56,46 @@ typedef struct {
#define STEP_PROGRAM_REGS (1 << 6)
#define STEP_ALL 0xFFF
-extern unsigned long long
+unsigned long long
fsl_ddr_compute(fsl_ddr_info_t *pinfo, unsigned int start_step,
unsigned int size_only);
-extern const char * step_to_string(unsigned int step);
+const char *step_to_string(unsigned int step);
-extern unsigned int
-compute_fsl_memctl_config_regs(const memctl_options_t *popts,
+unsigned int compute_fsl_memctl_config_regs(const memctl_options_t *popts,
fsl_ddr_cfg_regs_t *ddr,
const common_timing_params_t *common_dimm,
const dimm_params_t *dimm_parameters,
unsigned int dbw_capacity_adjust,
unsigned int size_only);
-extern unsigned int
-compute_lowest_common_dimm_parameters(const dimm_params_t *dimm_params,
- common_timing_params_t *outpdimm,
- unsigned int number_of_dimms);
-extern unsigned int populate_memctl_options(int all_DIMMs_registered,
+unsigned int compute_lowest_common_dimm_parameters(
+ const dimm_params_t *dimm_params,
+ common_timing_params_t *outpdimm,
+ unsigned int number_of_dimms);
+unsigned int populate_memctl_options(int all_DIMMs_registered,
memctl_options_t *popts,
dimm_params_t *pdimm,
unsigned int ctrl_num);
-extern void check_interleaving_options(fsl_ddr_info_t *pinfo);
+void check_interleaving_options(fsl_ddr_info_t *pinfo);
-extern unsigned int mclk_to_picos(unsigned int mclk);
-extern unsigned int get_memory_clk_period_ps(void);
-extern unsigned int picos_to_mclk(unsigned int picos);
+unsigned int mclk_to_picos(unsigned int mclk);
+unsigned int get_memory_clk_period_ps(void);
+unsigned int picos_to_mclk(unsigned int picos);
+void fsl_ddr_set_lawbar(
+ const common_timing_params_t *memctl_common_params,
+ unsigned int memctl_interleaved,
+ unsigned int ctrl_num);
+
+unsigned long long fsl_ddr_interactive(fsl_ddr_info_t *pinfo);
+void fsl_ddr_get_spd(generic_spd_eeprom_t *ctrl_dimms_spd,
+ unsigned int ctrl_num);
+
+int do_reset(cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[]);
+unsigned int check_fsl_memctl_config_regs(const fsl_ddr_cfg_regs_t *ddr);
+
+/* processor specific function */
+void fsl_ddr_set_memctl_regs(const fsl_ddr_cfg_regs_t *regs,
+ unsigned int ctrl_num);
/* board specific function */
int fsl_ddr_get_dimm_params(dimm_params_t *pdimm,
diff --git a/arch/powerpc/cpu/mpc8xxx/ddr/interactive.c b/arch/powerpc/cpu/mpc8xxx/ddr/interactive.c
new file mode 100644
index 0000000..f7d0ff7
--- /dev/null
+++ b/arch/powerpc/cpu/mpc8xxx/ddr/interactive.c
@@ -0,0 +1,1824 @@
+/*
+ * Copyright 2010-2011 Freescale Semiconductor, Inc.
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License
+ * Version 2 or any later versionas published by the Free Software Foundation.
+ */
+
+/*
+ * Generic driver for Freescale DDR/DDR2/DDR3 memory controller.
+ * Based on code from spd_sdram.c
+ * Author: James Yang [at freescale.com]
+ * York Sun [at freescale.com]
+ */
+
+#include <common.h>
+#include <linux/ctype.h>
+#include <asm/types.h>
+
+#include <asm/fsl_ddr_sdram.h>
+#include "ddr.h"
+
+/* Option parameter Structures */
+typedef struct {
+ const char *option_name;
+ size_t offset;
+ unsigned int size;
+ const char printHex;
+} options_strings_t;
+
+static unsigned int picos_to_mhz(unsigned int picos)
+{
+ return 1000000 / picos;
+}
+
+static void print_option_table(const options_strings_t *table,
+ int table_size,
+ const void *base)
+{
+ unsigned int i;
+ unsigned int *ptr;
+ unsigned long long *ptr_l;
+
+ for (i = 0; i < table_size; i++) {
+ switch (table[i].size) {
+ case 4:
+ ptr = (unsigned int *) (base + table[i].offset);
+ if (table[i].printHex) {
+ printf("%s = 0x%08X\n",
+ table[i].option_name, *ptr);
+ } else {
+ printf("%s = %u\n",
+ table[i].option_name, *ptr);
+ }
+ break;
+ case 8:
+ ptr_l = (unsigned long long *) (base + table[i].offset);
+ printf("%s = %llu\n",
+ table[i].option_name, *ptr_l);
+ break;
+ default:
+ printf("Unrecognized size!\n");
+ break;
+ }
+ }
+}
+
+static int handle_option_table(const options_strings_t *table,
+ int table_size,
+ void *base,
+ const char *opt,
+ const char *val)
+{
+ unsigned int i;
+ unsigned int value, *ptr;
+ unsigned long long value_l, *ptr_l;
+
+ for (i = 0; i < table_size; i++) {
+ if (strcmp(table[i].option_name, opt) != 0)
+ continue;
+ switch (table[i].size) {
+ case 4:
+ value = simple_strtoul(val, NULL, 0);
+ ptr = base + table[i].offset;
+ *ptr = value;
+ break;
+ case 8:
+ value_l = simple_strtoull(val, NULL, 0);
+ ptr_l = base + table[i].offset;
+ *ptr_l = value_l;
+ break;
+ default:
+ printf("Unrecognized size!\n");
+ break;
+ }
+ return 1;
+ }
+
+ return 0;
+}
+
+static void fsl_ddr_generic_edit(void *pdata,
+ void *pend,
+ unsigned int element_size,
+ unsigned int element_num,
+ unsigned int value)
+{
+ char *pcdata = (char *)pdata; /* BIG ENDIAN ONLY */
+
+ pcdata += element_num * element_size;
+ if ((pcdata + element_size) > (char *) pend) {
+ printf("trying to write past end of data\n");
+ return;
+ }
+
+ switch (element_size) {
+ case 1:
+ __raw_writeb(value, pcdata);
+ break;
+ case 2:
+ __raw_writew(value, pcdata);
+ break;
+ case 4:
+ __raw_writel(value, pcdata);
+ break;
+ default:
+ printf("unexpected element size %u\n", element_size);
+ break;
+ }
+}
+
+static void fsl_ddr_spd_edit(fsl_ddr_info_t *pinfo,
+ unsigned int ctrl_num,
+ unsigned int dimm_num,
+ unsigned int element_num,
+ unsigned int value)
+{
+ generic_spd_eeprom_t *pspd;
+
+ pspd = &(pinfo->spd_installed_dimms[ctrl_num][dimm_num]);
+ fsl_ddr_generic_edit(pspd, pspd + 1, 1, element_num, value);
+}
+
+#define COMMON_TIMING(x) {#x, offsetof(common_timing_params_t, x), \
+ sizeof((common_timing_params_t *)0)->x, 0}
+
+static void lowest_common_dimm_parameters_edit(fsl_ddr_info_t *pinfo,
+ unsigned int ctrl_num,
+ const char *optname_str,
+ const char *value_str)
+{
+ common_timing_params_t *p = &pinfo->common_timing_params[ctrl_num];
+
+ static const options_strings_t options[] = {
+ COMMON_TIMING(tCKmin_X_ps),
+ COMMON_TIMING(tCKmax_ps),
+ COMMON_TIMING(tCKmax_max_ps),
+ COMMON_TIMING(tRCD_ps),
+ COMMON_TIMING(tRP_ps),
+ COMMON_TIMING(tRAS_ps),
+ COMMON_TIMING(tWR_ps),
+ COMMON_TIMING(tWTR_ps),
+ COMMON_TIMING(tRFC_ps),
+ COMMON_TIMING(tRRD_ps),
+ COMMON_TIMING(tRC_ps),
+ COMMON_TIMING(refresh_rate_ps),
+ COMMON_TIMING(tIS_ps),
+ COMMON_TIMING(tIH_ps),
+ COMMON_TIMING(tDS_ps),
+ COMMON_TIMING(tDH_ps),
+ COMMON_TIMING(tRTP_ps),
+ COMMON_TIMING(tDQSQ_max_ps),
+ COMMON_TIMING(tQHS_ps),
+ COMMON_TIMING(ndimms_present),
+ COMMON_TIMING(lowest_common_SPD_caslat),
+ COMMON_TIMING(highest_common_derated_caslat),
+ COMMON_TIMING(additive_latency),
+ COMMON_TIMING(all_DIMMs_burst_lengths_bitmask),
+ COMMON_TIMING(all_DIMMs_registered),
+ COMMON_TIMING(all_DIMMs_unbuffered),
+ COMMON_TIMING(all_DIMMs_ECC_capable),
+ COMMON_TIMING(total_mem),
+ COMMON_TIMING(base_address),
+ };
+ static const unsigned int n_opts = ARRAY_SIZE(options);
+
+ if (handle_option_table(options, n_opts, p, optname_str, value_str))
+ return;
+
+ printf("Error: couldn't find option string %s\n", optname_str);
+}
+
+#define DIMM_PARM(x) {#x, offsetof(dimm_params_t, x), \
+ sizeof((dimm_params_t *)0)->x, 0}
+
+static void fsl_ddr_dimm_parameters_edit(fsl_ddr_info_t *pinfo,
+ unsigned int ctrl_num,
+ unsigned int dimm_num,
+ const char *optname_str,
+ const char *value_str)
+{
+ dimm_params_t *p = &(pinfo->dimm_params[ctrl_num][dimm_num]);
+
+ static const options_strings_t options[] = {
+ DIMM_PARM(n_ranks),
+ DIMM_PARM(data_width),
+ DIMM_PARM(primary_sdram_width),
+ DIMM_PARM(ec_sdram_width),
+ DIMM_PARM(registered_dimm),
+
+ DIMM_PARM(n_row_addr),
+ DIMM_PARM(n_col_addr),
+ DIMM_PARM(edc_config),
+ DIMM_PARM(n_banks_per_sdram_device),
+ DIMM_PARM(burst_lengths_bitmask),
+ DIMM_PARM(row_density),
+
+ DIMM_PARM(tCKmin_X_ps),
+ DIMM_PARM(tCKmin_X_minus_1_ps),
+ DIMM_PARM(tCKmin_X_minus_2_ps),
+ DIMM_PARM(tCKmax_ps),
+
+ DIMM_PARM(caslat_X),
+ DIMM_PARM(caslat_X_minus_1),
+ DIMM_PARM(caslat_X_minus_2),
+
+ DIMM_PARM(caslat_lowest_derated),
+
+ DIMM_PARM(tRCD_ps),
+ DIMM_PARM(tRP_ps),
+ DIMM_PARM(tRAS_ps),
+ DIMM_PARM(tWR_ps),
+ DIMM_PARM(tWTR_ps),
+ DIMM_PARM(tRFC_ps),
+ DIMM_PARM(tRRD_ps),
+ DIMM_PARM(tRC_ps),
+ DIMM_PARM(refresh_rate_ps),
+
+ DIMM_PARM(tIS_ps),
+ DIMM_PARM(tIH_ps),
+ DIMM_PARM(tDS_ps),
+ DIMM_PARM(tDH_ps),
+ DIMM_PARM(tRTP_ps),
+ DIMM_PARM(tDQSQ_max_ps),
+ DIMM_PARM(tQHS_ps),
+
+ DIMM_PARM(rank_density),
+ DIMM_PARM(capacity),
+ DIMM_PARM(base_address),
+ };
+
+ 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);
+}
+
+static void print_dimm_parameters(const dimm_params_t *pdimm)
+{
+ static const options_strings_t options[] = {
+ DIMM_PARM(n_ranks),
+ DIMM_PARM(data_width),
+ DIMM_PARM(primary_sdram_width),
+ DIMM_PARM(ec_sdram_width),
+ DIMM_PARM(registered_dimm),
+
+ DIMM_PARM(n_row_addr),
+ DIMM_PARM(n_col_addr),
+ DIMM_PARM(edc_config),
+ DIMM_PARM(n_banks_per_sdram_device),
+
+ DIMM_PARM(tCKmin_X_ps),
+ DIMM_PARM(tCKmin_X_minus_1_ps),
+ DIMM_PARM(tCKmin_X_minus_2_ps),
+ DIMM_PARM(tCKmax_ps),
+
+ DIMM_PARM(caslat_X),
+ DIMM_PARM(tAA_ps),
+ DIMM_PARM(caslat_X_minus_1),
+ DIMM_PARM(caslat_X_minus_2),
+ DIMM_PARM(caslat_lowest_derated),
+
+ DIMM_PARM(tRCD_ps),
+ DIMM_PARM(tRP_ps),
+ DIMM_PARM(tRAS_ps),
+ DIMM_PARM(tWR_ps),
+ DIMM_PARM(tWTR_ps),
+ DIMM_PARM(tRFC_ps),
+ DIMM_PARM(tRRD_ps),
+ DIMM_PARM(tRC_ps),
+ DIMM_PARM(refresh_rate_ps),
+
+ DIMM_PARM(tIS_ps),
+ DIMM_PARM(tIH_ps),
+ DIMM_PARM(tDS_ps),
+ DIMM_PARM(tDH_ps),
+ DIMM_PARM(tRTP_ps),
+ DIMM_PARM(tDQSQ_max_ps),
+ DIMM_PARM(tQHS_ps),
+ };
+ static const unsigned int n_opts = ARRAY_SIZE(options);
+
+ if (pdimm->n_ranks == 0) {
+ printf("DIMM not present\n");
+ return;
+ }
+ printf("DIMM organization parameters:\n");
+ printf("module part name = %s\n", pdimm->mpart);
+ printf("rank_density = %llu bytes (%llu megabytes)\n",
+ pdimm->rank_density, pdimm->rank_density / 0x100000);
+ printf("capacity = %llu bytes (%llu megabytes)\n",
+ pdimm->capacity, pdimm->capacity / 0x100000);
+ printf("burst_lengths_bitmask = %02X\n",
+ pdimm->burst_lengths_bitmask);
+ printf("base_addresss = %llu (%08llX %08llX)\n",
+ pdimm->base_address,
+ (pdimm->base_address >> 32),
+ pdimm->base_address & 0xFFFFFFFF);
+ print_option_table(options, n_opts, pdimm);
+}
+
+static void print_lowest_common_dimm_parameters(
+ const common_timing_params_t *plcd_dimm_params)
+{
+ static const options_strings_t options[] = {
+ COMMON_TIMING(tCKmax_max_ps),
+ COMMON_TIMING(tRCD_ps),
+ COMMON_TIMING(tRP_ps),
+ COMMON_TIMING(tRAS_ps),
+ COMMON_TIMING(tWR_ps),
+ COMMON_TIMING(tWTR_ps),
+ COMMON_TIMING(tRFC_ps),
+ COMMON_TIMING(tRRD_ps),
+ COMMON_TIMING(tRC_ps),
+ COMMON_TIMING(refresh_rate_ps),
+ COMMON_TIMING(tIS_ps),
+ COMMON_TIMING(tDS_ps),
+ COMMON_TIMING(tDH_ps),
+ COMMON_TIMING(tRTP_ps),
+ COMMON_TIMING(tDQSQ_max_ps),
+ COMMON_TIMING(tQHS_ps),
+ COMMON_TIMING(lowest_common_SPD_caslat),
+ COMMON_TIMING(highest_common_derated_caslat),
+ COMMON_TIMING(additive_latency),
+ COMMON_TIMING(ndimms_present),
+ COMMON_TIMING(all_DIMMs_registered),
+ COMMON_TIMING(all_DIMMs_unbuffered),
+ COMMON_TIMING(all_DIMMs_ECC_capable),
+ };
+ static const unsigned int n_opts = ARRAY_SIZE(options);
+
+ /* Clock frequencies */
+ printf("tCKmin_X_ps = %u (%u MHz)\n",
+ plcd_dimm_params->tCKmin_X_ps,
+ picos_to_mhz(plcd_dimm_params->tCKmin_X_ps));
+ printf("tCKmax_ps = %u (%u MHz)\n",
+ plcd_dimm_params->tCKmax_ps,
+ picos_to_mhz(plcd_dimm_params->tCKmax_ps));
+ printf("all_DIMMs_burst_lengths_bitmask = %02X\n",
+ plcd_dimm_params->all_DIMMs_burst_lengths_bitmask);
+
+ print_option_table(options, n_opts, plcd_dimm_params);
+
+ printf("total_mem = %llu (%llu megabytes)\n",
+ plcd_dimm_params->total_mem,
+ plcd_dimm_params->total_mem / 0x100000);
+ printf("base_address = %llu (%llu megabytes)\n",
+ plcd_dimm_params->base_address,
+ plcd_dimm_params->base_address / 0x100000);
+}
+
+#define CTRL_OPTIONS(x) {#x, offsetof(memctl_options_t, x), \
+ sizeof((memctl_options_t *)0)->x, 0}
+#define CTRL_OPTIONS_CS(x, y) {"cs" #x "_" #y, \
+ offsetof(memctl_options_t, cs_local_opts[x].y), \
+ sizeof((memctl_options_t *)0)->cs_local_opts[x].y, 0}
+
+static void fsl_ddr_options_edit(fsl_ddr_info_t *pinfo,
+ unsigned int ctl_num,
+ const char *optname_str,
+ const char *value_str)
+{
+ memctl_options_t *p = &(pinfo->memctl_opts[ctl_num]);
+ /*
+ * This array all on the stack and *computed* each time this
+ * function is rung.
+ */
+ static const options_strings_t 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 > 2)
+ CTRL_OPTIONS_CS(3, odt_rd_cfg),
+ CTRL_OPTIONS_CS(3, odt_wr_cfg),
+#endif
+#if defined(CONFIG_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(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(tCKE_clock_pulse_width_ps),
+ CTRL_OPTIONS(tFAW_window_four_activates_ps),
+ };
+
+ 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 options_strings_t 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_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),
+ 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),
+ CFG_REGS(ddr_zq_cntl),
+ CFG_REGS(ddr_wrlvl_cntl),
+ 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(err_disable),
+ CFG_REGS(err_int_en),
+ };
+ 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 options_strings_t 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_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),
+ 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),
+ CFG_REGS(ddr_zq_cntl),
+ CFG_REGS(ddr_wrlvl_cntl),
+ 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(err_disable),
+ CFG_REGS(err_int_en),
+ CFG_REGS(ddr_sdram_rcw_2),
+ CFG_REGS(ddr_sdram_rcw_2),
+
+ };
+ 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 options_strings_t 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_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(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(tCKE_clock_pulse_width_ps),
+ CTRL_OPTIONS(tFAW_window_four_activates_ps),
+ };
+ static const unsigned int n_opts = ARRAY_SIZE(options);
+
+ print_option_table(options, n_opts, popts);
+}
+
+#ifdef CONFIG_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_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->Tcasemax,
+ " spd->Tcasemax, * 47 Tcasemax *");
+ printf("%-3d : %02x %s\n",
+ 48, spd->psiTAdram,
+ " spd->psiTAdram, * 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->psiTApll,
+ " spd->psiTApll, * 58 Thermal Resistance of PLL Package form"
+ " Top (Case) to Ambient (Psi T-A PLL) *");
+ printf("%-3d : %02x %s\n",
+ 59, spd->psiTAreg,
+ " spd->psiTAreg, * 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_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, 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");
+
+ printf("%-3d-%3d: ", 34, 59); /* Reserved, General Section */
+
+ for (i = 34; i <= 59; i++)
+ printf("%02x ", spd->res_34_59[i - 34]);
+
+ 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
+
+static __inline__ void generic_spd_dump(const generic_spd_eeprom_t *spd)
+{
+#if defined(CONFIG_FSL_DDR1)
+ ddr1_spd_dump(spd);
+#elif defined(CONFIG_FSL_DDR2)
+ ddr2_spd_dump(spd);
+#elif defined(CONFIG_FSL_DDR3)
+ ddr3_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;
+
+ /*
+ * FIXME: find a way to make this generate more
+ * optimal powerpc code (i.e. rlwimi.)
+ */
+ 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");
+ }
+}
+
+typedef struct {
+ const char *data_name;
+ unsigned int step_mask;
+ unsigned int dimm_number_required;
+} data_strings_t;
+
+#define DATA_OPTIONS(name, step, dimm) {#name, step, dimm}
+
+unsigned long long fsl_ddr_interactive(fsl_ddr_info_t *pinfo)
+{
+ unsigned long long ddrsize;
+ const char *prompt = "FSL DDR>";
+ unsigned int len;
+ char buffer[CONFIG_SYS_CBSIZE];
+ char *argv[CONFIG_SYS_MAXARGS + 1]; /* NULL terminated */
+ int argc;
+ unsigned int next_step = STEP_GET_SPD;
+ static const data_strings_t 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);
+
+ /*
+ * The strategy for next_step is that it points to the next
+ * step in the computation process that needs to be done.
+ */
+ while (1) {
+ /*
+ * No need to worry for buffer overflow here in
+ * this function; readline() maxes out at CFG_CBSIZE
+ */
+ len = readline_into_buffer(prompt, buffer);
+ argc = parse_line(buffer, argv);
+ if (argc == 0)
+ continue;
+
+
+ if (strcmp(argv[0], "help") == 0) {
+
+ /*
+ * FIXME: For some reason printing this whole
+ * thing causes the machine to freeze.
+ * Splitting it into two printfs seems to make
+ * it work. Does printf() have limits on the
+ * length of the string?
+ */
+ printf(
+ "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");
+ printf(
+ "edit modify spd, parameter, or option\n");
+ printf(
+ "compute recompute registers from current next_step to end\n"
+ "next_step shows current next_step\n"
+ "help this message\n"
+ "go program the memory controller and continue with u-boot\n");
+ 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], "edit") == 0) {
+ unsigned int i, j;
+ 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;
+ unsigned int matched = 0;
+
+ 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;
+ }
+
+ for (i = 1; i < argc - 2; i++) {
+ for (j = 0; j < n_opts; j++) {
+ if (strcmp(options[j].data_name,
+ argv[i]) != 0)
+ continue;
+ step_mask |= options[j].step_mask;
+ dimm_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))
+ ctlr_mask |= 1 << (c - '0');
+ continue;
+ }
+
+ if (argv[i][0] == 'd') {
+ char c = argv[i][1];
+ if (isdigit(c))
+ dimm_mask |= 1 << (c - '0');
+ continue;
+ }
+
+ printf("unknown arg %s\n", argv[i]);
+ step_mask = 0;
+ error = 1;
+ break;
+ }
+
+
+ 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);
+ }
+
+ 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);
+ /*
+ * FIXME: There some problems with this.
+ * For exmaple, what happens if there is
+ * an error inside fsl_ddr_compute?
+ */
+ 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 i, j;
+ unsigned int error = 0;
+ unsigned int step_mask = 0;
+ unsigned int ctlr_mask = 0;
+ unsigned int dimm_mask = 0;
+ unsigned int matched = 0;
+
+ if (argc == 1) {
+ printf("print [c<n>] [d<n>] [spd] [dimmparms] "
+ "[commonparms] [opts] [addresses] [regs]\n");
+ continue;
+ }
+
+ for (i = 1; i < argc; i++) {
+ for (j = 0; j < n_opts; j++) {
+ if (strcmp(options[j].data_name,
+ argv[i]) != 0)
+ continue;
+ step_mask |= options[j].step_mask;
+ matched = 1;
+ break;
+ }
+
+ if (matched)
+ continue;
+
+ if (argv[i][0] == 'c') {
+ char c = argv[i][1];
+ if (isdigit(c))
+ ctlr_mask |= 1 << (c - '0');
+ continue;
+ }
+
+ if (argv[i][0] == 'd') {
+ char c = argv[i][1];
+ if (isdigit(c))
+ dimm_mask |= 1 << (c - '0');
+ continue;
+ }
+
+ printf("unknown arg %s\n", argv[i]);
+ step_mask = 0;
+ error = 1;
+ break;
+ }
+
+ 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;
+}
diff --git a/arch/powerpc/cpu/mpc8xxx/ddr/main.c b/arch/powerpc/cpu/mpc8xxx/ddr/main.c
index b559787..7ce9fe1 100644
--- a/arch/powerpc/cpu/mpc8xxx/ddr/main.c
+++ b/arch/powerpc/cpu/mpc8xxx/ddr/main.c
@@ -132,7 +132,6 @@ void fsl_ddr_get_spd(generic_spd_eeprom_t *ctrl_dimms_spd,
* | interleaving
*/
-#ifdef DEBUG
const char *step_string_tbl[] = {
"STEP_GET_SPD",
"STEP_COMPUTE_DIMM_PARMS",
@@ -153,7 +152,6 @@ const char * step_to_string(unsigned int step) {
return step_string_tbl[s];
}
-#endif
int step_assign_addresses(fsl_ddr_info_t *pinfo,
unsigned int dbw_cap_adj[],
@@ -496,7 +494,12 @@ phys_size_t fsl_ddr_sdram(void)
memset(&info, 0, sizeof(fsl_ddr_info_t));
/* Compute it once normally. */
- total_memory = fsl_ddr_compute(&info, STEP_GET_SPD, 0);
+#ifdef CONFIG_FSL_DDR_INTERACTIVE
+ if (getenv("ddr_interactive"))
+ total_memory = fsl_ddr_interactive(&info);
+ else
+#endif
+ total_memory = fsl_ddr_compute(&info, STEP_GET_SPD, 0);
/* Check for memory controller interleaving. */
memctl_interleaved = 0;
diff --git a/doc/README.fsl-ddr b/doc/README.fsl-ddr
index c1ee0a6..2461e9f 100644
--- a/doc/README.fsl-ddr
+++ b/doc/README.fsl-ddr
@@ -170,3 +170,22 @@ Single slot system
Reference http://www.xrosstalkmag.com/mag_issues/xrosstalk_oct08_final.pdf
http://download.micron.com/pdf/technotes/ddr3/tn4108_ddr3_design_guide.pdf
+
+
+Interactive DDR debugging
+===========================
+
+For DDR parameter tuning up and debugging, the interactive DDR debugging can
+be activated by saving an environment variable "ddr_interactive". The value
+doesn't matter. Once activated, U-boot prompts "FSL DDR>" before enabling DDR
+controller. The available commands can be seen by typing "help".
+
+The example flow of using interactive debugging is
+type command "compute" to calculate the parameters from the default
+type command "print" with arguments to show SPD, options, registers
+type command "edit" with arguments to change any if desired
+type command "go" to continue calculation and enable DDR controller
+
+Note, check "next_step" to show the flow. For example, after editing registers,
+DDR controller will be enabled with current setting without further
+calculation.
--
1.7.0.4
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