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-rw-r--r--src/mainboard/purism/librem_cnl/Kconfig1
-rw-r--r--src/mainboard/purism/librem_cnl/romstage.c137
2 files changed, 95 insertions, 43 deletions
diff --git a/src/mainboard/purism/librem_cnl/Kconfig b/src/mainboard/purism/librem_cnl/Kconfig
index 1d31ec659f..d0282ad31e 100644
--- a/src/mainboard/purism/librem_cnl/Kconfig
+++ b/src/mainboard/purism/librem_cnl/Kconfig
@@ -8,6 +8,7 @@ config BOARD_PURISM_BASEBOARD_LIBREM_CNL
select INTEL_GMA_HAVE_VBT
select NO_UART_ON_SUPERIO
select SOC_INTEL_COMMON_BLOCK_HDA_VERB
+ select SPD_CACHE_IN_FMAP
select SPD_READ_BY_WORD
select USE_LEGACY_8254_TIMER
diff --git a/src/mainboard/purism/librem_cnl/romstage.c b/src/mainboard/purism/librem_cnl/romstage.c
index b7c57ee379..fd3154f431 100644
--- a/src/mainboard/purism/librem_cnl/romstage.c
+++ b/src/mainboard/purism/librem_cnl/romstage.c
@@ -1,55 +1,106 @@
/* SPDX-License-Identifier: GPL-2.0-only */
+#include <console/console.h>
#include <soc/cnl_memcfg_init.h>
#include <soc/romstage.h>
+#include <spd_bin.h>
+#include <spd_cache.h>
#include "variant.h"
-static const struct cnl_mb_cfg memcfg = {
-
- /* Parameters required to access SPD for CH0D0/CH0D1/CH1D0/CH1D1. */
- .spd[0] = {
- .read_type = READ_SMBUS,
- .spd_spec = {.spd_smbus_address = 0xa0},
- },
- .spd[1] = {.read_type = NOT_EXISTING},
- .spd[2] = {
- .read_type = READ_SMBUS,
- .spd_spec = {.spd_smbus_address = 0xa4},
- },
- .spd[3] = {.read_type = NOT_EXISTING},
-
- /*
- * Rcomp resistor values. These values represent the resistance in
- * ohms of the three rcomp resistors attached to the DDR_COMP_0,
- * DDR_COMP_1, and DDR_COMP_2 pins on the DRAM.
- */
- .rcomp_resistor = { 121, 81, 100 },
-
- /* Rcomp target values */
- .rcomp_targets = { 100, 40, 20, 20, 26 },
-
- /*
- * Indicates whether memory is interleaved.
- * Set to 1 for an interleaved design,
- * set to 0 for non-interleaved design.
- */
- .dq_pins_interleaved = 1,
-
- /*
- * VREF_CA configuration.
- * Set to 0 VREF_CA goes to both CH_A and CH_B,
- * set to 1 VREF_CA goes to CH_A and VREF_DQ_A goes to CH_B,
- * set to 2 VREF_CA goes to CH_A and VREF_DQ_B goes to CH_B.
- */
- .vref_ca_config = 2,
-
- /* Early Command Training */
- .ect = 0,
-};
-
void mainboard_memory_init_params(FSPM_UPD *memupd)
{
FSP_M_CONFIG *mem_cfg = &memupd->FspmConfig;
+
+ struct cnl_mb_cfg memcfg = {
+
+ /*
+ * Rcomp resistor values. These values represent the resistance in
+ * ohms of the three rcomp resistors attached to the DDR_COMP_0,
+ * DDR_COMP_1, and DDR_COMP_2 pins on the DRAM.
+ */
+ .rcomp_resistor = { 121, 81, 100 },
+
+ /* Rcomp target values */
+ .rcomp_targets = { 100, 40, 20, 20, 26 },
+
+ /*
+ * Indicates whether memory is interleaved.
+ * Set to 1 for an interleaved design,
+ * set to 0 for non-interleaved design.
+ */
+ .dq_pins_interleaved = 1,
+
+ /*
+ * VREF_CA configuration.
+ * Set to 0 VREF_CA goes to both CH_A and CH_B,
+ * set to 1 VREF_CA goes to CH_A and VREF_DQ_A goes to CH_B,
+ * set to 2 VREF_CA goes to CH_A and VREF_DQ_B goes to CH_B.
+ */
+ .vref_ca_config = 2,
+
+ /* Early Command Training */
+ .ect = 0,
+ };
+
+
+ /* Read spd block to get memory config */
+ struct spd_block blk = {
+ .addr_map = { 0x50, 0x52, },
+ };
+
+ uint8_t *spd_cache;
+ size_t spd_cache_sz;
+ bool need_update_cache = false;
+ bool dimm_changed = true;
+
+ /* load spd cache from RW_SPD_CACHE */
+ if (load_spd_cache(&spd_cache, &spd_cache_sz) == CB_SUCCESS) {
+ if (!spd_cache_is_valid(spd_cache, spd_cache_sz)) {
+ printk(BIOS_WARNING, "Invalid SPD cache\n");
+ } else {
+ dimm_changed = check_if_dimm_changed(spd_cache, &blk);
+ if (dimm_changed && memupd->FspmArchUpd.NvsBufferPtr != NULL) {
+ /* Set mrc_cache as invalid */
+ printk(BIOS_INFO, "Set mrc_cache as invalid\n");
+ memupd->FspmArchUpd.NvsBufferPtr = NULL;
+ }
+ }
+ need_update_cache = true;
+ }
+
+ if (!dimm_changed) {
+ spd_fill_from_cache(spd_cache, &blk);
+ } else {
+ /* Access memory info through SMBUS. */
+ get_spd_smbus(&blk);
+
+ if (need_update_cache && update_spd_cache(&blk) == CB_ERR)
+ printk(BIOS_WARNING, "update SPD cache failed\n");
+ }
+
+ if (blk.spd_array[0] == NULL) {
+ memcfg.spd[0].read_type = NOT_EXISTING;
+ } else {
+ memcfg.spd[0].read_type = READ_SPD_MEMPTR;
+ memcfg.spd[0].spd_spec.spd_data_ptr_info.spd_data_len = blk.len;
+ memcfg.spd[0].spd_spec.spd_data_ptr_info.spd_data_ptr =
+ (uintptr_t)blk.spd_array[0];
+ }
+
+ memcfg.spd[1].read_type = NOT_EXISTING;
+
+ if (blk.spd_array[1] == NULL) {
+ memcfg.spd[2].read_type = NOT_EXISTING;
+ } else {
+ memcfg.spd[2].read_type = READ_SPD_MEMPTR;
+ memcfg.spd[2].spd_spec.spd_data_ptr_info.spd_data_len = blk.len;
+ memcfg.spd[2].spd_spec.spd_data_ptr_info.spd_data_ptr =
+ (uintptr_t)blk.spd_array[1];
+ }
+
+ memcfg.spd[3].read_type = NOT_EXISTING;
+ dump_spd_info(&blk);
+
cannonlake_memcfg_init(mem_cfg, &memcfg);
variant_memory_init_params(mem_cfg);
}