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-rw-r--r--src/northbridge/intel/sandybridge/Kconfig20
-rw-r--r--src/northbridge/intel/sandybridge/Makefile.inc14
-rw-r--r--src/northbridge/intel/sandybridge/raminit.c3945
-rw-r--r--src/northbridge/intel/sandybridge/raminit_mrc.c293
-rw-r--r--src/northbridge/intel/sandybridge/raminit_native.c3902
-rw-r--r--src/northbridge/intel/sandybridge/romstage.c (renamed from src/northbridge/intel/sandybridge/romstage_native.c)0
6 files changed, 4087 insertions, 4087 deletions
diff --git a/src/northbridge/intel/sandybridge/Kconfig b/src/northbridge/intel/sandybridge/Kconfig
index 093224f841..cbca042659 100644
--- a/src/northbridge/intel/sandybridge/Kconfig
+++ b/src/northbridge/intel/sandybridge/Kconfig
@@ -17,14 +17,14 @@
## Foundation, Inc.
##
-config NORTHBRIDGE_INTEL_SANDYBRIDGE
+config NORTHBRIDGE_INTEL_SANDYBRIDGE_MRC
bool
select MMCONF_SUPPORT
select MMCONF_SUPPORT_DEFAULT
select CPU_INTEL_MODEL_206AX
select INTEL_GMA_ACPI
-config NORTHBRIDGE_INTEL_SANDYBRIDGE_NATIVE
+config NORTHBRIDGE_INTEL_SANDYBRIDGE
bool
select MMCONF_SUPPORT
select MMCONF_SUPPORT_DEFAULT
@@ -32,14 +32,14 @@ config NORTHBRIDGE_INTEL_SANDYBRIDGE_NATIVE
select HAVE_DEBUG_RAM_SETUP
select INTEL_GMA_ACPI
-config NORTHBRIDGE_INTEL_IVYBRIDGE
+config NORTHBRIDGE_INTEL_IVYBRIDGE_MRC
bool
select MMCONF_SUPPORT
select MMCONF_SUPPORT_DEFAULT
select CPU_INTEL_MODEL_306AX
select INTEL_GMA_ACPI
-config NORTHBRIDGE_INTEL_IVYBRIDGE_NATIVE
+config NORTHBRIDGE_INTEL_IVYBRIDGE
bool
select MMCONF_SUPPORT
select MMCONF_SUPPORT_DEFAULT
@@ -47,7 +47,7 @@ config NORTHBRIDGE_INTEL_IVYBRIDGE_NATIVE
select HAVE_DEBUG_RAM_SETUP
select INTEL_GMA_ACPI
-if NORTHBRIDGE_INTEL_SANDYBRIDGE || NORTHBRIDGE_INTEL_IVYBRIDGE || NORTHBRIDGE_INTEL_IVYBRIDGE_NATIVE || NORTHBRIDGE_INTEL_SANDYBRIDGE_NATIVE
+if NORTHBRIDGE_INTEL_SANDYBRIDGE_MRC || NORTHBRIDGE_INTEL_IVYBRIDGE_MRC || NORTHBRIDGE_INTEL_IVYBRIDGE || NORTHBRIDGE_INTEL_SANDYBRIDGE
config VGA_BIOS_ID
string
@@ -72,10 +72,10 @@ config MRC_CACHE_SIZE
config DCACHE_RAM_BASE
hex
- default 0xff7e0000 if NORTHBRIDGE_INTEL_IVYBRIDGE
- default 0xff7e0000 if NORTHBRIDGE_INTEL_SANDYBRIDGE
- default 0xfefe0000 if NORTHBRIDGE_INTEL_IVYBRIDGE_NATIVE
- default 0xfefe0000 if NORTHBRIDGE_INTEL_SANDYBRIDGE_NATIVE
+ default 0xff7e0000 if NORTHBRIDGE_INTEL_IVYBRIDGE_MRC
+ default 0xff7e0000 if NORTHBRIDGE_INTEL_SANDYBRIDGE_MRC
+ default 0xfefe0000 if NORTHBRIDGE_INTEL_IVYBRIDGE
+ default 0xfefe0000 if NORTHBRIDGE_INTEL_SANDYBRIDGE
config DCACHE_RAM_SIZE
hex
@@ -91,7 +91,7 @@ config DCACHE_RAM_MRC_VAR_SIZE
config HAVE_MRC
bool "Add a System Agent binary"
- depends on !NORTHBRIDGE_INTEL_IVYBRIDGE_NATIVE && !NORTHBRIDGE_INTEL_SANDYBRIDGE_NATIVE
+ depends on !NORTHBRIDGE_INTEL_IVYBRIDGE && !NORTHBRIDGE_INTEL_SANDYBRIDGE
help
Select this option to add a System Agent binary to
the resulting coreboot image.
diff --git a/src/northbridge/intel/sandybridge/Makefile.inc b/src/northbridge/intel/sandybridge/Makefile.inc
index 52fe23c513..49c0712a6f 100644
--- a/src/northbridge/intel/sandybridge/Makefile.inc
+++ b/src/northbridge/intel/sandybridge/Makefile.inc
@@ -17,7 +17,7 @@
# Foundation, Inc.
#
-ifeq ($(CONFIG_NORTHBRIDGE_INTEL_SANDYBRIDGE_NATIVE)$(CONFIG_NORTHBRIDGE_INTEL_SANDYBRIDGE)$(CONFIG_NORTHBRIDGE_INTEL_IVYBRIDGE_NATIVE)$(CONFIG_NORTHBRIDGE_INTEL_IVYBRIDGE),y)
+ifeq ($(CONFIG_NORTHBRIDGE_INTEL_SANDYBRIDGE)$(CONFIG_NORTHBRIDGE_INTEL_SANDYBRIDGE_MRC)$(CONFIG_NORTHBRIDGE_INTEL_IVYBRIDGE)$(CONFIG_NORTHBRIDGE_INTEL_IVYBRIDGE_MRC),y)
ramstage-y += ram_calc.c
ramstage-y += northbridge.c
@@ -29,14 +29,14 @@ ramstage-y += acpi.c
ramstage-y += mrccache.c
romstage-y += ram_calc.c
+romstage-$(CONFIG_NORTHBRIDGE_INTEL_IVYBRIDGE_MRC) += raminit_mrc.c
+romstage-$(CONFIG_NORTHBRIDGE_INTEL_SANDYBRIDGE_MRC) += raminit_mrc.c
romstage-$(CONFIG_NORTHBRIDGE_INTEL_IVYBRIDGE) += raminit.c
+romstage-$(CONFIG_NORTHBRIDGE_INTEL_IVYBRIDGE) += romstage.c
+romstage-$(CONFIG_NORTHBRIDGE_INTEL_IVYBRIDGE) += ../../../device/dram/ddr3.c
romstage-$(CONFIG_NORTHBRIDGE_INTEL_SANDYBRIDGE) += raminit.c
-romstage-$(CONFIG_NORTHBRIDGE_INTEL_IVYBRIDGE_NATIVE) += raminit_native.c
-romstage-$(CONFIG_NORTHBRIDGE_INTEL_IVYBRIDGE_NATIVE) += romstage_native.c
-romstage-$(CONFIG_NORTHBRIDGE_INTEL_IVYBRIDGE_NATIVE) += ../../../device/dram/ddr3.c
-romstage-$(CONFIG_NORTHBRIDGE_INTEL_SANDYBRIDGE_NATIVE) += raminit_native.c
-romstage-$(CONFIG_NORTHBRIDGE_INTEL_SANDYBRIDGE_NATIVE) += romstage_native.c
-romstage-$(CONFIG_NORTHBRIDGE_INTEL_SANDYBRIDGE_NATIVE) += ../../../device/dram/ddr3.c
+romstage-$(CONFIG_NORTHBRIDGE_INTEL_SANDYBRIDGE) += romstage.c
+romstage-$(CONFIG_NORTHBRIDGE_INTEL_SANDYBRIDGE) += ../../../device/dram/ddr3.c
romstage-y += mrccache.c
romstage-y += early_init.c
romstage-y += report_platform.c
diff --git a/src/northbridge/intel/sandybridge/raminit.c b/src/northbridge/intel/sandybridge/raminit.c
index 053a4873cd..790f47c46c 100644
--- a/src/northbridge/intel/sandybridge/raminit.c
+++ b/src/northbridge/intel/sandybridge/raminit.c
@@ -1,7 +1,8 @@
/*
* This file is part of the coreboot project.
*
- * Copyright (C) 2011 Google Inc.
+ * Copyright (C) 2014 Damien Zammit <damien@zamaudio.com>
+ * Copyright (C) 2014 Vladimir Serbinenko <phcoder@gmail.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
@@ -25,144 +26,179 @@
#include <cbmem.h>
#include <arch/cbfs.h>
#include <cbfs.h>
+#include <halt.h>
#include <ip_checksum.h>
#include <pc80/mc146818rtc.h>
#include <device/pci_def.h>
-#include <halt.h>
-#include "raminit.h"
-#include "pei_data.h"
+#include "raminit_native.h"
#include "sandybridge.h"
+#include <delay.h>
+#include <lib.h>
/* Management Engine is in the southbridge */
#include "southbridge/intel/bd82x6x/me.h"
+/* For SPD. */
+#include "southbridge/intel/bd82x6x/smbus.h"
+#include "arch/cpu.h"
+#include "cpu/x86/msr.h"
-/*
- * MRC scrambler seed offsets should be reserved in
- * mainboard cmos.layout and not covered by checksum.
- */
-#if CONFIG_USE_OPTION_TABLE
-#include "option_table.h"
-#define CMOS_OFFSET_MRC_SEED (CMOS_VSTART_mrc_scrambler_seed >> 3)
-#define CMOS_OFFSET_MRC_SEED_S3 (CMOS_VSTART_mrc_scrambler_seed_s3 >> 3)
-#define CMOS_OFFSET_MRC_SEED_CHK (CMOS_VSTART_mrc_scrambler_seed_chk >> 3)
-#else
-#define CMOS_OFFSET_MRC_SEED 152
-#define CMOS_OFFSET_MRC_SEED_S3 156
-#define CMOS_OFFSET_MRC_SEED_CHK 160
-#endif
-
-void save_mrc_data(struct pei_data *pei_data)
-{
- u16 c1, c2, checksum;
- struct mrc_data_container *mrcdata;
- int output_len = ALIGN(pei_data->mrc_output_len, 16);
+/* FIXME: no ECC support. */
+/* FIXME: no support for 3-channel chipsets. */
- /* Save the MRC S3 restore data to cbmem */
- mrcdata = cbmem_add
- (CBMEM_ID_MRCDATA,
- output_len + sizeof(struct mrc_data_container));
+#define BASEFREQ 133
+#define tDLLK 512
- if (mrcdata != NULL) {
- printk(BIOS_DEBUG, "Relocate MRC DATA from %p to %p (%u bytes)\n",
- pei_data->mrc_output, mrcdata, output_len);
+#define IS_SANDY_CPU(x) ((x & 0xffff0) == 0x206a0)
+#define IS_SANDY_CPU_C(x) ((x & 0xf) == 4)
+#define IS_SANDY_CPU_D0(x) ((x & 0xf) == 5)
+#define IS_SANDY_CPU_D1(x) ((x & 0xf) == 6)
+#define IS_SANDY_CPU_D2(x) ((x & 0xf) == 7)
- mrcdata->mrc_signature = MRC_DATA_SIGNATURE;
- mrcdata->mrc_data_size = output_len;
- mrcdata->reserved = 0;
- memcpy(mrcdata->mrc_data, pei_data->mrc_output,
- pei_data->mrc_output_len);
+#define IS_IVY_CPU(x) ((x & 0xffff0) == 0x306a0)
+#define IS_IVY_CPU_C(x) ((x & 0xf) == 4)
+#define IS_IVY_CPU_K(x) ((x & 0xf) == 5)
+#define IS_IVY_CPU_D(x) ((x & 0xf) == 6)
+#define IS_IVY_CPU_E(x) ((x & 0xf) >= 8)
- /* Zero the unused space in aligned buffer. */
- if (output_len > pei_data->mrc_output_len)
- memset(mrcdata->mrc_data+pei_data->mrc_output_len, 0,
- output_len - pei_data->mrc_output_len);
+#define NUM_CHANNELS 2
+#define NUM_SLOTRANKS 4
+#define NUM_SLOTS 2
+#define NUM_LANES 8
- mrcdata->mrc_checksum = compute_ip_checksum(mrcdata->mrc_data,
- mrcdata->mrc_data_size);
- }
+/* FIXME: Vendor BIOS uses 64 but our algorithms are less
+ performant and even 1 seems to be enough in practice. */
+#define NUM_PATTERNS 4
- /* Save the MRC seed values to CMOS */
- cmos_write32(CMOS_OFFSET_MRC_SEED, pei_data->scrambler_seed);
- printk(BIOS_DEBUG, "Save scrambler seed 0x%08x to CMOS 0x%02x\n",
- pei_data->scrambler_seed, CMOS_OFFSET_MRC_SEED);
+typedef struct odtmap_st {
+ u16 rttwr;
+ u16 rttnom;
+} odtmap;
- cmos_write32(CMOS_OFFSET_MRC_SEED_S3, pei_data->scrambler_seed_s3);
- printk(BIOS_DEBUG, "Save s3 scrambler seed 0x%08x to CMOS 0x%02x\n",
- pei_data->scrambler_seed_s3, CMOS_OFFSET_MRC_SEED_S3);
+typedef struct dimm_info_st {
+ dimm_attr dimm[NUM_CHANNELS][NUM_SLOTS];
+} dimm_info;
- /* Save a simple checksum of the seed values */
- c1 = compute_ip_checksum((u8*)&pei_data->scrambler_seed,
- sizeof(u32));
- c2 = compute_ip_checksum((u8*)&pei_data->scrambler_seed_s3,
- sizeof(u32));
- checksum = add_ip_checksums(sizeof(u32), c1, c2);
+struct ram_rank_timings {
+ /* Register 4024. One byte per slotrank. */
+ u8 val_4024;
+ /* Register 4028. One nibble per slotrank. */
+ u8 val_4028;
- cmos_write(checksum & 0xff, CMOS_OFFSET_MRC_SEED_CHK);
- cmos_write((checksum >> 8) & 0xff, CMOS_OFFSET_MRC_SEED_CHK+1);
-}
+ int val_320c;
-static void prepare_mrc_cache(struct pei_data *pei_data)
-{
- struct mrc_data_container *mrc_cache;
- u16 c1, c2, checksum, seed_checksum;
+ struct ram_lane_timings {
+ /* lane register offset 0x10. */
+ u16 timA; /* bits 0 - 5, bits 16 - 18 */
+ u8 rising; /* bits 8 - 14 */
+ u8 falling; /* bits 20 - 26. */
- // preset just in case there is an error
- pei_data->mrc_input = NULL;
- pei_data->mrc_input_len = 0;
+ /* lane register offset 0x20. */
+ int timC; /* bit 0 - 5, 19. */
+ u16 timB; /* bits 8 - 13, 15 - 17. */
+ } lanes[NUM_LANES];
+};
- /* Read scrambler seeds from CMOS */
- pei_data->scrambler_seed = cmos_read32(CMOS_OFFSET_MRC_SEED);
- printk(BIOS_DEBUG, "Read scrambler seed 0x%08x from CMOS 0x%02x\n",
- pei_data->scrambler_seed, CMOS_OFFSET_MRC_SEED);
+struct ramctr_timing_st;
- pei_data->scrambler_seed_s3 = cmos_read32(CMOS_OFFSET_MRC_SEED_S3);
- printk(BIOS_DEBUG, "Read S3 scrambler seed 0x%08x from CMOS 0x%02x\n",
- pei_data->scrambler_seed_s3, CMOS_OFFSET_MRC_SEED_S3);
+typedef struct ramctr_timing_st {
+ int mobile;
- /* Compute seed checksum and compare */
- c1 = compute_ip_checksum((u8*)&pei_data->scrambler_seed,
- sizeof(u32));
- c2 = compute_ip_checksum((u8*)&pei_data->scrambler_seed_s3,
- sizeof(u32));
- checksum = add_ip_checksums(sizeof(u32), c1, c2);
+ u16 cas_supported;
+ /* tLatencies are in units of ns, scaled by x256 */
+ u32 tCK;
+ u32 tAA;
+ u32 tWR;
+ u32 tRCD;
+ u32 tRRD;
+ u32 tRP;
+ u32 tRAS;
+ u32 tRFC;
+ u32 tWTR;
+ u32 tRTP;
+ u32 tFAW;
+ /* Latencies in terms of clock cycles
+ * They are saved separately as they are needed for DRAM MRS commands*/
+ u8 CAS; /* CAS read latency */
+ u8 CWL; /* CAS write latency */
- seed_checksum = cmos_read(CMOS_OFFSET_MRC_SEED_CHK);
- seed_checksum |= cmos_read(CMOS_OFFSET_MRC_SEED_CHK+1) << 8;
+ u32 tREFI;
+ u32 tMOD;
+ u32 tXSOffset;
+ u32 tWLO;
+ u32 tCKE;
+ u32 tXPDLL;
+ u32 tXP;
+ u32 tAONPD;
- if (checksum != seed_checksum) {
- printk(BIOS_ERR, "%s: invalid seed checksum\n", __func__);
- pei_data->scrambler_seed = 0;
- pei_data->scrambler_seed_s3 = 0;
- return;
- }
+ u16 reg_5064b0; /* bits 0-11. */
- if ((mrc_cache = find_current_mrc_cache()) == NULL) {
- /* error message printed in find_current_mrc_cache */
- return;
- }
+ u8 rankmap[NUM_CHANNELS];
+ int ref_card_offset[NUM_CHANNELS];
+ u32 mad_dimm[NUM_CHANNELS];
+ int channel_size_mb[NUM_CHANNELS];
+ u32 cmd_stretch[NUM_CHANNELS];
- pei_data->mrc_input = mrc_cache->mrc_data;
- pei_data->mrc_input_len = mrc_cache->mrc_data_size;
+ int reg_c14_offset;
+ int reg_320c_range_threshold;
- printk(BIOS_DEBUG, "%s: at %p, size %x checksum %04x\n",
- __func__, pei_data->mrc_input,
- pei_data->mrc_input_len, mrc_cache->mrc_checksum);
-}
+ int edge_offset[3];
+ int timC_offset[3];
+
+ int extended_temperature_range;
+ int auto_self_refresh;
+
+ int rank_mirror[NUM_CHANNELS][NUM_SLOTRANKS];
-static const char* ecc_decoder[] = {
+ struct ram_rank_timings timings[NUM_CHANNELS][NUM_SLOTRANKS];
+} ramctr_timing;
+
+#define SOUTHBRIDGE PCI_DEV(0, 0x1f, 0)
+#define NORTHBRIDGE PCI_DEV(0, 0x0, 0)
+#define FOR_ALL_LANES for (lane = 0; lane < NUM_LANES; lane++)
+#define FOR_ALL_CHANNELS for (channel = 0; channel < NUM_CHANNELS; channel++)
+#define FOR_ALL_POPULATED_RANKS for (slotrank = 0; slotrank < NUM_SLOTRANKS; slotrank++) if (ctrl->rankmap[channel] & (1 << slotrank))
+#define FOR_ALL_POPULATED_CHANNELS for (channel = 0; channel < NUM_CHANNELS; channel++) if (ctrl->rankmap[channel])
+#define MAX_EDGE_TIMING 71
+#define MAX_TIMC 127
+#define MAX_TIMB 511
+#define MAX_TIMA 127
+
+static void program_timings(ramctr_timing * ctrl, int channel);
+
+static const char *ecc_decoder[] = {
"inactive",
"active on IO",
"disabled on IO",
"active"
};
+static void wait_txt_clear(void)
+{
+ struct cpuid_result cp;
+
+ cp = cpuid_ext(0x1, 0x0);
+ /* Check if TXT is supported? */
+ if (!(cp.ecx & 0x40))
+ return;
+ /* Some TXT public bit. */
+ if (!(read32((void *)0xfed30010) & 1))
+ return;
+ /* Wait for TXT clear. */
+ while (!(read8((void *)0xfed40000) & (1 << 7))) ;
+}
+
+static void sfence(void)
+{
+ asm volatile ("sfence");
+}
+
/*
* Dump in the log memory controller configuration as read from the memory
* controller registers.
*/
static void report_memory_config(void)
{
- u32 addr_decoder_common, addr_decode_ch[2];
+ u32 addr_decoder_common, addr_decode_ch[NUM_CHANNELS];
int i;
addr_decoder_common = MCHBAR32(0x5000);
@@ -170,16 +206,15 @@ static void report_memory_config(void)
addr_decode_ch[1] = MCHBAR32(0x5008);
printk(BIOS_DEBUG, "memcfg DDR3 clock %d MHz\n",
- (MCHBAR32(0x5e04) * 13333 * 2 + 50)/100);
+ (MCHBAR32(0x5e04) * 13333 * 2 + 50) / 100);
printk(BIOS_DEBUG, "memcfg channel assignment: A: %d, B % d, C % d\n",
- addr_decoder_common & 3,
- (addr_decoder_common >> 2) & 3,
+ addr_decoder_common & 3, (addr_decoder_common >> 2) & 3,
(addr_decoder_common >> 4) & 3);
for (i = 0; i < ARRAY_SIZE(addr_decode_ch); i++) {
u32 ch_conf = addr_decode_ch[i];
- printk(BIOS_DEBUG, "memcfg channel[%d] config (%8.8x):\n",
- i, ch_conf);
+ printk(BIOS_DEBUG, "memcfg channel[%d] config (%8.8x):\n", i,
+ ch_conf);
printk(BIOS_DEBUG, " ECC %s\n",
ecc_decoder[(ch_conf >> 24) & 3]);
printk(BIOS_DEBUG, " enhanced interleave mode %s\n",
@@ -199,95 +234,3669 @@ static void report_memory_config(void)
}
}
-static void post_system_agent_init(struct pei_data *pei_data)
+static void post_system_agent_init(void)
{
/* If PCIe init is skipped, set the PEG clock gating */
- if (!pei_data->pcie_init)
- MCHBAR32(0x7010) = MCHBAR32(0x7010) | 0x01;
+ MCHBAR32(0x7010) = MCHBAR32(0x7010) | 0x01;
}
-/**
- * Find PEI executable in coreboot filesystem and execute it.
- *
- * @param pei_data: configuration data for UEFI PEI reference code
- */
-void sdram_initialize(struct pei_data *pei_data)
+void read_spd(spd_raw_data * spd, u8 addr)
{
- struct sys_info sysinfo;
- int (*entry) (struct pei_data *pei_data) __attribute__ ((regparm(1)));
+ int j;
+ for (j = 0; j < 256; j++)
+ (*spd)[j] = do_smbus_read_byte(SMBUS_IO_BASE, addr, j);
+}
- report_platform_info();
+static void dram_find_spds_ddr3(spd_raw_data * spd, dimm_info * dimm,
+ ramctr_timing * ctrl)
+{
+ int dimms = 0;
+ int channel, slot, spd_slot;
- /* Wait for ME to be ready */
- intel_early_me_init();
- intel_early_me_uma_size();
+ memset (ctrl->rankmap, 0, sizeof (ctrl->rankmap));
+
+ ctrl->extended_temperature_range = 1;
+ ctrl->auto_self_refresh = 1;
+
+ FOR_ALL_CHANNELS {
+ ctrl->channel_size_mb[channel] = 0;
+
+ for (slot = 0; slot < NUM_SLOTS; slot++) {
+ spd_slot = 2 * channel + slot;
+ spd_decode_ddr3(&dimm->dimm[channel][slot], spd[spd_slot]);
+ if (dimm->dimm[channel][slot].dram_type != SPD_MEMORY_TYPE_SDRAM_DDR3) {
+ // set dimm invalid
+ dimm->dimm[channel][slot].ranks = 0;
+ dimm->dimm[channel][slot].size_mb = 0;
+ continue;
+ }
+
+ dram_print_spd_ddr3(&dimm->dimm[channel][slot]);
+ dimms++;
+ ctrl->rank_mirror[channel][slot * 2] = 0;
+ ctrl->rank_mirror[channel][slot * 2 + 1] = dimm->dimm[channel][slot].flags.pins_mirrored;
+ ctrl->channel_size_mb[channel] += dimm->dimm[channel][slot].size_mb;
+
+ ctrl->auto_self_refresh &= dimm->dimm[channel][slot].flags.asr;
+ ctrl->extended_temperature_range &= dimm->dimm[channel][slot].flags.ext_temp_refresh;
+
+ ctrl->rankmap[channel] |= ((1 << dimm->dimm[channel][slot].ranks) - 1) << (2 * slot);
+ printk(BIOS_DEBUG, "rankmap[%d] = 0x%x\n", channel, ctrl->rankmap[channel]);
+ }
+ if ((ctrl->rankmap[channel] & 3) && (ctrl->rankmap[channel] & 0xc)
+ && dimm->dimm[channel][0].reference_card <= 5 && dimm->dimm[channel][1].reference_card <= 5) {
+ const int ref_card_offset_table[6][6] = {
+ { 0, 0, 0, 0, 2, 2, },
+ { 0, 0, 0, 0, 2, 2, },
+ { 0, 0, 0, 0, 2, 2, },
+ { 0, 0, 0, 0, 1, 1, },
+ { 2, 2, 2, 1, 0, 0, },
+ { 2, 2, 2, 1, 0, 0, },
+ };
+ ctrl->ref_card_offset[channel] = ref_card_offset_table[dimm->dimm[channel][0].reference_card]
+ [dimm->dimm[channel][1].reference_card];
+ } else
+ ctrl->ref_card_offset[channel] = 0;
+ }
- printk(BIOS_DEBUG, "Starting UEFI PEI System Agent\n");
+ if (!dimms)
+ die("No DIMMs were found");
+}
+
+static void dram_find_common_params(const dimm_info * dimms,
+ ramctr_timing * ctrl)
+{
+ size_t valid_dimms;
+ int channel, slot;
+ ctrl->cas_supported = 0xff;
+ valid_dimms = 0;
+ FOR_ALL_CHANNELS for (slot = 0; slot < 2; slot++) {
+ const dimm_attr *dimm = &dimms->dimm[channel][slot];
+ if (dimm->dram_type != SPD_MEMORY_TYPE_SDRAM_DDR3)
+ continue;
+ valid_dimms++;
+
+ /* Find all possible CAS combinations */
+ ctrl->cas_supported &= dimm->cas_supported;
- memset(&sysinfo, 0, sizeof(sysinfo));
+ /* Find the smallest common latencies supported by all DIMMs */
+ ctrl->tCK = MAX(ctrl->tCK, dimm->tCK);
+ ctrl->tAA = MAX(ctrl->tAA, dimm->tAA);
+ ctrl->tWR = MAX(ctrl->tWR, dimm->tWR);
+ ctrl->tRCD = MAX(ctrl->tRCD, dimm->tRCD);
+ ctrl->tRRD = MAX(ctrl->tRRD, dimm->tRRD);
+ ctrl->tRP = MAX(ctrl->tRP, dimm->tRP);
+ ctrl->tRAS = MAX(ctrl->tRAS, dimm->tRAS);
+ ctrl->tRFC = MAX(ctrl->tRFC, dimm->tRFC);
+ ctrl->tWTR = MAX(ctrl->tWTR, dimm->tWTR);
+ ctrl->tRTP = MAX(ctrl->tRTP, dimm->tRTP);
+ ctrl->tFAW = MAX(ctrl->tFAW, dimm->tFAW);
+ }
- sysinfo.boot_path = pei_data->boot_mode;
+ if (!ctrl->cas_supported)
+ die("Unsupported DIMM combination. "
+ "DIMMS do not support common CAS latency");
+ if (!valid_dimms)
+ die("No valid DIMMs found");
+}
- /*
- * Do not pass MRC data in for recovery mode boot,
- * Always pass it in for S3 resume.
+static u8 get_CWL(u8 CAS)
+{
+ /* Get CWL based on CAS using the following rule:
+ * _________________________________________
+ * CAS: | 4T | 5T | 6T | 7T | 8T | 9T | 10T | 11T |
+ * CWL: | 5T | 5T | 5T | 6T | 6T | 7T | 7T | 8T |
*/
- if (!recovery_mode_enabled() || pei_data->boot_mode == 2)
- prepare_mrc_cache(pei_data);
+ static const u8 cas_cwl_map[] = { 5, 5, 5, 6, 6, 7, 7, 8 };
+ if (CAS > 11)
+ return 8;
+ return cas_cwl_map[CAS - 4];
+}
- /* If MRC data is not found we cannot continue S3 resume. */
- if (pei_data->boot_mode == 2 && !pei_data->mrc_input) {
- printk(BIOS_DEBUG, "Giving up in sdram_initialize: No MRC data\n");
- outb(0x6, 0xcf9);
- halt();
+/* Frequency multiplier. */
+static u32 get_FRQ(u32 tCK)
+{
+ u32 FRQ;
+ FRQ = 256000 / (tCK * BASEFREQ);
+ if (FRQ > 8)
+ return 8;
+ if (FRQ < 3)
+ return 3;
+ return FRQ;
+}
+
+static u32 get_REFI(u32 tCK)
+{
+ /* Get REFI based on MCU frequency using the following rule:
+ * _________________________________________
+ * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
+ * REFI: | 3120 | 4160 | 5200 | 6240 | 7280 | 8320 |
+ */
+ static const u32 frq_refi_map[] =
+ { 3120, 4160, 5200, 6240, 7280, 8320 };
+ return frq_refi_map[get_FRQ(tCK) - 3];
+}
+
+static u8 get_XSOffset(u32 tCK)
+{
+ /* Get XSOffset based on MCU frequency using the following rule:
+ * _________________________
+ * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
+ * XSOffset : | 4 | 6 | 7 | 8 | 10 | 11 |
+ */
+ static const u8 frq_xs_map[] = { 4, 6, 7, 8, 10, 11 };
+ return frq_xs_map[get_FRQ(tCK) - 3];
+}
+
+static u8 get_MOD(u32 tCK)
+{
+ /* Get MOD based on MCU frequency using the following rule:
+ * _____________________________
+ * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
+ * MOD : | 12 | 12 | 12 | 12 | 15 | 16 |
+ */
+ static const u8 frq_mod_map[] = { 12, 12, 12, 12, 15, 16 };
+ return frq_mod_map[get_FRQ(tCK) - 3];
+}
+
+static u8 get_WLO(u32 tCK)
+{
+ /* Get WLO based on MCU frequency using the following rule:
+ * _______________________
+ * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
+ * WLO : | 4 | 5 | 6 | 6 | 8 | 8 |
+ */
+ static const u8 frq_wlo_map[] = { 4, 5, 6, 6, 8, 8 };
+ return frq_wlo_map[get_FRQ(tCK) - 3];
+}
+
+static u8 get_CKE(u32 tCK)
+{
+ /* Get CKE based on MCU frequency using the following rule:
+ * _______________________
+ * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
+ * CKE : | 3 | 3 | 4 | 4 | 5 | 6 |
+ */
+ static const u8 frq_cke_map[] = { 3, 3, 4, 4, 5, 6 };
+ return frq_cke_map[get_FRQ(tCK) - 3];
+}
+
+static u8 get_XPDLL(u32 tCK)
+{
+ /* Get XPDLL based on MCU frequency using the following rule:
+ * _____________________________
+ * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
+ * XPDLL : | 10 | 13 | 16 | 20 | 23 | 26 |
+ */
+ static const u8 frq_xpdll_map[] = { 10, 13, 16, 20, 23, 26 };
+ return frq_xpdll_map[get_FRQ(tCK) - 3];
+}
+
+static u8 get_XP(u32 tCK)
+{
+ /* Get XP based on MCU frequency using the following rule:
+ * _______________________
+ * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
+ * XP : | 3 | 4 | 4 | 5 | 6 | 7 |
+ */
+ static const u8 frq_xp_map[] = { 3, 4, 4, 5, 6, 7 };
+ return frq_xp_map[get_FRQ(tCK) - 3];
+}
+
+static u8 get_AONPD(u32 tCK)
+{
+ /* Get AONPD based on MCU frequency using the following rule:
+ * ________________________
+ * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
+ * AONPD : | 4 | 5 | 6 | 8 | 8 | 10 |
+ */
+ static const u8 frq_aonpd_map[] = { 4, 5, 6, 8, 8, 10 };
+ return frq_aonpd_map[get_FRQ(tCK) - 3];
+}
+
+static u32 get_COMP2(u32 tCK)
+{
+ /* Get COMP2 based on MCU frequency using the following rule:
+ * ___________________________________________________________
+ * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
+ * COMP : | D6BEDCC | CE7C34C | CA57A4C | C6369CC | C42514C | C21410C |
+ */
+ static const u32 frq_comp2_map[] = { 0xD6BEDCC, 0xCE7C34C, 0xCA57A4C,
+ 0xC6369CC, 0xC42514C, 0xC21410C
+ };
+ return frq_comp2_map[get_FRQ(tCK) - 3];
+}
+
+static void dram_timing(ramctr_timing * ctrl)
+{
+ u8 val;
+ u32 val32;
+
+ /* Maximum supported DDR3 frequency is 1066MHz (DDR3 2133) so make sure
+ * we cap it if we have faster DIMMs.
+ * Then, align it to the closest JEDEC standard frequency */
+ if (ctrl->tCK <= TCK_1066MHZ) {
+ ctrl->tCK = TCK_1066MHZ;
+ ctrl->edge_offset[0] = 16;
+ ctrl->edge_offset[1] = 7;
+ ctrl->edge_offset[2] = 7;
+ ctrl->timC_offset[0] = 18;
+ ctrl->timC_offset[1] = 7;
+ ctrl->timC_offset[2] = 7;
+ ctrl->reg_c14_offset = 16;
+ ctrl->reg_5064b0 = 0x218;
+ ctrl->reg_320c_range_threshold = 13;
+ } else if (ctrl->tCK <= TCK_933MHZ) {
+ ctrl->tCK = TCK_933MHZ;
+ ctrl->edge_offset[0] = 14;
+ ctrl->edge_offset[1] = 6;
+ ctrl->edge_offset[2] = 6;
+ ctrl->timC_offset[0] = 15;
+ ctrl->timC_offset[1] = 6;
+ ctrl->timC_offset[2] = 6;
+ ctrl->reg_c14_offset = 14;
+ ctrl->reg_5064b0 = 0x1d5;
+ ctrl->reg_320c_range_threshold = 15;
+ } else if (ctrl->tCK <= TCK_800MHZ) {
+ ctrl->tCK = TCK_800MHZ;
+ ctrl->edge_offset[0] = 13;
+ ctrl->edge_offset[1] = 5;
+ ctrl->edge_offset[2] = 5;
+ ctrl->timC_offset[0] = 14;
+ ctrl->timC_offset[1] = 5;
+ ctrl->timC_offset[2] = 5;
+ ctrl->reg_c14_offset = 12;
+ ctrl->reg_5064b0 = 0x193;
+ ctrl->reg_320c_range_threshold = 15;
+ } else if (ctrl->tCK <= TCK_666MHZ) {
+ ctrl->tCK = TCK_666MHZ;
+ ctrl->edge_offset[0] = 10;
+ ctrl->edge_offset[1] = 4;
+ ctrl->edge_offset[2] = 4;
+ ctrl->timC_offset[0] = 11;
+ ctrl->timC_offset[1] = 4;
+ ctrl->timC_offset[2] = 4;
+ ctrl->reg_c14_offset = 10;
+ ctrl->reg_5064b0 = 0x150;
+ ctrl->reg_320c_range_threshold = 16;
+ } else if (ctrl->tCK <= TCK_533MHZ) {
+ ctrl->tCK = TCK_533MHZ;
+ ctrl->edge_offset[0] = 8;
+ ctrl->edge_offset[1] = 3;
+ ctrl->edge_offset[2] = 3;
+ ctrl->timC_offset[0] = 9;
+ ctrl->timC_offset[1] = 3;
+ ctrl->timC_offset[2] = 3;
+ ctrl->reg_c14_offset = 8;
+ ctrl->reg_5064b0 = 0x10d;
+ ctrl->reg_320c_range_threshold = 17;
+ } else {
+ ctrl->tCK = TCK_400MHZ;
+ ctrl->edge_offset[0] = 6;
+ ctrl->edge_offset[1] = 2;
+ ctrl->edge_offset[2] = 2;
+ ctrl->timC_offset[0] = 6;
+ ctrl->timC_offset[1] = 2;
+ ctrl->timC_offset[2] = 2;
+ ctrl->reg_c14_offset = 8;
+ ctrl->reg_5064b0 = 0xcd;
+ ctrl->reg_320c_range_threshold = 17;
+ }
+
+ val32 = (1000 << 8) / ctrl->tCK;
+ printk(BIOS_DEBUG, "Selected DRAM frequency: %u MHz\n", val32);
+
+ /* Find CAS and CWL latencies */
+ val = (ctrl->tAA + ctrl->tCK - 1) / ctrl->tCK;
+ printk(BIOS_DEBUG, "Minimum CAS latency : %uT\n", val);
+ /* Find lowest supported CAS latency that satisfies the minimum value */
+ while (!((ctrl->cas_supported >> (val - 4)) & 1)
+ && (ctrl->cas_supported >> (val - 4))) {
+ val++;
+ }
+ /* Is CAS supported */
+ if (!(ctrl->cas_supported & (1 << (val - 4))))
+ printk(BIOS_DEBUG, "CAS not supported\n");
+ printk(BIOS_DEBUG, "Selected CAS latency : %uT\n", val);
+ ctrl->CAS = val;
+ ctrl->CWL = get_CWL(ctrl->CAS);
+ printk(BIOS_DEBUG, "Selected CWL latency : %uT\n", ctrl->CWL);
+
+ /* Find tRCD */
+ ctrl->tRCD = (ctrl->tRCD + ctrl->tCK - 1) / ctrl->tCK;
+ printk(BIOS_DEBUG, "Selected tRCD : %uT\n", ctrl->tRCD);
+
+ ctrl->tRP = (ctrl->tRP + ctrl->tCK - 1) / ctrl->tCK;
+ printk(BIOS_DEBUG, "Selected tRP : %uT\n", ctrl->tRP);
+
+ /* Find tRAS */
+ ctrl->tRAS = (ctrl->tRAS + ctrl->tCK - 1) / ctrl->tCK;
+ printk(BIOS_DEBUG, "Selected tRAS : %uT\n", ctrl->tRAS);
+
+ /* Find tWR */
+ ctrl->tWR = (ctrl->tWR + ctrl->tCK - 1) / ctrl->tCK;
+ printk(BIOS_DEBUG, "Selected tWR : %uT\n", ctrl->tWR);
+
+ /* Find tFAW */
+ ctrl->tFAW = (ctrl->tFAW + ctrl->tCK - 1) / ctrl->tCK;
+ printk(BIOS_DEBUG, "Selected tFAW : %uT\n", ctrl->tFAW);
+
+ /* Find tRRD */
+ ctrl->tRRD = (ctrl->tRRD + ctrl->tCK - 1) / ctrl->tCK;
+ printk(BIOS_DEBUG, "Selected tRRD : %uT\n", ctrl->tRRD);
+
+ /* Find tRTP */
+ ctrl->tRTP = (ctrl->tRTP + ctrl->tCK - 1) / ctrl->tCK;
+ printk(BIOS_DEBUG, "Selected tRTP : %uT\n", ctrl->tRTP);
+
+ /* Find tWTR */
+ ctrl->tWTR = (ctrl->tWTR + ctrl->tCK - 1) / ctrl->tCK;
+ printk(BIOS_DEBUG, "Selected tWTR : %uT\n", ctrl->tWTR);
+
+ /* Refresh-to-Active or Refresh-to-Refresh (tRFC) */
+ ctrl->tRFC = (ctrl->tRFC + ctrl->tCK - 1) / ctrl->tCK;
+ printk(BIOS_DEBUG, "Selected tRFC : %uT\n", ctrl->tRFC);
+
+ ctrl->tREFI = get_REFI(ctrl->tCK);
+ ctrl->tMOD = get_MOD(ctrl->tCK);
+ ctrl->tXSOffset = get_XSOffset(ctrl->tCK);
+ ctrl->tWLO = get_WLO(ctrl->tCK);
+ ctrl->tCKE = get_CKE(ctrl->tCK);
+ ctrl->tXPDLL = get_XPDLL(ctrl->tCK);
+ ctrl->tXP = get_XP(ctrl->tCK);
+ ctrl->tAONPD = get_AONPD(ctrl->tCK);
+}
+
+static void dram_freq(ramctr_timing * ctrl)
+{
+ if (ctrl->tCK > TCK_400MHZ) {
+ printk (BIOS_ERR, "DRAM frequency is under lowest supported frequency (400 MHz). Increasing to 400 MHz as last resort");
+ ctrl->tCK = TCK_400MHZ;
+ }
+ while (1) {
+ u8 val2;
+ u32 reg1 = 0;
+
+ /* Step 1 - Set target PCU frequency */
+
+ if (ctrl->tCK <= TCK_1066MHZ) {
+ ctrl->tCK = TCK_1066MHZ;
+ } else if (ctrl->tCK <= TCK_933MHZ) {
+ ctrl->tCK = TCK_933MHZ;
+ } else if (ctrl->tCK <= TCK_800MHZ) {
+ ctrl->tCK = TCK_800MHZ;
+ } else if (ctrl->tCK <= TCK_666MHZ) {
+ ctrl->tCK = TCK_666MHZ;
+ } else if (ctrl->tCK <= TCK_533MHZ) {
+ ctrl->tCK = TCK_533MHZ;
+ } else if (ctrl->tCK <= TCK_400MHZ) {
+ ctrl->tCK = TCK_400MHZ;
+ } else {
+ die ("No lock frequency found");
+ }
+
+ /* Frequency mulitplier. */
+ u32 FRQ = get_FRQ(ctrl->tCK);
+
+ /* Step 2 - Select frequency in the MCU */
+ reg1 = FRQ;
+ reg1 |= 0x80000000; // set running bit
+ MCHBAR32(0x5e00) = reg1;
+ while (reg1 & 0x80000000) {
+ printk(BIOS_DEBUG, " PLL busy...");
+ reg1 = MCHBAR32(0x5e00);
+ }
+ printk(BIOS_DEBUG, "done\n");
+
+ /* Step 3 - Verify lock frequency */
+ reg1 = MCHBAR32(0x5e04);
+ val2 = (u8) reg1;
+ if (val2 >= FRQ) {
+ printk(BIOS_DEBUG, "MCU frequency is set at : %d MHz\n",
+ (1000 << 8) / ctrl->tCK);
+ return;
+ }
+ printk(BIOS_DEBUG, "PLL didn't lock. Retrying at lower frequency\n");
+ ctrl->tCK++;
+ }
+}
+
+static void dram_xover(ramctr_timing * ctrl)
+{
+ u32 reg;
+ int channel;
+
+ FOR_ALL_CHANNELS {
+ // enable xover clk
+ printk(BIOS_DEBUG, "[%x] = %x\n", channel * 0x100 + 0xc14,
+ (ctrl->rankmap[channel] << 24));
+ MCHBAR32(channel * 0x100 + 0xc14) = (ctrl->rankmap[channel] << 24);
+
+ // enable xover ctl
+ reg = 0;
+ if (ctrl->rankmap[channel] & 0x5) {
+ reg |= 0x20000;
+ }
+ if (ctrl->rankmap[channel] & 0xa) {
+ reg |= 0x4000000;
+ }
+ // enable xover cmd
+ reg |= 0x4000;
+ printk(BIOS_DEBUG, "[%x] = %x\n", 0x100 * channel + 0x320c,
+ reg);
+ MCHBAR32(0x100 * channel + 0x320c) = reg;
+ }
+}
+
+static void dram_timing_regs(ramctr_timing * ctrl)
+{
+ u32 reg, addr, val32, cpu, stretch;
+ struct cpuid_result cpures;
+ int channel;
+
+ FOR_ALL_CHANNELS {
+ // DBP
+ reg = 0;
+ reg |= ctrl->tRCD;
+ reg |= (ctrl->tRP << 4);
+ reg |= (ctrl->CAS << 8);
+ reg |= (ctrl->CWL << 12);
+ reg |= (ctrl->tRAS << 16);
+ printk(BIOS_DEBUG, "[%x] = %x\n", 0x400 * channel + 0x4000,
+ reg);
+ MCHBAR32(0x400 * channel + 0x4000) = reg;
+
+ // RAP
+ reg = 0;
+ reg |= ctrl->tRRD;
+ reg |= (ctrl->tRTP << 4);
+ reg |= (ctrl->tCKE << 8);
+ reg |= (ctrl->tWTR << 12);
+ reg |= (ctrl->tFAW << 16);
+ reg |= (ctrl->tWR << 24);
+ reg |= (3 << 30);
+ printk(BIOS_DEBUG, "[%x] = %x\n", 0x400 * channel + 0x4004,
+ reg);
+ MCHBAR32(0x400 * channel + 0x4004) = reg;
+
+ // OTHP
+ addr = 0x400 * channel + 0x400c;
+ reg = 0;
+ reg |= ctrl->tXPDLL;
+ reg |= (ctrl->tXP << 5);
+ reg |= (ctrl->tAONPD << 8);
+ reg |= 0xa0000;
+ printk(BIOS_DEBUG, "[%x] = %x\n", addr, reg);
+ MCHBAR32(addr) = reg;
+
+ MCHBAR32(0x400 * channel + 0x4014) = 0;
+
+ MCHBAR32(addr) |= 0x00020000;
+
+ // ODT stretch
+ reg = 0;
+
+ cpures = cpuid(0);
+ cpu = cpures.eax;
+ if (IS_IVY_CPU(cpu)
+ || (IS_SANDY_CPU(cpu) && IS_SANDY_CPU_D2(cpu))) {
+ stretch = 2;
+ addr = 0x400 * channel + 0x400c;
+ printk(BIOS_DEBUG, "[%x] = %x\n",
+ 0x400 * channel + 0x400c, reg);
+ reg = MCHBAR32(addr);
+
+ if (((ctrl->rankmap[channel] & 3) == 0)
+ || (ctrl->rankmap[channel] & 0xc) == 0) {
+
+ // Rank 0 - operate on rank 2
+ reg = (reg & ~0xc0000) | (stretch << 18);
+
+ // Rank 2 - operate on rank 0
+ reg = (reg & ~0x30000) | (stretch << 16);
+
+ printk(BIOS_DEBUG, "[%x] = %x\n", addr, reg);
+ MCHBAR32(addr) = reg;
+ }
+
+ } else if (IS_SANDY_CPU(cpu) && IS_SANDY_CPU_C(cpu)) {
+ stretch = 3;
+ addr = 0x400 * channel + 0x401c;
+ reg = MCHBAR32(addr);
+
+ if (((ctrl->rankmap[channel] & 3) == 0)
+ || (ctrl->rankmap[channel] & 0xc) == 0) {
+
+ // Rank 0 - operate on rank 2
+ reg = (reg & ~0x3000) | (stretch << 12);
+
+ // Rank 2 - operate on rank 0
+ reg = (reg & ~0xc00) | (stretch << 10);
+
+ printk(BIOS_DEBUG, "[%x] = %x\n", addr, reg);
+ MCHBAR32(addr) = reg;
+ }
+ } else {
+ stretch = 0;
+ }
+
+ // REFI
+ reg = 0;
+ val32 = ctrl->tREFI;
+ reg = (reg & ~0xffff) | val32;
+ val32 = ctrl->tRFC;
+ reg = (reg & ~0x1ff0000) | (val32 << 16);
+ val32 = (u32) (ctrl->tREFI * 9) / 1024;
+ reg = (reg & ~0xfe000000) | (val32 << 25);
+ printk(BIOS_DEBUG, "[%x] = %x\n", 0x400 * channel + 0x4298,
+ reg);
+ MCHBAR32(0x400 * channel + 0x4298) = reg;
+
+ MCHBAR32(0x400 * channel + 0x4294) |= 0xff;
+
+ // SRFTP
+ reg = 0;
+ val32 = tDLLK;
+ reg = (reg & ~0xfff) | val32;
+ val32 = ctrl->tXSOffset;
+ reg = (reg & ~0xf000) | (val32 << 12);
+ val32 = tDLLK - ctrl->tXSOffset;
+ reg = (reg & ~0x3ff0000) | (val32 << 16);
+ val32 = ctrl->tMOD - 8;
+ reg = (reg & ~0xf0000000) | (val32 << 28);
+ printk(BIOS_DEBUG, "[%x] = %x\n", 0x400 * channel + 0x42a4,
+ reg);
+ MCHBAR32(0x400 * channel + 0x42a4) = reg;
}
+}
+
+static void dram_dimm_mapping(dimm_info * info, ramctr_timing * ctrl)
+{
+ u32 reg, val32;
+ int channel;
+
+ FOR_ALL_CHANNELS {
+ dimm_attr *dimmA = 0;
+ dimm_attr *dimmB = 0;
+ reg = 0;
+ val32 = 0;
+ if (info->dimm[channel][0].size_mb >=
+ info->dimm[channel][1].size_mb) {
+ // dimm 0 is bigger, set it to dimmA
+ dimmA = &info->dimm[channel][0];
+ dimmB = &info->dimm[channel][1];
+ reg |= (0 << 16);
+ } else {
+ // dimm 1 is bigger, set it to dimmA
+ dimmA = &info->dimm[channel][1];
+ dimmB = &info->dimm[channel][0];
+ reg |= (1 << 16);
+ }
+ // dimmA
+ if (dimmA && (dimmA->ranks > 0)) {
+ val32 = dimmA->size_mb / 256;
+ reg = (reg & ~0xff) | val32;
+ val32 = dimmA->ranks - 1;
+ reg = (reg & ~0x20000) | (val32 << 17);
+ val32 = (dimmA->width / 8) - 1;
+ reg = (reg & ~0x80000) | (val32 << 19);
+ }
+ // dimmB
+ if (dimmB && (dimmB->ranks > 0)) {
+ val32 = dimmB->size_mb / 256;
+ reg = (reg & ~0xff00) | (val32 << 8);
+ val32 = dimmB->ranks - 1;
+ reg = (reg & ~0x40000) | (val32 << 18);
+ val32 = (dimmB->width / 8) - 1;
+ reg = (reg & ~0x100000) | (val32 << 20);
+ }
+ reg = (reg & ~0x200000) | (1 << 21); // rank interleave
+ reg = (reg & ~0x400000) | (1 << 22); // enhanced interleave
+
+ // Save MAD-DIMM register
+ if ((dimmA && (dimmA->ranks > 0))
+ || (dimmB && (dimmB->ranks > 0))) {
+ ctrl->mad_dimm[channel] = reg;
+ } else {
+ ctrl->mad_dimm[channel] = 0;
+ }
+ }
+}
+
+static void dram_dimm_set_mapping(ramctr_timing * ctrl)
+{
+ int channel;
+ FOR_ALL_CHANNELS {
+ MCHBAR32(0x5004 + channel * 4) = ctrl->mad_dimm[channel];
+ }
+}
+
+static void dram_zones(ramctr_timing * ctrl, int training)
+{
+ u32 reg, ch0size, ch1size;
+ u8 val;
+ reg = 0;
+ val = 0;
+ if (training) {
+ ch0size = ctrl->channel_size_mb[0] ? 256 : 0;
+ ch1size = ctrl->channel_size_mb[1] ? 256 : 0;
+ } else {
+ ch0size = ctrl->channel_size_mb[0];
+ ch1size = ctrl->channel_size_mb[1];
+ }
+
+ if (ch0size >= ch1size) {
+ reg = MCHBAR32(0x5014);
+ val = ch1size / 256;
+ reg = (reg & ~0xff000000) | val << 24;
+ reg = (reg & ~0xff0000) | (2 * val) << 16;
+ MCHBAR32(0x5014) = reg;
+ MCHBAR32(0x5000) = 0x24;
+ } else {
+ reg = MCHBAR32(0x5014);
+ val = ch0size / 256;
+ reg = (reg & ~0xff000000) | val << 24;
+ reg = (reg & ~0xff0000) | (2 * val) << 16;
+ MCHBAR32(0x5014) = reg;
+ MCHBAR32(0x5000) = 0x21;
+ }
+}
+
+static void dram_memorymap(ramctr_timing * ctrl, int me_uma_size)
+{
+ u32 reg, val, reclaim;
+ u32 tom, gfxstolen, gttsize;
+ size_t tsegsize, mmiosize, toludbase, touudbase, gfxstolenbase, gttbase,
+ tsegbase, mestolenbase;
+ size_t tsegbasedelta, remapbase, remaplimit;
+ uint16_t ggc;
+
+ mmiosize = 0x400;
+
+ ggc = pci_read_config16(NORTHBRIDGE, GGC);
+ if (!(ggc & 2)) {
+ gfxstolen = ((ggc >> 3) & 0x1f) * 32;
+ gttsize = ((ggc >> 8) & 0x3);
+ } else {
+ gfxstolen = 0;
+ gttsize = 0;
+ }
+
+ tsegsize = CONFIG_SMM_TSEG_SIZE >> 20;
+
+ tom = ctrl->channel_size_mb[0] + ctrl->channel_size_mb[1];
+
+ mestolenbase = tom - me_uma_size;
+
+ toludbase = MIN(4096 - mmiosize + gfxstolen + gttsize + tsegsize,
+ tom - me_uma_size);
+ gfxstolenbase = toludbase - gfxstolen;
+ gttbase = gfxstolenbase - gttsize;
+
+ tsegbase = gttbase - tsegsize;
+
+ // Round tsegbase down to nearest address aligned to tsegsize
+ tsegbasedelta = tsegbase & (tsegsize - 1);
+ tsegbase &= ~(tsegsize - 1);
+
+ gttbase -= tsegbasedelta;
+ gfxstolenbase -= tsegbasedelta;
+ toludbase -= tsegbasedelta;
+
+ // Test if it is possible to reclaim a hole in the ram addressing
+ if (tom - me_uma_size > toludbase) {
+ // Reclaim is possible
+ reclaim = 1;
+ remapbase = MAX(4096, tom - me_uma_size);
+ remaplimit =
+ remapbase + MIN(4096, tom - me_uma_size) - toludbase - 1;
+ touudbase = remaplimit + 1;
+ } else {
+ // Reclaim not possible
+ reclaim = 0;
+ touudbase = tom - me_uma_size;
+ }
+
+ // Update memory map in pci-e configuration space
+
+ // TOM (top of memory)
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xa0);
+ val = tom & 0xfff;
+ reg = (reg & ~0xfff00000) | (val << 20);
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xa0, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0xa0, reg);
+
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xa4);
+ val = tom & 0xfffff000;
+ reg = (reg & ~0x000fffff) | (val >> 12);
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xa4, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0xa4, reg);
+
+ // TOLUD (top of low used dram)
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xbc);
+ val = toludbase & 0xfff;
+ reg = (reg & ~0xfff00000) | (val << 20);
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xbc, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0xbc, reg);
+
+ // TOUUD LSB (top of upper usable dram)
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xa8);
+ val = touudbase & 0xfff;
+ reg = (reg & ~0xfff00000) | (val << 20);
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xa8, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0xa8, reg);
+
+ // TOUUD MSB
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xac);
+ val = touudbase & 0xfffff000;
+ reg = (reg & ~0x000fffff) | (val >> 12);
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xac, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0xac, reg);
+
+ if (reclaim) {
+ // REMAP BASE
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0x90, remapbase << 20);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0x94, remapbase >> 12);
+
+ // REMAP LIMIT
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0x98, remaplimit << 20);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0x9c, remaplimit >> 12);
+ }
+ // TSEG
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xb8);
+ val = tsegbase & 0xfff;
+ reg = (reg & ~0xfff00000) | (val << 20);
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xb8, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0xb8, reg);
+
+ // GFX stolen memory
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xb0);
+ val = gfxstolenbase & 0xfff;
+ reg = (reg & ~0xfff00000) | (val << 20);
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xb0, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0xb0, reg);
+
+ // GTT stolen memory
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xb4);
+ val = gttbase & 0xfff;
+ reg = (reg & ~0xfff00000) | (val << 20);
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xb4, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0xb4, reg);
+
+ if (me_uma_size) {
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0x7c);
+ val = (0x80000 - me_uma_size) & 0xfffff000;
+ reg = (reg & ~0x000fffff) | (val >> 12);
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0x7c, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0x7c, reg);
+
+ // ME base
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0x70);
+ val = mestolenbase & 0xfff;
+ reg = (reg & ~0xfff00000) | (val << 20);
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0x70, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0x70, reg);
+
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0x74);
+ val = mestolenbase & 0xfffff000;
+ reg = (reg & ~0x000fffff) | (val >> 12);
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0x74, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0x74, reg);
+
+ // ME mask
+ reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0x78);
+ val = (0x80000 - me_uma_size) & 0xfff;
+ reg = (reg & ~0xfff00000) | (val << 20);
+ reg = (reg & ~0x400) | (1 << 10); // set lockbit on ME mem
+
+ reg = (reg & ~0x800) | (1 << 11); // set ME memory enable
+ printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0x78, reg);
+ pcie_write_config32(PCI_DEV(0, 0, 0), 0x78, reg);
+ }
+}
+
+static void dram_ioregs(ramctr_timing * ctrl)
+{
+ u32 reg, comp2;
+
+ int channel;
+
+ // IO clock
+ FOR_ALL_CHANNELS {
+ MCHBAR32(0xc00 + 0x100 * channel) = ctrl->rankmap[channel];
+ }
+
+ // IO command
+ FOR_ALL_CHANNELS {
+ MCHBAR32(0x3200 + 0x100 * channel) = ctrl->rankmap[channel];
+ }
+
+ // IO control
+ FOR_ALL_POPULATED_CHANNELS {
+ program_timings(ctrl, channel);
+ }
+
+ // Rcomp
+ printk(BIOS_DEBUG, "RCOMP...");
+ reg = 0;
+ while (reg == 0) {
+ reg = MCHBAR32(0x5084) & 0x10000;
+ }
+ printk(BIOS_DEBUG, "done\n");
+
+ // Set comp2
+ comp2 = get_COMP2(ctrl->tCK);
+ MCHBAR32(0x3714) = comp2;
+ printk(BIOS_DEBUG, "COMP2 done\n");
+
+ // Set comp1
+ FOR_ALL_POPULATED_CHANNELS {
+ reg = MCHBAR32(0x1810 + channel * 0x100); //ch0
+ reg = (reg & ~0xe00) | (1 << 9); //odt
+ reg = (reg & ~0xe00000) | (1 << 21); //clk drive up
+ reg = (reg & ~0x38000000) | (1 << 27); //ctl drive up
+ MCHBAR32(0x1810 + channel * 0x100) = reg;
+ }
+ printk(BIOS_DEBUG, "COMP1 done\n");
+
+ printk(BIOS_DEBUG, "FORCE RCOMP and wait 20us...");
+ MCHBAR32(0x5f08) |= 0x100;
+ udelay(20);
+ printk(BIOS_DEBUG, "done\n");
+}
+
+static void wait_428c(int channel)
+{
+ while (1) {
+ if (read32(DEFAULT_MCHBAR + 0x428c + (channel << 10)) & 0x50)
+ return;
+ }
+}
+
+static void write_reset(ramctr_timing * ctrl)
+{
+ int channel, slotrank;
+
+ /* choose a populated channel. */
+ channel = (ctrl->rankmap[0]) ? 0 : 1;
+
+ wait_428c(channel);
+
+ /* choose a populated rank. */
+ slotrank = (ctrl->rankmap[channel] & 1) ? 0 : 2;
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x80c01);
+
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0x400001);
+ wait_428c(channel);
+}
+
+static void dram_jedecreset(ramctr_timing * ctrl)
+{
+ u32 reg, addr;
+ int channel;
+
+ while (!(MCHBAR32(0x5084) & 0x10000)) ;
+ do {
+ reg = MCHBAR32(0x428c);
+ } while ((reg & 0x14) == 0);
+
+ // Set state of memory controller
+ reg = 0x112;
+ MCHBAR32(0x5030) = reg;
+ MCHBAR32(0x4ea0) = 0;
+ reg |= 2; //ddr reset
+ MCHBAR32(0x5030) = reg;
+
+ // Assert dimm reset signal
+ reg = MCHBAR32(0x5030);
+ reg &= ~0x2;
+ MCHBAR32(0x5030) = reg;
+
+ // Wait 200us
+ udelay(200);
+
+ // Deassert dimm reset signal
+ MCHBAR32(0x5030) |= 2;
+
+ // Wait 500us
+ udelay(500);
- /* Pass console handler in pei_data */
- pei_data->tx_byte = do_putchar;
+ // Enable DCLK
+ MCHBAR32(0x5030) |= 4;
- /* Locate and call UEFI System Agent binary. */
- entry = cbfs_boot_map_with_leak("mrc.bin", CBFS_TYPE_MRC, NULL);
- if (entry) {
- int rv;
- rv = entry (pei_data);
- if (rv) {
- switch (rv) {
- case -1:
- printk(BIOS_ERR, "PEI version mismatch.\n");
+ // XXX Wait 20ns
+ udelay(1);
+
+ FOR_ALL_CHANNELS {
+ // Set valid rank CKE
+ reg = 0;
+ reg = (reg & ~0xf) | ctrl->rankmap[channel];
+ addr = 0x400 * channel + 0x42a0;
+ MCHBAR32(addr) = reg;
+
+ // Wait 10ns for ranks to settle
+ //udelay(0.01);
+
+ reg = (reg & ~0xf0) | (ctrl->rankmap[channel] << 4);
+ MCHBAR32(addr) = reg;
+
+ // Write reset using a NOP
+ write_reset(ctrl);
+ }
+}
+
+static odtmap get_ODT(ramctr_timing * ctrl, u8 rank)
+{
+ /* Get ODT based on rankmap: */
+ int dimms_per_ch = 0;
+ int channel;
+
+ FOR_ALL_CHANNELS {
+ dimms_per_ch = max ((ctrl->rankmap[channel] & 1)
+ + ((ctrl->rankmap[channel] >> 2) & 1),
+ dimms_per_ch);
+ }
+
+ if (dimms_per_ch == 1) {
+ return (const odtmap){60, 60};
+ } else if (dimms_per_ch == 2) {
+ return (const odtmap){120, 30};
+ } else {
+ printk(BIOS_DEBUG,
+ "Huh, no dimms? m0 = %d m1 = %d dpc = %d\n",
+ ctrl->rankmap[0],
+ ctrl->rankmap[1], dimms_per_ch);
+ die("");
+ }
+}
+
+static void write_mrreg(ramctr_timing * ctrl, int channel, int slotrank,
+ int reg, u32 val)
+{
+ wait_428c(channel);
+
+ printram("MRd: %x <= %x\n", reg, val);
+
+ if (ctrl->rank_mirror[channel][slotrank]) {
+ /* DDR3 Rank1 Address mirror
+ * swap the following pins:
+ * A3<->A4, A5<->A6, A7<->A8, BA0<->BA1 */
+ reg = ((reg >> 1) & 1) | ((reg << 1) & 2);
+ val = (val & ~0x1f8) | ((val >> 1) & 0xa8)
+ | ((val & 0xa8) << 1);
+ }
+
+ printram("MRd: %x <= %x\n", reg, val);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f000);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x41001);
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | (reg << 20) | val | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel, 0x41001);
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24) | (reg << 20) | val | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x0f000);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
+ 0x1001 | (ctrl->tMOD << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
+ (slotrank << 24) | (reg << 20) | val | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0x80001);
+}
+
+static u32 make_mr0(ramctr_timing * ctrl, u8 rank)
+{
+ u16 mr0reg, mch_cas, mch_wr;
+ static const u8 mch_wr_t[12] = { 1, 2, 3, 4, 0, 5, 0, 6, 0, 7, 0, 0 };
+ mr0reg = 0x100;
+
+ // Convert CAS to MCH register friendly
+ if (ctrl->CAS < 12) {
+ mch_cas = (u16) ((ctrl->CAS - 4) << 1);
+ } else {
+ mch_cas = (u16) (ctrl->CAS - 12);
+ mch_cas = ((mch_cas << 1) | 0x1);
+ }
+
+ // Convert tWR to MCH register friendly
+ mch_wr = mch_wr_t[ctrl->tWR - 5];
+
+ mr0reg = (mr0reg & ~0x4) | (mch_cas & 0x1);
+ mr0reg = (mr0reg & ~0x70) | ((mch_cas & 0xe) << 3);
+ mr0reg = (mr0reg & ~0xe00) | (mch_wr << 9);
+ // Fast (desktop) 0x1 or slow (mobile) 0x0
+ mr0reg = (mr0reg & ~0x1000) | (!ctrl->mobile << 12);
+ return mr0reg;
+}
+
+static void dram_mr0(ramctr_timing * ctrl, u8 rank)
+{
+ int channel;
+
+ FOR_ALL_POPULATED_CHANNELS write_mrreg(ctrl, channel, rank, 0,
+ make_mr0(ctrl, rank));
+}
+
+static u32 encode_odt(u32 odt)
+{
+ switch (odt) {
+ case 30:
+ return (1 << 9) | (1 << 2); // RZQ/8, RZQ/4
+ case 60:
+ return (1 << 2); // RZQ/4
+ case 120:
+ return (1 << 6); // RZQ/2
+ default:
+ case 0:
+ return 0;
+ }
+}
+
+static u32 make_mr1(ramctr_timing * ctrl, u8 rank)
+{
+ odtmap odt;
+ u32 mr1reg;
+
+ odt = get_ODT(ctrl, rank);
+ mr1reg = 0x2;
+
+ mr1reg |= encode_odt(odt.rttnom);
+
+ return mr1reg;
+}
+
+static void dram_mr1(ramctr_timing * ctrl, u8 rank)
+{
+ u16 mr1reg;
+ int channel;
+
+ mr1reg = make_mr1(ctrl, rank);
+
+ FOR_ALL_CHANNELS {
+ write_mrreg(ctrl, channel, rank, 1, mr1reg);
+ }
+}
+
+static void dram_mr2(ramctr_timing * ctrl, u8 rank)
+{
+ u16 pasr, cwl, mr2reg;
+ odtmap odt;
+ int channel;
+ int srt;
+
+ pasr = 0;
+ cwl = ctrl->CWL - 5;
+ odt = get_ODT(ctrl, rank);
+
+ srt = ctrl->extended_temperature_range && !ctrl->auto_self_refresh;
+
+ mr2reg = 0;
+ mr2reg = (mr2reg & ~0x7) | pasr;
+ mr2reg = (mr2reg & ~0x38) | (cwl << 3);
+ mr2reg = (mr2reg & ~0x40) | (ctrl->auto_self_refresh << 6);
+ mr2reg = (mr2reg & ~0x80) | (srt << 7);
+ mr2reg |= (odt.rttwr / 60) << 9;
+
+ FOR_ALL_CHANNELS {
+ write_mrreg(ctrl, channel, rank, 2, mr2reg);
+ }
+}
+
+static void dram_mr3(ramctr_timing * ctrl, u8 rank)
+{
+ int channel;
+
+ FOR_ALL_CHANNELS {
+ write_mrreg(ctrl, channel, rank, 3, 0);
+ }
+}
+
+static void dram_mrscommands(ramctr_timing * ctrl)
+{
+ u8 rank;
+ u32 reg, addr;
+ int channel;
+
+ for (rank = 0; rank < 4; rank++) {
+ // MR2
+ printram("MR2 rank %d...", rank);
+ dram_mr2(ctrl, rank);
+ printram("done\n");
+
+ // MR3
+ printram("MR3 rank %d...", rank);
+ dram_mr3(ctrl, rank);
+ printram("done\n");
+
+ // MR1
+ printram("MR1 rank %d...", rank);
+ dram_mr1(ctrl, rank);
+ printram("done\n");
+
+ // MR0
+ printram("MR0 rank %d...", rank);
+ dram_mr0(ctrl, rank);
+ printram("done\n");
+ }
+
+ write32(DEFAULT_MCHBAR + 0x4e20, 0x7);
+ write32(DEFAULT_MCHBAR + 0x4e30, 0xf1001);
+ write32(DEFAULT_MCHBAR + 0x4e00, 0x60002);
+ write32(DEFAULT_MCHBAR + 0x4e10, 0);
+ write32(DEFAULT_MCHBAR + 0x4e24, 0x1f003);
+ write32(DEFAULT_MCHBAR + 0x4e34, 0x1901001);
+ write32(DEFAULT_MCHBAR + 0x4e04, 0x60400);
+ write32(DEFAULT_MCHBAR + 0x4e14, 0x288);
+ write32(DEFAULT_MCHBAR + 0x4e84, 0x40004);
+
+ // Drain
+ FOR_ALL_CHANNELS {
+ // Wait for ref drained
+ wait_428c(channel);
+ }
+
+ // Refresh enable
+ MCHBAR32(0x5030) |= 8;
+
+ FOR_ALL_POPULATED_CHANNELS {
+ addr = 0x400 * channel + 0x4020;
+ reg = MCHBAR32(addr);
+ reg &= ~0x200000;
+ MCHBAR32(addr) = reg;
+
+ wait_428c(channel);
+
+ rank = (ctrl->rankmap[channel] & 1) ? 0 : 2;
+
+ // Drain
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x659001);
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (rank << 24) | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x3e0);
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0x1);
+
+ // Drain
+ wait_428c(channel);
+ }
+}
+
+const u32 lane_registers[] = {
+ 0x0000, 0x0200, 0x0400, 0x0600,
+ 0x1000, 0x1200, 0x1400, 0x1600,
+ 0x0800
+};
+
+static void program_timings(ramctr_timing * ctrl, int channel)
+{
+ u32 reg32, reg_4024, reg_c14, reg_c18, reg_4028;
+ int lane;
+ int slotrank, slot;
+ int full_shift = 0;
+ u16 slot320c[NUM_SLOTS];
+
+ FOR_ALL_POPULATED_RANKS {
+ if (full_shift < -ctrl->timings[channel][slotrank].val_320c)
+ full_shift = -ctrl->timings[channel][slotrank].val_320c;
+ }
+
+ for (slot = 0; slot < NUM_SLOTS; slot++)
+ switch ((ctrl->rankmap[channel] >> (2 * slot)) & 3) {
+ case 0:
+ default:
+ slot320c[slot] = 0x7f;
+ break;
+ case 1:
+ slot320c[slot] =
+ ctrl->timings[channel][2 * slot + 0].val_320c +
+ full_shift;
+ break;
+ case 2:
+ slot320c[slot] =
+ ctrl->timings[channel][2 * slot + 1].val_320c +
+ full_shift;
+ break;
+ case 3:
+ slot320c[slot] =
+ (ctrl->timings[channel][2 * slot].val_320c +
+ ctrl->timings[channel][2 * slot +
+ 1].val_320c) / 2 +
+ full_shift;
+ break;
+ }
+
+ reg32 = (1 << 17) | (1 << 14);
+ reg32 |= ((slot320c[0] & 0x3f) << 6) | ((slot320c[0] & 0x40) << 9);
+ reg32 |= (slot320c[1] & 0x7f) << 18;
+ reg32 |= (full_shift & 0x3f) | ((full_shift & 0x40) << 6);
+
+ MCHBAR32(0x320c + 0x100 * channel) = reg32;
+
+ reg_c14 = ctrl->rankmap[channel] << 24;
+ reg_c18 = 0;
+
+ FOR_ALL_POPULATED_RANKS {
+ int shift =
+ ctrl->timings[channel][slotrank].val_320c + full_shift;
+ int offset_val_c14;
+ if (shift < 0)
+ shift = 0;
+ offset_val_c14 = ctrl->reg_c14_offset + shift;
+ reg_c14 |= (offset_val_c14 & 0x3f) << (6 * slotrank);
+ reg_c18 |= ((offset_val_c14 >> 6) & 1) << slotrank;
+ }
+
+ MCHBAR32(0xc14 + channel * 0x100) = reg_c14;
+ MCHBAR32(0xc18 + channel * 0x100) = reg_c18;
+
+ reg_4028 = MCHBAR32(0x4028 + 0x400 * channel);
+ reg_4028 &= 0xffff0000;
+
+ reg_4024 = 0;
+
+ FOR_ALL_POPULATED_RANKS {
+ int post_timA_min_high = 7, post_timA_max_high = 0;
+ int pre_timA_min_high = 7, pre_timA_max_high = 0;
+ int shift_402x = 0;
+ int shift =
+ ctrl->timings[channel][slotrank].val_320c + full_shift;
+
+ if (shift < 0)
+ shift = 0;
+
+ FOR_ALL_LANES {
+ if (post_timA_min_high >
+ ((ctrl->timings[channel][slotrank].lanes[lane].
+ timA + shift) >> 6))
+ post_timA_min_high =
+ ((ctrl->timings[channel][slotrank].
+ lanes[lane].timA + shift) >> 6);
+ if (pre_timA_min_high >
+ (ctrl->timings[channel][slotrank].lanes[lane].
+ timA >> 6))
+ pre_timA_min_high =
+ (ctrl->timings[channel][slotrank].
+ lanes[lane].timA >> 6);
+ if (post_timA_max_high <
+ ((ctrl->timings[channel][slotrank].lanes[lane].
+ timA + shift) >> 6))
+ post_timA_max_high =
+ ((ctrl->timings[channel][slotrank].
+ lanes[lane].timA + shift) >> 6);
+ if (pre_timA_max_high <
+ (ctrl->timings[channel][slotrank].lanes[lane].
+ timA >> 6))
+ pre_timA_max_high =
+ (ctrl->timings[channel][slotrank].
+ lanes[lane].timA >> 6);
+ }
+
+ if (pre_timA_max_high - pre_timA_min_high <
+ post_timA_max_high - post_timA_min_high)
+ shift_402x = +1;
+ else if (pre_timA_max_high - pre_timA_min_high >
+ post_timA_max_high - post_timA_min_high)
+ shift_402x = -1;
+
+ reg_4028 |=
+ (ctrl->timings[channel][slotrank].val_4028 + shift_402x -
+ post_timA_min_high) << (4 * slotrank);
+ reg_4024 |=
+ (ctrl->timings[channel][slotrank].val_4024 +
+ shift_402x) << (8 * slotrank);
+
+ FOR_ALL_LANES {
+ MCHBAR32(lane_registers[lane] + 0x10 + 0x100 * channel +
+ 4 * slotrank)
+ =
+ (((ctrl->timings[channel][slotrank].lanes[lane].
+ timA + shift) & 0x3f)
+ |
+ ((ctrl->timings[channel][slotrank].lanes[lane].
+ rising + shift) << 8)
+ |
+ (((ctrl->timings[channel][slotrank].lanes[lane].
+ timA + shift -
+ (post_timA_min_high << 6)) & 0x1c0) << 10)
+ | (ctrl->timings[channel][slotrank].lanes[lane].
+ falling << 20));
+
+ MCHBAR32(lane_registers[lane] + 0x20 + 0x100 * channel +
+ 4 * slotrank)
+ =
+ (((ctrl->timings[channel][slotrank].lanes[lane].
+ timC + shift) & 0x3f)
+ |
+ (((ctrl->timings[channel][slotrank].lanes[lane].
+ timB + shift) & 0x3f) << 8)
+ |
+ (((ctrl->timings[channel][slotrank].lanes[lane].
+ timB + shift) & 0x1c0) << 9)
+ |
+ (((ctrl->timings[channel][slotrank].lanes[lane].
+ timC + shift) & 0x40) << 13));
+ }
+ }
+ MCHBAR32(0x4024 + 0x400 * channel) = reg_4024;
+ MCHBAR32(0x4028 + 0x400 * channel) = reg_4028;
+}
+
+static void test_timA(ramctr_timing * ctrl, int channel, int slotrank)
+{
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ (0xc01 | (ctrl->tMOD << 16)));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x360004);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel, 0x4040c01);
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel, (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
+ 0x100f | ((ctrl->CAS + 36) << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
+ (0xc01 | (ctrl->tMOD << 16)));
+ write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
+ (slotrank << 24) | 0x360000);
+ write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
+
+ wait_428c(channel);
+}
+
+static int does_lane_work(ramctr_timing * ctrl, int channel, int slotrank,
+ int lane)
+{
+ u32 timA = ctrl->timings[channel][slotrank].lanes[lane].timA;
+ return ((read32
+ (DEFAULT_MCHBAR + lane_registers[lane] + channel * 0x100 + 4 +
+ ((timA / 32) & 1) * 4)
+ >> (timA % 32)) & 1);
+}
+
+struct run {
+ int middle;
+ int end;
+ int start;
+ int all;
+ int length;
+};
+
+static struct run get_longest_zero_run(int *seq, int sz)
+{
+ int i, ls;
+ int bl = 0, bs = 0;
+ struct run ret;
+
+ ls = 0;
+ for (i = 0; i < 2 * sz; i++)
+ if (seq[i % sz]) {
+ if (i - ls > bl) {
+ bl = i - ls;
+ bs = ls;
+ }
+ ls = i + 1;
+ }
+ if (bl == 0) {
+ ret.middle = sz / 2;
+ ret.start = 0;
+ ret.end = sz;
+ ret.all = 1;
+ return ret;
+ }
+
+ ret.start = bs % sz;
+ ret.end = (bs + bl - 1) % sz;
+ ret.middle = (bs + (bl - 1) / 2) % sz;
+ ret.length = bl;
+ ret.all = 0;
+
+ return ret;
+}
+
+static void discover_timA_coarse(ramctr_timing * ctrl, int channel,
+ int slotrank, int *upperA)
+{
+ int timA;
+ int statistics[NUM_LANES][128];
+ int lane;
+
+ for (timA = 0; timA < 128; timA++) {
+ FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].timA = timA;
+ }
+ program_timings(ctrl, channel);
+
+ test_timA(ctrl, channel, slotrank);
+
+ FOR_ALL_LANES {
+ statistics[lane][timA] =
+ !does_lane_work(ctrl, channel, slotrank, lane);
+ printram("Astat: %d, %d, %d, %x, %x\n",
+ channel, slotrank, lane, timA,
+ statistics[lane][timA]);
+ }
+ }
+ FOR_ALL_LANES {
+ struct run rn = get_longest_zero_run(statistics[lane], 128);
+ ctrl->timings[channel][slotrank].lanes[lane].timA = rn.middle;
+ upperA[lane] = rn.end;
+ if (upperA[lane] < rn.middle)
+ upperA[lane] += 128;
+ printram("Aval: %d, %d, %d, %x\n", channel, slotrank,
+ lane, ctrl->timings[channel][slotrank].lanes[lane].timA);
+ printram("Aend: %d, %d, %d, %x\n", channel, slotrank,
+ lane, upperA[lane]);
+ }
+}
+
+static void discover_timA_fine(ramctr_timing * ctrl, int channel, int slotrank,
+ int *upperA)
+{
+ int timA_delta;
+ int statistics[NUM_LANES][51];
+ int lane, i;
+
+ memset(statistics, 0, sizeof(statistics));
+
+ for (timA_delta = -25; timA_delta <= 25; timA_delta++) {
+ FOR_ALL_LANES ctrl->timings[channel][slotrank].lanes[lane].
+ timA = upperA[lane] + timA_delta + 0x40;
+ program_timings(ctrl, channel);
+
+ for (i = 0; i < 100; i++) {
+ test_timA(ctrl, channel, slotrank);
+ FOR_ALL_LANES {
+ statistics[lane][timA_delta + 25] +=
+ does_lane_work(ctrl, channel, slotrank,
+ lane);
+ }
+ }
+ }
+ FOR_ALL_LANES {
+ int last_zero, first_all;
+
+ for (last_zero = -25; last_zero <= 25; last_zero++)
+ if (statistics[lane][last_zero + 25])
break;
- case -2:
- printk(BIOS_ERR, "Invalid memory frequency.\n");
+ last_zero--;
+ for (first_all = -25; first_all <= 25; first_all++)
+ if (statistics[lane][first_all + 25] == 100)
break;
- default:
- printk(BIOS_ERR, "MRC returned %x.\n", rv);
+
+ printram("lane %d: %d, %d\n", lane, last_zero,
+ first_all);
+
+ ctrl->timings[channel][slotrank].lanes[lane].timA =
+ (last_zero + first_all) / 2 + upperA[lane];
+ printram("Aval: %d, %d, %d, %x\n", channel, slotrank,
+ lane, ctrl->timings[channel][slotrank].lanes[lane].timA);
+ }
+}
+
+static void discover_402x(ramctr_timing * ctrl, int channel, int slotrank,
+ int *upperA)
+{
+ int works[NUM_LANES];
+ int lane;
+ while (1) {
+ int all_works = 1, some_works = 0;
+ program_timings(ctrl, channel);
+ test_timA(ctrl, channel, slotrank);
+ FOR_ALL_LANES {
+ works[lane] =
+ !does_lane_work(ctrl, channel, slotrank, lane);
+ if (works[lane])
+ some_works = 1;
+ else
+ all_works = 0;
+ }
+ if (all_works)
+ return;
+ if (!some_works) {
+ if (ctrl->timings[channel][slotrank].val_4024 < 2)
+ die("402x discovery failed");
+ ctrl->timings[channel][slotrank].val_4024 -= 2;
+ printram("4024 -= 2;\n");
+ continue;
+ }
+ ctrl->timings[channel][slotrank].val_4028 += 2;
+ printram("4028 += 2;\n");
+ if (ctrl->timings[channel][slotrank].val_4028 >= 0x10)
+ die("402x discovery failed");
+ FOR_ALL_LANES if (works[lane]) {
+ ctrl->timings[channel][slotrank].lanes[lane].timA +=
+ 128;
+ upperA[lane] += 128;
+ printram("increment %d, %d, %d\n", channel,
+ slotrank, lane);
+ }
+ }
+}
+
+struct timA_minmax {
+ int timA_min_high, timA_max_high;
+};
+
+static void pre_timA_change(ramctr_timing * ctrl, int channel, int slotrank,
+ struct timA_minmax *mnmx)
+{
+ int lane;
+ mnmx->timA_min_high = 7;
+ mnmx->timA_max_high = 0;
+
+ FOR_ALL_LANES {
+ if (mnmx->timA_min_high >
+ (ctrl->timings[channel][slotrank].lanes[lane].timA >> 6))
+ mnmx->timA_min_high =
+ (ctrl->timings[channel][slotrank].lanes[lane].
+ timA >> 6);
+ if (mnmx->timA_max_high <
+ (ctrl->timings[channel][slotrank].lanes[lane].timA >> 6))
+ mnmx->timA_max_high =
+ (ctrl->timings[channel][slotrank].lanes[lane].
+ timA >> 6);
+ }
+}
+
+static void post_timA_change(ramctr_timing * ctrl, int channel, int slotrank,
+ struct timA_minmax *mnmx)
+{
+ struct timA_minmax post;
+ int shift_402x = 0;
+
+ /* Get changed maxima. */
+ pre_timA_change(ctrl, channel, slotrank, &post);
+
+ if (mnmx->timA_max_high - mnmx->timA_min_high <
+ post.timA_max_high - post.timA_min_high)
+ shift_402x = +1;
+ else if (mnmx->timA_max_high - mnmx->timA_min_high >
+ post.timA_max_high - post.timA_min_high)
+ shift_402x = -1;
+ else
+ shift_402x = 0;
+
+ ctrl->timings[channel][slotrank].val_4028 += shift_402x;
+ ctrl->timings[channel][slotrank].val_4024 += shift_402x;
+ printram("4024 += %d;\n", shift_402x);
+ printram("4028 += %d;\n", shift_402x);
+}
+
+static void read_training(ramctr_timing * ctrl)
+{
+ int channel, slotrank, lane;
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
+ u32 r32;
+ int all_high, some_high;
+ int upperA[NUM_LANES];
+ struct timA_minmax mnmx;
+
+ wait_428c(channel);
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f002);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ 0xc01 | (ctrl->tRP << 16));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x60400);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
+
+ write32(DEFAULT_MCHBAR + 0x3400, (slotrank << 2) | 0x8001);
+
+ ctrl->timings[channel][slotrank].val_4028 = 4;
+ ctrl->timings[channel][slotrank].val_4024 = 55;
+ program_timings(ctrl, channel);
+
+ discover_timA_coarse(ctrl, channel, slotrank, upperA);
+
+ all_high = 1;
+ some_high = 0;
+ FOR_ALL_LANES {
+ if (ctrl->timings[channel][slotrank].lanes[lane].
+ timA >= 0x40)
+ some_high = 1;
+ else
+ all_high = 0;
+ }
+
+ if (all_high) {
+ ctrl->timings[channel][slotrank].val_4028--;
+ printram("4028--;\n");
+ FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].
+ timA -= 0x40;
+ upperA[lane] -= 0x40;
+
+ }
+ } else if (some_high) {
+ ctrl->timings[channel][slotrank].val_4024++;
+ ctrl->timings[channel][slotrank].val_4028++;
+ printram("4024++;\n");
+ printram("4028++;\n");
+ }
+
+ program_timings(ctrl, channel);
+
+ pre_timA_change(ctrl, channel, slotrank, &mnmx);
+
+ discover_402x(ctrl, channel, slotrank, upperA);
+
+ post_timA_change(ctrl, channel, slotrank, &mnmx);
+ pre_timA_change(ctrl, channel, slotrank, &mnmx);
+
+ discover_timA_fine(ctrl, channel, slotrank, upperA);
+
+ post_timA_change(ctrl, channel, slotrank, &mnmx);
+ pre_timA_change(ctrl, channel, slotrank, &mnmx);
+
+ FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].timA -= mnmx.timA_min_high * 0x40;
+ }
+ ctrl->timings[channel][slotrank].val_4028 -= mnmx.timA_min_high;
+ printram("4028 -= %d;\n", mnmx.timA_min_high);
+
+ post_timA_change(ctrl, channel, slotrank, &mnmx);
+
+ printram("4/8: %d, %d, %x, %x\n", channel, slotrank,
+ ctrl->timings[channel][slotrank].val_4024,
+ ctrl->timings[channel][slotrank].val_4028);
+
+ FOR_ALL_LANES
+ printram("%d, %d, %d, %x\n", channel, slotrank,
+ lane,
+ ctrl->timings[channel][slotrank].lanes[lane].timA);
+
+ write32(DEFAULT_MCHBAR + 0x3400, 0);
+
+ r32 = read32(DEFAULT_MCHBAR + 0x5030);
+ write32(DEFAULT_MCHBAR + 0x5030, r32 | 0x20);
+ udelay(1);
+
+ write32(DEFAULT_MCHBAR + 0x5030, r32 & ~0x20);
+
+ udelay(1);
+ }
+
+ FOR_ALL_POPULATED_CHANNELS {
+ program_timings(ctrl, channel);
+ }
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel
+ + 4 * lane, 0);
+ }
+}
+
+static void test_timC(ramctr_timing * ctrl, int channel, int slotrank)
+{
+ int lane;
+
+ FOR_ALL_LANES {
+ write32(DEFAULT_MCHBAR + 0x4340 + 0x400 * channel + 4 * lane, 0);
+ read32(DEFAULT_MCHBAR + 0x4140 + 0x400 * channel + 4 * lane);
+ }
+
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f006);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ (max((ctrl->tFAW >> 2) + 1, ctrl->tRRD) << 10)
+ | 4 | (ctrl->tRCD << 16));
+
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | (6 << 16));
+
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x244);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f207);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel, 0x8041001);
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24) | 8);
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0x3e0);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f201);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel, 0x80411f4);
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel, (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0x242);
+
+ write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f207);
+ write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
+ 0x8000c01 | ((ctrl->CWL + ctrl->tWTR + 5) << 16));
+ write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
+ (slotrank << 24) | 8);
+ write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0x3e0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
+
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f002);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ 0xc01 | (ctrl->tRP << 16));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x60400);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x240);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f006);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
+ (max(ctrl->tRRD, (ctrl->tFAW >> 2) + 1) << 10)
+ | 8 | (ctrl->CAS << 16));
+
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0x244);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
+ 0x40011f4 | (max(ctrl->tRTP, 8) << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel, (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0x242);
+
+ write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f002);
+ write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
+ 0xc01 | (ctrl->tRP << 16));
+ write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
+ (slotrank << 24) | 0x60400);
+ write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0x240);
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
+ wait_428c(channel);
+}
+
+static void discover_timC(ramctr_timing * ctrl, int channel, int slotrank)
+{
+ int timC;
+ int statistics[NUM_LANES][MAX_TIMC + 1];
+ int lane;
+
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f002);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ 0xc01 | (ctrl->tRP << 16));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x60400);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x240);
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
+
+ for (timC = 0; timC <= MAX_TIMC; timC++) {
+ FOR_ALL_LANES ctrl->timings[channel][slotrank].lanes[lane].
+ timC = timC;
+ program_timings(ctrl, channel);
+
+ test_timC(ctrl, channel, slotrank);
+
+ FOR_ALL_LANES {
+ statistics[lane][timC] =
+ read32(DEFAULT_MCHBAR + 0x4340 + 4 * lane +
+ 0x400 * channel);
+ printram("Cstat: %d, %d, %d, %x, %x\n",
+ channel, slotrank, lane, timC,
+ statistics[lane][timC]);
+ }
+ }
+ FOR_ALL_LANES {
+ struct run rn =
+ get_longest_zero_run(statistics[lane], MAX_TIMC + 1);
+ ctrl->timings[channel][slotrank].lanes[lane].timC = rn.middle;
+ if (rn.all)
+ printk(BIOS_CRIT, "timC discovery failed");
+ printram("Cval: %d, %d, %d, %x\n", channel, slotrank,
+ lane, ctrl->timings[channel][slotrank].lanes[lane].timC);
+ }
+}
+
+static int get_precedening_channels(ramctr_timing * ctrl, int target_channel)
+{
+ int channel, ret = 0;
+ FOR_ALL_POPULATED_CHANNELS if (channel < target_channel)
+ ret++;
+ return ret;
+}
+
+static void fill_pattern0(ramctr_timing * ctrl, int channel, u32 a, u32 b)
+{
+ unsigned j;
+ unsigned channel_offset =
+ get_precedening_channels(ctrl, channel) * 0x40;
+ printram("channel_offset=%x\n", channel_offset);
+ for (j = 0; j < 16; j++)
+ write32((void *)(0x04000000 + channel_offset + 4 * j), j & 2 ? b : a);
+ sfence();
+}
+
+static int num_of_channels(const ramctr_timing * ctrl)
+{
+ int ret = 0;
+ int channel;
+ FOR_ALL_POPULATED_CHANNELS ret++;
+ return ret;
+}
+
+static void fill_pattern1(ramctr_timing * ctrl, int channel)
+{
+ unsigned j;
+ unsigned channel_offset =
+ get_precedening_channels(ctrl, channel) * 0x40;
+ unsigned channel_step = 0x40 * num_of_channels(ctrl);
+ for (j = 0; j < 16; j++)
+ write32((void *)(0x04000000 + channel_offset + j * 4), 0xffffffff);
+ for (j = 0; j < 16; j++)
+ write32((void *)(0x04000000 + channel_offset + channel_step + j * 4), 0);
+ sfence();
+}
+
+static void precharge(ramctr_timing * ctrl)
+{
+ int channel, slotrank, lane;
+
+ FOR_ALL_POPULATED_CHANNELS {
+ FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].falling =
+ 16;
+ ctrl->timings[channel][slotrank].lanes[lane].rising =
+ 16;
+ } program_timings(ctrl, channel);
+
+ FOR_ALL_POPULATED_RANKS {
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel,
+ 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ 0xc01 | (ctrl->tMOD << 16));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x360004);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel,
+ 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
+ 0x4041003);
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24) | 0);
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel,
+ 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
+ 0x1001 | ((ctrl->CAS + 8) << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel,
+ 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
+ 0xc01 | (ctrl->tMOD << 16));
+ write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
+ (slotrank << 24) | 0x360000);
+ write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel,
+ 0xc0001);
+
+ wait_428c(channel);
+ }
+
+ FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].falling =
+ 48;
+ ctrl->timings[channel][slotrank].lanes[lane].rising =
+ 48;
+ }
+
+ program_timings(ctrl, channel);
+
+ FOR_ALL_POPULATED_RANKS {
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel,
+ 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ 0xc01 | (ctrl->tMOD << 16));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x360004);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel,
+ 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
+ 0x4041003);
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24) | 0);
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel,
+ 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
+ 0x1001 | ((ctrl->CAS + 8) << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel,
+ 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
+ 0xc01 | (ctrl->tMOD << 16));
+
+ write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
+ (slotrank << 24) | 0x360000);
+ write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel,
+ 0xc0001);
+ wait_428c(channel);
+ }
+ }
+}
+
+static void test_timB(ramctr_timing * ctrl, int channel, int slotrank)
+{
+ write_mrreg(ctrl, channel, slotrank, 1,
+ 0x80 | make_mr1(ctrl, slotrank));
+
+ wait_428c(channel);
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f207);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ 0x8000c01 | ((ctrl->CWL + ctrl->tWLO) << 16));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ 8 | (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f107);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
+ 0x4000c01 | ((ctrl->CAS + 38) << 16));
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24) | 4);
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x400 * channel + 0x4284, 0x40001);
+ wait_428c(channel);
+
+ write_mrreg(ctrl, channel, slotrank, 1,
+ 0x1080 | make_mr1(ctrl, slotrank));
+}
+
+static void discover_timB(ramctr_timing * ctrl, int channel, int slotrank)
+{
+ int timB;
+ int statistics[NUM_LANES][128];
+ int lane;
+
+ write32(DEFAULT_MCHBAR + 0x3400, 0x108052 | (slotrank << 2));
+
+ for (timB = 0; timB < 128; timB++) {
+ FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].timB = timB;
+ }
+ program_timings(ctrl, channel);
+
+ test_timB(ctrl, channel, slotrank);
+
+ FOR_ALL_LANES {
+ statistics[lane][timB] =
+ !((read32
+ (DEFAULT_MCHBAR + lane_registers[lane] +
+ channel * 0x100 + 4 + ((timB / 32) & 1) * 4)
+ >> (timB % 32)) & 1);
+ printram("Bstat: %d, %d, %d, %x, %x\n",
+ channel, slotrank, lane, timB,
+ statistics[lane][timB]);
+ }
+ }
+ FOR_ALL_LANES {
+ struct run rn = get_longest_zero_run(statistics[lane], 128);
+ ctrl->timings[channel][slotrank].lanes[lane].timB = rn.start;
+ if (rn.all)
+ die("timB discovery failed");
+ printram("Bval: %d, %d, %d, %x\n", channel, slotrank,
+ lane, ctrl->timings[channel][slotrank].lanes[lane].timB);
+ }
+}
+
+static int get_timB_high_adjust(u64 val)
+{
+ int i;
+
+ /* good */
+ if (val == 0xffffffffffffffffLL)
+ return 0;
+
+ if (val >= 0xf000000000000000LL) {
+ /* needs negative adjustment */
+ for (i = 0; i < 8; i++)
+ if (val << (8 * (7 - i) + 4))
+ return -i;
+ } else {
+ /* needs positive adjustment */
+ for (i = 0; i < 8; i++)
+ if (val >> (8 * (7 - i) + 4))
+ return i;
+ }
+ return 8;
+}
+
+static void adjust_high_timB(ramctr_timing * ctrl)
+{
+ int channel, slotrank, lane, old;
+ write32(DEFAULT_MCHBAR + 0x3400, 0x200);
+ FOR_ALL_POPULATED_CHANNELS {
+ fill_pattern1(ctrl, channel);
+ write32(DEFAULT_MCHBAR + 0x4288 + (channel << 10), 1);
+ }
+ FOR_ALL_POPULATED_CHANNELS FOR_ALL_POPULATED_RANKS {
+
+ write32(DEFAULT_MCHBAR + 0x4288 + 0x400 * channel, 0x10001);
+
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f006);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ 0xc01 | (ctrl->tRCD << 16));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f207);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel, 0x8040c01);
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24) | 0x8);
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0x3e0);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f201);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel, 0x8041003);
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
+ (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0x3e2);
+
+ write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f207);
+ write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
+ 0x8000c01 | ((ctrl->CWL + ctrl->tWTR + 5) << 16));
+ write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
+ (slotrank << 24) | 0x8);
+ write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0x3e0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
+
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f002);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ 0xc01 | ((ctrl->tRP) << 16));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x60400);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x240);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f006);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
+ 0xc01 | ((ctrl->tRCD) << 16));
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x3f105);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
+ 0x4000c01 |
+ ((ctrl->tRP +
+ ctrl->timings[channel][slotrank].val_4024 +
+ ctrl->timings[channel][slotrank].val_4028) << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
+ (slotrank << 24) | 0x60008);
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0x80001);
+ wait_428c(channel);
+ FOR_ALL_LANES {
+ u64 res =
+ read32(DEFAULT_MCHBAR + lane_registers[lane] +
+ 0x100 * channel + 4);
+ res |=
+ ((u64) read32(DEFAULT_MCHBAR + lane_registers[lane] +
+ 0x100 * channel + 8)) << 32;
+ old = ctrl->timings[channel][slotrank].lanes[lane].timB;
+ ctrl->timings[channel][slotrank].lanes[lane].timB +=
+ get_timB_high_adjust(res) * 64;
+
+ printk(BIOS_DEBUG, "High adjust %d:%016llx\n", lane, res);
+ printram("Bval+: %d, %d, %d, %x -> %x\n", channel,
+ slotrank, lane, old,
+ ctrl->timings[channel][slotrank].lanes[lane].
+ timB);
+ }
+ }
+ write32(DEFAULT_MCHBAR + 0x3400, 0);
+}
+
+static void write_op(ramctr_timing * ctrl, int channel)
+{
+ int slotrank;
+
+ wait_428c(channel);
+
+ /* choose an existing rank. */
+ slotrank = !(ctrl->rankmap[channel] & 1) ? 2 : 0;
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x41001);
+
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x3e0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
+ wait_428c(channel);
+}
+
+static void write_training(ramctr_timing * ctrl)
+{
+ int channel, slotrank, lane;
+ u32 r32;
+
+ FOR_ALL_POPULATED_CHANNELS
+ write32(DEFAULT_MCHBAR + 0x4008 + 0x400 * channel,
+ read32(DEFAULT_MCHBAR + 0x4008 +
+ 0x400 * channel) | 0x8000000);
+
+ FOR_ALL_POPULATED_CHANNELS {
+ write_op(ctrl, channel);
+ write32(DEFAULT_MCHBAR + 0x4020 + 0x400 * channel,
+ read32(DEFAULT_MCHBAR + 0x4020 +
+ 0x400 * channel) | 0x200000);
+ }
+ write32(DEFAULT_MCHBAR + 0x5030, read32(DEFAULT_MCHBAR + 0x5030) & ~8);
+ FOR_ALL_POPULATED_CHANNELS {
+ write_op(ctrl, channel);
+ }
+
+ FOR_ALL_CHANNELS
+ FOR_ALL_POPULATED_RANKS
+ write_mrreg(ctrl, channel, slotrank, 1,
+ make_mr1(ctrl, slotrank) | 0x1080);
+
+ write32(DEFAULT_MCHBAR + 0x3400, 0x108052);
+
+ r32 = read32(DEFAULT_MCHBAR + 0x5030);
+ write32(DEFAULT_MCHBAR + 0x5030, r32 | 0x20);
+ udelay(1);
+
+ write32(DEFAULT_MCHBAR + 0x5030, r32 & ~0x20);
+
+ udelay(1);
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS
+ discover_timB(ctrl, channel, slotrank);
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS
+ write_mrreg(ctrl, channel,
+ slotrank, 1, make_mr1(ctrl, slotrank));
+
+ write32(DEFAULT_MCHBAR + 0x3400, 0);
+
+ FOR_ALL_POPULATED_CHANNELS
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x5030, read32(DEFAULT_MCHBAR + 0x5030) | 8);
+
+ FOR_ALL_POPULATED_CHANNELS {
+ write32(DEFAULT_MCHBAR + 0x4020 + 0x400 * channel,
+ ~0x00200000 & read32(DEFAULT_MCHBAR + 0x4020 +
+ 0x400 * channel));
+ read32(DEFAULT_MCHBAR + 0x428c + 0x400 * channel);
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x659001);
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel, 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x3e0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
+ wait_428c(channel);
+ }
+
+ r32 = read32(DEFAULT_MCHBAR + 0x5030);
+ write32(DEFAULT_MCHBAR + 0x5030, r32 | 0x20);
+ udelay(1);
+
+ write32(DEFAULT_MCHBAR + 0x5030, r32 & ~0x20);
+
+ udelay(1);
+
+ printram("CPE\n");
+ precharge(ctrl);
+ printram("CPF\n");
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ read32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane);
+ write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane,
+ 0);
+ }
+
+ FOR_ALL_POPULATED_CHANNELS {
+ fill_pattern0(ctrl, channel, 0xaaaaaaaa, 0x55555555);
+ write32(DEFAULT_MCHBAR + 0x4288 + (channel << 10), 0);
+ }
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS
+ discover_timC(ctrl, channel, slotrank);
+
+ FOR_ALL_POPULATED_CHANNELS
+ program_timings(ctrl, channel);
+
+ adjust_high_timB(ctrl);
+
+ FOR_ALL_POPULATED_CHANNELS
+ program_timings(ctrl, channel);
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ read32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane);
+ write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane,
+ 0);
+ }
+}
+
+static int test_320c(ramctr_timing * ctrl, int channel, int slotrank)
+{
+ struct ram_rank_timings saved_rt = ctrl->timings[channel][slotrank];
+ int timC_delta;
+ int lanes_ok = 0;
+ int ctr = 0;
+ int lane;
+
+ for (timC_delta = -5; timC_delta <= 5; timC_delta++) {
+ FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].timC =
+ saved_rt.lanes[lane].timC + timC_delta;
+ }
+ program_timings(ctrl, channel);
+ FOR_ALL_LANES {
+ write32(DEFAULT_MCHBAR + 4 * lane + 0x4f40, 0);
+ }
+
+ write32(DEFAULT_MCHBAR + 0x4288 + 0x400 * channel, 0x1f);
+
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f006);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ ((max(ctrl->tRRD, (ctrl->tFAW >> 2) + 1)) << 10)
+ | 8 | (ctrl->tRCD << 16));
+
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | ctr | 0x60000);
+
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x244);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f201);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
+ 0x8001020 | ((ctrl->CWL + ctrl->tWTR + 8) << 16));
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4244 + 0x400 * channel, 0x389abcd);
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0x20e42);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
+ 0x4001020 | (max(ctrl->tRTP, 8) << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
+ (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4248 + 0x400 * channel, 0x389abcd);
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0x20e42);
+
+ write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f002);
+ write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel, 0xf1001);
+ write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
+ (slotrank << 24) | 0x60400);
+ write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0x240);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
+ wait_428c(channel);
+ FOR_ALL_LANES {
+ u32 r32 =
+ read32(DEFAULT_MCHBAR + 0x4340 + 4 * lane +
+ 0x400 * channel);
+
+ if (r32 == 0)
+ lanes_ok |= 1 << lane;
+ }
+ ctr++;
+ if (lanes_ok == ((1 << NUM_LANES) - 1))
+ break;
+ }
+
+ ctrl->timings[channel][slotrank] = saved_rt;
+
+ printram("3lanes: %x\n", lanes_ok);
+ return lanes_ok != ((1 << NUM_LANES) - 1);
+}
+
+#include "raminit_patterns.h"
+
+static void fill_pattern5(ramctr_timing * ctrl, int channel, int patno)
+{
+ unsigned i, j;
+ unsigned channel_offset =
+ get_precedening_channels(ctrl, channel) * 0x40;
+ unsigned channel_step = 0x40 * num_of_channels(ctrl);
+
+ if (patno) {
+ u8 base8 = 0x80 >> ((patno - 1) % 8);
+ u32 base = base8 | (base8 << 8) | (base8 << 16) | (base8 << 24);
+ for (i = 0; i < 32; i++) {
+ for (j = 0; j < 16; j++) {
+ u32 val = use_base[patno - 1][i] & (1 << (j / 2)) ? base : 0;
+ if (invert[patno - 1][i] & (1 << (j / 2)))
+ val = ~val;
+ write32((void *)(0x04000000 + channel_offset + i * channel_step +
+ j * 4), val);
}
- die("Nonzero MRC return value.\n");
}
+
} else {
- die("UEFI PEI System Agent not found.\n");
+ for (i = 0; i < sizeof(pattern) / sizeof(pattern[0]); i++) {
+ for (j = 0; j < 16; j++)
+ write32((void *)(0x04000000 + channel_offset + i * channel_step +
+ j * 4), pattern[i][j]);
+ }
+ sfence();
}
+}
-#if CONFIG_USBDEBUG_IN_ROMSTAGE
- /* mrc.bin reconfigures USB, so reinit it to have debug */
- usbdebug_init();
-#endif
+static void reprogram_320c(ramctr_timing * ctrl)
+{
+ int channel, slotrank;
+ u32 r32;
- /* For reference print the System Agent version
- * after executing the UEFI PEI stage.
- */
- u32 version = MCHBAR32(0x5034);
- printk(BIOS_DEBUG, "System Agent Version %d.%d.%d Build %d\n",
- version >> 24 , (version >> 16) & 0xff,
- (version >> 8) & 0xff, version & 0xff);
-
- /* Send ME init done for SandyBridge here. This is done
- * inside the SystemAgent binary on IvyBridge. */
- if (BASE_REV_SNB ==
- (pci_read_config16(PCI_CPU_DEVICE, PCI_DEVICE_ID) & BASE_REV_MASK))
- intel_early_me_init_done(ME_INIT_STATUS_SUCCESS);
+ FOR_ALL_POPULATED_CHANNELS {
+ wait_428c(channel);
+
+ /* choose an existing rank. */
+ slotrank = !(ctrl->rankmap[channel] & 1) ? 2 : 0;
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x41001);
+
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x3e0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
+ wait_428c(channel);
+ write32(DEFAULT_MCHBAR + 0x4020 + 0x400 * channel,
+ read32(DEFAULT_MCHBAR + 0x4020 +
+ 0x400 * channel) | 0x200000);
+ }
+ write32(DEFAULT_MCHBAR + 0x5030, read32(DEFAULT_MCHBAR + 0x5030) & ~8);
+ FOR_ALL_POPULATED_CHANNELS {
+ wait_428c(channel);
+
+ /* choose an existing rank. */
+ slotrank = !(ctrl->rankmap[channel] & 1) ? 2 : 0;
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x41001);
+
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x3e0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
+ wait_428c(channel);
+ }
+
+ /* jedec reset */
+ dram_jedecreset(ctrl);
+ /* mrs commands. */
+ dram_mrscommands(ctrl);
+
+ r32 = read32(DEFAULT_MCHBAR + 0x5030);
+ write32(DEFAULT_MCHBAR + 0x5030, r32 | 0x20);
+ udelay(1);
+
+ write32(DEFAULT_MCHBAR + 0x5030, r32 & ~0x20);
+
+ udelay(1);
+}
+
+#define MIN_C320C_LEN 13
+
+static int try_cmd_stretch(ramctr_timing * ctrl, int cmd_stretch)
+{
+ struct ram_rank_timings saved_timings[NUM_CHANNELS][NUM_SLOTRANKS];
+ int channel, slotrank;
+ int c320c;
+ int stat[NUM_SLOTRANKS][256];
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
+ saved_timings[channel][slotrank] = ctrl->timings[channel][slotrank];
+ }
+
+ FOR_ALL_POPULATED_CHANNELS {
+ ctrl->cmd_stretch[channel] = cmd_stretch;
+ }
+
+ FOR_ALL_POPULATED_CHANNELS
+ MCHBAR32(0x4004 + 0x400 * channel) =
+ ctrl->tRRD
+ | (ctrl->tRTP << 4)
+ | (ctrl->tCKE << 8)
+ | (ctrl->tWTR << 12)
+ | (ctrl->tFAW << 16)
+ | (ctrl->tWR << 24)
+ | (ctrl->cmd_stretch[channel] << 30);
+
+
+ FOR_ALL_CHANNELS {
+ int delta = 0;
+ if (ctrl->cmd_stretch[channel] == 2)
+ delta = 2;
+ else if (ctrl->cmd_stretch[channel] == 0)
+ delta = 4;
+
+ FOR_ALL_POPULATED_RANKS {
+ ctrl->timings[channel][slotrank].val_4024 -= delta;
+ }
+ }
+
+ FOR_ALL_POPULATED_CHANNELS {
+ for (c320c = -127; c320c <= 127; c320c++) {
+ FOR_ALL_POPULATED_RANKS {
+ ctrl->timings[channel][slotrank].val_320c = c320c;
+ }
+ program_timings(ctrl, channel);
+ reprogram_320c(ctrl);
+ FOR_ALL_POPULATED_RANKS {
+ stat[slotrank][c320c + 127] =
+ test_320c(ctrl, channel, slotrank);
+ printram("3stat: %d, %d, %d: %d\n",
+ channel, slotrank, c320c,
+ stat[slotrank][c320c + 127]);
+ }
+ }
+ FOR_ALL_POPULATED_RANKS {
+ struct run rn =
+ get_longest_zero_run(stat[slotrank], 255);
+ ctrl->timings[channel][slotrank].val_320c =
+ rn.middle - 127;
+ printram("3val: %d, %d: %d\n", channel,
+ slotrank,
+ ctrl->timings[channel][slotrank].val_320c);
+ if (rn.all || rn.length < MIN_C320C_LEN) {
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
+ ctrl->timings[channel][slotrank] = saved_timings[channel][slotrank];
+ }
+ return 0;
+ }
+ }
+ }
+ return 1;
+}
+
+static void command_training(ramctr_timing * ctrl)
+{
+ int channel;
+
+ FOR_ALL_POPULATED_CHANNELS {
+ fill_pattern5(ctrl, channel, 0);
+ write32(DEFAULT_MCHBAR + 0x4288 + 0x400 * channel, 0x1f);
+ }
+
+ /* try command rate 1T and 2T */
+ if (!try_cmd_stretch(ctrl, 0) && !try_cmd_stretch(ctrl, 2))
+ die("c320c discovery failed");
+
+ FOR_ALL_POPULATED_CHANNELS {
+ program_timings(ctrl, channel);
+ }
+
+ reprogram_320c(ctrl);
+}
+
+static void discover_edges_real(ramctr_timing * ctrl, int channel, int slotrank,
+ int *edges)
+{
+ int edge;
+ int statistics[NUM_LANES][MAX_EDGE_TIMING + 1];
+ int lane;
+
+ for (edge = 0; edge <= MAX_EDGE_TIMING; edge++) {
+ FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].rising =
+ edge;
+ ctrl->timings[channel][slotrank].lanes[lane].falling =
+ edge;
+ }
+ printram("edge %02x\n", edge);
+ program_timings(ctrl, channel);
+
+ FOR_ALL_LANES {
+ write32(DEFAULT_MCHBAR + 0x4340 + 0x400 * channel +
+ 4 * lane, 0);
+ read32(DEFAULT_MCHBAR + 0x400 * channel + 4 * lane +
+ 0x4140);
+ }
+
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ (0xc01 | (ctrl->tMOD << 16)));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x360004);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel, 0x40411f4);
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
+ 0x1001 | ((ctrl->CAS + 8) << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
+ (0xc01 | (ctrl->tMOD << 16)));
+ write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
+ (slotrank << 24) | 0x360000);
+ write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
+
+ wait_428c(channel);
+
+ FOR_ALL_LANES {
+ statistics[lane][edge] =
+ read32(DEFAULT_MCHBAR + 0x4340 + 0x400 * channel +
+ lane * 4);
+ }
+ }
+ FOR_ALL_LANES {
+ struct run rn =
+ get_longest_zero_run(statistics[lane], MAX_EDGE_TIMING + 1);
+ edges[lane] = rn.middle;
+ if (rn.all)
+ die("edge discovery failed");
+ printram("eval %d, %d, %d, %02x\n", channel, slotrank,
+ lane, edges[lane]);
+ }
+}
+
+static void discover_edges(ramctr_timing * ctrl)
+{
+ int falling_edges[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
+ int rising_edges[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
+ int channel, slotrank, lane;
+ u32 r32;
+
+ write32(DEFAULT_MCHBAR + 0x3400, 0);
+
+ r32 = read32(DEFAULT_MCHBAR + 0x5030);
+ write32(DEFAULT_MCHBAR + 0x5030, r32 | 0x20);
+ udelay(1);
+
+ write32(DEFAULT_MCHBAR + 0x5030, r32 & ~0x20);
+
+ udelay(1);
+
+ FOR_ALL_POPULATED_CHANNELS FOR_ALL_LANES {
+ write32(DEFAULT_MCHBAR + 4 * lane +
+ 0x400 * channel + 0x4080, 0);
+ }
+
+ FOR_ALL_POPULATED_CHANNELS {
+ fill_pattern0(ctrl, channel, 0, 0);
+ write32(DEFAULT_MCHBAR + 0x4288 + (channel << 10), 0);
+ FOR_ALL_LANES {
+ read32(DEFAULT_MCHBAR + 0x400 * channel +
+ lane * 4 + 0x4140);
+ }
+
+ FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].falling =
+ 16;
+ ctrl->timings[channel][slotrank].lanes[lane].rising =
+ 16;
+ }
+
+ program_timings(ctrl, channel);
+
+ FOR_ALL_POPULATED_RANKS {
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel,
+ 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ 0xc01 | (ctrl->tMOD << 16));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x360004);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel,
+ 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
+ 0x4041003);
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24) | 0);
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel,
+ 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
+ 0x1001 | ((ctrl->CAS + 8) << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel,
+ 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
+ 0xc01 | (ctrl->tMOD << 16));
+ write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
+ (slotrank << 24) | 0x360000);
+ write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel,
+ 0xc0001);
+
+ wait_428c(channel);
+ }
+
+ FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].falling =
+ 48;
+ ctrl->timings[channel][slotrank].lanes[lane].rising =
+ 48;
+ }
+
+ program_timings(ctrl, channel);
+
+ FOR_ALL_POPULATED_RANKS {
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel,
+ 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ 0xc01 | (ctrl->tMOD << 16));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x360004);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel,
+ 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
+ 0x4041003);
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24) | 0);
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel,
+ 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
+ 0x1001 | ((ctrl->CAS + 8) << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel,
+ 0x1f000);
+ write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
+ 0xc01 | (ctrl->tMOD << 16));
+ write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
+ (slotrank << 24) | 0x360000);
+ write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel,
+ 0xc0001);
+ wait_428c(channel);
+ }
+
+ FOR_ALL_LANES {
+ write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel +
+ lane * 4,
+ ~read32(DEFAULT_MCHBAR + 0x4040 +
+ 0x400 * channel + lane * 4) & 0xff);
+ }
+
+ fill_pattern0(ctrl, channel, 0, 0xffffffff);
+ write32(DEFAULT_MCHBAR + 0x4288 + (channel << 10), 0);
+ }
+
+ /* FIXME: under some conditions (older chipsets?) vendor BIOS sets both edges to the same value. */
+ write32(DEFAULT_MCHBAR + 0x4eb0, 0x300);
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
+ discover_edges_real(ctrl, channel, slotrank,
+ falling_edges[channel][slotrank]);
+ }
+
+ write32(DEFAULT_MCHBAR + 0x4eb0, 0x200);
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
+ discover_edges_real(ctrl, channel, slotrank,
+ rising_edges[channel][slotrank]);
+ }
+
+ write32(DEFAULT_MCHBAR + 0x4eb0, 0);
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].falling =
+ falling_edges[channel][slotrank][lane];
+ ctrl->timings[channel][slotrank].lanes[lane].rising =
+ rising_edges[channel][slotrank][lane];
+ }
+
+ FOR_ALL_POPULATED_CHANNELS {
+ program_timings(ctrl, channel);
+ }
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane,
+ 0);
+ }
+}
+
+static void discover_edges_write_real(ramctr_timing * ctrl, int channel,
+ int slotrank, int *edges)
+{
+ int edge;
+ u32 raw_statistics[MAX_EDGE_TIMING + 1];
+ int statistics[MAX_EDGE_TIMING + 1];
+ const int reg3000b24[] = { 0, 0xc, 0x2c };
+ int lane, i;
+ int lower[NUM_LANES];
+ int upper[NUM_LANES];
+ int pat;
+
+ FOR_ALL_LANES {
+ lower[lane] = 0;
+ upper[lane] = MAX_EDGE_TIMING;
+ }
+
+ for (i = 0; i < 3; i++) {
+ write32(DEFAULT_MCHBAR + 0x3000 + 0x100 * channel,
+ reg3000b24[i] << 24);
+ for (pat = 0; pat < NUM_PATTERNS; pat++) {
+ fill_pattern5(ctrl, channel, pat);
+ write32(DEFAULT_MCHBAR + 0x4288 + 0x400 * channel, 0x1f);
+ printram("patterned\n");
+ printram("[%x] = 0x%08x\n(%d, %d)\n",
+ 0x3000 + 0x100 * channel, reg3000b24[i] << 24, channel,
+ slotrank);
+ for (edge = 0; edge <= MAX_EDGE_TIMING; edge++) {
+ FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].
+ rising = edge;
+ ctrl->timings[channel][slotrank].lanes[lane].
+ falling = edge;
+ }
+ program_timings(ctrl, channel);
+
+ FOR_ALL_LANES {
+ write32(DEFAULT_MCHBAR + 0x4340 +
+ 0x400 * channel + 4 * lane, 0);
+ read32(DEFAULT_MCHBAR + 0x400 * channel +
+ 4 * lane + 0x4140);
+ }
+ wait_428c(channel);
+
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel,
+ 0x1f006);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ 0x4 | (ctrl->tRCD << 16)
+ | (max(ctrl->tRRD, (ctrl->tFAW >> 2) + 1) <<
+ 10));
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel,
+ 0x240);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel,
+ 0x1f201);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
+ 0x8005020 | ((ctrl->tWTR + ctrl->CWL + 8) <<
+ 16));
+ write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
+ (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel,
+ 0x242);
+
+ write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel,
+ 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
+ 0x4005020 | (max(ctrl->tRTP, 8) << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
+ (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel,
+ 0x242);
+
+ write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel,
+ 0x1f002);
+ write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
+ 0xc01 | (ctrl->tRP << 16));
+ write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
+ (slotrank << 24) | 0x60400);
+ write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel,
+ 0xc0001);
+ wait_428c(channel);
+ FOR_ALL_LANES {
+ read32(DEFAULT_MCHBAR + 0x4340 +
+ 0x400 * channel + lane * 4);
+ }
+
+ raw_statistics[edge] =
+ MCHBAR32(0x436c + 0x400 * channel);
+ }
+ FOR_ALL_LANES {
+ struct run rn;
+ for (edge = 0; edge <= MAX_EDGE_TIMING; edge++)
+ statistics[edge] =
+ ! !(raw_statistics[edge] & (1 << lane));
+ rn = get_longest_zero_run(statistics,
+ MAX_EDGE_TIMING + 1);
+ printram("edges: %d, %d, %d: 0x%x-0x%x-0x%x, 0x%x-0x%x\n",
+ channel, slotrank, i, rn.start, rn.middle,
+ rn.end, rn.start + ctrl->edge_offset[i],
+ rn.end - ctrl->edge_offset[i]);
+ lower[lane] =
+ max(rn.start + ctrl->edge_offset[i], lower[lane]);
+ upper[lane] =
+ min(rn.end - ctrl->edge_offset[i], upper[lane]);
+ edges[lane] = (lower[lane] + upper[lane]) / 2;
+
+ }
+ }
+ }
+
+ write32(DEFAULT_MCHBAR + 0x3000, 0);
+ printram("CPA\n");
+}
+
+static void discover_edges_write(ramctr_timing * ctrl)
+{
+ int falling_edges[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
+ int rising_edges[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
+ int channel, slotrank, lane;
+
+ /* FIXME: under some conditions (older chipsets?) vendor BIOS sets both edges to the same value. */
+ write32(DEFAULT_MCHBAR + 0x4eb0, 0x300);
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
+ discover_edges_write_real(ctrl, channel, slotrank,
+ falling_edges[channel][slotrank]);
+ }
+
+ write32(DEFAULT_MCHBAR + 0x4eb0, 0x200);
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
+ discover_edges_write_real(ctrl, channel, slotrank,
+ rising_edges[channel][slotrank]);
+ }
+
+ write32(DEFAULT_MCHBAR + 0x4eb0, 0);
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ ctrl->timings[channel][slotrank].lanes[lane].falling =
+ falling_edges[channel][slotrank][lane];
+ ctrl->timings[channel][slotrank].lanes[lane].rising =
+ rising_edges[channel][slotrank][lane];
+ }
+
+ FOR_ALL_POPULATED_CHANNELS
+ program_timings(ctrl, channel);
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane,
+ 0);
+ }
+}
+
+static void test_timC_write(ramctr_timing *ctrl, int channel, int slotrank)
+{
+ wait_428c(channel);
+ write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f006);
+ write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
+ (max((ctrl->tFAW >> 2) + 1, ctrl->tRRD)
+ << 10) | (ctrl->tRCD << 16) | 4);
+ write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
+ (slotrank << 24) | 0x60000);
+ write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x244);
+
+ write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f201);
+ write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
+ 0x80011e0 |
+ ((ctrl->tWTR + ctrl->CWL + 8) << 16));
+ write32(DEFAULT_MCHBAR + 0x4204 +
+ 0x400 * channel, (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4214 +
+ 0x400 * channel, 0x242);
+
+ write32(DEFAULT_MCHBAR + 0x4228 +
+ 0x400 * channel, 0x1f105);
+ write32(DEFAULT_MCHBAR + 0x4238 +
+ 0x400 * channel,
+ 0x40011e0 | (max(ctrl->tRTP, 8) << 16));
+ write32(DEFAULT_MCHBAR + 0x4208 +
+ 0x400 * channel, (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4218 +
+ 0x400 * channel, 0x242);
+
+ write32(DEFAULT_MCHBAR + 0x422c +
+ 0x400 * channel, 0x1f002);
+ write32(DEFAULT_MCHBAR + 0x423c +
+ 0x400 * channel,
+ 0x1001 | (ctrl->tRP << 16));
+ write32(DEFAULT_MCHBAR + 0x420c +
+ 0x400 * channel,
+ (slotrank << 24) | 0x60400);
+ write32(DEFAULT_MCHBAR + 0x421c +
+ 0x400 * channel, 0);
+
+ write32(DEFAULT_MCHBAR + 0x4284 +
+ 0x400 * channel, 0xc0001);
+ wait_428c(channel);
+}
+
+static void discover_timC_write(ramctr_timing * ctrl)
+{
+ const u8 rege3c_b24[3] = { 0, 0xf, 0x2f };
+ int i, pat;
+
+ int lower[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
+ int upper[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
+ int channel, slotrank, lane;
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ lower[channel][slotrank][lane] = 0;
+ upper[channel][slotrank][lane] = MAX_TIMC;
+ }
+
+ write32(DEFAULT_MCHBAR + 0x4ea8, 1);
+
+ for (i = 0; i < 3; i++)
+ FOR_ALL_POPULATED_CHANNELS {
+ write32(DEFAULT_MCHBAR + 0xe3c + (channel * 0x100),
+ (rege3c_b24[i] << 24)
+ | (read32(DEFAULT_MCHBAR + 0xe3c + (channel * 0x100))
+ & ~0x3f000000));
+ udelay(2);
+ for (pat = 0; pat < NUM_PATTERNS; pat++) {
+ FOR_ALL_POPULATED_RANKS {
+ int timC;
+ u32 raw_statistics[MAX_TIMC + 1];
+ int statistics[MAX_TIMC + 1];
+
+ fill_pattern5(ctrl, channel, pat);
+ write32(DEFAULT_MCHBAR + 0x4288 + 0x400 * channel, 0x1f);
+ for (timC = 0; timC < MAX_TIMC + 1; timC++) {
+ FOR_ALL_LANES
+ ctrl->timings[channel][slotrank].lanes[lane].timC = timC;
+ program_timings(ctrl, channel);
+
+ test_timC_write (ctrl, channel, slotrank);
+
+ raw_statistics[timC] =
+ MCHBAR32(0x436c + 0x400 * channel);
+ }
+ FOR_ALL_LANES {
+ struct run rn;
+ for (timC = 0; timC <= MAX_TIMC; timC++)
+ statistics[timC] =
+ !!(raw_statistics[timC] &
+ (1 << lane));
+ rn = get_longest_zero_run(statistics,
+ MAX_TIMC + 1);
+ if (rn.all)
+ die("timC write discovery failed");
+ printram("timC: %d, %d, %d: 0x%x-0x%x-0x%x, 0x%x-0x%x\n",
+ channel, slotrank, i, rn.start,
+ rn.middle, rn.end,
+ rn.start + ctrl->timC_offset[i],
+ rn.end - ctrl->timC_offset[i]);
+ lower[channel][slotrank][lane] =
+ max(rn.start + ctrl->timC_offset[i],
+ lower[channel][slotrank][lane]);
+ upper[channel][slotrank][lane] =
+ min(rn.end - ctrl->timC_offset[i],
+ upper[channel][slotrank][lane]);
+
+ }
+ }
+ }
+ }
+
+ FOR_ALL_CHANNELS {
+ write32(DEFAULT_MCHBAR + (channel * 0x100) + 0xe3c,
+ 0 | (read32(DEFAULT_MCHBAR + (channel * 0x100) + 0xe3c) &
+ ~0x3f000000));
+ udelay(2);
+ }
+
+ write32(DEFAULT_MCHBAR + 0x4ea8, 0);
+
+ printram("CPB\n");
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ printram("timC [%d, %d, %d] = 0x%x\n", channel,
+ slotrank, lane,
+ (lower[channel][slotrank][lane] +
+ upper[channel][slotrank][lane]) / 2);
+ ctrl->timings[channel][slotrank].lanes[lane].timC =
+ (lower[channel][slotrank][lane] +
+ upper[channel][slotrank][lane]) / 2;
+ }
+ FOR_ALL_POPULATED_CHANNELS {
+ program_timings(ctrl, channel);
+ }
+}
+
+static void normalize_training(ramctr_timing * ctrl)
+{
+ int channel, slotrank, lane;
+ int mat = 0;
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
+ int delta;
+ FOR_ALL_LANES mat =
+ max(ctrl->timings[channel][slotrank].lanes[lane].timA, mat);
+ delta = (mat >> 6) - ctrl->timings[channel][slotrank].val_4028;
+ ctrl->timings[channel][slotrank].val_4024 += delta;
+ ctrl->timings[channel][slotrank].val_4028 += delta;
+ }
+
+ FOR_ALL_POPULATED_CHANNELS {
+ program_timings(ctrl, channel);
+ }
+}
+
+static void write_controller_mr(ramctr_timing * ctrl)
+{
+ int channel, slotrank;
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
+ write32(DEFAULT_MCHBAR + 0x0004 + (channel << 8) +
+ lane_registers[slotrank], make_mr0(ctrl, slotrank));
+ write32(DEFAULT_MCHBAR + 0x0008 + (channel << 8) +
+ lane_registers[slotrank], make_mr1(ctrl, slotrank));
+ }
+}
+
+static void channel_test(ramctr_timing * ctrl)
+{
+ int channel, slotrank, lane;
+
+ FOR_ALL_POPULATED_CHANNELS
+ if (read32(DEFAULT_MCHBAR + 0x42a0 + (channel << 10)) & 0xa000)
+ die("Mini channel test failed (1)\n");
+ FOR_ALL_POPULATED_CHANNELS {
+ fill_pattern0(ctrl, channel, 0x12345678, 0x98765432);
+
+ write32(DEFAULT_MCHBAR + 0x4288 + (channel << 10), 0);
+ }
+
+ for (slotrank = 0; slotrank < 4; slotrank++)
+ FOR_ALL_CHANNELS
+ if (ctrl->rankmap[channel] & (1 << slotrank)) {
+ FOR_ALL_LANES {
+ write32(DEFAULT_MCHBAR + (0x4f40 + 4 * lane), 0);
+ write32(DEFAULT_MCHBAR + (0x4d40 + 4 * lane), 0);
+ }
+ wait_428c(channel);
+ write32(DEFAULT_MCHBAR + 0x4220 + (channel << 10), 0x0001f006);
+ write32(DEFAULT_MCHBAR + 0x4230 + (channel << 10), 0x0028a004);
+ write32(DEFAULT_MCHBAR + 0x4200 + (channel << 10),
+ 0x00060000 | (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4210 + (channel << 10), 0x00000244);
+ write32(DEFAULT_MCHBAR + 0x4224 + (channel << 10), 0x0001f201);
+ write32(DEFAULT_MCHBAR + 0x4234 + (channel << 10), 0x08281064);
+ write32(DEFAULT_MCHBAR + 0x4204 + (channel << 10),
+ 0x00000000 | (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4214 + (channel << 10), 0x00000242);
+ write32(DEFAULT_MCHBAR + 0x4228 + (channel << 10), 0x0001f105);
+ write32(DEFAULT_MCHBAR + 0x4238 + (channel << 10), 0x04281064);
+ write32(DEFAULT_MCHBAR + 0x4208 + (channel << 10),
+ 0x00000000 | (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x4218 + (channel << 10), 0x00000242);
+ write32(DEFAULT_MCHBAR + 0x422c + (channel << 10), 0x0001f002);
+ write32(DEFAULT_MCHBAR + 0x423c + (channel << 10), 0x00280c01);
+ write32(DEFAULT_MCHBAR + 0x420c + (channel << 10),
+ 0x00060400 | (slotrank << 24));
+ write32(DEFAULT_MCHBAR + 0x421c + (channel << 10), 0x00000240);
+ write32(DEFAULT_MCHBAR + 0x4284 + (channel << 10), 0x000c0001);
+ wait_428c(channel);
+ FOR_ALL_LANES
+ if (read32(DEFAULT_MCHBAR + 0x4340 + (channel << 10) + 4 * lane))
+ die("Mini channel test failed (2)\n");
+ }
+}
+
+static void set_scrambling_seed(ramctr_timing * ctrl)
+{
+ int channel;
+
+ /* FIXME: we hardcode seeds. Do we need to use some PRNG for them?
+ I don't think so. */
+ static u32 seeds[NUM_CHANNELS][3] = {
+ {0x00009a36, 0xbafcfdcf, 0x46d1ab68},
+ {0x00028bfa, 0x53fe4b49, 0x19ed5483}
+ };
+ FOR_ALL_POPULATED_CHANNELS {
+ MCHBAR32(0x4020 + 0x400 * channel) &= ~0x10000000;
+ write32(DEFAULT_MCHBAR + 0x4034, seeds[channel][0]);
+ write32(DEFAULT_MCHBAR + 0x403c, seeds[channel][1]);
+ write32(DEFAULT_MCHBAR + 0x4038, seeds[channel][2]);
+ }
+}
+
+static void set_4f8c(void)
+{
+ struct cpuid_result cpures;
+ u32 cpu;
+
+ cpures = cpuid(0);
+ cpu = (cpures.eax);
+ if (IS_SANDY_CPU(cpu) && (IS_SANDY_CPU_D0(cpu) || IS_SANDY_CPU_D1(cpu))) {
+ MCHBAR32(0x4f8c) = 0x141D1519;
+ } else {
+ MCHBAR32(0x4f8c) = 0x551D1519;
+ }
+}
+
+static void prepare_training(ramctr_timing * ctrl)
+{
+ int channel;
+
+ FOR_ALL_POPULATED_CHANNELS {
+ // Always drive command bus
+ MCHBAR32(0x4004 + 0x400 * channel) |= 0x20000000;
+ }
+
+ udelay(1);
+
+ FOR_ALL_POPULATED_CHANNELS {
+ wait_428c(channel);
+ }
+}
+
+static void set_4008c(ramctr_timing * ctrl)
+{
+ int channel, slotrank;
+ u32 reg;
+ FOR_ALL_POPULATED_CHANNELS {
+ u32 b20, b4_8_12;
+ int min_320c = 10000;
+ int max_320c = -10000;
+
+ FOR_ALL_POPULATED_RANKS {
+ max_320c = max(ctrl->timings[channel][slotrank].val_320c, max_320c);
+ min_320c = min(ctrl->timings[channel][slotrank].val_320c, min_320c);
+ }
+
+ if (max_320c - min_320c > 51)
+ b20 = 0;
+ else
+ b20 = ctrl->ref_card_offset[channel];
+
+ if (ctrl->reg_320c_range_threshold < max_320c - min_320c)
+ b4_8_12 = 0x3330;
+ else
+ b4_8_12 = 0x2220;
+
+ reg = read32(DEFAULT_MCHBAR + 0x400c + (channel << 10));
+ write32(DEFAULT_MCHBAR + 0x400c + (channel << 10),
+ (reg & 0xFFF0FFFF)
+ | (ctrl->ref_card_offset[channel] << 16)
+ | (ctrl->ref_card_offset[channel] << 18));
+ write32(DEFAULT_MCHBAR + 0x4008 + (channel << 10),
+ 0x0a000000
+ | (b20 << 20)
+ | ((ctrl->ref_card_offset[channel] + 2) << 16)
+ | b4_8_12);
+ }
+}
+
+static void set_42a0(ramctr_timing * ctrl)
+{
+ int channel;
+ FOR_ALL_POPULATED_CHANNELS {
+ write32(DEFAULT_MCHBAR + (0x42a0 + 0x400 * channel),
+ 0x00001000 | ctrl->rankmap[channel]);
+ MCHBAR32(0x4004 + 0x400 * channel) &= ~0x20000000; // OK
+ }
+}
+
+static int encode_5d10(int ns)
+{
+ return (ns + 499) / 500;
+}
+
+/* FIXME: values in this function should be hardware revision-dependent. */
+static void final_registers(ramctr_timing * ctrl)
+{
+ int channel;
+ int t1_cycles = 0, t1_ns = 0, t2_ns;
+ int t3_ns;
+ u32 r32;
+
+ write32(DEFAULT_MCHBAR + 0x4cd4, 0x00000046);
+
+ write32(DEFAULT_MCHBAR + 0x400c, (read32(DEFAULT_MCHBAR + 0x400c) & 0xFFFFCFFF) | 0x1000); // OK
+ write32(DEFAULT_MCHBAR + 0x440c, (read32(DEFAULT_MCHBAR + 0x440c) & 0xFFFFCFFF) | 0x1000); // OK
+ write32(DEFAULT_MCHBAR + 0x4cb0, 0x00000740);
+ write32(DEFAULT_MCHBAR + 0x4380, 0x00000aaa); // OK
+ write32(DEFAULT_MCHBAR + 0x4780, 0x00000aaa); // OK
+ write32(DEFAULT_MCHBAR + 0x4f88, 0x5f7003ff); // OK
+ write32(DEFAULT_MCHBAR + 0x5064, 0x00073000 | ctrl->reg_5064b0); // OK
+
+ FOR_ALL_CHANNELS {
+ switch (ctrl->rankmap[channel]) {
+ /* Unpopulated channel. */
+ case 0:
+ write32(DEFAULT_MCHBAR + 0x4384 + channel * 0x400, 0);
+ break;
+ /* Only single-ranked dimms. */
+ case 1:
+ case 4:
+ case 5:
+ write32(DEFAULT_MCHBAR + 0x4384 + channel * 0x400, 0x373131);
+ break;
+ /* Dual-ranked dimms present. */
+ default:
+ write32(DEFAULT_MCHBAR + 0x4384 + channel * 0x400, 0x9b6ea1);
+ break;
+ }
+ }
+
+ write32 (DEFAULT_MCHBAR + 0x5880, 0xca9171e5);
+ write32 (DEFAULT_MCHBAR + 0x5888,
+ (read32 (DEFAULT_MCHBAR + 0x5888) & ~0xffffff) | 0xe4d5d0);
+ write32 (DEFAULT_MCHBAR + 0x58a8, read32 (DEFAULT_MCHBAR + 0x58a8) & ~0x1f);
+ write32 (DEFAULT_MCHBAR + 0x4294,
+ (read32 (DEFAULT_MCHBAR + 0x4294) & ~0x30000)
+ | (1 << 16));
+ write32 (DEFAULT_MCHBAR + 0x4694,
+ (read32 (DEFAULT_MCHBAR + 0x4694) & ~0x30000)
+ | (1 << 16));
+
+ MCHBAR32(0x5030) |= 1; // OK
+ MCHBAR32(0x5030) |= 0x80; // OK
+ MCHBAR32(0x5f18) = 0xfa; // OK
+
+ /* Find a populated channel. */
+ FOR_ALL_POPULATED_CHANNELS
+ break;
+
+ t1_cycles = ((read32(DEFAULT_MCHBAR + 0x4290 + channel * 0x400) >> 8) & 0xff);
+ r32 = read32(DEFAULT_MCHBAR + 0x5064);
+ if (r32 & 0x20000)
+ t1_cycles += (r32 & 0xfff);
+ t1_cycles += (read32(DEFAULT_MCHBAR + channel * 0x400 + 0x42a4) & 0xfff);
+ t1_ns = t1_cycles * ctrl->tCK / 256 + 544;
+ if (!(r32 & 0x20000))
+ t1_ns += 500;
+
+ t2_ns = 10 * ((read32(DEFAULT_MCHBAR + 0x5f10) >> 8) & 0xfff);
+ if ( read32(DEFAULT_MCHBAR + 0x5f00) & 8 )
+ {
+ t3_ns = 10 * ((read32(DEFAULT_MCHBAR + 0x5f20) >> 8) & 0xfff);
+ t3_ns += 10 * (read32(DEFAULT_MCHBAR + 0x5f18) & 0xff);
+ }
else
- intel_early_me_status();
+ {
+ t3_ns = 500;
+ }
+ printk(BIOS_DEBUG, "t123: %d, %d, %d\n",
+ t1_ns, t2_ns, t3_ns);
+ write32 (DEFAULT_MCHBAR + 0x5d10,
+ ((encode_5d10(t1_ns) + encode_5d10(t2_ns)) << 16)
+ | (encode_5d10(t1_ns) << 8)
+ | ((encode_5d10(t3_ns) + encode_5d10(t2_ns) + encode_5d10(t1_ns)) << 24)
+ | (read32(DEFAULT_MCHBAR + 0x5d10) & 0xC0C0C0C0)
+ | 0xc);
+}
+
+static void save_timings(ramctr_timing * ctrl)
+{
+ struct mrc_data_container *mrcdata;
+ int output_len = ALIGN(sizeof (*ctrl), 16);
+
+ /* Save the MRC S3 restore data to cbmem */
+ mrcdata = cbmem_add
+ (CBMEM_ID_MRCDATA,
+ output_len + sizeof(struct mrc_data_container));
+
+ printk(BIOS_DEBUG, "Relocate MRC DATA from %p to %p (%u bytes)\n",
+ ctrl, mrcdata, output_len);
+
+ mrcdata->mrc_signature = MRC_DATA_SIGNATURE;
+ mrcdata->mrc_data_size = output_len;
+ mrcdata->reserved = 0;
+ memcpy(mrcdata->mrc_data, ctrl, sizeof (*ctrl));
+
+ /* Zero the unused space in aligned buffer. */
+ if (output_len > sizeof (*ctrl))
+ memset(mrcdata->mrc_data+sizeof (*ctrl), 0,
+ output_len - sizeof (*ctrl));
+
+ mrcdata->mrc_checksum = compute_ip_checksum(mrcdata->mrc_data,
+ mrcdata->mrc_data_size);
+}
+
+static void restore_timings(ramctr_timing * ctrl)
+{
+ int channel, slotrank, lane;
+
+ FOR_ALL_POPULATED_CHANNELS
+ MCHBAR32(0x4004 + 0x400 * channel) =
+ ctrl->tRRD
+ | (ctrl->tRTP << 4)
+ | (ctrl->tCKE << 8)
+ | (ctrl->tWTR << 12)
+ | (ctrl->tFAW << 16)
+ | (ctrl->tWR << 24)
+ | (ctrl->cmd_stretch[channel] << 30);
+
+ udelay(1);
+
+ FOR_ALL_POPULATED_CHANNELS {
+ wait_428c(channel);
+ }
+
+ FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
+ write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel
+ + 4 * lane, 0);
+ }
+
+ FOR_ALL_POPULATED_CHANNELS
+ write32(DEFAULT_MCHBAR + 0x4008 + 0x400 * channel,
+ read32(DEFAULT_MCHBAR + 0x4008 +
+ 0x400 * channel) | 0x8000000);
+
+ FOR_ALL_POPULATED_CHANNELS {
+ udelay (1);
+ write32(DEFAULT_MCHBAR + 0x4020 + 0x400 * channel,
+ read32(DEFAULT_MCHBAR + 0x4020 +
+ 0x400 * channel) | 0x200000);
+ }
+
+ printram("CPE\n");
+
+ write32(DEFAULT_MCHBAR + 0x3400, 0);
+ write32(DEFAULT_MCHBAR + 0x4eb0, 0);
+
+ printram("CP5b\n");
+
+ FOR_ALL_POPULATED_CHANNELS {
+ program_timings(ctrl, channel);
+ }
+
+ u32 reg, addr;
+
+ while (!(MCHBAR32(0x5084) & 0x10000)) ;
+ do {
+ reg = MCHBAR32(0x428c);
+ } while ((reg & 0x14) == 0);
+
+ // Set state of memory controller
+ MCHBAR32(0x5030) = 0x116;
+ MCHBAR32(0x4ea0) = 0;
+
+ // Wait 500us
+ udelay(500);
+
+ FOR_ALL_CHANNELS {
+ // Set valid rank CKE
+ reg = 0;
+ reg = (reg & ~0xf) | ctrl->rankmap[channel];
+ addr = 0x400 * channel + 0x42a0;
+ MCHBAR32(addr) = reg;
+
+ // Wait 10ns for ranks to settle
+ //udelay(0.01);
+
+ reg = (reg & ~0xf0) | (ctrl->rankmap[channel] << 4);
+ MCHBAR32(addr) = reg;
+
+ // Write reset using a NOP
+ write_reset(ctrl);
+ }
+
+ /* mrs commands. */
+ dram_mrscommands(ctrl);
+
+ printram("CP5c\n");
+
+ write32(DEFAULT_MCHBAR + 0x3000, 0);
+
+ FOR_ALL_CHANNELS {
+ write32(DEFAULT_MCHBAR + (channel * 0x100) + 0xe3c,
+ 0 | (read32(DEFAULT_MCHBAR + (channel * 0x100) + 0xe3c) &
+ ~0x3f000000));
+ udelay(2);
+ }
+
+ write32(DEFAULT_MCHBAR + 0x4ea8, 0);
+}
+
+void init_dram_ddr3(spd_raw_data * spds, int mobile, int min_tck,
+ int s3resume)
+{
+ int me_uma_size;
+ int cbmem_was_inited;
+
+ MCHBAR32(0x5f00) |= 1;
+
+ report_platform_info();
+
+ /* Wait for ME to be ready */
+ intel_early_me_init();
+ me_uma_size = intel_early_me_uma_size();
+
+ printk(BIOS_DEBUG, "Starting native Platform init\n");
+
+ u32 reg_5d10;
+
+ wait_txt_clear();
+
+ wrmsr(0x000002e6, (msr_t) { .lo = 0, .hi = 0 });
- post_system_agent_init(pei_data);
+ reg_5d10 = read32(DEFAULT_MCHBAR + 0x5d10); // !!! = 0x00000000
+ if ((pcie_read_config16(SOUTHBRIDGE, 0xa2) & 0xa0) == 0x20 /* 0x0004 */
+ && reg_5d10 && !s3resume) {
+ write32(DEFAULT_MCHBAR + 0x5d10, 0);
+ /* Need reset. */
+ outb(0x6, 0xcf9);
+
+ halt();
+ }
+
+ ramctr_timing ctrl;
+
+ memset(&ctrl, 0, sizeof (ctrl));
+
+ early_pch_init_native();
+ early_thermal_init();
+
+ ctrl.mobile = mobile;
+ ctrl.tCK = min_tck;
+
+ /* FIXME: for non-S3 we should be able to use timing caching with
+ proper verification. Right now we use timings only for S3 case.
+ */
+ if (s3resume) {
+ struct mrc_data_container *mrc_cache;
+
+ mrc_cache = find_current_mrc_cache();
+ if (!mrc_cache || mrc_cache->mrc_data_size < sizeof (ctrl)) {
+ /* Failed S3 resume, reset to come up cleanly */
+ outb(0x6, 0xcf9);
+ halt();
+ }
+ memcpy(&ctrl, mrc_cache->mrc_data, sizeof (ctrl));
+ }
+
+ if (!s3resume) {
+ dimm_info info;
+
+ /* Get DDR3 SPD data */
+ dram_find_spds_ddr3(spds, &info, &ctrl);
+
+ /* Find fastest common supported parameters */
+ dram_find_common_params(&info, &ctrl);
+
+ dram_dimm_mapping(&info, &ctrl);
+ }
+
+ /* Set MCU frequency */
+ dram_freq(&ctrl);
+
+ if (!s3resume) {
+ /* Calculate timings */
+ dram_timing(&ctrl);
+ }
+
+ /* Set version register */
+ MCHBAR32(0x5034) = 0xC04EB002;
+
+ /* Enable crossover */
+ dram_xover(&ctrl);
+
+ /* Set timing and refresh registers */
+ dram_timing_regs(&ctrl);
+
+ /* Power mode preset */
+ MCHBAR32(0x4e80) = 0x5500;
+
+ /* Set scheduler parameters */
+ MCHBAR32(0x4c20) = 0x10100005;
+
+ /* Set cpu specific register */
+ set_4f8c();
+
+ /* Clear IO reset bit */
+ MCHBAR32(0x5030) &= ~0x20;
+
+ /* Set MAD-DIMM registers */
+ dram_dimm_set_mapping(&ctrl);
+ printk(BIOS_DEBUG, "Done dimm mapping\n");
+
+ /* Zone config */
+ dram_zones(&ctrl, 1);
+
+ /* Set memory map */
+ dram_memorymap(&ctrl, me_uma_size);
+ printk(BIOS_DEBUG, "Done memory map\n");
+
+ /* Set IO registers */
+ dram_ioregs(&ctrl);
+ printk(BIOS_DEBUG, "Done io registers\n");
+
+ udelay(1);
+
+ if (s3resume) {
+ restore_timings(&ctrl);
+ } else {
+ /* Do jedec ddr3 reset sequence */
+ dram_jedecreset(&ctrl);
+ printk(BIOS_DEBUG, "Done jedec reset\n");
+
+ /* MRS commands */
+ dram_mrscommands(&ctrl);
+ printk(BIOS_DEBUG, "Done MRS commands\n");
+ dram_mrscommands(&ctrl);
+
+ /* Prepare for memory training */
+ prepare_training(&ctrl);
+
+ read_training(&ctrl);
+ write_training(&ctrl);
+
+ printram("CP5a\n");
+
+ discover_edges(&ctrl);
+
+ printram("CP5b\n");
+
+ command_training(&ctrl);
+
+ printram("CP5c\n");
+
+ discover_edges_write(&ctrl);
+
+ discover_timC_write(&ctrl);
+
+ normalize_training(&ctrl);
+ }
+
+ set_4008c(&ctrl);
+
+ write_controller_mr(&ctrl);
+
+ if (!s3resume) {
+ channel_test(&ctrl);
+ }
+
+ /* FIXME: should be hardware revision-dependent. */
+ write32(DEFAULT_MCHBAR + 0x5024, 0x00a030ce);
+
+ set_scrambling_seed(&ctrl);
+
+ set_42a0(&ctrl);
+
+ final_registers(&ctrl);
+
+ /* Zone config */
+ dram_zones(&ctrl, 0);
+
+ if (!s3resume)
+ quick_ram_check();
+
+ intel_early_me_status();
+ intel_early_me_init_done(ME_INIT_STATUS_SUCCESS);
+ intel_early_me_status();
+
+ post_system_agent_init();
report_memory_config();
+
+ cbmem_was_inited = !cbmem_recovery(s3resume);
+ if (!s3resume)
+ save_timings(&ctrl);
+ if (s3resume && !cbmem_was_inited) {
+ /* Failed S3 resume, reset to come up cleanly */
+ outb(0x6, 0xcf9);
+ halt();
+ }
}
diff --git a/src/northbridge/intel/sandybridge/raminit_mrc.c b/src/northbridge/intel/sandybridge/raminit_mrc.c
new file mode 100644
index 0000000000..053a4873cd
--- /dev/null
+++ b/src/northbridge/intel/sandybridge/raminit_mrc.c
@@ -0,0 +1,293 @@
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2011 Google Inc.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; version 2 of the License.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc.
+ */
+
+#include <console/console.h>
+#include <console/usb.h>
+#include <bootmode.h>
+#include <string.h>
+#include <arch/io.h>
+#include <cbmem.h>
+#include <arch/cbfs.h>
+#include <cbfs.h>
+#include <ip_checksum.h>
+#include <pc80/mc146818rtc.h>
+#include <device/pci_def.h>
+#include <halt.h>
+#include "raminit.h"
+#include "pei_data.h"
+#include "sandybridge.h"
+
+/* Management Engine is in the southbridge */
+#include "southbridge/intel/bd82x6x/me.h"
+
+/*
+ * MRC scrambler seed offsets should be reserved in
+ * mainboard cmos.layout and not covered by checksum.
+ */
+#if CONFIG_USE_OPTION_TABLE
+#include "option_table.h"
+#define CMOS_OFFSET_MRC_SEED (CMOS_VSTART_mrc_scrambler_seed >> 3)
+#define CMOS_OFFSET_MRC_SEED_S3 (CMOS_VSTART_mrc_scrambler_seed_s3 >> 3)
+#define CMOS_OFFSET_MRC_SEED_CHK (CMOS_VSTART_mrc_scrambler_seed_chk >> 3)
+#else
+#define CMOS_OFFSET_MRC_SEED 152
+#define CMOS_OFFSET_MRC_SEED_S3 156
+#define CMOS_OFFSET_MRC_SEED_CHK 160
+#endif
+
+void save_mrc_data(struct pei_data *pei_data)
+{
+ u16 c1, c2, checksum;
+ struct mrc_data_container *mrcdata;
+ int output_len = ALIGN(pei_data->mrc_output_len, 16);
+
+ /* Save the MRC S3 restore data to cbmem */
+ mrcdata = cbmem_add
+ (CBMEM_ID_MRCDATA,
+ output_len + sizeof(struct mrc_data_container));
+
+ if (mrcdata != NULL) {
+ printk(BIOS_DEBUG, "Relocate MRC DATA from %p to %p (%u bytes)\n",
+ pei_data->mrc_output, mrcdata, output_len);
+
+ mrcdata->mrc_signature = MRC_DATA_SIGNATURE;
+ mrcdata->mrc_data_size = output_len;
+ mrcdata->reserved = 0;
+ memcpy(mrcdata->mrc_data, pei_data->mrc_output,
+ pei_data->mrc_output_len);
+
+ /* Zero the unused space in aligned buffer. */
+ if (output_len > pei_data->mrc_output_len)
+ memset(mrcdata->mrc_data+pei_data->mrc_output_len, 0,
+ output_len - pei_data->mrc_output_len);
+
+ mrcdata->mrc_checksum = compute_ip_checksum(mrcdata->mrc_data,
+ mrcdata->mrc_data_size);
+ }
+
+ /* Save the MRC seed values to CMOS */
+ cmos_write32(CMOS_OFFSET_MRC_SEED, pei_data->scrambler_seed);
+ printk(BIOS_DEBUG, "Save scrambler seed 0x%08x to CMOS 0x%02x\n",
+ pei_data->scrambler_seed, CMOS_OFFSET_MRC_SEED);
+
+ cmos_write32(CMOS_OFFSET_MRC_SEED_S3, pei_data->scrambler_seed_s3);
+ printk(BIOS_DEBUG, "Save s3 scrambler seed 0x%08x to CMOS 0x%02x\n",
+ pei_data->scrambler_seed_s3, CMOS_OFFSET_MRC_SEED_S3);
+
+ /* Save a simple checksum of the seed values */
+ c1 = compute_ip_checksum((u8*)&pei_data->scrambler_seed,
+ sizeof(u32));
+ c2 = compute_ip_checksum((u8*)&pei_data->scrambler_seed_s3,
+ sizeof(u32));
+ checksum = add_ip_checksums(sizeof(u32), c1, c2);
+
+ cmos_write(checksum & 0xff, CMOS_OFFSET_MRC_SEED_CHK);
+ cmos_write((checksum >> 8) & 0xff, CMOS_OFFSET_MRC_SEED_CHK+1);
+}
+
+static void prepare_mrc_cache(struct pei_data *pei_data)
+{
+ struct mrc_data_container *mrc_cache;
+ u16 c1, c2, checksum, seed_checksum;
+
+ // preset just in case there is an error
+ pei_data->mrc_input = NULL;
+ pei_data->mrc_input_len = 0;
+
+ /* Read scrambler seeds from CMOS */
+ pei_data->scrambler_seed = cmos_read32(CMOS_OFFSET_MRC_SEED);
+ printk(BIOS_DEBUG, "Read scrambler seed 0x%08x from CMOS 0x%02x\n",
+ pei_data->scrambler_seed, CMOS_OFFSET_MRC_SEED);
+
+ pei_data->scrambler_seed_s3 = cmos_read32(CMOS_OFFSET_MRC_SEED_S3);
+ printk(BIOS_DEBUG, "Read S3 scrambler seed 0x%08x from CMOS 0x%02x\n",
+ pei_data->scrambler_seed_s3, CMOS_OFFSET_MRC_SEED_S3);
+
+ /* Compute seed checksum and compare */
+ c1 = compute_ip_checksum((u8*)&pei_data->scrambler_seed,
+ sizeof(u32));
+ c2 = compute_ip_checksum((u8*)&pei_data->scrambler_seed_s3,
+ sizeof(u32));
+ checksum = add_ip_checksums(sizeof(u32), c1, c2);
+
+ seed_checksum = cmos_read(CMOS_OFFSET_MRC_SEED_CHK);
+ seed_checksum |= cmos_read(CMOS_OFFSET_MRC_SEED_CHK+1) << 8;
+
+ if (checksum != seed_checksum) {
+ printk(BIOS_ERR, "%s: invalid seed checksum\n", __func__);
+ pei_data->scrambler_seed = 0;
+ pei_data->scrambler_seed_s3 = 0;
+ return;
+ }
+
+ if ((mrc_cache = find_current_mrc_cache()) == NULL) {
+ /* error message printed in find_current_mrc_cache */
+ return;
+ }
+
+ pei_data->mrc_input = mrc_cache->mrc_data;
+ pei_data->mrc_input_len = mrc_cache->mrc_data_size;
+
+ printk(BIOS_DEBUG, "%s: at %p, size %x checksum %04x\n",
+ __func__, pei_data->mrc_input,
+ pei_data->mrc_input_len, mrc_cache->mrc_checksum);
+}
+
+static const char* ecc_decoder[] = {
+ "inactive",
+ "active on IO",
+ "disabled on IO",
+ "active"
+};
+
+/*
+ * Dump in the log memory controller configuration as read from the memory
+ * controller registers.
+ */
+static void report_memory_config(void)
+{
+ u32 addr_decoder_common, addr_decode_ch[2];
+ int i;
+
+ addr_decoder_common = MCHBAR32(0x5000);
+ addr_decode_ch[0] = MCHBAR32(0x5004);
+ addr_decode_ch[1] = MCHBAR32(0x5008);
+
+ printk(BIOS_DEBUG, "memcfg DDR3 clock %d MHz\n",
+ (MCHBAR32(0x5e04) * 13333 * 2 + 50)/100);
+ printk(BIOS_DEBUG, "memcfg channel assignment: A: %d, B % d, C % d\n",
+ addr_decoder_common & 3,
+ (addr_decoder_common >> 2) & 3,
+ (addr_decoder_common >> 4) & 3);
+
+ for (i = 0; i < ARRAY_SIZE(addr_decode_ch); i++) {
+ u32 ch_conf = addr_decode_ch[i];
+ printk(BIOS_DEBUG, "memcfg channel[%d] config (%8.8x):\n",
+ i, ch_conf);
+ printk(BIOS_DEBUG, " ECC %s\n",
+ ecc_decoder[(ch_conf >> 24) & 3]);
+ printk(BIOS_DEBUG, " enhanced interleave mode %s\n",
+ ((ch_conf >> 22) & 1) ? "on" : "off");
+ printk(BIOS_DEBUG, " rank interleave %s\n",
+ ((ch_conf >> 21) & 1) ? "on" : "off");
+ printk(BIOS_DEBUG, " DIMMA %d MB width x%d %s rank%s\n",
+ ((ch_conf >> 0) & 0xff) * 256,
+ ((ch_conf >> 19) & 1) ? 16 : 8,
+ ((ch_conf >> 17) & 1) ? "dual" : "single",
+ ((ch_conf >> 16) & 1) ? "" : ", selected");
+ printk(BIOS_DEBUG, " DIMMB %d MB width x%d %s rank%s\n",
+ ((ch_conf >> 8) & 0xff) * 256,
+ ((ch_conf >> 20) & 1) ? 16 : 8,
+ ((ch_conf >> 18) & 1) ? "dual" : "single",
+ ((ch_conf >> 16) & 1) ? ", selected" : "");
+ }
+}
+
+static void post_system_agent_init(struct pei_data *pei_data)
+{
+ /* If PCIe init is skipped, set the PEG clock gating */
+ if (!pei_data->pcie_init)
+ MCHBAR32(0x7010) = MCHBAR32(0x7010) | 0x01;
+}
+
+/**
+ * Find PEI executable in coreboot filesystem and execute it.
+ *
+ * @param pei_data: configuration data for UEFI PEI reference code
+ */
+void sdram_initialize(struct pei_data *pei_data)
+{
+ struct sys_info sysinfo;
+ int (*entry) (struct pei_data *pei_data) __attribute__ ((regparm(1)));
+
+ report_platform_info();
+
+ /* Wait for ME to be ready */
+ intel_early_me_init();
+ intel_early_me_uma_size();
+
+ printk(BIOS_DEBUG, "Starting UEFI PEI System Agent\n");
+
+ memset(&sysinfo, 0, sizeof(sysinfo));
+
+ sysinfo.boot_path = pei_data->boot_mode;
+
+ /*
+ * Do not pass MRC data in for recovery mode boot,
+ * Always pass it in for S3 resume.
+ */
+ if (!recovery_mode_enabled() || pei_data->boot_mode == 2)
+ prepare_mrc_cache(pei_data);
+
+ /* If MRC data is not found we cannot continue S3 resume. */
+ if (pei_data->boot_mode == 2 && !pei_data->mrc_input) {
+ printk(BIOS_DEBUG, "Giving up in sdram_initialize: No MRC data\n");
+ outb(0x6, 0xcf9);
+ halt();
+ }
+
+ /* Pass console handler in pei_data */
+ pei_data->tx_byte = do_putchar;
+
+ /* Locate and call UEFI System Agent binary. */
+ entry = cbfs_boot_map_with_leak("mrc.bin", CBFS_TYPE_MRC, NULL);
+ if (entry) {
+ int rv;
+ rv = entry (pei_data);
+ if (rv) {
+ switch (rv) {
+ case -1:
+ printk(BIOS_ERR, "PEI version mismatch.\n");
+ break;
+ case -2:
+ printk(BIOS_ERR, "Invalid memory frequency.\n");
+ break;
+ default:
+ printk(BIOS_ERR, "MRC returned %x.\n", rv);
+ }
+ die("Nonzero MRC return value.\n");
+ }
+ } else {
+ die("UEFI PEI System Agent not found.\n");
+ }
+
+#if CONFIG_USBDEBUG_IN_ROMSTAGE
+ /* mrc.bin reconfigures USB, so reinit it to have debug */
+ usbdebug_init();
+#endif
+
+ /* For reference print the System Agent version
+ * after executing the UEFI PEI stage.
+ */
+ u32 version = MCHBAR32(0x5034);
+ printk(BIOS_DEBUG, "System Agent Version %d.%d.%d Build %d\n",
+ version >> 24 , (version >> 16) & 0xff,
+ (version >> 8) & 0xff, version & 0xff);
+
+ /* Send ME init done for SandyBridge here. This is done
+ * inside the SystemAgent binary on IvyBridge. */
+ if (BASE_REV_SNB ==
+ (pci_read_config16(PCI_CPU_DEVICE, PCI_DEVICE_ID) & BASE_REV_MASK))
+ intel_early_me_init_done(ME_INIT_STATUS_SUCCESS);
+ else
+ intel_early_me_status();
+
+ post_system_agent_init(pei_data);
+ report_memory_config();
+}
diff --git a/src/northbridge/intel/sandybridge/raminit_native.c b/src/northbridge/intel/sandybridge/raminit_native.c
deleted file mode 100644
index 790f47c46c..0000000000
--- a/src/northbridge/intel/sandybridge/raminit_native.c
+++ /dev/null
@@ -1,3902 +0,0 @@
-/*
- * This file is part of the coreboot project.
- *
- * Copyright (C) 2014 Damien Zammit <damien@zamaudio.com>
- * Copyright (C) 2014 Vladimir Serbinenko <phcoder@gmail.com>
- *
- * This program is free software; you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation; version 2 of the License.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc.
- */
-
-#include <console/console.h>
-#include <console/usb.h>
-#include <bootmode.h>
-#include <string.h>
-#include <arch/io.h>
-#include <cbmem.h>
-#include <arch/cbfs.h>
-#include <cbfs.h>
-#include <halt.h>
-#include <ip_checksum.h>
-#include <pc80/mc146818rtc.h>
-#include <device/pci_def.h>
-#include "raminit_native.h"
-#include "sandybridge.h"
-#include <delay.h>
-#include <lib.h>
-
-/* Management Engine is in the southbridge */
-#include "southbridge/intel/bd82x6x/me.h"
-/* For SPD. */
-#include "southbridge/intel/bd82x6x/smbus.h"
-#include "arch/cpu.h"
-#include "cpu/x86/msr.h"
-
-/* FIXME: no ECC support. */
-/* FIXME: no support for 3-channel chipsets. */
-
-#define BASEFREQ 133
-#define tDLLK 512
-
-#define IS_SANDY_CPU(x) ((x & 0xffff0) == 0x206a0)
-#define IS_SANDY_CPU_C(x) ((x & 0xf) == 4)
-#define IS_SANDY_CPU_D0(x) ((x & 0xf) == 5)
-#define IS_SANDY_CPU_D1(x) ((x & 0xf) == 6)
-#define IS_SANDY_CPU_D2(x) ((x & 0xf) == 7)
-
-#define IS_IVY_CPU(x) ((x & 0xffff0) == 0x306a0)
-#define IS_IVY_CPU_C(x) ((x & 0xf) == 4)
-#define IS_IVY_CPU_K(x) ((x & 0xf) == 5)
-#define IS_IVY_CPU_D(x) ((x & 0xf) == 6)
-#define IS_IVY_CPU_E(x) ((x & 0xf) >= 8)
-
-#define NUM_CHANNELS 2
-#define NUM_SLOTRANKS 4
-#define NUM_SLOTS 2
-#define NUM_LANES 8
-
-/* FIXME: Vendor BIOS uses 64 but our algorithms are less
- performant and even 1 seems to be enough in practice. */
-#define NUM_PATTERNS 4
-
-typedef struct odtmap_st {
- u16 rttwr;
- u16 rttnom;
-} odtmap;
-
-typedef struct dimm_info_st {
- dimm_attr dimm[NUM_CHANNELS][NUM_SLOTS];
-} dimm_info;
-
-struct ram_rank_timings {
- /* Register 4024. One byte per slotrank. */
- u8 val_4024;
- /* Register 4028. One nibble per slotrank. */
- u8 val_4028;
-
- int val_320c;
-
- struct ram_lane_timings {
- /* lane register offset 0x10. */
- u16 timA; /* bits 0 - 5, bits 16 - 18 */
- u8 rising; /* bits 8 - 14 */
- u8 falling; /* bits 20 - 26. */
-
- /* lane register offset 0x20. */
- int timC; /* bit 0 - 5, 19. */
- u16 timB; /* bits 8 - 13, 15 - 17. */
- } lanes[NUM_LANES];
-};
-
-struct ramctr_timing_st;
-
-typedef struct ramctr_timing_st {
- int mobile;
-
- u16 cas_supported;
- /* tLatencies are in units of ns, scaled by x256 */
- u32 tCK;
- u32 tAA;
- u32 tWR;
- u32 tRCD;
- u32 tRRD;
- u32 tRP;
- u32 tRAS;
- u32 tRFC;
- u32 tWTR;
- u32 tRTP;
- u32 tFAW;
- /* Latencies in terms of clock cycles
- * They are saved separately as they are needed for DRAM MRS commands*/
- u8 CAS; /* CAS read latency */
- u8 CWL; /* CAS write latency */
-
- u32 tREFI;
- u32 tMOD;
- u32 tXSOffset;
- u32 tWLO;
- u32 tCKE;
- u32 tXPDLL;
- u32 tXP;
- u32 tAONPD;
-
- u16 reg_5064b0; /* bits 0-11. */
-
- u8 rankmap[NUM_CHANNELS];
- int ref_card_offset[NUM_CHANNELS];
- u32 mad_dimm[NUM_CHANNELS];
- int channel_size_mb[NUM_CHANNELS];
- u32 cmd_stretch[NUM_CHANNELS];
-
- int reg_c14_offset;
- int reg_320c_range_threshold;
-
- int edge_offset[3];
- int timC_offset[3];
-
- int extended_temperature_range;
- int auto_self_refresh;
-
- int rank_mirror[NUM_CHANNELS][NUM_SLOTRANKS];
-
- struct ram_rank_timings timings[NUM_CHANNELS][NUM_SLOTRANKS];
-} ramctr_timing;
-
-#define SOUTHBRIDGE PCI_DEV(0, 0x1f, 0)
-#define NORTHBRIDGE PCI_DEV(0, 0x0, 0)
-#define FOR_ALL_LANES for (lane = 0; lane < NUM_LANES; lane++)
-#define FOR_ALL_CHANNELS for (channel = 0; channel < NUM_CHANNELS; channel++)
-#define FOR_ALL_POPULATED_RANKS for (slotrank = 0; slotrank < NUM_SLOTRANKS; slotrank++) if (ctrl->rankmap[channel] & (1 << slotrank))
-#define FOR_ALL_POPULATED_CHANNELS for (channel = 0; channel < NUM_CHANNELS; channel++) if (ctrl->rankmap[channel])
-#define MAX_EDGE_TIMING 71
-#define MAX_TIMC 127
-#define MAX_TIMB 511
-#define MAX_TIMA 127
-
-static void program_timings(ramctr_timing * ctrl, int channel);
-
-static const char *ecc_decoder[] = {
- "inactive",
- "active on IO",
- "disabled on IO",
- "active"
-};
-
-static void wait_txt_clear(void)
-{
- struct cpuid_result cp;
-
- cp = cpuid_ext(0x1, 0x0);
- /* Check if TXT is supported? */
- if (!(cp.ecx & 0x40))
- return;
- /* Some TXT public bit. */
- if (!(read32((void *)0xfed30010) & 1))
- return;
- /* Wait for TXT clear. */
- while (!(read8((void *)0xfed40000) & (1 << 7))) ;
-}
-
-static void sfence(void)
-{
- asm volatile ("sfence");
-}
-
-/*
- * Dump in the log memory controller configuration as read from the memory
- * controller registers.
- */
-static void report_memory_config(void)
-{
- u32 addr_decoder_common, addr_decode_ch[NUM_CHANNELS];
- int i;
-
- addr_decoder_common = MCHBAR32(0x5000);
- addr_decode_ch[0] = MCHBAR32(0x5004);
- addr_decode_ch[1] = MCHBAR32(0x5008);
-
- printk(BIOS_DEBUG, "memcfg DDR3 clock %d MHz\n",
- (MCHBAR32(0x5e04) * 13333 * 2 + 50) / 100);
- printk(BIOS_DEBUG, "memcfg channel assignment: A: %d, B % d, C % d\n",
- addr_decoder_common & 3, (addr_decoder_common >> 2) & 3,
- (addr_decoder_common >> 4) & 3);
-
- for (i = 0; i < ARRAY_SIZE(addr_decode_ch); i++) {
- u32 ch_conf = addr_decode_ch[i];
- printk(BIOS_DEBUG, "memcfg channel[%d] config (%8.8x):\n", i,
- ch_conf);
- printk(BIOS_DEBUG, " ECC %s\n",
- ecc_decoder[(ch_conf >> 24) & 3]);
- printk(BIOS_DEBUG, " enhanced interleave mode %s\n",
- ((ch_conf >> 22) & 1) ? "on" : "off");
- printk(BIOS_DEBUG, " rank interleave %s\n",
- ((ch_conf >> 21) & 1) ? "on" : "off");
- printk(BIOS_DEBUG, " DIMMA %d MB width x%d %s rank%s\n",
- ((ch_conf >> 0) & 0xff) * 256,
- ((ch_conf >> 19) & 1) ? 16 : 8,
- ((ch_conf >> 17) & 1) ? "dual" : "single",
- ((ch_conf >> 16) & 1) ? "" : ", selected");
- printk(BIOS_DEBUG, " DIMMB %d MB width x%d %s rank%s\n",
- ((ch_conf >> 8) & 0xff) * 256,
- ((ch_conf >> 20) & 1) ? 16 : 8,
- ((ch_conf >> 18) & 1) ? "dual" : "single",
- ((ch_conf >> 16) & 1) ? ", selected" : "");
- }
-}
-
-static void post_system_agent_init(void)
-{
- /* If PCIe init is skipped, set the PEG clock gating */
- MCHBAR32(0x7010) = MCHBAR32(0x7010) | 0x01;
-}
-
-void read_spd(spd_raw_data * spd, u8 addr)
-{
- int j;
- for (j = 0; j < 256; j++)
- (*spd)[j] = do_smbus_read_byte(SMBUS_IO_BASE, addr, j);
-}
-
-static void dram_find_spds_ddr3(spd_raw_data * spd, dimm_info * dimm,
- ramctr_timing * ctrl)
-{
- int dimms = 0;
- int channel, slot, spd_slot;
-
- memset (ctrl->rankmap, 0, sizeof (ctrl->rankmap));
-
- ctrl->extended_temperature_range = 1;
- ctrl->auto_self_refresh = 1;
-
- FOR_ALL_CHANNELS {
- ctrl->channel_size_mb[channel] = 0;
-
- for (slot = 0; slot < NUM_SLOTS; slot++) {
- spd_slot = 2 * channel + slot;
- spd_decode_ddr3(&dimm->dimm[channel][slot], spd[spd_slot]);
- if (dimm->dimm[channel][slot].dram_type != SPD_MEMORY_TYPE_SDRAM_DDR3) {
- // set dimm invalid
- dimm->dimm[channel][slot].ranks = 0;
- dimm->dimm[channel][slot].size_mb = 0;
- continue;
- }
-
- dram_print_spd_ddr3(&dimm->dimm[channel][slot]);
- dimms++;
- ctrl->rank_mirror[channel][slot * 2] = 0;
- ctrl->rank_mirror[channel][slot * 2 + 1] = dimm->dimm[channel][slot].flags.pins_mirrored;
- ctrl->channel_size_mb[channel] += dimm->dimm[channel][slot].size_mb;
-
- ctrl->auto_self_refresh &= dimm->dimm[channel][slot].flags.asr;
- ctrl->extended_temperature_range &= dimm->dimm[channel][slot].flags.ext_temp_refresh;
-
- ctrl->rankmap[channel] |= ((1 << dimm->dimm[channel][slot].ranks) - 1) << (2 * slot);
- printk(BIOS_DEBUG, "rankmap[%d] = 0x%x\n", channel, ctrl->rankmap[channel]);
- }
- if ((ctrl->rankmap[channel] & 3) && (ctrl->rankmap[channel] & 0xc)
- && dimm->dimm[channel][0].reference_card <= 5 && dimm->dimm[channel][1].reference_card <= 5) {
- const int ref_card_offset_table[6][6] = {
- { 0, 0, 0, 0, 2, 2, },
- { 0, 0, 0, 0, 2, 2, },
- { 0, 0, 0, 0, 2, 2, },
- { 0, 0, 0, 0, 1, 1, },
- { 2, 2, 2, 1, 0, 0, },
- { 2, 2, 2, 1, 0, 0, },
- };
- ctrl->ref_card_offset[channel] = ref_card_offset_table[dimm->dimm[channel][0].reference_card]
- [dimm->dimm[channel][1].reference_card];
- } else
- ctrl->ref_card_offset[channel] = 0;
- }
-
- if (!dimms)
- die("No DIMMs were found");
-}
-
-static void dram_find_common_params(const dimm_info * dimms,
- ramctr_timing * ctrl)
-{
- size_t valid_dimms;
- int channel, slot;
- ctrl->cas_supported = 0xff;
- valid_dimms = 0;
- FOR_ALL_CHANNELS for (slot = 0; slot < 2; slot++) {
- const dimm_attr *dimm = &dimms->dimm[channel][slot];
- if (dimm->dram_type != SPD_MEMORY_TYPE_SDRAM_DDR3)
- continue;
- valid_dimms++;
-
- /* Find all possible CAS combinations */
- ctrl->cas_supported &= dimm->cas_supported;
-
- /* Find the smallest common latencies supported by all DIMMs */
- ctrl->tCK = MAX(ctrl->tCK, dimm->tCK);
- ctrl->tAA = MAX(ctrl->tAA, dimm->tAA);
- ctrl->tWR = MAX(ctrl->tWR, dimm->tWR);
- ctrl->tRCD = MAX(ctrl->tRCD, dimm->tRCD);
- ctrl->tRRD = MAX(ctrl->tRRD, dimm->tRRD);
- ctrl->tRP = MAX(ctrl->tRP, dimm->tRP);
- ctrl->tRAS = MAX(ctrl->tRAS, dimm->tRAS);
- ctrl->tRFC = MAX(ctrl->tRFC, dimm->tRFC);
- ctrl->tWTR = MAX(ctrl->tWTR, dimm->tWTR);
- ctrl->tRTP = MAX(ctrl->tRTP, dimm->tRTP);
- ctrl->tFAW = MAX(ctrl->tFAW, dimm->tFAW);
- }
-
- if (!ctrl->cas_supported)
- die("Unsupported DIMM combination. "
- "DIMMS do not support common CAS latency");
- if (!valid_dimms)
- die("No valid DIMMs found");
-}
-
-static u8 get_CWL(u8 CAS)
-{
- /* Get CWL based on CAS using the following rule:
- * _________________________________________
- * CAS: | 4T | 5T | 6T | 7T | 8T | 9T | 10T | 11T |
- * CWL: | 5T | 5T | 5T | 6T | 6T | 7T | 7T | 8T |
- */
- static const u8 cas_cwl_map[] = { 5, 5, 5, 6, 6, 7, 7, 8 };
- if (CAS > 11)
- return 8;
- return cas_cwl_map[CAS - 4];
-}
-
-/* Frequency multiplier. */
-static u32 get_FRQ(u32 tCK)
-{
- u32 FRQ;
- FRQ = 256000 / (tCK * BASEFREQ);
- if (FRQ > 8)
- return 8;
- if (FRQ < 3)
- return 3;
- return FRQ;
-}
-
-static u32 get_REFI(u32 tCK)
-{
- /* Get REFI based on MCU frequency using the following rule:
- * _________________________________________
- * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
- * REFI: | 3120 | 4160 | 5200 | 6240 | 7280 | 8320 |
- */
- static const u32 frq_refi_map[] =
- { 3120, 4160, 5200, 6240, 7280, 8320 };
- return frq_refi_map[get_FRQ(tCK) - 3];
-}
-
-static u8 get_XSOffset(u32 tCK)
-{
- /* Get XSOffset based on MCU frequency using the following rule:
- * _________________________
- * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
- * XSOffset : | 4 | 6 | 7 | 8 | 10 | 11 |
- */
- static const u8 frq_xs_map[] = { 4, 6, 7, 8, 10, 11 };
- return frq_xs_map[get_FRQ(tCK) - 3];
-}
-
-static u8 get_MOD(u32 tCK)
-{
- /* Get MOD based on MCU frequency using the following rule:
- * _____________________________
- * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
- * MOD : | 12 | 12 | 12 | 12 | 15 | 16 |
- */
- static const u8 frq_mod_map[] = { 12, 12, 12, 12, 15, 16 };
- return frq_mod_map[get_FRQ(tCK) - 3];
-}
-
-static u8 get_WLO(u32 tCK)
-{
- /* Get WLO based on MCU frequency using the following rule:
- * _______________________
- * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
- * WLO : | 4 | 5 | 6 | 6 | 8 | 8 |
- */
- static const u8 frq_wlo_map[] = { 4, 5, 6, 6, 8, 8 };
- return frq_wlo_map[get_FRQ(tCK) - 3];
-}
-
-static u8 get_CKE(u32 tCK)
-{
- /* Get CKE based on MCU frequency using the following rule:
- * _______________________
- * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
- * CKE : | 3 | 3 | 4 | 4 | 5 | 6 |
- */
- static const u8 frq_cke_map[] = { 3, 3, 4, 4, 5, 6 };
- return frq_cke_map[get_FRQ(tCK) - 3];
-}
-
-static u8 get_XPDLL(u32 tCK)
-{
- /* Get XPDLL based on MCU frequency using the following rule:
- * _____________________________
- * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
- * XPDLL : | 10 | 13 | 16 | 20 | 23 | 26 |
- */
- static const u8 frq_xpdll_map[] = { 10, 13, 16, 20, 23, 26 };
- return frq_xpdll_map[get_FRQ(tCK) - 3];
-}
-
-static u8 get_XP(u32 tCK)
-{
- /* Get XP based on MCU frequency using the following rule:
- * _______________________
- * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
- * XP : | 3 | 4 | 4 | 5 | 6 | 7 |
- */
- static const u8 frq_xp_map[] = { 3, 4, 4, 5, 6, 7 };
- return frq_xp_map[get_FRQ(tCK) - 3];
-}
-
-static u8 get_AONPD(u32 tCK)
-{
- /* Get AONPD based on MCU frequency using the following rule:
- * ________________________
- * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
- * AONPD : | 4 | 5 | 6 | 8 | 8 | 10 |
- */
- static const u8 frq_aonpd_map[] = { 4, 5, 6, 8, 8, 10 };
- return frq_aonpd_map[get_FRQ(tCK) - 3];
-}
-
-static u32 get_COMP2(u32 tCK)
-{
- /* Get COMP2 based on MCU frequency using the following rule:
- * ___________________________________________________________
- * FRQ : | 3 | 4 | 5 | 6 | 7 | 8 |
- * COMP : | D6BEDCC | CE7C34C | CA57A4C | C6369CC | C42514C | C21410C |
- */
- static const u32 frq_comp2_map[] = { 0xD6BEDCC, 0xCE7C34C, 0xCA57A4C,
- 0xC6369CC, 0xC42514C, 0xC21410C
- };
- return frq_comp2_map[get_FRQ(tCK) - 3];
-}
-
-static void dram_timing(ramctr_timing * ctrl)
-{
- u8 val;
- u32 val32;
-
- /* Maximum supported DDR3 frequency is 1066MHz (DDR3 2133) so make sure
- * we cap it if we have faster DIMMs.
- * Then, align it to the closest JEDEC standard frequency */
- if (ctrl->tCK <= TCK_1066MHZ) {
- ctrl->tCK = TCK_1066MHZ;
- ctrl->edge_offset[0] = 16;
- ctrl->edge_offset[1] = 7;
- ctrl->edge_offset[2] = 7;
- ctrl->timC_offset[0] = 18;
- ctrl->timC_offset[1] = 7;
- ctrl->timC_offset[2] = 7;
- ctrl->reg_c14_offset = 16;
- ctrl->reg_5064b0 = 0x218;
- ctrl->reg_320c_range_threshold = 13;
- } else if (ctrl->tCK <= TCK_933MHZ) {
- ctrl->tCK = TCK_933MHZ;
- ctrl->edge_offset[0] = 14;
- ctrl->edge_offset[1] = 6;
- ctrl->edge_offset[2] = 6;
- ctrl->timC_offset[0] = 15;
- ctrl->timC_offset[1] = 6;
- ctrl->timC_offset[2] = 6;
- ctrl->reg_c14_offset = 14;
- ctrl->reg_5064b0 = 0x1d5;
- ctrl->reg_320c_range_threshold = 15;
- } else if (ctrl->tCK <= TCK_800MHZ) {
- ctrl->tCK = TCK_800MHZ;
- ctrl->edge_offset[0] = 13;
- ctrl->edge_offset[1] = 5;
- ctrl->edge_offset[2] = 5;
- ctrl->timC_offset[0] = 14;
- ctrl->timC_offset[1] = 5;
- ctrl->timC_offset[2] = 5;
- ctrl->reg_c14_offset = 12;
- ctrl->reg_5064b0 = 0x193;
- ctrl->reg_320c_range_threshold = 15;
- } else if (ctrl->tCK <= TCK_666MHZ) {
- ctrl->tCK = TCK_666MHZ;
- ctrl->edge_offset[0] = 10;
- ctrl->edge_offset[1] = 4;
- ctrl->edge_offset[2] = 4;
- ctrl->timC_offset[0] = 11;
- ctrl->timC_offset[1] = 4;
- ctrl->timC_offset[2] = 4;
- ctrl->reg_c14_offset = 10;
- ctrl->reg_5064b0 = 0x150;
- ctrl->reg_320c_range_threshold = 16;
- } else if (ctrl->tCK <= TCK_533MHZ) {
- ctrl->tCK = TCK_533MHZ;
- ctrl->edge_offset[0] = 8;
- ctrl->edge_offset[1] = 3;
- ctrl->edge_offset[2] = 3;
- ctrl->timC_offset[0] = 9;
- ctrl->timC_offset[1] = 3;
- ctrl->timC_offset[2] = 3;
- ctrl->reg_c14_offset = 8;
- ctrl->reg_5064b0 = 0x10d;
- ctrl->reg_320c_range_threshold = 17;
- } else {
- ctrl->tCK = TCK_400MHZ;
- ctrl->edge_offset[0] = 6;
- ctrl->edge_offset[1] = 2;
- ctrl->edge_offset[2] = 2;
- ctrl->timC_offset[0] = 6;
- ctrl->timC_offset[1] = 2;
- ctrl->timC_offset[2] = 2;
- ctrl->reg_c14_offset = 8;
- ctrl->reg_5064b0 = 0xcd;
- ctrl->reg_320c_range_threshold = 17;
- }
-
- val32 = (1000 << 8) / ctrl->tCK;
- printk(BIOS_DEBUG, "Selected DRAM frequency: %u MHz\n", val32);
-
- /* Find CAS and CWL latencies */
- val = (ctrl->tAA + ctrl->tCK - 1) / ctrl->tCK;
- printk(BIOS_DEBUG, "Minimum CAS latency : %uT\n", val);
- /* Find lowest supported CAS latency that satisfies the minimum value */
- while (!((ctrl->cas_supported >> (val - 4)) & 1)
- && (ctrl->cas_supported >> (val - 4))) {
- val++;
- }
- /* Is CAS supported */
- if (!(ctrl->cas_supported & (1 << (val - 4))))
- printk(BIOS_DEBUG, "CAS not supported\n");
- printk(BIOS_DEBUG, "Selected CAS latency : %uT\n", val);
- ctrl->CAS = val;
- ctrl->CWL = get_CWL(ctrl->CAS);
- printk(BIOS_DEBUG, "Selected CWL latency : %uT\n", ctrl->CWL);
-
- /* Find tRCD */
- ctrl->tRCD = (ctrl->tRCD + ctrl->tCK - 1) / ctrl->tCK;
- printk(BIOS_DEBUG, "Selected tRCD : %uT\n", ctrl->tRCD);
-
- ctrl->tRP = (ctrl->tRP + ctrl->tCK - 1) / ctrl->tCK;
- printk(BIOS_DEBUG, "Selected tRP : %uT\n", ctrl->tRP);
-
- /* Find tRAS */
- ctrl->tRAS = (ctrl->tRAS + ctrl->tCK - 1) / ctrl->tCK;
- printk(BIOS_DEBUG, "Selected tRAS : %uT\n", ctrl->tRAS);
-
- /* Find tWR */
- ctrl->tWR = (ctrl->tWR + ctrl->tCK - 1) / ctrl->tCK;
- printk(BIOS_DEBUG, "Selected tWR : %uT\n", ctrl->tWR);
-
- /* Find tFAW */
- ctrl->tFAW = (ctrl->tFAW + ctrl->tCK - 1) / ctrl->tCK;
- printk(BIOS_DEBUG, "Selected tFAW : %uT\n", ctrl->tFAW);
-
- /* Find tRRD */
- ctrl->tRRD = (ctrl->tRRD + ctrl->tCK - 1) / ctrl->tCK;
- printk(BIOS_DEBUG, "Selected tRRD : %uT\n", ctrl->tRRD);
-
- /* Find tRTP */
- ctrl->tRTP = (ctrl->tRTP + ctrl->tCK - 1) / ctrl->tCK;
- printk(BIOS_DEBUG, "Selected tRTP : %uT\n", ctrl->tRTP);
-
- /* Find tWTR */
- ctrl->tWTR = (ctrl->tWTR + ctrl->tCK - 1) / ctrl->tCK;
- printk(BIOS_DEBUG, "Selected tWTR : %uT\n", ctrl->tWTR);
-
- /* Refresh-to-Active or Refresh-to-Refresh (tRFC) */
- ctrl->tRFC = (ctrl->tRFC + ctrl->tCK - 1) / ctrl->tCK;
- printk(BIOS_DEBUG, "Selected tRFC : %uT\n", ctrl->tRFC);
-
- ctrl->tREFI = get_REFI(ctrl->tCK);
- ctrl->tMOD = get_MOD(ctrl->tCK);
- ctrl->tXSOffset = get_XSOffset(ctrl->tCK);
- ctrl->tWLO = get_WLO(ctrl->tCK);
- ctrl->tCKE = get_CKE(ctrl->tCK);
- ctrl->tXPDLL = get_XPDLL(ctrl->tCK);
- ctrl->tXP = get_XP(ctrl->tCK);
- ctrl->tAONPD = get_AONPD(ctrl->tCK);
-}
-
-static void dram_freq(ramctr_timing * ctrl)
-{
- if (ctrl->tCK > TCK_400MHZ) {
- printk (BIOS_ERR, "DRAM frequency is under lowest supported frequency (400 MHz). Increasing to 400 MHz as last resort");
- ctrl->tCK = TCK_400MHZ;
- }
- while (1) {
- u8 val2;
- u32 reg1 = 0;
-
- /* Step 1 - Set target PCU frequency */
-
- if (ctrl->tCK <= TCK_1066MHZ) {
- ctrl->tCK = TCK_1066MHZ;
- } else if (ctrl->tCK <= TCK_933MHZ) {
- ctrl->tCK = TCK_933MHZ;
- } else if (ctrl->tCK <= TCK_800MHZ) {
- ctrl->tCK = TCK_800MHZ;
- } else if (ctrl->tCK <= TCK_666MHZ) {
- ctrl->tCK = TCK_666MHZ;
- } else if (ctrl->tCK <= TCK_533MHZ) {
- ctrl->tCK = TCK_533MHZ;
- } else if (ctrl->tCK <= TCK_400MHZ) {
- ctrl->tCK = TCK_400MHZ;
- } else {
- die ("No lock frequency found");
- }
-
- /* Frequency mulitplier. */
- u32 FRQ = get_FRQ(ctrl->tCK);
-
- /* Step 2 - Select frequency in the MCU */
- reg1 = FRQ;
- reg1 |= 0x80000000; // set running bit
- MCHBAR32(0x5e00) = reg1;
- while (reg1 & 0x80000000) {
- printk(BIOS_DEBUG, " PLL busy...");
- reg1 = MCHBAR32(0x5e00);
- }
- printk(BIOS_DEBUG, "done\n");
-
- /* Step 3 - Verify lock frequency */
- reg1 = MCHBAR32(0x5e04);
- val2 = (u8) reg1;
- if (val2 >= FRQ) {
- printk(BIOS_DEBUG, "MCU frequency is set at : %d MHz\n",
- (1000 << 8) / ctrl->tCK);
- return;
- }
- printk(BIOS_DEBUG, "PLL didn't lock. Retrying at lower frequency\n");
- ctrl->tCK++;
- }
-}
-
-static void dram_xover(ramctr_timing * ctrl)
-{
- u32 reg;
- int channel;
-
- FOR_ALL_CHANNELS {
- // enable xover clk
- printk(BIOS_DEBUG, "[%x] = %x\n", channel * 0x100 + 0xc14,
- (ctrl->rankmap[channel] << 24));
- MCHBAR32(channel * 0x100 + 0xc14) = (ctrl->rankmap[channel] << 24);
-
- // enable xover ctl
- reg = 0;
- if (ctrl->rankmap[channel] & 0x5) {
- reg |= 0x20000;
- }
- if (ctrl->rankmap[channel] & 0xa) {
- reg |= 0x4000000;
- }
- // enable xover cmd
- reg |= 0x4000;
- printk(BIOS_DEBUG, "[%x] = %x\n", 0x100 * channel + 0x320c,
- reg);
- MCHBAR32(0x100 * channel + 0x320c) = reg;
- }
-}
-
-static void dram_timing_regs(ramctr_timing * ctrl)
-{
- u32 reg, addr, val32, cpu, stretch;
- struct cpuid_result cpures;
- int channel;
-
- FOR_ALL_CHANNELS {
- // DBP
- reg = 0;
- reg |= ctrl->tRCD;
- reg |= (ctrl->tRP << 4);
- reg |= (ctrl->CAS << 8);
- reg |= (ctrl->CWL << 12);
- reg |= (ctrl->tRAS << 16);
- printk(BIOS_DEBUG, "[%x] = %x\n", 0x400 * channel + 0x4000,
- reg);
- MCHBAR32(0x400 * channel + 0x4000) = reg;
-
- // RAP
- reg = 0;
- reg |= ctrl->tRRD;
- reg |= (ctrl->tRTP << 4);
- reg |= (ctrl->tCKE << 8);
- reg |= (ctrl->tWTR << 12);
- reg |= (ctrl->tFAW << 16);
- reg |= (ctrl->tWR << 24);
- reg |= (3 << 30);
- printk(BIOS_DEBUG, "[%x] = %x\n", 0x400 * channel + 0x4004,
- reg);
- MCHBAR32(0x400 * channel + 0x4004) = reg;
-
- // OTHP
- addr = 0x400 * channel + 0x400c;
- reg = 0;
- reg |= ctrl->tXPDLL;
- reg |= (ctrl->tXP << 5);
- reg |= (ctrl->tAONPD << 8);
- reg |= 0xa0000;
- printk(BIOS_DEBUG, "[%x] = %x\n", addr, reg);
- MCHBAR32(addr) = reg;
-
- MCHBAR32(0x400 * channel + 0x4014) = 0;
-
- MCHBAR32(addr) |= 0x00020000;
-
- // ODT stretch
- reg = 0;
-
- cpures = cpuid(0);
- cpu = cpures.eax;
- if (IS_IVY_CPU(cpu)
- || (IS_SANDY_CPU(cpu) && IS_SANDY_CPU_D2(cpu))) {
- stretch = 2;
- addr = 0x400 * channel + 0x400c;
- printk(BIOS_DEBUG, "[%x] = %x\n",
- 0x400 * channel + 0x400c, reg);
- reg = MCHBAR32(addr);
-
- if (((ctrl->rankmap[channel] & 3) == 0)
- || (ctrl->rankmap[channel] & 0xc) == 0) {
-
- // Rank 0 - operate on rank 2
- reg = (reg & ~0xc0000) | (stretch << 18);
-
- // Rank 2 - operate on rank 0
- reg = (reg & ~0x30000) | (stretch << 16);
-
- printk(BIOS_DEBUG, "[%x] = %x\n", addr, reg);
- MCHBAR32(addr) = reg;
- }
-
- } else if (IS_SANDY_CPU(cpu) && IS_SANDY_CPU_C(cpu)) {
- stretch = 3;
- addr = 0x400 * channel + 0x401c;
- reg = MCHBAR32(addr);
-
- if (((ctrl->rankmap[channel] & 3) == 0)
- || (ctrl->rankmap[channel] & 0xc) == 0) {
-
- // Rank 0 - operate on rank 2
- reg = (reg & ~0x3000) | (stretch << 12);
-
- // Rank 2 - operate on rank 0
- reg = (reg & ~0xc00) | (stretch << 10);
-
- printk(BIOS_DEBUG, "[%x] = %x\n", addr, reg);
- MCHBAR32(addr) = reg;
- }
- } else {
- stretch = 0;
- }
-
- // REFI
- reg = 0;
- val32 = ctrl->tREFI;
- reg = (reg & ~0xffff) | val32;
- val32 = ctrl->tRFC;
- reg = (reg & ~0x1ff0000) | (val32 << 16);
- val32 = (u32) (ctrl->tREFI * 9) / 1024;
- reg = (reg & ~0xfe000000) | (val32 << 25);
- printk(BIOS_DEBUG, "[%x] = %x\n", 0x400 * channel + 0x4298,
- reg);
- MCHBAR32(0x400 * channel + 0x4298) = reg;
-
- MCHBAR32(0x400 * channel + 0x4294) |= 0xff;
-
- // SRFTP
- reg = 0;
- val32 = tDLLK;
- reg = (reg & ~0xfff) | val32;
- val32 = ctrl->tXSOffset;
- reg = (reg & ~0xf000) | (val32 << 12);
- val32 = tDLLK - ctrl->tXSOffset;
- reg = (reg & ~0x3ff0000) | (val32 << 16);
- val32 = ctrl->tMOD - 8;
- reg = (reg & ~0xf0000000) | (val32 << 28);
- printk(BIOS_DEBUG, "[%x] = %x\n", 0x400 * channel + 0x42a4,
- reg);
- MCHBAR32(0x400 * channel + 0x42a4) = reg;
- }
-}
-
-static void dram_dimm_mapping(dimm_info * info, ramctr_timing * ctrl)
-{
- u32 reg, val32;
- int channel;
-
- FOR_ALL_CHANNELS {
- dimm_attr *dimmA = 0;
- dimm_attr *dimmB = 0;
- reg = 0;
- val32 = 0;
- if (info->dimm[channel][0].size_mb >=
- info->dimm[channel][1].size_mb) {
- // dimm 0 is bigger, set it to dimmA
- dimmA = &info->dimm[channel][0];
- dimmB = &info->dimm[channel][1];
- reg |= (0 << 16);
- } else {
- // dimm 1 is bigger, set it to dimmA
- dimmA = &info->dimm[channel][1];
- dimmB = &info->dimm[channel][0];
- reg |= (1 << 16);
- }
- // dimmA
- if (dimmA && (dimmA->ranks > 0)) {
- val32 = dimmA->size_mb / 256;
- reg = (reg & ~0xff) | val32;
- val32 = dimmA->ranks - 1;
- reg = (reg & ~0x20000) | (val32 << 17);
- val32 = (dimmA->width / 8) - 1;
- reg = (reg & ~0x80000) | (val32 << 19);
- }
- // dimmB
- if (dimmB && (dimmB->ranks > 0)) {
- val32 = dimmB->size_mb / 256;
- reg = (reg & ~0xff00) | (val32 << 8);
- val32 = dimmB->ranks - 1;
- reg = (reg & ~0x40000) | (val32 << 18);
- val32 = (dimmB->width / 8) - 1;
- reg = (reg & ~0x100000) | (val32 << 20);
- }
- reg = (reg & ~0x200000) | (1 << 21); // rank interleave
- reg = (reg & ~0x400000) | (1 << 22); // enhanced interleave
-
- // Save MAD-DIMM register
- if ((dimmA && (dimmA->ranks > 0))
- || (dimmB && (dimmB->ranks > 0))) {
- ctrl->mad_dimm[channel] = reg;
- } else {
- ctrl->mad_dimm[channel] = 0;
- }
- }
-}
-
-static void dram_dimm_set_mapping(ramctr_timing * ctrl)
-{
- int channel;
- FOR_ALL_CHANNELS {
- MCHBAR32(0x5004 + channel * 4) = ctrl->mad_dimm[channel];
- }
-}
-
-static void dram_zones(ramctr_timing * ctrl, int training)
-{
- u32 reg, ch0size, ch1size;
- u8 val;
- reg = 0;
- val = 0;
- if (training) {
- ch0size = ctrl->channel_size_mb[0] ? 256 : 0;
- ch1size = ctrl->channel_size_mb[1] ? 256 : 0;
- } else {
- ch0size = ctrl->channel_size_mb[0];
- ch1size = ctrl->channel_size_mb[1];
- }
-
- if (ch0size >= ch1size) {
- reg = MCHBAR32(0x5014);
- val = ch1size / 256;
- reg = (reg & ~0xff000000) | val << 24;
- reg = (reg & ~0xff0000) | (2 * val) << 16;
- MCHBAR32(0x5014) = reg;
- MCHBAR32(0x5000) = 0x24;
- } else {
- reg = MCHBAR32(0x5014);
- val = ch0size / 256;
- reg = (reg & ~0xff000000) | val << 24;
- reg = (reg & ~0xff0000) | (2 * val) << 16;
- MCHBAR32(0x5014) = reg;
- MCHBAR32(0x5000) = 0x21;
- }
-}
-
-static void dram_memorymap(ramctr_timing * ctrl, int me_uma_size)
-{
- u32 reg, val, reclaim;
- u32 tom, gfxstolen, gttsize;
- size_t tsegsize, mmiosize, toludbase, touudbase, gfxstolenbase, gttbase,
- tsegbase, mestolenbase;
- size_t tsegbasedelta, remapbase, remaplimit;
- uint16_t ggc;
-
- mmiosize = 0x400;
-
- ggc = pci_read_config16(NORTHBRIDGE, GGC);
- if (!(ggc & 2)) {
- gfxstolen = ((ggc >> 3) & 0x1f) * 32;
- gttsize = ((ggc >> 8) & 0x3);
- } else {
- gfxstolen = 0;
- gttsize = 0;
- }
-
- tsegsize = CONFIG_SMM_TSEG_SIZE >> 20;
-
- tom = ctrl->channel_size_mb[0] + ctrl->channel_size_mb[1];
-
- mestolenbase = tom - me_uma_size;
-
- toludbase = MIN(4096 - mmiosize + gfxstolen + gttsize + tsegsize,
- tom - me_uma_size);
- gfxstolenbase = toludbase - gfxstolen;
- gttbase = gfxstolenbase - gttsize;
-
- tsegbase = gttbase - tsegsize;
-
- // Round tsegbase down to nearest address aligned to tsegsize
- tsegbasedelta = tsegbase & (tsegsize - 1);
- tsegbase &= ~(tsegsize - 1);
-
- gttbase -= tsegbasedelta;
- gfxstolenbase -= tsegbasedelta;
- toludbase -= tsegbasedelta;
-
- // Test if it is possible to reclaim a hole in the ram addressing
- if (tom - me_uma_size > toludbase) {
- // Reclaim is possible
- reclaim = 1;
- remapbase = MAX(4096, tom - me_uma_size);
- remaplimit =
- remapbase + MIN(4096, tom - me_uma_size) - toludbase - 1;
- touudbase = remaplimit + 1;
- } else {
- // Reclaim not possible
- reclaim = 0;
- touudbase = tom - me_uma_size;
- }
-
- // Update memory map in pci-e configuration space
-
- // TOM (top of memory)
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xa0);
- val = tom & 0xfff;
- reg = (reg & ~0xfff00000) | (val << 20);
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xa0, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0xa0, reg);
-
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xa4);
- val = tom & 0xfffff000;
- reg = (reg & ~0x000fffff) | (val >> 12);
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xa4, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0xa4, reg);
-
- // TOLUD (top of low used dram)
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xbc);
- val = toludbase & 0xfff;
- reg = (reg & ~0xfff00000) | (val << 20);
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xbc, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0xbc, reg);
-
- // TOUUD LSB (top of upper usable dram)
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xa8);
- val = touudbase & 0xfff;
- reg = (reg & ~0xfff00000) | (val << 20);
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xa8, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0xa8, reg);
-
- // TOUUD MSB
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xac);
- val = touudbase & 0xfffff000;
- reg = (reg & ~0x000fffff) | (val >> 12);
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xac, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0xac, reg);
-
- if (reclaim) {
- // REMAP BASE
- pcie_write_config32(PCI_DEV(0, 0, 0), 0x90, remapbase << 20);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0x94, remapbase >> 12);
-
- // REMAP LIMIT
- pcie_write_config32(PCI_DEV(0, 0, 0), 0x98, remaplimit << 20);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0x9c, remaplimit >> 12);
- }
- // TSEG
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xb8);
- val = tsegbase & 0xfff;
- reg = (reg & ~0xfff00000) | (val << 20);
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xb8, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0xb8, reg);
-
- // GFX stolen memory
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xb0);
- val = gfxstolenbase & 0xfff;
- reg = (reg & ~0xfff00000) | (val << 20);
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xb0, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0xb0, reg);
-
- // GTT stolen memory
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0xb4);
- val = gttbase & 0xfff;
- reg = (reg & ~0xfff00000) | (val << 20);
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0xb4, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0xb4, reg);
-
- if (me_uma_size) {
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0x7c);
- val = (0x80000 - me_uma_size) & 0xfffff000;
- reg = (reg & ~0x000fffff) | (val >> 12);
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0x7c, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0x7c, reg);
-
- // ME base
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0x70);
- val = mestolenbase & 0xfff;
- reg = (reg & ~0xfff00000) | (val << 20);
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0x70, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0x70, reg);
-
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0x74);
- val = mestolenbase & 0xfffff000;
- reg = (reg & ~0x000fffff) | (val >> 12);
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0x74, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0x74, reg);
-
- // ME mask
- reg = pcie_read_config32(PCI_DEV(0, 0, 0), 0x78);
- val = (0x80000 - me_uma_size) & 0xfff;
- reg = (reg & ~0xfff00000) | (val << 20);
- reg = (reg & ~0x400) | (1 << 10); // set lockbit on ME mem
-
- reg = (reg & ~0x800) | (1 << 11); // set ME memory enable
- printk(BIOS_DEBUG, "PCI:[%x] = %x\n", 0x78, reg);
- pcie_write_config32(PCI_DEV(0, 0, 0), 0x78, reg);
- }
-}
-
-static void dram_ioregs(ramctr_timing * ctrl)
-{
- u32 reg, comp2;
-
- int channel;
-
- // IO clock
- FOR_ALL_CHANNELS {
- MCHBAR32(0xc00 + 0x100 * channel) = ctrl->rankmap[channel];
- }
-
- // IO command
- FOR_ALL_CHANNELS {
- MCHBAR32(0x3200 + 0x100 * channel) = ctrl->rankmap[channel];
- }
-
- // IO control
- FOR_ALL_POPULATED_CHANNELS {
- program_timings(ctrl, channel);
- }
-
- // Rcomp
- printk(BIOS_DEBUG, "RCOMP...");
- reg = 0;
- while (reg == 0) {
- reg = MCHBAR32(0x5084) & 0x10000;
- }
- printk(BIOS_DEBUG, "done\n");
-
- // Set comp2
- comp2 = get_COMP2(ctrl->tCK);
- MCHBAR32(0x3714) = comp2;
- printk(BIOS_DEBUG, "COMP2 done\n");
-
- // Set comp1
- FOR_ALL_POPULATED_CHANNELS {
- reg = MCHBAR32(0x1810 + channel * 0x100); //ch0
- reg = (reg & ~0xe00) | (1 << 9); //odt
- reg = (reg & ~0xe00000) | (1 << 21); //clk drive up
- reg = (reg & ~0x38000000) | (1 << 27); //ctl drive up
- MCHBAR32(0x1810 + channel * 0x100) = reg;
- }
- printk(BIOS_DEBUG, "COMP1 done\n");
-
- printk(BIOS_DEBUG, "FORCE RCOMP and wait 20us...");
- MCHBAR32(0x5f08) |= 0x100;
- udelay(20);
- printk(BIOS_DEBUG, "done\n");
-}
-
-static void wait_428c(int channel)
-{
- while (1) {
- if (read32(DEFAULT_MCHBAR + 0x428c + (channel << 10)) & 0x50)
- return;
- }
-}
-
-static void write_reset(ramctr_timing * ctrl)
-{
- int channel, slotrank;
-
- /* choose a populated channel. */
- channel = (ctrl->rankmap[0]) ? 0 : 1;
-
- wait_428c(channel);
-
- /* choose a populated rank. */
- slotrank = (ctrl->rankmap[channel] & 1) ? 0 : 2;
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x80c01);
-
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
-
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0x400001);
- wait_428c(channel);
-}
-
-static void dram_jedecreset(ramctr_timing * ctrl)
-{
- u32 reg, addr;
- int channel;
-
- while (!(MCHBAR32(0x5084) & 0x10000)) ;
- do {
- reg = MCHBAR32(0x428c);
- } while ((reg & 0x14) == 0);
-
- // Set state of memory controller
- reg = 0x112;
- MCHBAR32(0x5030) = reg;
- MCHBAR32(0x4ea0) = 0;
- reg |= 2; //ddr reset
- MCHBAR32(0x5030) = reg;
-
- // Assert dimm reset signal
- reg = MCHBAR32(0x5030);
- reg &= ~0x2;
- MCHBAR32(0x5030) = reg;
-
- // Wait 200us
- udelay(200);
-
- // Deassert dimm reset signal
- MCHBAR32(0x5030) |= 2;
-
- // Wait 500us
- udelay(500);
-
- // Enable DCLK
- MCHBAR32(0x5030) |= 4;
-
- // XXX Wait 20ns
- udelay(1);
-
- FOR_ALL_CHANNELS {
- // Set valid rank CKE
- reg = 0;
- reg = (reg & ~0xf) | ctrl->rankmap[channel];
- addr = 0x400 * channel + 0x42a0;
- MCHBAR32(addr) = reg;
-
- // Wait 10ns for ranks to settle
- //udelay(0.01);
-
- reg = (reg & ~0xf0) | (ctrl->rankmap[channel] << 4);
- MCHBAR32(addr) = reg;
-
- // Write reset using a NOP
- write_reset(ctrl);
- }
-}
-
-static odtmap get_ODT(ramctr_timing * ctrl, u8 rank)
-{
- /* Get ODT based on rankmap: */
- int dimms_per_ch = 0;
- int channel;
-
- FOR_ALL_CHANNELS {
- dimms_per_ch = max ((ctrl->rankmap[channel] & 1)
- + ((ctrl->rankmap[channel] >> 2) & 1),
- dimms_per_ch);
- }
-
- if (dimms_per_ch == 1) {
- return (const odtmap){60, 60};
- } else if (dimms_per_ch == 2) {
- return (const odtmap){120, 30};
- } else {
- printk(BIOS_DEBUG,
- "Huh, no dimms? m0 = %d m1 = %d dpc = %d\n",
- ctrl->rankmap[0],
- ctrl->rankmap[1], dimms_per_ch);
- die("");
- }
-}
-
-static void write_mrreg(ramctr_timing * ctrl, int channel, int slotrank,
- int reg, u32 val)
-{
- wait_428c(channel);
-
- printram("MRd: %x <= %x\n", reg, val);
-
- if (ctrl->rank_mirror[channel][slotrank]) {
- /* DDR3 Rank1 Address mirror
- * swap the following pins:
- * A3<->A4, A5<->A6, A7<->A8, BA0<->BA1 */
- reg = ((reg >> 1) & 1) | ((reg << 1) & 2);
- val = (val & ~0x1f8) | ((val >> 1) & 0xa8)
- | ((val & 0xa8) << 1);
- }
-
- printram("MRd: %x <= %x\n", reg, val);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f000);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x41001);
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | (reg << 20) | val | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f000);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel, 0x41001);
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24) | (reg << 20) | val | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x0f000);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
- 0x1001 | (ctrl->tMOD << 16));
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
- (slotrank << 24) | (reg << 20) | val | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0x80001);
-}
-
-static u32 make_mr0(ramctr_timing * ctrl, u8 rank)
-{
- u16 mr0reg, mch_cas, mch_wr;
- static const u8 mch_wr_t[12] = { 1, 2, 3, 4, 0, 5, 0, 6, 0, 7, 0, 0 };
- mr0reg = 0x100;
-
- // Convert CAS to MCH register friendly
- if (ctrl->CAS < 12) {
- mch_cas = (u16) ((ctrl->CAS - 4) << 1);
- } else {
- mch_cas = (u16) (ctrl->CAS - 12);
- mch_cas = ((mch_cas << 1) | 0x1);
- }
-
- // Convert tWR to MCH register friendly
- mch_wr = mch_wr_t[ctrl->tWR - 5];
-
- mr0reg = (mr0reg & ~0x4) | (mch_cas & 0x1);
- mr0reg = (mr0reg & ~0x70) | ((mch_cas & 0xe) << 3);
- mr0reg = (mr0reg & ~0xe00) | (mch_wr << 9);
- // Fast (desktop) 0x1 or slow (mobile) 0x0
- mr0reg = (mr0reg & ~0x1000) | (!ctrl->mobile << 12);
- return mr0reg;
-}
-
-static void dram_mr0(ramctr_timing * ctrl, u8 rank)
-{
- int channel;
-
- FOR_ALL_POPULATED_CHANNELS write_mrreg(ctrl, channel, rank, 0,
- make_mr0(ctrl, rank));
-}
-
-static u32 encode_odt(u32 odt)
-{
- switch (odt) {
- case 30:
- return (1 << 9) | (1 << 2); // RZQ/8, RZQ/4
- case 60:
- return (1 << 2); // RZQ/4
- case 120:
- return (1 << 6); // RZQ/2
- default:
- case 0:
- return 0;
- }
-}
-
-static u32 make_mr1(ramctr_timing * ctrl, u8 rank)
-{
- odtmap odt;
- u32 mr1reg;
-
- odt = get_ODT(ctrl, rank);
- mr1reg = 0x2;
-
- mr1reg |= encode_odt(odt.rttnom);
-
- return mr1reg;
-}
-
-static void dram_mr1(ramctr_timing * ctrl, u8 rank)
-{
- u16 mr1reg;
- int channel;
-
- mr1reg = make_mr1(ctrl, rank);
-
- FOR_ALL_CHANNELS {
- write_mrreg(ctrl, channel, rank, 1, mr1reg);
- }
-}
-
-static void dram_mr2(ramctr_timing * ctrl, u8 rank)
-{
- u16 pasr, cwl, mr2reg;
- odtmap odt;
- int channel;
- int srt;
-
- pasr = 0;
- cwl = ctrl->CWL - 5;
- odt = get_ODT(ctrl, rank);
-
- srt = ctrl->extended_temperature_range && !ctrl->auto_self_refresh;
-
- mr2reg = 0;
- mr2reg = (mr2reg & ~0x7) | pasr;
- mr2reg = (mr2reg & ~0x38) | (cwl << 3);
- mr2reg = (mr2reg & ~0x40) | (ctrl->auto_self_refresh << 6);
- mr2reg = (mr2reg & ~0x80) | (srt << 7);
- mr2reg |= (odt.rttwr / 60) << 9;
-
- FOR_ALL_CHANNELS {
- write_mrreg(ctrl, channel, rank, 2, mr2reg);
- }
-}
-
-static void dram_mr3(ramctr_timing * ctrl, u8 rank)
-{
- int channel;
-
- FOR_ALL_CHANNELS {
- write_mrreg(ctrl, channel, rank, 3, 0);
- }
-}
-
-static void dram_mrscommands(ramctr_timing * ctrl)
-{
- u8 rank;
- u32 reg, addr;
- int channel;
-
- for (rank = 0; rank < 4; rank++) {
- // MR2
- printram("MR2 rank %d...", rank);
- dram_mr2(ctrl, rank);
- printram("done\n");
-
- // MR3
- printram("MR3 rank %d...", rank);
- dram_mr3(ctrl, rank);
- printram("done\n");
-
- // MR1
- printram("MR1 rank %d...", rank);
- dram_mr1(ctrl, rank);
- printram("done\n");
-
- // MR0
- printram("MR0 rank %d...", rank);
- dram_mr0(ctrl, rank);
- printram("done\n");
- }
-
- write32(DEFAULT_MCHBAR + 0x4e20, 0x7);
- write32(DEFAULT_MCHBAR + 0x4e30, 0xf1001);
- write32(DEFAULT_MCHBAR + 0x4e00, 0x60002);
- write32(DEFAULT_MCHBAR + 0x4e10, 0);
- write32(DEFAULT_MCHBAR + 0x4e24, 0x1f003);
- write32(DEFAULT_MCHBAR + 0x4e34, 0x1901001);
- write32(DEFAULT_MCHBAR + 0x4e04, 0x60400);
- write32(DEFAULT_MCHBAR + 0x4e14, 0x288);
- write32(DEFAULT_MCHBAR + 0x4e84, 0x40004);
-
- // Drain
- FOR_ALL_CHANNELS {
- // Wait for ref drained
- wait_428c(channel);
- }
-
- // Refresh enable
- MCHBAR32(0x5030) |= 8;
-
- FOR_ALL_POPULATED_CHANNELS {
- addr = 0x400 * channel + 0x4020;
- reg = MCHBAR32(addr);
- reg &= ~0x200000;
- MCHBAR32(addr) = reg;
-
- wait_428c(channel);
-
- rank = (ctrl->rankmap[channel] & 1) ? 0 : 2;
-
- // Drain
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x659001);
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (rank << 24) | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x3e0);
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0x1);
-
- // Drain
- wait_428c(channel);
- }
-}
-
-const u32 lane_registers[] = {
- 0x0000, 0x0200, 0x0400, 0x0600,
- 0x1000, 0x1200, 0x1400, 0x1600,
- 0x0800
-};
-
-static void program_timings(ramctr_timing * ctrl, int channel)
-{
- u32 reg32, reg_4024, reg_c14, reg_c18, reg_4028;
- int lane;
- int slotrank, slot;
- int full_shift = 0;
- u16 slot320c[NUM_SLOTS];
-
- FOR_ALL_POPULATED_RANKS {
- if (full_shift < -ctrl->timings[channel][slotrank].val_320c)
- full_shift = -ctrl->timings[channel][slotrank].val_320c;
- }
-
- for (slot = 0; slot < NUM_SLOTS; slot++)
- switch ((ctrl->rankmap[channel] >> (2 * slot)) & 3) {
- case 0:
- default:
- slot320c[slot] = 0x7f;
- break;
- case 1:
- slot320c[slot] =
- ctrl->timings[channel][2 * slot + 0].val_320c +
- full_shift;
- break;
- case 2:
- slot320c[slot] =
- ctrl->timings[channel][2 * slot + 1].val_320c +
- full_shift;
- break;
- case 3:
- slot320c[slot] =
- (ctrl->timings[channel][2 * slot].val_320c +
- ctrl->timings[channel][2 * slot +
- 1].val_320c) / 2 +
- full_shift;
- break;
- }
-
- reg32 = (1 << 17) | (1 << 14);
- reg32 |= ((slot320c[0] & 0x3f) << 6) | ((slot320c[0] & 0x40) << 9);
- reg32 |= (slot320c[1] & 0x7f) << 18;
- reg32 |= (full_shift & 0x3f) | ((full_shift & 0x40) << 6);
-
- MCHBAR32(0x320c + 0x100 * channel) = reg32;
-
- reg_c14 = ctrl->rankmap[channel] << 24;
- reg_c18 = 0;
-
- FOR_ALL_POPULATED_RANKS {
- int shift =
- ctrl->timings[channel][slotrank].val_320c + full_shift;
- int offset_val_c14;
- if (shift < 0)
- shift = 0;
- offset_val_c14 = ctrl->reg_c14_offset + shift;
- reg_c14 |= (offset_val_c14 & 0x3f) << (6 * slotrank);
- reg_c18 |= ((offset_val_c14 >> 6) & 1) << slotrank;
- }
-
- MCHBAR32(0xc14 + channel * 0x100) = reg_c14;
- MCHBAR32(0xc18 + channel * 0x100) = reg_c18;
-
- reg_4028 = MCHBAR32(0x4028 + 0x400 * channel);
- reg_4028 &= 0xffff0000;
-
- reg_4024 = 0;
-
- FOR_ALL_POPULATED_RANKS {
- int post_timA_min_high = 7, post_timA_max_high = 0;
- int pre_timA_min_high = 7, pre_timA_max_high = 0;
- int shift_402x = 0;
- int shift =
- ctrl->timings[channel][slotrank].val_320c + full_shift;
-
- if (shift < 0)
- shift = 0;
-
- FOR_ALL_LANES {
- if (post_timA_min_high >
- ((ctrl->timings[channel][slotrank].lanes[lane].
- timA + shift) >> 6))
- post_timA_min_high =
- ((ctrl->timings[channel][slotrank].
- lanes[lane].timA + shift) >> 6);
- if (pre_timA_min_high >
- (ctrl->timings[channel][slotrank].lanes[lane].
- timA >> 6))
- pre_timA_min_high =
- (ctrl->timings[channel][slotrank].
- lanes[lane].timA >> 6);
- if (post_timA_max_high <
- ((ctrl->timings[channel][slotrank].lanes[lane].
- timA + shift) >> 6))
- post_timA_max_high =
- ((ctrl->timings[channel][slotrank].
- lanes[lane].timA + shift) >> 6);
- if (pre_timA_max_high <
- (ctrl->timings[channel][slotrank].lanes[lane].
- timA >> 6))
- pre_timA_max_high =
- (ctrl->timings[channel][slotrank].
- lanes[lane].timA >> 6);
- }
-
- if (pre_timA_max_high - pre_timA_min_high <
- post_timA_max_high - post_timA_min_high)
- shift_402x = +1;
- else if (pre_timA_max_high - pre_timA_min_high >
- post_timA_max_high - post_timA_min_high)
- shift_402x = -1;
-
- reg_4028 |=
- (ctrl->timings[channel][slotrank].val_4028 + shift_402x -
- post_timA_min_high) << (4 * slotrank);
- reg_4024 |=
- (ctrl->timings[channel][slotrank].val_4024 +
- shift_402x) << (8 * slotrank);
-
- FOR_ALL_LANES {
- MCHBAR32(lane_registers[lane] + 0x10 + 0x100 * channel +
- 4 * slotrank)
- =
- (((ctrl->timings[channel][slotrank].lanes[lane].
- timA + shift) & 0x3f)
- |
- ((ctrl->timings[channel][slotrank].lanes[lane].
- rising + shift) << 8)
- |
- (((ctrl->timings[channel][slotrank].lanes[lane].
- timA + shift -
- (post_timA_min_high << 6)) & 0x1c0) << 10)
- | (ctrl->timings[channel][slotrank].lanes[lane].
- falling << 20));
-
- MCHBAR32(lane_registers[lane] + 0x20 + 0x100 * channel +
- 4 * slotrank)
- =
- (((ctrl->timings[channel][slotrank].lanes[lane].
- timC + shift) & 0x3f)
- |
- (((ctrl->timings[channel][slotrank].lanes[lane].
- timB + shift) & 0x3f) << 8)
- |
- (((ctrl->timings[channel][slotrank].lanes[lane].
- timB + shift) & 0x1c0) << 9)
- |
- (((ctrl->timings[channel][slotrank].lanes[lane].
- timC + shift) & 0x40) << 13));
- }
- }
- MCHBAR32(0x4024 + 0x400 * channel) = reg_4024;
- MCHBAR32(0x4028 + 0x400 * channel) = reg_4028;
-}
-
-static void test_timA(ramctr_timing * ctrl, int channel, int slotrank)
-{
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f000);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- (0xc01 | (ctrl->tMOD << 16)));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x360004);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel, 0x4040c01);
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel, (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
- 0x100f | ((ctrl->CAS + 36) << 16));
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f000);
- write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
- (0xc01 | (ctrl->tMOD << 16)));
- write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
- (slotrank << 24) | 0x360000);
- write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
-
- wait_428c(channel);
-}
-
-static int does_lane_work(ramctr_timing * ctrl, int channel, int slotrank,
- int lane)
-{
- u32 timA = ctrl->timings[channel][slotrank].lanes[lane].timA;
- return ((read32
- (DEFAULT_MCHBAR + lane_registers[lane] + channel * 0x100 + 4 +
- ((timA / 32) & 1) * 4)
- >> (timA % 32)) & 1);
-}
-
-struct run {
- int middle;
- int end;
- int start;
- int all;
- int length;
-};
-
-static struct run get_longest_zero_run(int *seq, int sz)
-{
- int i, ls;
- int bl = 0, bs = 0;
- struct run ret;
-
- ls = 0;
- for (i = 0; i < 2 * sz; i++)
- if (seq[i % sz]) {
- if (i - ls > bl) {
- bl = i - ls;
- bs = ls;
- }
- ls = i + 1;
- }
- if (bl == 0) {
- ret.middle = sz / 2;
- ret.start = 0;
- ret.end = sz;
- ret.all = 1;
- return ret;
- }
-
- ret.start = bs % sz;
- ret.end = (bs + bl - 1) % sz;
- ret.middle = (bs + (bl - 1) / 2) % sz;
- ret.length = bl;
- ret.all = 0;
-
- return ret;
-}
-
-static void discover_timA_coarse(ramctr_timing * ctrl, int channel,
- int slotrank, int *upperA)
-{
- int timA;
- int statistics[NUM_LANES][128];
- int lane;
-
- for (timA = 0; timA < 128; timA++) {
- FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].timA = timA;
- }
- program_timings(ctrl, channel);
-
- test_timA(ctrl, channel, slotrank);
-
- FOR_ALL_LANES {
- statistics[lane][timA] =
- !does_lane_work(ctrl, channel, slotrank, lane);
- printram("Astat: %d, %d, %d, %x, %x\n",
- channel, slotrank, lane, timA,
- statistics[lane][timA]);
- }
- }
- FOR_ALL_LANES {
- struct run rn = get_longest_zero_run(statistics[lane], 128);
- ctrl->timings[channel][slotrank].lanes[lane].timA = rn.middle;
- upperA[lane] = rn.end;
- if (upperA[lane] < rn.middle)
- upperA[lane] += 128;
- printram("Aval: %d, %d, %d, %x\n", channel, slotrank,
- lane, ctrl->timings[channel][slotrank].lanes[lane].timA);
- printram("Aend: %d, %d, %d, %x\n", channel, slotrank,
- lane, upperA[lane]);
- }
-}
-
-static void discover_timA_fine(ramctr_timing * ctrl, int channel, int slotrank,
- int *upperA)
-{
- int timA_delta;
- int statistics[NUM_LANES][51];
- int lane, i;
-
- memset(statistics, 0, sizeof(statistics));
-
- for (timA_delta = -25; timA_delta <= 25; timA_delta++) {
- FOR_ALL_LANES ctrl->timings[channel][slotrank].lanes[lane].
- timA = upperA[lane] + timA_delta + 0x40;
- program_timings(ctrl, channel);
-
- for (i = 0; i < 100; i++) {
- test_timA(ctrl, channel, slotrank);
- FOR_ALL_LANES {
- statistics[lane][timA_delta + 25] +=
- does_lane_work(ctrl, channel, slotrank,
- lane);
- }
- }
- }
- FOR_ALL_LANES {
- int last_zero, first_all;
-
- for (last_zero = -25; last_zero <= 25; last_zero++)
- if (statistics[lane][last_zero + 25])
- break;
- last_zero--;
- for (first_all = -25; first_all <= 25; first_all++)
- if (statistics[lane][first_all + 25] == 100)
- break;
-
- printram("lane %d: %d, %d\n", lane, last_zero,
- first_all);
-
- ctrl->timings[channel][slotrank].lanes[lane].timA =
- (last_zero + first_all) / 2 + upperA[lane];
- printram("Aval: %d, %d, %d, %x\n", channel, slotrank,
- lane, ctrl->timings[channel][slotrank].lanes[lane].timA);
- }
-}
-
-static void discover_402x(ramctr_timing * ctrl, int channel, int slotrank,
- int *upperA)
-{
- int works[NUM_LANES];
- int lane;
- while (1) {
- int all_works = 1, some_works = 0;
- program_timings(ctrl, channel);
- test_timA(ctrl, channel, slotrank);
- FOR_ALL_LANES {
- works[lane] =
- !does_lane_work(ctrl, channel, slotrank, lane);
- if (works[lane])
- some_works = 1;
- else
- all_works = 0;
- }
- if (all_works)
- return;
- if (!some_works) {
- if (ctrl->timings[channel][slotrank].val_4024 < 2)
- die("402x discovery failed");
- ctrl->timings[channel][slotrank].val_4024 -= 2;
- printram("4024 -= 2;\n");
- continue;
- }
- ctrl->timings[channel][slotrank].val_4028 += 2;
- printram("4028 += 2;\n");
- if (ctrl->timings[channel][slotrank].val_4028 >= 0x10)
- die("402x discovery failed");
- FOR_ALL_LANES if (works[lane]) {
- ctrl->timings[channel][slotrank].lanes[lane].timA +=
- 128;
- upperA[lane] += 128;
- printram("increment %d, %d, %d\n", channel,
- slotrank, lane);
- }
- }
-}
-
-struct timA_minmax {
- int timA_min_high, timA_max_high;
-};
-
-static void pre_timA_change(ramctr_timing * ctrl, int channel, int slotrank,
- struct timA_minmax *mnmx)
-{
- int lane;
- mnmx->timA_min_high = 7;
- mnmx->timA_max_high = 0;
-
- FOR_ALL_LANES {
- if (mnmx->timA_min_high >
- (ctrl->timings[channel][slotrank].lanes[lane].timA >> 6))
- mnmx->timA_min_high =
- (ctrl->timings[channel][slotrank].lanes[lane].
- timA >> 6);
- if (mnmx->timA_max_high <
- (ctrl->timings[channel][slotrank].lanes[lane].timA >> 6))
- mnmx->timA_max_high =
- (ctrl->timings[channel][slotrank].lanes[lane].
- timA >> 6);
- }
-}
-
-static void post_timA_change(ramctr_timing * ctrl, int channel, int slotrank,
- struct timA_minmax *mnmx)
-{
- struct timA_minmax post;
- int shift_402x = 0;
-
- /* Get changed maxima. */
- pre_timA_change(ctrl, channel, slotrank, &post);
-
- if (mnmx->timA_max_high - mnmx->timA_min_high <
- post.timA_max_high - post.timA_min_high)
- shift_402x = +1;
- else if (mnmx->timA_max_high - mnmx->timA_min_high >
- post.timA_max_high - post.timA_min_high)
- shift_402x = -1;
- else
- shift_402x = 0;
-
- ctrl->timings[channel][slotrank].val_4028 += shift_402x;
- ctrl->timings[channel][slotrank].val_4024 += shift_402x;
- printram("4024 += %d;\n", shift_402x);
- printram("4028 += %d;\n", shift_402x);
-}
-
-static void read_training(ramctr_timing * ctrl)
-{
- int channel, slotrank, lane;
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
- u32 r32;
- int all_high, some_high;
- int upperA[NUM_LANES];
- struct timA_minmax mnmx;
-
- wait_428c(channel);
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f002);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- 0xc01 | (ctrl->tRP << 16));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x60400);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
-
- write32(DEFAULT_MCHBAR + 0x3400, (slotrank << 2) | 0x8001);
-
- ctrl->timings[channel][slotrank].val_4028 = 4;
- ctrl->timings[channel][slotrank].val_4024 = 55;
- program_timings(ctrl, channel);
-
- discover_timA_coarse(ctrl, channel, slotrank, upperA);
-
- all_high = 1;
- some_high = 0;
- FOR_ALL_LANES {
- if (ctrl->timings[channel][slotrank].lanes[lane].
- timA >= 0x40)
- some_high = 1;
- else
- all_high = 0;
- }
-
- if (all_high) {
- ctrl->timings[channel][slotrank].val_4028--;
- printram("4028--;\n");
- FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].
- timA -= 0x40;
- upperA[lane] -= 0x40;
-
- }
- } else if (some_high) {
- ctrl->timings[channel][slotrank].val_4024++;
- ctrl->timings[channel][slotrank].val_4028++;
- printram("4024++;\n");
- printram("4028++;\n");
- }
-
- program_timings(ctrl, channel);
-
- pre_timA_change(ctrl, channel, slotrank, &mnmx);
-
- discover_402x(ctrl, channel, slotrank, upperA);
-
- post_timA_change(ctrl, channel, slotrank, &mnmx);
- pre_timA_change(ctrl, channel, slotrank, &mnmx);
-
- discover_timA_fine(ctrl, channel, slotrank, upperA);
-
- post_timA_change(ctrl, channel, slotrank, &mnmx);
- pre_timA_change(ctrl, channel, slotrank, &mnmx);
-
- FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].timA -= mnmx.timA_min_high * 0x40;
- }
- ctrl->timings[channel][slotrank].val_4028 -= mnmx.timA_min_high;
- printram("4028 -= %d;\n", mnmx.timA_min_high);
-
- post_timA_change(ctrl, channel, slotrank, &mnmx);
-
- printram("4/8: %d, %d, %x, %x\n", channel, slotrank,
- ctrl->timings[channel][slotrank].val_4024,
- ctrl->timings[channel][slotrank].val_4028);
-
- FOR_ALL_LANES
- printram("%d, %d, %d, %x\n", channel, slotrank,
- lane,
- ctrl->timings[channel][slotrank].lanes[lane].timA);
-
- write32(DEFAULT_MCHBAR + 0x3400, 0);
-
- r32 = read32(DEFAULT_MCHBAR + 0x5030);
- write32(DEFAULT_MCHBAR + 0x5030, r32 | 0x20);
- udelay(1);
-
- write32(DEFAULT_MCHBAR + 0x5030, r32 & ~0x20);
-
- udelay(1);
- }
-
- FOR_ALL_POPULATED_CHANNELS {
- program_timings(ctrl, channel);
- }
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel
- + 4 * lane, 0);
- }
-}
-
-static void test_timC(ramctr_timing * ctrl, int channel, int slotrank)
-{
- int lane;
-
- FOR_ALL_LANES {
- write32(DEFAULT_MCHBAR + 0x4340 + 0x400 * channel + 4 * lane, 0);
- read32(DEFAULT_MCHBAR + 0x4140 + 0x400 * channel + 4 * lane);
- }
-
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f006);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- (max((ctrl->tFAW >> 2) + 1, ctrl->tRRD) << 10)
- | 4 | (ctrl->tRCD << 16));
-
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | (6 << 16));
-
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x244);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f207);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel, 0x8041001);
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24) | 8);
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0x3e0);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f201);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel, 0x80411f4);
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel, (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0x242);
-
- write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f207);
- write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
- 0x8000c01 | ((ctrl->CWL + ctrl->tWTR + 5) << 16));
- write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
- (slotrank << 24) | 8);
- write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0x3e0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
-
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f002);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- 0xc01 | (ctrl->tRP << 16));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x60400);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x240);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f006);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
- (max(ctrl->tRRD, (ctrl->tFAW >> 2) + 1) << 10)
- | 8 | (ctrl->CAS << 16));
-
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
-
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0x244);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
- 0x40011f4 | (max(ctrl->tRTP, 8) << 16));
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel, (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0x242);
-
- write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f002);
- write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
- 0xc01 | (ctrl->tRP << 16));
- write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
- (slotrank << 24) | 0x60400);
- write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0x240);
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
- wait_428c(channel);
-}
-
-static void discover_timC(ramctr_timing * ctrl, int channel, int slotrank)
-{
- int timC;
- int statistics[NUM_LANES][MAX_TIMC + 1];
- int lane;
-
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f002);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- 0xc01 | (ctrl->tRP << 16));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x60400);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x240);
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
-
- for (timC = 0; timC <= MAX_TIMC; timC++) {
- FOR_ALL_LANES ctrl->timings[channel][slotrank].lanes[lane].
- timC = timC;
- program_timings(ctrl, channel);
-
- test_timC(ctrl, channel, slotrank);
-
- FOR_ALL_LANES {
- statistics[lane][timC] =
- read32(DEFAULT_MCHBAR + 0x4340 + 4 * lane +
- 0x400 * channel);
- printram("Cstat: %d, %d, %d, %x, %x\n",
- channel, slotrank, lane, timC,
- statistics[lane][timC]);
- }
- }
- FOR_ALL_LANES {
- struct run rn =
- get_longest_zero_run(statistics[lane], MAX_TIMC + 1);
- ctrl->timings[channel][slotrank].lanes[lane].timC = rn.middle;
- if (rn.all)
- printk(BIOS_CRIT, "timC discovery failed");
- printram("Cval: %d, %d, %d, %x\n", channel, slotrank,
- lane, ctrl->timings[channel][slotrank].lanes[lane].timC);
- }
-}
-
-static int get_precedening_channels(ramctr_timing * ctrl, int target_channel)
-{
- int channel, ret = 0;
- FOR_ALL_POPULATED_CHANNELS if (channel < target_channel)
- ret++;
- return ret;
-}
-
-static void fill_pattern0(ramctr_timing * ctrl, int channel, u32 a, u32 b)
-{
- unsigned j;
- unsigned channel_offset =
- get_precedening_channels(ctrl, channel) * 0x40;
- printram("channel_offset=%x\n", channel_offset);
- for (j = 0; j < 16; j++)
- write32((void *)(0x04000000 + channel_offset + 4 * j), j & 2 ? b : a);
- sfence();
-}
-
-static int num_of_channels(const ramctr_timing * ctrl)
-{
- int ret = 0;
- int channel;
- FOR_ALL_POPULATED_CHANNELS ret++;
- return ret;
-}
-
-static void fill_pattern1(ramctr_timing * ctrl, int channel)
-{
- unsigned j;
- unsigned channel_offset =
- get_precedening_channels(ctrl, channel) * 0x40;
- unsigned channel_step = 0x40 * num_of_channels(ctrl);
- for (j = 0; j < 16; j++)
- write32((void *)(0x04000000 + channel_offset + j * 4), 0xffffffff);
- for (j = 0; j < 16; j++)
- write32((void *)(0x04000000 + channel_offset + channel_step + j * 4), 0);
- sfence();
-}
-
-static void precharge(ramctr_timing * ctrl)
-{
- int channel, slotrank, lane;
-
- FOR_ALL_POPULATED_CHANNELS {
- FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].falling =
- 16;
- ctrl->timings[channel][slotrank].lanes[lane].rising =
- 16;
- } program_timings(ctrl, channel);
-
- FOR_ALL_POPULATED_RANKS {
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel,
- 0x1f000);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- 0xc01 | (ctrl->tMOD << 16));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x360004);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel,
- 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
- 0x4041003);
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24) | 0);
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel,
- 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
- 0x1001 | ((ctrl->CAS + 8) << 16));
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel,
- 0x1f000);
- write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
- 0xc01 | (ctrl->tMOD << 16));
- write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
- (slotrank << 24) | 0x360000);
- write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel,
- 0xc0001);
-
- wait_428c(channel);
- }
-
- FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].falling =
- 48;
- ctrl->timings[channel][slotrank].lanes[lane].rising =
- 48;
- }
-
- program_timings(ctrl, channel);
-
- FOR_ALL_POPULATED_RANKS {
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel,
- 0x1f000);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- 0xc01 | (ctrl->tMOD << 16));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x360004);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel,
- 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
- 0x4041003);
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24) | 0);
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel,
- 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
- 0x1001 | ((ctrl->CAS + 8) << 16));
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel,
- 0x1f000);
- write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
- 0xc01 | (ctrl->tMOD << 16));
-
- write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
- (slotrank << 24) | 0x360000);
- write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel,
- 0xc0001);
- wait_428c(channel);
- }
- }
-}
-
-static void test_timB(ramctr_timing * ctrl, int channel, int slotrank)
-{
- write_mrreg(ctrl, channel, slotrank, 1,
- 0x80 | make_mr1(ctrl, slotrank));
-
- wait_428c(channel);
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f207);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- 0x8000c01 | ((ctrl->CWL + ctrl->tWLO) << 16));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- 8 | (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f107);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
- 0x4000c01 | ((ctrl->CAS + 38) << 16));
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24) | 4);
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x400 * channel + 0x4284, 0x40001);
- wait_428c(channel);
-
- write_mrreg(ctrl, channel, slotrank, 1,
- 0x1080 | make_mr1(ctrl, slotrank));
-}
-
-static void discover_timB(ramctr_timing * ctrl, int channel, int slotrank)
-{
- int timB;
- int statistics[NUM_LANES][128];
- int lane;
-
- write32(DEFAULT_MCHBAR + 0x3400, 0x108052 | (slotrank << 2));
-
- for (timB = 0; timB < 128; timB++) {
- FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].timB = timB;
- }
- program_timings(ctrl, channel);
-
- test_timB(ctrl, channel, slotrank);
-
- FOR_ALL_LANES {
- statistics[lane][timB] =
- !((read32
- (DEFAULT_MCHBAR + lane_registers[lane] +
- channel * 0x100 + 4 + ((timB / 32) & 1) * 4)
- >> (timB % 32)) & 1);
- printram("Bstat: %d, %d, %d, %x, %x\n",
- channel, slotrank, lane, timB,
- statistics[lane][timB]);
- }
- }
- FOR_ALL_LANES {
- struct run rn = get_longest_zero_run(statistics[lane], 128);
- ctrl->timings[channel][slotrank].lanes[lane].timB = rn.start;
- if (rn.all)
- die("timB discovery failed");
- printram("Bval: %d, %d, %d, %x\n", channel, slotrank,
- lane, ctrl->timings[channel][slotrank].lanes[lane].timB);
- }
-}
-
-static int get_timB_high_adjust(u64 val)
-{
- int i;
-
- /* good */
- if (val == 0xffffffffffffffffLL)
- return 0;
-
- if (val >= 0xf000000000000000LL) {
- /* needs negative adjustment */
- for (i = 0; i < 8; i++)
- if (val << (8 * (7 - i) + 4))
- return -i;
- } else {
- /* needs positive adjustment */
- for (i = 0; i < 8; i++)
- if (val >> (8 * (7 - i) + 4))
- return i;
- }
- return 8;
-}
-
-static void adjust_high_timB(ramctr_timing * ctrl)
-{
- int channel, slotrank, lane, old;
- write32(DEFAULT_MCHBAR + 0x3400, 0x200);
- FOR_ALL_POPULATED_CHANNELS {
- fill_pattern1(ctrl, channel);
- write32(DEFAULT_MCHBAR + 0x4288 + (channel << 10), 1);
- }
- FOR_ALL_POPULATED_CHANNELS FOR_ALL_POPULATED_RANKS {
-
- write32(DEFAULT_MCHBAR + 0x4288 + 0x400 * channel, 0x10001);
-
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f006);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- 0xc01 | (ctrl->tRCD << 16));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f207);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel, 0x8040c01);
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24) | 0x8);
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0x3e0);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f201);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel, 0x8041003);
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
- (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0x3e2);
-
- write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f207);
- write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
- 0x8000c01 | ((ctrl->CWL + ctrl->tWTR + 5) << 16));
- write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
- (slotrank << 24) | 0x8);
- write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0x3e0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
-
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f002);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- 0xc01 | ((ctrl->tRP) << 16));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x60400);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x240);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f006);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
- 0xc01 | ((ctrl->tRCD) << 16));
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x3f105);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
- 0x4000c01 |
- ((ctrl->tRP +
- ctrl->timings[channel][slotrank].val_4024 +
- ctrl->timings[channel][slotrank].val_4028) << 16));
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
- (slotrank << 24) | 0x60008);
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0x80001);
- wait_428c(channel);
- FOR_ALL_LANES {
- u64 res =
- read32(DEFAULT_MCHBAR + lane_registers[lane] +
- 0x100 * channel + 4);
- res |=
- ((u64) read32(DEFAULT_MCHBAR + lane_registers[lane] +
- 0x100 * channel + 8)) << 32;
- old = ctrl->timings[channel][slotrank].lanes[lane].timB;
- ctrl->timings[channel][slotrank].lanes[lane].timB +=
- get_timB_high_adjust(res) * 64;
-
- printk(BIOS_DEBUG, "High adjust %d:%016llx\n", lane, res);
- printram("Bval+: %d, %d, %d, %x -> %x\n", channel,
- slotrank, lane, old,
- ctrl->timings[channel][slotrank].lanes[lane].
- timB);
- }
- }
- write32(DEFAULT_MCHBAR + 0x3400, 0);
-}
-
-static void write_op(ramctr_timing * ctrl, int channel)
-{
- int slotrank;
-
- wait_428c(channel);
-
- /* choose an existing rank. */
- slotrank = !(ctrl->rankmap[channel] & 1) ? 2 : 0;
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x41001);
-
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
-
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x3e0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
- wait_428c(channel);
-}
-
-static void write_training(ramctr_timing * ctrl)
-{
- int channel, slotrank, lane;
- u32 r32;
-
- FOR_ALL_POPULATED_CHANNELS
- write32(DEFAULT_MCHBAR + 0x4008 + 0x400 * channel,
- read32(DEFAULT_MCHBAR + 0x4008 +
- 0x400 * channel) | 0x8000000);
-
- FOR_ALL_POPULATED_CHANNELS {
- write_op(ctrl, channel);
- write32(DEFAULT_MCHBAR + 0x4020 + 0x400 * channel,
- read32(DEFAULT_MCHBAR + 0x4020 +
- 0x400 * channel) | 0x200000);
- }
- write32(DEFAULT_MCHBAR + 0x5030, read32(DEFAULT_MCHBAR + 0x5030) & ~8);
- FOR_ALL_POPULATED_CHANNELS {
- write_op(ctrl, channel);
- }
-
- FOR_ALL_CHANNELS
- FOR_ALL_POPULATED_RANKS
- write_mrreg(ctrl, channel, slotrank, 1,
- make_mr1(ctrl, slotrank) | 0x1080);
-
- write32(DEFAULT_MCHBAR + 0x3400, 0x108052);
-
- r32 = read32(DEFAULT_MCHBAR + 0x5030);
- write32(DEFAULT_MCHBAR + 0x5030, r32 | 0x20);
- udelay(1);
-
- write32(DEFAULT_MCHBAR + 0x5030, r32 & ~0x20);
-
- udelay(1);
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS
- discover_timB(ctrl, channel, slotrank);
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS
- write_mrreg(ctrl, channel,
- slotrank, 1, make_mr1(ctrl, slotrank));
-
- write32(DEFAULT_MCHBAR + 0x3400, 0);
-
- FOR_ALL_POPULATED_CHANNELS
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x5030, read32(DEFAULT_MCHBAR + 0x5030) | 8);
-
- FOR_ALL_POPULATED_CHANNELS {
- write32(DEFAULT_MCHBAR + 0x4020 + 0x400 * channel,
- ~0x00200000 & read32(DEFAULT_MCHBAR + 0x4020 +
- 0x400 * channel));
- read32(DEFAULT_MCHBAR + 0x428c + 0x400 * channel);
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x659001);
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel, 0x60000);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x3e0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
- wait_428c(channel);
- }
-
- r32 = read32(DEFAULT_MCHBAR + 0x5030);
- write32(DEFAULT_MCHBAR + 0x5030, r32 | 0x20);
- udelay(1);
-
- write32(DEFAULT_MCHBAR + 0x5030, r32 & ~0x20);
-
- udelay(1);
-
- printram("CPE\n");
- precharge(ctrl);
- printram("CPF\n");
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- read32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane);
- write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane,
- 0);
- }
-
- FOR_ALL_POPULATED_CHANNELS {
- fill_pattern0(ctrl, channel, 0xaaaaaaaa, 0x55555555);
- write32(DEFAULT_MCHBAR + 0x4288 + (channel << 10), 0);
- }
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS
- discover_timC(ctrl, channel, slotrank);
-
- FOR_ALL_POPULATED_CHANNELS
- program_timings(ctrl, channel);
-
- adjust_high_timB(ctrl);
-
- FOR_ALL_POPULATED_CHANNELS
- program_timings(ctrl, channel);
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- read32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane);
- write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane,
- 0);
- }
-}
-
-static int test_320c(ramctr_timing * ctrl, int channel, int slotrank)
-{
- struct ram_rank_timings saved_rt = ctrl->timings[channel][slotrank];
- int timC_delta;
- int lanes_ok = 0;
- int ctr = 0;
- int lane;
-
- for (timC_delta = -5; timC_delta <= 5; timC_delta++) {
- FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].timC =
- saved_rt.lanes[lane].timC + timC_delta;
- }
- program_timings(ctrl, channel);
- FOR_ALL_LANES {
- write32(DEFAULT_MCHBAR + 4 * lane + 0x4f40, 0);
- }
-
- write32(DEFAULT_MCHBAR + 0x4288 + 0x400 * channel, 0x1f);
-
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f006);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- ((max(ctrl->tRRD, (ctrl->tFAW >> 2) + 1)) << 10)
- | 8 | (ctrl->tRCD << 16));
-
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | ctr | 0x60000);
-
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x244);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f201);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
- 0x8001020 | ((ctrl->CWL + ctrl->tWTR + 8) << 16));
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4244 + 0x400 * channel, 0x389abcd);
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0x20e42);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
- 0x4001020 | (max(ctrl->tRTP, 8) << 16));
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
- (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4248 + 0x400 * channel, 0x389abcd);
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0x20e42);
-
- write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f002);
- write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel, 0xf1001);
- write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
- (slotrank << 24) | 0x60400);
- write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0x240);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
- wait_428c(channel);
- FOR_ALL_LANES {
- u32 r32 =
- read32(DEFAULT_MCHBAR + 0x4340 + 4 * lane +
- 0x400 * channel);
-
- if (r32 == 0)
- lanes_ok |= 1 << lane;
- }
- ctr++;
- if (lanes_ok == ((1 << NUM_LANES) - 1))
- break;
- }
-
- ctrl->timings[channel][slotrank] = saved_rt;
-
- printram("3lanes: %x\n", lanes_ok);
- return lanes_ok != ((1 << NUM_LANES) - 1);
-}
-
-#include "raminit_patterns.h"
-
-static void fill_pattern5(ramctr_timing * ctrl, int channel, int patno)
-{
- unsigned i, j;
- unsigned channel_offset =
- get_precedening_channels(ctrl, channel) * 0x40;
- unsigned channel_step = 0x40 * num_of_channels(ctrl);
-
- if (patno) {
- u8 base8 = 0x80 >> ((patno - 1) % 8);
- u32 base = base8 | (base8 << 8) | (base8 << 16) | (base8 << 24);
- for (i = 0; i < 32; i++) {
- for (j = 0; j < 16; j++) {
- u32 val = use_base[patno - 1][i] & (1 << (j / 2)) ? base : 0;
- if (invert[patno - 1][i] & (1 << (j / 2)))
- val = ~val;
- write32((void *)(0x04000000 + channel_offset + i * channel_step +
- j * 4), val);
- }
- }
-
- } else {
- for (i = 0; i < sizeof(pattern) / sizeof(pattern[0]); i++) {
- for (j = 0; j < 16; j++)
- write32((void *)(0x04000000 + channel_offset + i * channel_step +
- j * 4), pattern[i][j]);
- }
- sfence();
- }
-}
-
-static void reprogram_320c(ramctr_timing * ctrl)
-{
- int channel, slotrank;
- u32 r32;
-
- FOR_ALL_POPULATED_CHANNELS {
- wait_428c(channel);
-
- /* choose an existing rank. */
- slotrank = !(ctrl->rankmap[channel] & 1) ? 2 : 0;
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x41001);
-
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
-
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x3e0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
- wait_428c(channel);
- write32(DEFAULT_MCHBAR + 0x4020 + 0x400 * channel,
- read32(DEFAULT_MCHBAR + 0x4020 +
- 0x400 * channel) | 0x200000);
- }
- write32(DEFAULT_MCHBAR + 0x5030, read32(DEFAULT_MCHBAR + 0x5030) & ~8);
- FOR_ALL_POPULATED_CHANNELS {
- wait_428c(channel);
-
- /* choose an existing rank. */
- slotrank = !(ctrl->rankmap[channel] & 1) ? 2 : 0;
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x0f003);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel, 0x41001);
-
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
-
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x3e0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 1);
- wait_428c(channel);
- }
-
- /* jedec reset */
- dram_jedecreset(ctrl);
- /* mrs commands. */
- dram_mrscommands(ctrl);
-
- r32 = read32(DEFAULT_MCHBAR + 0x5030);
- write32(DEFAULT_MCHBAR + 0x5030, r32 | 0x20);
- udelay(1);
-
- write32(DEFAULT_MCHBAR + 0x5030, r32 & ~0x20);
-
- udelay(1);
-}
-
-#define MIN_C320C_LEN 13
-
-static int try_cmd_stretch(ramctr_timing * ctrl, int cmd_stretch)
-{
- struct ram_rank_timings saved_timings[NUM_CHANNELS][NUM_SLOTRANKS];
- int channel, slotrank;
- int c320c;
- int stat[NUM_SLOTRANKS][256];
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
- saved_timings[channel][slotrank] = ctrl->timings[channel][slotrank];
- }
-
- FOR_ALL_POPULATED_CHANNELS {
- ctrl->cmd_stretch[channel] = cmd_stretch;
- }
-
- FOR_ALL_POPULATED_CHANNELS
- MCHBAR32(0x4004 + 0x400 * channel) =
- ctrl->tRRD
- | (ctrl->tRTP << 4)
- | (ctrl->tCKE << 8)
- | (ctrl->tWTR << 12)
- | (ctrl->tFAW << 16)
- | (ctrl->tWR << 24)
- | (ctrl->cmd_stretch[channel] << 30);
-
-
- FOR_ALL_CHANNELS {
- int delta = 0;
- if (ctrl->cmd_stretch[channel] == 2)
- delta = 2;
- else if (ctrl->cmd_stretch[channel] == 0)
- delta = 4;
-
- FOR_ALL_POPULATED_RANKS {
- ctrl->timings[channel][slotrank].val_4024 -= delta;
- }
- }
-
- FOR_ALL_POPULATED_CHANNELS {
- for (c320c = -127; c320c <= 127; c320c++) {
- FOR_ALL_POPULATED_RANKS {
- ctrl->timings[channel][slotrank].val_320c = c320c;
- }
- program_timings(ctrl, channel);
- reprogram_320c(ctrl);
- FOR_ALL_POPULATED_RANKS {
- stat[slotrank][c320c + 127] =
- test_320c(ctrl, channel, slotrank);
- printram("3stat: %d, %d, %d: %d\n",
- channel, slotrank, c320c,
- stat[slotrank][c320c + 127]);
- }
- }
- FOR_ALL_POPULATED_RANKS {
- struct run rn =
- get_longest_zero_run(stat[slotrank], 255);
- ctrl->timings[channel][slotrank].val_320c =
- rn.middle - 127;
- printram("3val: %d, %d: %d\n", channel,
- slotrank,
- ctrl->timings[channel][slotrank].val_320c);
- if (rn.all || rn.length < MIN_C320C_LEN) {
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
- ctrl->timings[channel][slotrank] = saved_timings[channel][slotrank];
- }
- return 0;
- }
- }
- }
- return 1;
-}
-
-static void command_training(ramctr_timing * ctrl)
-{
- int channel;
-
- FOR_ALL_POPULATED_CHANNELS {
- fill_pattern5(ctrl, channel, 0);
- write32(DEFAULT_MCHBAR + 0x4288 + 0x400 * channel, 0x1f);
- }
-
- /* try command rate 1T and 2T */
- if (!try_cmd_stretch(ctrl, 0) && !try_cmd_stretch(ctrl, 2))
- die("c320c discovery failed");
-
- FOR_ALL_POPULATED_CHANNELS {
- program_timings(ctrl, channel);
- }
-
- reprogram_320c(ctrl);
-}
-
-static void discover_edges_real(ramctr_timing * ctrl, int channel, int slotrank,
- int *edges)
-{
- int edge;
- int statistics[NUM_LANES][MAX_EDGE_TIMING + 1];
- int lane;
-
- for (edge = 0; edge <= MAX_EDGE_TIMING; edge++) {
- FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].rising =
- edge;
- ctrl->timings[channel][slotrank].lanes[lane].falling =
- edge;
- }
- printram("edge %02x\n", edge);
- program_timings(ctrl, channel);
-
- FOR_ALL_LANES {
- write32(DEFAULT_MCHBAR + 0x4340 + 0x400 * channel +
- 4 * lane, 0);
- read32(DEFAULT_MCHBAR + 0x400 * channel + 4 * lane +
- 0x4140);
- }
-
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f000);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- (0xc01 | (ctrl->tMOD << 16)));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x360004);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel, 0x40411f4);
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel, 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
- 0x1001 | ((ctrl->CAS + 8) << 16));
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel, 0x1f000);
- write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
- (0xc01 | (ctrl->tMOD << 16)));
- write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
- (slotrank << 24) | 0x360000);
- write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel, 0xc0001);
-
- wait_428c(channel);
-
- FOR_ALL_LANES {
- statistics[lane][edge] =
- read32(DEFAULT_MCHBAR + 0x4340 + 0x400 * channel +
- lane * 4);
- }
- }
- FOR_ALL_LANES {
- struct run rn =
- get_longest_zero_run(statistics[lane], MAX_EDGE_TIMING + 1);
- edges[lane] = rn.middle;
- if (rn.all)
- die("edge discovery failed");
- printram("eval %d, %d, %d, %02x\n", channel, slotrank,
- lane, edges[lane]);
- }
-}
-
-static void discover_edges(ramctr_timing * ctrl)
-{
- int falling_edges[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
- int rising_edges[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
- int channel, slotrank, lane;
- u32 r32;
-
- write32(DEFAULT_MCHBAR + 0x3400, 0);
-
- r32 = read32(DEFAULT_MCHBAR + 0x5030);
- write32(DEFAULT_MCHBAR + 0x5030, r32 | 0x20);
- udelay(1);
-
- write32(DEFAULT_MCHBAR + 0x5030, r32 & ~0x20);
-
- udelay(1);
-
- FOR_ALL_POPULATED_CHANNELS FOR_ALL_LANES {
- write32(DEFAULT_MCHBAR + 4 * lane +
- 0x400 * channel + 0x4080, 0);
- }
-
- FOR_ALL_POPULATED_CHANNELS {
- fill_pattern0(ctrl, channel, 0, 0);
- write32(DEFAULT_MCHBAR + 0x4288 + (channel << 10), 0);
- FOR_ALL_LANES {
- read32(DEFAULT_MCHBAR + 0x400 * channel +
- lane * 4 + 0x4140);
- }
-
- FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].falling =
- 16;
- ctrl->timings[channel][slotrank].lanes[lane].rising =
- 16;
- }
-
- program_timings(ctrl, channel);
-
- FOR_ALL_POPULATED_RANKS {
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel,
- 0x1f000);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- 0xc01 | (ctrl->tMOD << 16));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x360004);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel,
- 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
- 0x4041003);
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24) | 0);
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel,
- 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
- 0x1001 | ((ctrl->CAS + 8) << 16));
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel,
- 0x1f000);
- write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
- 0xc01 | (ctrl->tMOD << 16));
- write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
- (slotrank << 24) | 0x360000);
- write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel,
- 0xc0001);
-
- wait_428c(channel);
- }
-
- FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].falling =
- 48;
- ctrl->timings[channel][slotrank].lanes[lane].rising =
- 48;
- }
-
- program_timings(ctrl, channel);
-
- FOR_ALL_POPULATED_RANKS {
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel,
- 0x1f000);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- 0xc01 | (ctrl->tMOD << 16));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x360004);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel,
- 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
- 0x4041003);
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24) | 0);
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel,
- 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
- 0x1001 | ((ctrl->CAS + 8) << 16));
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel,
- 0x1f000);
- write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
- 0xc01 | (ctrl->tMOD << 16));
- write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
- (slotrank << 24) | 0x360000);
- write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel,
- 0xc0001);
- wait_428c(channel);
- }
-
- FOR_ALL_LANES {
- write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel +
- lane * 4,
- ~read32(DEFAULT_MCHBAR + 0x4040 +
- 0x400 * channel + lane * 4) & 0xff);
- }
-
- fill_pattern0(ctrl, channel, 0, 0xffffffff);
- write32(DEFAULT_MCHBAR + 0x4288 + (channel << 10), 0);
- }
-
- /* FIXME: under some conditions (older chipsets?) vendor BIOS sets both edges to the same value. */
- write32(DEFAULT_MCHBAR + 0x4eb0, 0x300);
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
- discover_edges_real(ctrl, channel, slotrank,
- falling_edges[channel][slotrank]);
- }
-
- write32(DEFAULT_MCHBAR + 0x4eb0, 0x200);
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
- discover_edges_real(ctrl, channel, slotrank,
- rising_edges[channel][slotrank]);
- }
-
- write32(DEFAULT_MCHBAR + 0x4eb0, 0);
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].falling =
- falling_edges[channel][slotrank][lane];
- ctrl->timings[channel][slotrank].lanes[lane].rising =
- rising_edges[channel][slotrank][lane];
- }
-
- FOR_ALL_POPULATED_CHANNELS {
- program_timings(ctrl, channel);
- }
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane,
- 0);
- }
-}
-
-static void discover_edges_write_real(ramctr_timing * ctrl, int channel,
- int slotrank, int *edges)
-{
- int edge;
- u32 raw_statistics[MAX_EDGE_TIMING + 1];
- int statistics[MAX_EDGE_TIMING + 1];
- const int reg3000b24[] = { 0, 0xc, 0x2c };
- int lane, i;
- int lower[NUM_LANES];
- int upper[NUM_LANES];
- int pat;
-
- FOR_ALL_LANES {
- lower[lane] = 0;
- upper[lane] = MAX_EDGE_TIMING;
- }
-
- for (i = 0; i < 3; i++) {
- write32(DEFAULT_MCHBAR + 0x3000 + 0x100 * channel,
- reg3000b24[i] << 24);
- for (pat = 0; pat < NUM_PATTERNS; pat++) {
- fill_pattern5(ctrl, channel, pat);
- write32(DEFAULT_MCHBAR + 0x4288 + 0x400 * channel, 0x1f);
- printram("patterned\n");
- printram("[%x] = 0x%08x\n(%d, %d)\n",
- 0x3000 + 0x100 * channel, reg3000b24[i] << 24, channel,
- slotrank);
- for (edge = 0; edge <= MAX_EDGE_TIMING; edge++) {
- FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].
- rising = edge;
- ctrl->timings[channel][slotrank].lanes[lane].
- falling = edge;
- }
- program_timings(ctrl, channel);
-
- FOR_ALL_LANES {
- write32(DEFAULT_MCHBAR + 0x4340 +
- 0x400 * channel + 4 * lane, 0);
- read32(DEFAULT_MCHBAR + 0x400 * channel +
- 4 * lane + 0x4140);
- }
- wait_428c(channel);
-
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel,
- 0x1f006);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- 0x4 | (ctrl->tRCD << 16)
- | (max(ctrl->tRRD, (ctrl->tFAW >> 2) + 1) <<
- 10));
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel,
- 0x240);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel,
- 0x1f201);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
- 0x8005020 | ((ctrl->tWTR + ctrl->CWL + 8) <<
- 16));
- write32(DEFAULT_MCHBAR + 0x4204 + 0x400 * channel,
- (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4214 + 0x400 * channel,
- 0x242);
-
- write32(DEFAULT_MCHBAR + 0x4228 + 0x400 * channel,
- 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4238 + 0x400 * channel,
- 0x4005020 | (max(ctrl->tRTP, 8) << 16));
- write32(DEFAULT_MCHBAR + 0x4208 + 0x400 * channel,
- (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4218 + 0x400 * channel,
- 0x242);
-
- write32(DEFAULT_MCHBAR + 0x422c + 0x400 * channel,
- 0x1f002);
- write32(DEFAULT_MCHBAR + 0x423c + 0x400 * channel,
- 0xc01 | (ctrl->tRP << 16));
- write32(DEFAULT_MCHBAR + 0x420c + 0x400 * channel,
- (slotrank << 24) | 0x60400);
- write32(DEFAULT_MCHBAR + 0x421c + 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4284 + 0x400 * channel,
- 0xc0001);
- wait_428c(channel);
- FOR_ALL_LANES {
- read32(DEFAULT_MCHBAR + 0x4340 +
- 0x400 * channel + lane * 4);
- }
-
- raw_statistics[edge] =
- MCHBAR32(0x436c + 0x400 * channel);
- }
- FOR_ALL_LANES {
- struct run rn;
- for (edge = 0; edge <= MAX_EDGE_TIMING; edge++)
- statistics[edge] =
- ! !(raw_statistics[edge] & (1 << lane));
- rn = get_longest_zero_run(statistics,
- MAX_EDGE_TIMING + 1);
- printram("edges: %d, %d, %d: 0x%x-0x%x-0x%x, 0x%x-0x%x\n",
- channel, slotrank, i, rn.start, rn.middle,
- rn.end, rn.start + ctrl->edge_offset[i],
- rn.end - ctrl->edge_offset[i]);
- lower[lane] =
- max(rn.start + ctrl->edge_offset[i], lower[lane]);
- upper[lane] =
- min(rn.end - ctrl->edge_offset[i], upper[lane]);
- edges[lane] = (lower[lane] + upper[lane]) / 2;
-
- }
- }
- }
-
- write32(DEFAULT_MCHBAR + 0x3000, 0);
- printram("CPA\n");
-}
-
-static void discover_edges_write(ramctr_timing * ctrl)
-{
- int falling_edges[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
- int rising_edges[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
- int channel, slotrank, lane;
-
- /* FIXME: under some conditions (older chipsets?) vendor BIOS sets both edges to the same value. */
- write32(DEFAULT_MCHBAR + 0x4eb0, 0x300);
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
- discover_edges_write_real(ctrl, channel, slotrank,
- falling_edges[channel][slotrank]);
- }
-
- write32(DEFAULT_MCHBAR + 0x4eb0, 0x200);
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
- discover_edges_write_real(ctrl, channel, slotrank,
- rising_edges[channel][slotrank]);
- }
-
- write32(DEFAULT_MCHBAR + 0x4eb0, 0);
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- ctrl->timings[channel][slotrank].lanes[lane].falling =
- falling_edges[channel][slotrank][lane];
- ctrl->timings[channel][slotrank].lanes[lane].rising =
- rising_edges[channel][slotrank][lane];
- }
-
- FOR_ALL_POPULATED_CHANNELS
- program_timings(ctrl, channel);
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel + 4 * lane,
- 0);
- }
-}
-
-static void test_timC_write(ramctr_timing *ctrl, int channel, int slotrank)
-{
- wait_428c(channel);
- write32(DEFAULT_MCHBAR + 0x4220 + 0x400 * channel, 0x1f006);
- write32(DEFAULT_MCHBAR + 0x4230 + 0x400 * channel,
- (max((ctrl->tFAW >> 2) + 1, ctrl->tRRD)
- << 10) | (ctrl->tRCD << 16) | 4);
- write32(DEFAULT_MCHBAR + 0x4200 + 0x400 * channel,
- (slotrank << 24) | 0x60000);
- write32(DEFAULT_MCHBAR + 0x4210 + 0x400 * channel, 0x244);
-
- write32(DEFAULT_MCHBAR + 0x4224 + 0x400 * channel, 0x1f201);
- write32(DEFAULT_MCHBAR + 0x4234 + 0x400 * channel,
- 0x80011e0 |
- ((ctrl->tWTR + ctrl->CWL + 8) << 16));
- write32(DEFAULT_MCHBAR + 0x4204 +
- 0x400 * channel, (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4214 +
- 0x400 * channel, 0x242);
-
- write32(DEFAULT_MCHBAR + 0x4228 +
- 0x400 * channel, 0x1f105);
- write32(DEFAULT_MCHBAR + 0x4238 +
- 0x400 * channel,
- 0x40011e0 | (max(ctrl->tRTP, 8) << 16));
- write32(DEFAULT_MCHBAR + 0x4208 +
- 0x400 * channel, (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4218 +
- 0x400 * channel, 0x242);
-
- write32(DEFAULT_MCHBAR + 0x422c +
- 0x400 * channel, 0x1f002);
- write32(DEFAULT_MCHBAR + 0x423c +
- 0x400 * channel,
- 0x1001 | (ctrl->tRP << 16));
- write32(DEFAULT_MCHBAR + 0x420c +
- 0x400 * channel,
- (slotrank << 24) | 0x60400);
- write32(DEFAULT_MCHBAR + 0x421c +
- 0x400 * channel, 0);
-
- write32(DEFAULT_MCHBAR + 0x4284 +
- 0x400 * channel, 0xc0001);
- wait_428c(channel);
-}
-
-static void discover_timC_write(ramctr_timing * ctrl)
-{
- const u8 rege3c_b24[3] = { 0, 0xf, 0x2f };
- int i, pat;
-
- int lower[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
- int upper[NUM_CHANNELS][NUM_SLOTRANKS][NUM_LANES];
- int channel, slotrank, lane;
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- lower[channel][slotrank][lane] = 0;
- upper[channel][slotrank][lane] = MAX_TIMC;
- }
-
- write32(DEFAULT_MCHBAR + 0x4ea8, 1);
-
- for (i = 0; i < 3; i++)
- FOR_ALL_POPULATED_CHANNELS {
- write32(DEFAULT_MCHBAR + 0xe3c + (channel * 0x100),
- (rege3c_b24[i] << 24)
- | (read32(DEFAULT_MCHBAR + 0xe3c + (channel * 0x100))
- & ~0x3f000000));
- udelay(2);
- for (pat = 0; pat < NUM_PATTERNS; pat++) {
- FOR_ALL_POPULATED_RANKS {
- int timC;
- u32 raw_statistics[MAX_TIMC + 1];
- int statistics[MAX_TIMC + 1];
-
- fill_pattern5(ctrl, channel, pat);
- write32(DEFAULT_MCHBAR + 0x4288 + 0x400 * channel, 0x1f);
- for (timC = 0; timC < MAX_TIMC + 1; timC++) {
- FOR_ALL_LANES
- ctrl->timings[channel][slotrank].lanes[lane].timC = timC;
- program_timings(ctrl, channel);
-
- test_timC_write (ctrl, channel, slotrank);
-
- raw_statistics[timC] =
- MCHBAR32(0x436c + 0x400 * channel);
- }
- FOR_ALL_LANES {
- struct run rn;
- for (timC = 0; timC <= MAX_TIMC; timC++)
- statistics[timC] =
- !!(raw_statistics[timC] &
- (1 << lane));
- rn = get_longest_zero_run(statistics,
- MAX_TIMC + 1);
- if (rn.all)
- die("timC write discovery failed");
- printram("timC: %d, %d, %d: 0x%x-0x%x-0x%x, 0x%x-0x%x\n",
- channel, slotrank, i, rn.start,
- rn.middle, rn.end,
- rn.start + ctrl->timC_offset[i],
- rn.end - ctrl->timC_offset[i]);
- lower[channel][slotrank][lane] =
- max(rn.start + ctrl->timC_offset[i],
- lower[channel][slotrank][lane]);
- upper[channel][slotrank][lane] =
- min(rn.end - ctrl->timC_offset[i],
- upper[channel][slotrank][lane]);
-
- }
- }
- }
- }
-
- FOR_ALL_CHANNELS {
- write32(DEFAULT_MCHBAR + (channel * 0x100) + 0xe3c,
- 0 | (read32(DEFAULT_MCHBAR + (channel * 0x100) + 0xe3c) &
- ~0x3f000000));
- udelay(2);
- }
-
- write32(DEFAULT_MCHBAR + 0x4ea8, 0);
-
- printram("CPB\n");
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- printram("timC [%d, %d, %d] = 0x%x\n", channel,
- slotrank, lane,
- (lower[channel][slotrank][lane] +
- upper[channel][slotrank][lane]) / 2);
- ctrl->timings[channel][slotrank].lanes[lane].timC =
- (lower[channel][slotrank][lane] +
- upper[channel][slotrank][lane]) / 2;
- }
- FOR_ALL_POPULATED_CHANNELS {
- program_timings(ctrl, channel);
- }
-}
-
-static void normalize_training(ramctr_timing * ctrl)
-{
- int channel, slotrank, lane;
- int mat = 0;
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
- int delta;
- FOR_ALL_LANES mat =
- max(ctrl->timings[channel][slotrank].lanes[lane].timA, mat);
- delta = (mat >> 6) - ctrl->timings[channel][slotrank].val_4028;
- ctrl->timings[channel][slotrank].val_4024 += delta;
- ctrl->timings[channel][slotrank].val_4028 += delta;
- }
-
- FOR_ALL_POPULATED_CHANNELS {
- program_timings(ctrl, channel);
- }
-}
-
-static void write_controller_mr(ramctr_timing * ctrl)
-{
- int channel, slotrank;
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS {
- write32(DEFAULT_MCHBAR + 0x0004 + (channel << 8) +
- lane_registers[slotrank], make_mr0(ctrl, slotrank));
- write32(DEFAULT_MCHBAR + 0x0008 + (channel << 8) +
- lane_registers[slotrank], make_mr1(ctrl, slotrank));
- }
-}
-
-static void channel_test(ramctr_timing * ctrl)
-{
- int channel, slotrank, lane;
-
- FOR_ALL_POPULATED_CHANNELS
- if (read32(DEFAULT_MCHBAR + 0x42a0 + (channel << 10)) & 0xa000)
- die("Mini channel test failed (1)\n");
- FOR_ALL_POPULATED_CHANNELS {
- fill_pattern0(ctrl, channel, 0x12345678, 0x98765432);
-
- write32(DEFAULT_MCHBAR + 0x4288 + (channel << 10), 0);
- }
-
- for (slotrank = 0; slotrank < 4; slotrank++)
- FOR_ALL_CHANNELS
- if (ctrl->rankmap[channel] & (1 << slotrank)) {
- FOR_ALL_LANES {
- write32(DEFAULT_MCHBAR + (0x4f40 + 4 * lane), 0);
- write32(DEFAULT_MCHBAR + (0x4d40 + 4 * lane), 0);
- }
- wait_428c(channel);
- write32(DEFAULT_MCHBAR + 0x4220 + (channel << 10), 0x0001f006);
- write32(DEFAULT_MCHBAR + 0x4230 + (channel << 10), 0x0028a004);
- write32(DEFAULT_MCHBAR + 0x4200 + (channel << 10),
- 0x00060000 | (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4210 + (channel << 10), 0x00000244);
- write32(DEFAULT_MCHBAR + 0x4224 + (channel << 10), 0x0001f201);
- write32(DEFAULT_MCHBAR + 0x4234 + (channel << 10), 0x08281064);
- write32(DEFAULT_MCHBAR + 0x4204 + (channel << 10),
- 0x00000000 | (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4214 + (channel << 10), 0x00000242);
- write32(DEFAULT_MCHBAR + 0x4228 + (channel << 10), 0x0001f105);
- write32(DEFAULT_MCHBAR + 0x4238 + (channel << 10), 0x04281064);
- write32(DEFAULT_MCHBAR + 0x4208 + (channel << 10),
- 0x00000000 | (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x4218 + (channel << 10), 0x00000242);
- write32(DEFAULT_MCHBAR + 0x422c + (channel << 10), 0x0001f002);
- write32(DEFAULT_MCHBAR + 0x423c + (channel << 10), 0x00280c01);
- write32(DEFAULT_MCHBAR + 0x420c + (channel << 10),
- 0x00060400 | (slotrank << 24));
- write32(DEFAULT_MCHBAR + 0x421c + (channel << 10), 0x00000240);
- write32(DEFAULT_MCHBAR + 0x4284 + (channel << 10), 0x000c0001);
- wait_428c(channel);
- FOR_ALL_LANES
- if (read32(DEFAULT_MCHBAR + 0x4340 + (channel << 10) + 4 * lane))
- die("Mini channel test failed (2)\n");
- }
-}
-
-static void set_scrambling_seed(ramctr_timing * ctrl)
-{
- int channel;
-
- /* FIXME: we hardcode seeds. Do we need to use some PRNG for them?
- I don't think so. */
- static u32 seeds[NUM_CHANNELS][3] = {
- {0x00009a36, 0xbafcfdcf, 0x46d1ab68},
- {0x00028bfa, 0x53fe4b49, 0x19ed5483}
- };
- FOR_ALL_POPULATED_CHANNELS {
- MCHBAR32(0x4020 + 0x400 * channel) &= ~0x10000000;
- write32(DEFAULT_MCHBAR + 0x4034, seeds[channel][0]);
- write32(DEFAULT_MCHBAR + 0x403c, seeds[channel][1]);
- write32(DEFAULT_MCHBAR + 0x4038, seeds[channel][2]);
- }
-}
-
-static void set_4f8c(void)
-{
- struct cpuid_result cpures;
- u32 cpu;
-
- cpures = cpuid(0);
- cpu = (cpures.eax);
- if (IS_SANDY_CPU(cpu) && (IS_SANDY_CPU_D0(cpu) || IS_SANDY_CPU_D1(cpu))) {
- MCHBAR32(0x4f8c) = 0x141D1519;
- } else {
- MCHBAR32(0x4f8c) = 0x551D1519;
- }
-}
-
-static void prepare_training(ramctr_timing * ctrl)
-{
- int channel;
-
- FOR_ALL_POPULATED_CHANNELS {
- // Always drive command bus
- MCHBAR32(0x4004 + 0x400 * channel) |= 0x20000000;
- }
-
- udelay(1);
-
- FOR_ALL_POPULATED_CHANNELS {
- wait_428c(channel);
- }
-}
-
-static void set_4008c(ramctr_timing * ctrl)
-{
- int channel, slotrank;
- u32 reg;
- FOR_ALL_POPULATED_CHANNELS {
- u32 b20, b4_8_12;
- int min_320c = 10000;
- int max_320c = -10000;
-
- FOR_ALL_POPULATED_RANKS {
- max_320c = max(ctrl->timings[channel][slotrank].val_320c, max_320c);
- min_320c = min(ctrl->timings[channel][slotrank].val_320c, min_320c);
- }
-
- if (max_320c - min_320c > 51)
- b20 = 0;
- else
- b20 = ctrl->ref_card_offset[channel];
-
- if (ctrl->reg_320c_range_threshold < max_320c - min_320c)
- b4_8_12 = 0x3330;
- else
- b4_8_12 = 0x2220;
-
- reg = read32(DEFAULT_MCHBAR + 0x400c + (channel << 10));
- write32(DEFAULT_MCHBAR + 0x400c + (channel << 10),
- (reg & 0xFFF0FFFF)
- | (ctrl->ref_card_offset[channel] << 16)
- | (ctrl->ref_card_offset[channel] << 18));
- write32(DEFAULT_MCHBAR + 0x4008 + (channel << 10),
- 0x0a000000
- | (b20 << 20)
- | ((ctrl->ref_card_offset[channel] + 2) << 16)
- | b4_8_12);
- }
-}
-
-static void set_42a0(ramctr_timing * ctrl)
-{
- int channel;
- FOR_ALL_POPULATED_CHANNELS {
- write32(DEFAULT_MCHBAR + (0x42a0 + 0x400 * channel),
- 0x00001000 | ctrl->rankmap[channel]);
- MCHBAR32(0x4004 + 0x400 * channel) &= ~0x20000000; // OK
- }
-}
-
-static int encode_5d10(int ns)
-{
- return (ns + 499) / 500;
-}
-
-/* FIXME: values in this function should be hardware revision-dependent. */
-static void final_registers(ramctr_timing * ctrl)
-{
- int channel;
- int t1_cycles = 0, t1_ns = 0, t2_ns;
- int t3_ns;
- u32 r32;
-
- write32(DEFAULT_MCHBAR + 0x4cd4, 0x00000046);
-
- write32(DEFAULT_MCHBAR + 0x400c, (read32(DEFAULT_MCHBAR + 0x400c) & 0xFFFFCFFF) | 0x1000); // OK
- write32(DEFAULT_MCHBAR + 0x440c, (read32(DEFAULT_MCHBAR + 0x440c) & 0xFFFFCFFF) | 0x1000); // OK
- write32(DEFAULT_MCHBAR + 0x4cb0, 0x00000740);
- write32(DEFAULT_MCHBAR + 0x4380, 0x00000aaa); // OK
- write32(DEFAULT_MCHBAR + 0x4780, 0x00000aaa); // OK
- write32(DEFAULT_MCHBAR + 0x4f88, 0x5f7003ff); // OK
- write32(DEFAULT_MCHBAR + 0x5064, 0x00073000 | ctrl->reg_5064b0); // OK
-
- FOR_ALL_CHANNELS {
- switch (ctrl->rankmap[channel]) {
- /* Unpopulated channel. */
- case 0:
- write32(DEFAULT_MCHBAR + 0x4384 + channel * 0x400, 0);
- break;
- /* Only single-ranked dimms. */
- case 1:
- case 4:
- case 5:
- write32(DEFAULT_MCHBAR + 0x4384 + channel * 0x400, 0x373131);
- break;
- /* Dual-ranked dimms present. */
- default:
- write32(DEFAULT_MCHBAR + 0x4384 + channel * 0x400, 0x9b6ea1);
- break;
- }
- }
-
- write32 (DEFAULT_MCHBAR + 0x5880, 0xca9171e5);
- write32 (DEFAULT_MCHBAR + 0x5888,
- (read32 (DEFAULT_MCHBAR + 0x5888) & ~0xffffff) | 0xe4d5d0);
- write32 (DEFAULT_MCHBAR + 0x58a8, read32 (DEFAULT_MCHBAR + 0x58a8) & ~0x1f);
- write32 (DEFAULT_MCHBAR + 0x4294,
- (read32 (DEFAULT_MCHBAR + 0x4294) & ~0x30000)
- | (1 << 16));
- write32 (DEFAULT_MCHBAR + 0x4694,
- (read32 (DEFAULT_MCHBAR + 0x4694) & ~0x30000)
- | (1 << 16));
-
- MCHBAR32(0x5030) |= 1; // OK
- MCHBAR32(0x5030) |= 0x80; // OK
- MCHBAR32(0x5f18) = 0xfa; // OK
-
- /* Find a populated channel. */
- FOR_ALL_POPULATED_CHANNELS
- break;
-
- t1_cycles = ((read32(DEFAULT_MCHBAR + 0x4290 + channel * 0x400) >> 8) & 0xff);
- r32 = read32(DEFAULT_MCHBAR + 0x5064);
- if (r32 & 0x20000)
- t1_cycles += (r32 & 0xfff);
- t1_cycles += (read32(DEFAULT_MCHBAR + channel * 0x400 + 0x42a4) & 0xfff);
- t1_ns = t1_cycles * ctrl->tCK / 256 + 544;
- if (!(r32 & 0x20000))
- t1_ns += 500;
-
- t2_ns = 10 * ((read32(DEFAULT_MCHBAR + 0x5f10) >> 8) & 0xfff);
- if ( read32(DEFAULT_MCHBAR + 0x5f00) & 8 )
- {
- t3_ns = 10 * ((read32(DEFAULT_MCHBAR + 0x5f20) >> 8) & 0xfff);
- t3_ns += 10 * (read32(DEFAULT_MCHBAR + 0x5f18) & 0xff);
- }
- else
- {
- t3_ns = 500;
- }
- printk(BIOS_DEBUG, "t123: %d, %d, %d\n",
- t1_ns, t2_ns, t3_ns);
- write32 (DEFAULT_MCHBAR + 0x5d10,
- ((encode_5d10(t1_ns) + encode_5d10(t2_ns)) << 16)
- | (encode_5d10(t1_ns) << 8)
- | ((encode_5d10(t3_ns) + encode_5d10(t2_ns) + encode_5d10(t1_ns)) << 24)
- | (read32(DEFAULT_MCHBAR + 0x5d10) & 0xC0C0C0C0)
- | 0xc);
-}
-
-static void save_timings(ramctr_timing * ctrl)
-{
- struct mrc_data_container *mrcdata;
- int output_len = ALIGN(sizeof (*ctrl), 16);
-
- /* Save the MRC S3 restore data to cbmem */
- mrcdata = cbmem_add
- (CBMEM_ID_MRCDATA,
- output_len + sizeof(struct mrc_data_container));
-
- printk(BIOS_DEBUG, "Relocate MRC DATA from %p to %p (%u bytes)\n",
- ctrl, mrcdata, output_len);
-
- mrcdata->mrc_signature = MRC_DATA_SIGNATURE;
- mrcdata->mrc_data_size = output_len;
- mrcdata->reserved = 0;
- memcpy(mrcdata->mrc_data, ctrl, sizeof (*ctrl));
-
- /* Zero the unused space in aligned buffer. */
- if (output_len > sizeof (*ctrl))
- memset(mrcdata->mrc_data+sizeof (*ctrl), 0,
- output_len - sizeof (*ctrl));
-
- mrcdata->mrc_checksum = compute_ip_checksum(mrcdata->mrc_data,
- mrcdata->mrc_data_size);
-}
-
-static void restore_timings(ramctr_timing * ctrl)
-{
- int channel, slotrank, lane;
-
- FOR_ALL_POPULATED_CHANNELS
- MCHBAR32(0x4004 + 0x400 * channel) =
- ctrl->tRRD
- | (ctrl->tRTP << 4)
- | (ctrl->tCKE << 8)
- | (ctrl->tWTR << 12)
- | (ctrl->tFAW << 16)
- | (ctrl->tWR << 24)
- | (ctrl->cmd_stretch[channel] << 30);
-
- udelay(1);
-
- FOR_ALL_POPULATED_CHANNELS {
- wait_428c(channel);
- }
-
- FOR_ALL_CHANNELS FOR_ALL_POPULATED_RANKS FOR_ALL_LANES {
- write32(DEFAULT_MCHBAR + 0x4080 + 0x400 * channel
- + 4 * lane, 0);
- }
-
- FOR_ALL_POPULATED_CHANNELS
- write32(DEFAULT_MCHBAR + 0x4008 + 0x400 * channel,
- read32(DEFAULT_MCHBAR + 0x4008 +
- 0x400 * channel) | 0x8000000);
-
- FOR_ALL_POPULATED_CHANNELS {
- udelay (1);
- write32(DEFAULT_MCHBAR + 0x4020 + 0x400 * channel,
- read32(DEFAULT_MCHBAR + 0x4020 +
- 0x400 * channel) | 0x200000);
- }
-
- printram("CPE\n");
-
- write32(DEFAULT_MCHBAR + 0x3400, 0);
- write32(DEFAULT_MCHBAR + 0x4eb0, 0);
-
- printram("CP5b\n");
-
- FOR_ALL_POPULATED_CHANNELS {
- program_timings(ctrl, channel);
- }
-
- u32 reg, addr;
-
- while (!(MCHBAR32(0x5084) & 0x10000)) ;
- do {
- reg = MCHBAR32(0x428c);
- } while ((reg & 0x14) == 0);
-
- // Set state of memory controller
- MCHBAR32(0x5030) = 0x116;
- MCHBAR32(0x4ea0) = 0;
-
- // Wait 500us
- udelay(500);
-
- FOR_ALL_CHANNELS {
- // Set valid rank CKE
- reg = 0;
- reg = (reg & ~0xf) | ctrl->rankmap[channel];
- addr = 0x400 * channel + 0x42a0;
- MCHBAR32(addr) = reg;
-
- // Wait 10ns for ranks to settle
- //udelay(0.01);
-
- reg = (reg & ~0xf0) | (ctrl->rankmap[channel] << 4);
- MCHBAR32(addr) = reg;
-
- // Write reset using a NOP
- write_reset(ctrl);
- }
-
- /* mrs commands. */
- dram_mrscommands(ctrl);
-
- printram("CP5c\n");
-
- write32(DEFAULT_MCHBAR + 0x3000, 0);
-
- FOR_ALL_CHANNELS {
- write32(DEFAULT_MCHBAR + (channel * 0x100) + 0xe3c,
- 0 | (read32(DEFAULT_MCHBAR + (channel * 0x100) + 0xe3c) &
- ~0x3f000000));
- udelay(2);
- }
-
- write32(DEFAULT_MCHBAR + 0x4ea8, 0);
-}
-
-void init_dram_ddr3(spd_raw_data * spds, int mobile, int min_tck,
- int s3resume)
-{
- int me_uma_size;
- int cbmem_was_inited;
-
- MCHBAR32(0x5f00) |= 1;
-
- report_platform_info();
-
- /* Wait for ME to be ready */
- intel_early_me_init();
- me_uma_size = intel_early_me_uma_size();
-
- printk(BIOS_DEBUG, "Starting native Platform init\n");
-
- u32 reg_5d10;
-
- wait_txt_clear();
-
- wrmsr(0x000002e6, (msr_t) { .lo = 0, .hi = 0 });
-
- reg_5d10 = read32(DEFAULT_MCHBAR + 0x5d10); // !!! = 0x00000000
- if ((pcie_read_config16(SOUTHBRIDGE, 0xa2) & 0xa0) == 0x20 /* 0x0004 */
- && reg_5d10 && !s3resume) {
- write32(DEFAULT_MCHBAR + 0x5d10, 0);
- /* Need reset. */
- outb(0x6, 0xcf9);
-
- halt();
- }
-
- ramctr_timing ctrl;
-
- memset(&ctrl, 0, sizeof (ctrl));
-
- early_pch_init_native();
- early_thermal_init();
-
- ctrl.mobile = mobile;
- ctrl.tCK = min_tck;
-
- /* FIXME: for non-S3 we should be able to use timing caching with
- proper verification. Right now we use timings only for S3 case.
- */
- if (s3resume) {
- struct mrc_data_container *mrc_cache;
-
- mrc_cache = find_current_mrc_cache();
- if (!mrc_cache || mrc_cache->mrc_data_size < sizeof (ctrl)) {
- /* Failed S3 resume, reset to come up cleanly */
- outb(0x6, 0xcf9);
- halt();
- }
- memcpy(&ctrl, mrc_cache->mrc_data, sizeof (ctrl));
- }
-
- if (!s3resume) {
- dimm_info info;
-
- /* Get DDR3 SPD data */
- dram_find_spds_ddr3(spds, &info, &ctrl);
-
- /* Find fastest common supported parameters */
- dram_find_common_params(&info, &ctrl);
-
- dram_dimm_mapping(&info, &ctrl);
- }
-
- /* Set MCU frequency */
- dram_freq(&ctrl);
-
- if (!s3resume) {
- /* Calculate timings */
- dram_timing(&ctrl);
- }
-
- /* Set version register */
- MCHBAR32(0x5034) = 0xC04EB002;
-
- /* Enable crossover */
- dram_xover(&ctrl);
-
- /* Set timing and refresh registers */
- dram_timing_regs(&ctrl);
-
- /* Power mode preset */
- MCHBAR32(0x4e80) = 0x5500;
-
- /* Set scheduler parameters */
- MCHBAR32(0x4c20) = 0x10100005;
-
- /* Set cpu specific register */
- set_4f8c();
-
- /* Clear IO reset bit */
- MCHBAR32(0x5030) &= ~0x20;
-
- /* Set MAD-DIMM registers */
- dram_dimm_set_mapping(&ctrl);
- printk(BIOS_DEBUG, "Done dimm mapping\n");
-
- /* Zone config */
- dram_zones(&ctrl, 1);
-
- /* Set memory map */
- dram_memorymap(&ctrl, me_uma_size);
- printk(BIOS_DEBUG, "Done memory map\n");
-
- /* Set IO registers */
- dram_ioregs(&ctrl);
- printk(BIOS_DEBUG, "Done io registers\n");
-
- udelay(1);
-
- if (s3resume) {
- restore_timings(&ctrl);
- } else {
- /* Do jedec ddr3 reset sequence */
- dram_jedecreset(&ctrl);
- printk(BIOS_DEBUG, "Done jedec reset\n");
-
- /* MRS commands */
- dram_mrscommands(&ctrl);
- printk(BIOS_DEBUG, "Done MRS commands\n");
- dram_mrscommands(&ctrl);
-
- /* Prepare for memory training */
- prepare_training(&ctrl);
-
- read_training(&ctrl);
- write_training(&ctrl);
-
- printram("CP5a\n");
-
- discover_edges(&ctrl);
-
- printram("CP5b\n");
-
- command_training(&ctrl);
-
- printram("CP5c\n");
-
- discover_edges_write(&ctrl);
-
- discover_timC_write(&ctrl);
-
- normalize_training(&ctrl);
- }
-
- set_4008c(&ctrl);
-
- write_controller_mr(&ctrl);
-
- if (!s3resume) {
- channel_test(&ctrl);
- }
-
- /* FIXME: should be hardware revision-dependent. */
- write32(DEFAULT_MCHBAR + 0x5024, 0x00a030ce);
-
- set_scrambling_seed(&ctrl);
-
- set_42a0(&ctrl);
-
- final_registers(&ctrl);
-
- /* Zone config */
- dram_zones(&ctrl, 0);
-
- if (!s3resume)
- quick_ram_check();
-
- intel_early_me_status();
- intel_early_me_init_done(ME_INIT_STATUS_SUCCESS);
- intel_early_me_status();
-
- post_system_agent_init();
- report_memory_config();
-
- cbmem_was_inited = !cbmem_recovery(s3resume);
- if (!s3resume)
- save_timings(&ctrl);
- if (s3resume && !cbmem_was_inited) {
- /* Failed S3 resume, reset to come up cleanly */
- outb(0x6, 0xcf9);
- halt();
- }
-}
diff --git a/src/northbridge/intel/sandybridge/romstage_native.c b/src/northbridge/intel/sandybridge/romstage.c
index a18c480d3c..a18c480d3c 100644
--- a/src/northbridge/intel/sandybridge/romstage_native.c
+++ b/src/northbridge/intel/sandybridge/romstage.c