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authorDamien Zammit <damien@zamaudio.com>2015-11-20 17:17:51 +1100
committerStefan Reinauer <stefan.reinauer@coreboot.org>2015-12-02 00:26:45 +0100
commit003d15cab43fe34f1916d6f3877f2a6f2b8f6e25 (patch)
tree486096f720924c8660995b1d95b42c156216095e
parentf7060f1d0f72bab5b349846bc97784895643cf50 (diff)
northbridge/intel/pineview: Add native raminit
Does native ram init for Intel Atom D5xx 8086:a000 northbridge Tested on Intel D510MO mainboard, board boots linux kernel - Works fully with both dimms populated (2x2GB), memtest passes 100% - Almost boots with only one dimm in one of the slots (suspect bad memory map with one dimm?) - Reads garbage with only one dimm in other slot Change-Id: Ibd22be2a959045e0a83aae2a3a0e877013f80711 Signed-off-by: Damien Zammit <damien@zamaudio.com> Reviewed-on: https://review.coreboot.org/12501 Tested-by: build bot (Jenkins) Reviewed-by: Alexandru Gagniuc <mr.nuke.me@gmail.com>
-rw-r--r--src/northbridge/intel/pineview/Makefile.inc1
-rw-r--r--src/northbridge/intel/pineview/raminit.c2654
-rw-r--r--src/northbridge/intel/pineview/raminit.h22
3 files changed, 2677 insertions, 0 deletions
diff --git a/src/northbridge/intel/pineview/Makefile.inc b/src/northbridge/intel/pineview/Makefile.inc
index 07a6a8022c..f63018a94c 100644
--- a/src/northbridge/intel/pineview/Makefile.inc
+++ b/src/northbridge/intel/pineview/Makefile.inc
@@ -21,6 +21,7 @@ ramstage-y += northbridge.c
ramstage-y += acpi.c
romstage-y += ram_calc.c
+romstage-y += raminit.c
romstage-y += early_init.c
endif
diff --git a/src/northbridge/intel/pineview/raminit.c b/src/northbridge/intel/pineview/raminit.c
new file mode 100644
index 0000000000..a80aeacf8e
--- /dev/null
+++ b/src/northbridge/intel/pineview/raminit.c
@@ -0,0 +1,2654 @@
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2015 Damien Zammit <damien@zamaudio.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; either version 2 of
+ * the License, or (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ */
+
+#include <arch/io.h>
+#include <cbmem.h>
+#include <console/console.h>
+#include <cpu/x86/cache.h>
+#include <cpu/x86/mtrr.h>
+#include <delay.h>
+#include <halt.h>
+#include <lib.h>
+#include "pineview.h"
+#include "raminit.h"
+#include <pc80/mc146818rtc.h>
+#include <spd.h>
+#include <string.h>
+
+/* Debugging macros. */
+#if CONFIG_DEBUG_RAM_SETUP
+#define PRINTK_DEBUG(x...) printk(BIOS_DEBUG, x)
+#else
+#define PRINTK_DEBUG(x...)
+#endif
+
+#define MAX_TCLK_667 0x30
+#define MAX_TCLK_800 0x25
+#define MAX_TAC_667 0x45
+#define MAX_TAC_800 0x40
+
+#define NOP_CMD (1 << 1)
+#define PRE_CHARGE_CMD (1 << 2)
+#define MRS_CMD ((1 << 2) | (1 << 1))
+#define EMRS_CMD (1 << 3)
+#define EMRS1_CMD (EMRS_CMD | (1 << 4))
+#define EMRS2_CMD (EMRS_CMD | (1 << 5))
+#define EMRS3_CMD (EMRS_CMD | (1 << 5) | (1 << 4))
+#define ZQCAL_CMD ((1 << 3) | (1 << 1))
+#define CBR_CMD ((1 << 3) | (1 << 2))
+#define NORMAL_OP_CMD ((1 << 3) | (1 << 2) | (1 << 1))
+
+#define UBDIMM 1
+#define SODIMM 2
+
+#define TOTAL_CHANNELS 1
+#define TOTAL_DIMMS 2
+
+#define DIMM_IS_POPULATED(dimms, idx) (dimms[idx].card_type != 0)
+#define IF_DIMM_POPULATED(dimms, idx) if (dimms[idx].card_type != 0)
+#define ONLY_DIMMA_IS_POPULATED(dimms, ch) ( \
+ (DIMM_IS_POPULATED(dimms, (ch == 0) ? 0 : 2) && \
+ !DIMM_IS_POPULATED(dimms, (ch == 0) ? 1 : 3)))
+#define ONLY_DIMMB_IS_POPULATED(dimms, ch) ( \
+ (DIMM_IS_POPULATED(dimms, (ch == 0) ? 1 : 3) && \
+ !DIMM_IS_POPULATED(dimms, (ch == 0) ? 0 : 2)))
+#define BOTH_DIMMS_ARE_POPULATED(dimms, ch) ( \
+ (DIMM_IS_POPULATED(dimms, (ch == 0) ? 0 : 2) && \
+ (DIMM_IS_POPULATED(dimms, (ch == 0) ? 1 : 3))))
+#define FOR_EACH_DIMM(idx) \
+ for (idx = 0; idx < TOTAL_DIMMS; ++idx)
+#define FOR_EACH_POPULATED_DIMM(dimms, idx) \
+ FOR_EACH_DIMM(idx) IF_DIMM_POPULATED(dimms, idx)
+#define CHANNEL_IS_POPULATED(dimms, idx) ((dimms[idx<<1].card_type != 0) || (dimms[(idx<<1) + 1].card_type != 0))
+#define CHANNEL_IS_CARDF(dimms, idx) ((dimms[idx<<1].card_type == 0xf) || (dimms[(idx<<1) + 1].card_type == 0xf))
+#define IF_CHANNEL_POPULATED(dimms, idx) if ((dimms[idx<<1].card_type != 0) || (dimms[(idx<<1) + 1].card_type != 0))
+#define FOR_EACH_CHANNEL(idx) \
+ for (idx = 0; idx < TOTAL_CHANNELS; ++idx)
+#define FOR_EACH_POPULATED_CHANNEL(dimms, idx) \
+ FOR_EACH_CHANNEL(idx) IF_CHANNEL_POPULATED(dimms, idx)
+
+#define RANKS_PER_CHANNEL 4
+
+#define FOR_EACH_RANK_IN_CHANNEL(r) \
+ for (r = 0; r < RANKS_PER_CHANNEL; ++r)
+#define FOR_EACH_POPULATED_RANK_IN_CHANNEL(dimms, ch, r) \
+ FOR_EACH_RANK_IN_CHANNEL(r) if (rank_is_populated(dimms, ch, r))
+#define FOR_EACH_RANK(ch, r) \
+ FOR_EACH_CHANNEL(ch) FOR_EACH_RANK_IN_CHANNEL(r)
+#define FOR_EACH_POPULATED_RANK(dimms, ch, r) \
+ FOR_EACH_RANK(ch, r) if (rank_is_populated(dimms, ch, r))
+
+static bool rank_is_populated(struct dimminfo dimms[], u8 ch, u8 r)
+{
+ return ((dimms[ch<<1].card_type && ((r) < dimms[ch<<1].ranks))
+ || (dimms[(ch<<1) + 1].card_type
+ && ((r) >= 2)
+ && ((r) < (dimms[(ch<<1) + 1].ranks + 2))));
+}
+
+static inline void barrier(void)
+{
+ __asm__ __volatile__("": : :"memory");
+}
+
+static inline int spd_read_byte(unsigned device, unsigned address)
+{
+ return smbus_read_byte(device, address);
+}
+
+static int decode_spd(struct dimminfo *d)
+{
+ d->type = 0;
+ if (d->spd_data[20] == 0x2) {
+ d->type = UBDIMM;
+ } else if (d->spd_data[20] == 0x4) {
+ d->type = SODIMM;
+ }
+ d->sides = (d->spd_data[5] & 0x7) + 1;
+ d->banks = (d->spd_data[17] >> 2) - 1;
+ d->chip_capacity = d->banks;
+ d->rows = d->spd_data[3];// - 12;
+ d->cols = d->spd_data[4];// - 9;
+ d->cas_latencies = 0x78;
+ d->cas_latencies &= d->spd_data[18];
+ if (d->cas_latencies == 0)
+ d->cas_latencies = 7;
+ d->tAAmin = d->spd_data[26];
+ d->tCKmin = d->spd_data[25];
+ d->width = (d->spd_data[13] >> 3) - 1;
+ d->page_size = (d->width+1) * (1 << d->cols); // Bytes
+ d->tRAS = d->spd_data[30];
+ d->tRP = d->spd_data[27];
+ d->tRCD = d->spd_data[29];
+ d->tWR = d->spd_data[36];
+ d->ranks = d->sides; // XXX
+#if CONFIG_DEBUG_RAM_SETUP
+ const char *ubso[] = { {"UB"}, {"SO"} };
+#endif
+ PRINTK_DEBUG("%s-DIMM %d\n", &ubso[d->type][0], i);
+ PRINTK_DEBUG(" Sides : %d\n", d->sides);
+ PRINTK_DEBUG(" Banks : %d\n", d->banks);
+ PRINTK_DEBUG(" Ranks : %d\n", d->ranks);
+ PRINTK_DEBUG(" Rows : %d\n", d->rows);
+ PRINTK_DEBUG(" Cols : %d\n", d->cols);
+ PRINTK_DEBUG(" Page size : %d\n", d->page_size);
+ PRINTK_DEBUG(" Width : %d\n", (d->width + 1) * 8);
+
+ return 0;
+}
+
+/* Ram Config: DIMMB-DIMMA
+ * 0 EMPTY-EMPTY
+ * 1 EMPTY-x16SS
+ * 2 EMPTY-x16DS
+ * 3 x16SS-x16SS
+ * 4 x16DS-x16DS
+ * 5 EMPTY- x8DS
+ * 6 x8DS - x8DS
+ */
+static void find_ramconfig(struct sysinfo *s, u32 chan)
+{
+ if (s->dimms[chan>>1].sides == 0) {
+ // NC
+ if (s->dimms[(chan>>1) + 1].sides == 0) {
+ // NC/NC
+ s->dimm_config[chan] = 0;
+ } else if (s->dimms[(chan>>1) + 1].sides == 1) {
+ // NC/SS
+ if (s->dimms[(chan>>1) + 1].width == 0) {
+ // NC/8SS
+ s->dimm_config[chan] = 1;
+ } else {
+ // NC/16SS
+ s->dimm_config[chan] = 1;
+ }
+ } else {
+ // NC/DS
+ if (s->dimms[(chan>>1) + 1].width == 0) {
+ // NC/8DS
+ s->dimm_config[chan] = 5;
+ } else {
+ // NC/16DS
+ s->dimm_config[chan] = 2;
+ }
+ }
+ } else if (s->dimms[chan>>1].sides == 1) {
+ // SS
+ if (s->dimms[(chan>>1) + 1].sides == 0) {
+ // SS/NC
+ if (s->dimms[chan>>1].width == 0) {
+ // 8SS/NC
+ s->dimm_config[chan] = 1;
+ } else {
+ // 16SS/NC
+ s->dimm_config[chan] = 1;
+ }
+ } else if (s->dimms[(chan>>1) + 1].sides == 1) {
+ // SS/SS
+ if (s->dimms[chan>>1].width == 0) {
+ if (s->dimms[(chan>>1) + 1].width == 0) {
+ // 8SS/8SS
+ s->dimm_config[chan] = 3;
+ } else {
+ // 8SS/16SS
+ die("Mixed Not supported\n");
+ }
+ } else {
+ if (s->dimms[(chan>>1) + 1].width == 0) {
+ // 16SS/8SS
+ die("Mixed Not supported\n");
+ } else {
+ // 16SS/16SS
+ s->dimm_config[chan] = 3;
+ }
+ }
+ } else {
+ // SS/DS
+ if (s->dimms[chan>>1].width == 0) {
+ if (s->dimms[(chan>>1) + 1].width == 0) {
+ // 8SS/8DS
+ die("Mixed Not supported\n");
+ } else {
+ die("Mixed Not supported\n");
+ }
+ } else {
+ if (s->dimms[(chan>>1) + 1].width == 0) {
+ // 16SS/8DS
+ die("Mixed Not supported\n");
+ } else {
+ die("Mixed Not supported\n");
+ }
+ }
+ }
+ } else {
+ // DS
+ if (s->dimms[(chan>>1) + 1].sides == 0) {
+ // DS/NC
+ if (s->dimms[chan>>1].width == 0) {
+ // 8DS/NC
+ s->dimm_config[chan] = 5;
+ } else {
+ s->dimm_config[chan] = 4;
+ }
+ } else if (s->dimms[(chan>>1) + 1].sides == 1) {
+ // DS/SS
+ if (s->dimms[chan>>1].width == 0) {
+ if (s->dimms[(chan>>1) + 1].width == 0) {
+ // 8DS/8SS
+ die("Mixed Not supported\n");
+ } else {
+ // 8DS/16SS
+ die("Mixed Not supported\n");
+ }
+ } else {
+ if (s->dimms[(chan>>1) + 1].width == 0) {
+ die("Mixed Not supported\n");
+ } else {
+ // 16DS/16DS
+ s->dimm_config[chan] = 4;
+ }
+ }
+ } else {
+ // DS/DS
+ if (s->dimms[chan>>1].width == 0 && s->dimms[(chan>>1)+1].width == 0) {
+ // 8DS/8DS
+ s->dimm_config[chan] = 6;
+ }
+ }
+ }
+}
+
+static void sdram_read_spds(struct sysinfo *s)
+{
+ u8 i, j, chan;
+ int status = 0;
+ s->dt0mode = 0;
+ FOR_EACH_DIMM(i) {
+ for (j = 0; j < 64; j++) {
+ status = spd_read_byte(s->spd_map[i], j);
+ if (status < 0) {
+ s->dimms[i].card_type = 0;
+ break;
+ }
+ s->dimms[i].spd_data[j] = (u8) status;
+ if (j == 62)
+ s->dimms[i].card_type = ((u8) status) & 0x1f;
+ }
+ hexdump(s->dimms[i].spd_data, 64);
+ }
+
+ s->spd_type = 0;
+ FOR_EACH_POPULATED_DIMM(s->dimms, i) {
+ switch (s->dimms[i].spd_data[2]) {
+ case 0x8:
+ s->spd_type = DDR2;
+ break;
+ case 0xb:
+ default:
+ die("DIMM type mismatch\n");
+ break;
+ }
+ }
+
+ int err = 1;
+ FOR_EACH_POPULATED_DIMM(s->dimms, i) {
+ err = decode_spd(&s->dimms[i]);
+ s->dt0mode |= (s->dimms[i].spd_data[49] & 0x2) >> 1;
+ }
+ if (err) {
+ die("No memory dimms, halt\n");
+ }
+
+ FOR_EACH_POPULATED_CHANNEL(s->dimms, chan) {
+ find_ramconfig(s, chan);
+ PRINTK_DEBUG(" Config[CH%d] : %d\n",
+ chan, s->dimm_config[chan]);
+ }
+}
+
+#if CONFIG_DEBUG_RAM_SETUP
+static u32 fsb_reg_to_mhz(u32 speed)
+{
+ return (speed * 133) + 667;
+}
+
+static u32 ddr_reg_to_mhz(u32 speed)
+{
+ u32 mhz;
+ mhz = (speed == 0) ? 667 :
+ (speed == 1) ? 800 :
+ 0;
+ return mhz;
+}
+#endif
+
+static u8 lsbpos(u8 val) //Forward
+{
+ u8 i;
+ for (i = 0; (i < 8) && ((val & (1 << i)) == 0); i++);
+ return i;
+}
+
+static u8 msbpos(u8 val) //Reverse
+{
+ u8 i;
+ for (i = 7; (i >= 0) && ((val & (1 << i)) == 0); i--);
+ return i;
+}
+
+static void sdram_detect_smallest_params(struct sysinfo *s)
+{
+ u16 mult[6] = {
+ 3000, // 667
+ 2500, // 800
+ };
+
+ u8 i;
+ u32 tmp;
+ u32 maxtras = 0;
+ u32 maxtrp = 0;
+ u32 maxtrcd = 0;
+ u32 maxtwr = 0;
+ u32 maxtrfc = 0;
+ u32 maxtwtr = 0;
+ u32 maxtrrd = 0;
+ u32 maxtrtp = 0;
+
+ FOR_EACH_POPULATED_DIMM(s->dimms, i) {
+ maxtras = max(maxtras, s->dimms[i].spd_data[30] * 1000);
+ maxtrp = max(maxtrp, (s->dimms[i].spd_data[27] * 1000) >> 2);
+ maxtrcd = max(maxtrcd, (s->dimms[i].spd_data[29] * 1000) >> 2);
+ maxtwr = max(maxtwr, (s->dimms[i].spd_data[36] * 1000) >> 2);
+ maxtrfc = max(maxtrfc, s->dimms[i].spd_data[42] * 1000 +
+ (s->dimms[i].spd_data[40] & 0xf));
+ maxtwtr = max(maxtwtr, (s->dimms[i].spd_data[37] * 1000) >> 2);
+ maxtrrd = max(maxtrrd, (s->dimms[i].spd_data[28] * 1000) >> 2);
+ maxtrtp = max(maxtrtp, (s->dimms[i].spd_data[38] * 1000) >> 2);
+ }
+ for (i = 9; i < 24; i++) { // 16
+ tmp = mult[s->selected_timings.mem_clock] * i;
+ if (tmp >= maxtras) {
+ s->selected_timings.tRAS = i;
+ break;
+ }
+ }
+ for (i = 3; i < 10; i++) {
+ tmp = mult[s->selected_timings.mem_clock] * i;
+ if (tmp >= maxtrp) {
+ s->selected_timings.tRP = i;
+ break;
+ }
+ }
+ for (i = 3; i < 10; i++) {
+ tmp = mult[s->selected_timings.mem_clock] * i;
+ if (tmp >= maxtrcd) {
+ s->selected_timings.tRCD = i;
+ break;
+ }
+ }
+ for (i = 3; i < 15; i++) {
+ tmp = mult[s->selected_timings.mem_clock] * i;
+ if (tmp >= maxtwr) {
+ s->selected_timings.tWR = i;
+ break;
+ }
+ }
+ for (i = 15; i < 78; i++) {
+ tmp = mult[s->selected_timings.mem_clock] * i;
+ if (tmp >= maxtrfc) {
+ s->selected_timings.tRFC = ((i + 16) & 0xfe) - 15;
+ break;
+ }
+ }
+ for (i = 4; i < 15; i++) {
+ tmp = mult[s->selected_timings.mem_clock] * i;
+ if (tmp >= maxtwtr) {
+ s->selected_timings.tWTR = i;
+ break;
+ }
+ }
+ for (i = 2; i < 15; i++) {
+ tmp = mult[s->selected_timings.mem_clock] * i;
+ if (tmp >= maxtrrd) {
+ s->selected_timings.tRRD = i;
+ break;
+ }
+ }
+ for (i = 4; i < 15; i++) {
+ tmp = mult[s->selected_timings.mem_clock] * i;
+ if (tmp >= maxtrtp) {
+ s->selected_timings.tRTP = i;
+ break;
+ }
+ }
+
+ PRINTK_DEBUG("Selected timings:\n");
+ PRINTK_DEBUG("\tFSB: %dMHz\n", fsb_reg_to_mhz(s->selected_timings.fsb_clock));
+ PRINTK_DEBUG("\tDDR: %dMHz\n", ddr_reg_to_mhz(s->selected_timings.mem_clock));
+
+ PRINTK_DEBUG("\tCAS: %d\n", s->selected_timings.CAS);
+ PRINTK_DEBUG("\ttRAS: %d\n", s->selected_timings.tRAS);
+ PRINTK_DEBUG("\ttRP: %d\n", s->selected_timings.tRP);
+ PRINTK_DEBUG("\ttRCD: %d\n", s->selected_timings.tRCD);
+ PRINTK_DEBUG("\ttWR: %d\n", s->selected_timings.tWR);
+ PRINTK_DEBUG("\ttRFC: %d\n", s->selected_timings.tRFC);
+ PRINTK_DEBUG("\ttWTR: %d\n", s->selected_timings.tWTR);
+ PRINTK_DEBUG("\ttRRD: %d\n", s->selected_timings.tRRD);
+ PRINTK_DEBUG("\ttRTP: %d\n", s->selected_timings.tRTP);
+}
+
+static void sdram_detect_ram_speed(struct sysinfo *s)
+{
+ u8 cas, reg8;
+ u32 reg32;
+ u32 freq = 0;
+ u32 fsb = 0;
+ u8 i;
+ u8 commoncas = 0;
+ u8 highcas = 0;
+ u8 lowcas = 0;
+
+ // Core frequency
+ fsb = (pci_read_config8(PCI_DEV(0,0,0), 0xe3) & 0x70) >> 4;
+ if (fsb) {
+ fsb = 5 - fsb;
+ } else {
+ fsb = FSB_CLOCK_800MHz;
+ }
+
+ // DDR frequency
+ freq = (pci_read_config8(PCI_DEV(0,0,0), 0xe3) & 0x80) >> 7;
+ freq |= (pci_read_config8(PCI_DEV(0,0,0), 0xe4) & 0x3) << 1;
+ if (freq) {
+ freq = 6 - freq;
+ } else {
+ freq = MEM_CLOCK_800MHz;
+ }
+
+ // Detect a common CAS latency
+ commoncas = 0xff;
+ FOR_EACH_POPULATED_DIMM(s->dimms, i) {
+ commoncas &= s->dimms[i].spd_data[18];
+ }
+ if (commoncas == 0) {
+ die("No common CAS among dimms\n");
+ }
+
+ // Start with fastest common CAS
+ cas = 0;
+ highcas = msbpos(commoncas);
+ lowcas = max(lsbpos(commoncas), 5);
+
+ while (cas == 0 && highcas >= lowcas) {
+ FOR_EACH_POPULATED_DIMM(s->dimms, i) {
+ switch (freq) {
+ case MEM_CLOCK_800MHz:
+ if ((s->dimms[i].spd_data[9] > 0x25) ||
+ (s->dimms[i].spd_data[10] > 0x40)) {
+ // CAS too fast, lower it
+ highcas--;
+ break;
+ } else {
+ cas = highcas;
+ }
+ break;
+ case MEM_CLOCK_667MHz:
+ default:
+ if ((s->dimms[i].spd_data[9] > 0x30) ||
+ (s->dimms[i].spd_data[10] > 0x45)) {
+ // CAS too fast, lower it
+ highcas--;
+ break;
+ } else {
+ cas = highcas;
+ }
+ break;
+ }
+ }
+ }
+ if (highcas < lowcas) {
+ // Timings not supported by MCH, lower the frequency
+ if(freq == MEM_CLOCK_800MHz) {
+ freq--;
+ PRINTK_DEBUG("Run DDR clock speed reduced due to timings\n");
+ } else {
+ die("Timings not supported by MCH\n");
+ }
+ cas = 0;
+ highcas = msbpos(commoncas);
+ lowcas = lsbpos(commoncas);
+ while (cas == 0 && highcas >= lowcas) {
+ FOR_EACH_POPULATED_DIMM(s->dimms, i) {
+ switch (freq) {
+ case MEM_CLOCK_800MHz:
+ if ((s->dimms[i].spd_data[9] > 0x25) ||
+ (s->dimms[i].spd_data[10] > 0x40)) {
+ // CAS too fast, lower it
+ highcas--;
+ break;
+ } else {
+ cas = highcas;
+ }
+ break;
+ case MEM_CLOCK_667MHz:
+ default:
+ if ((s->dimms[i].spd_data[9] > 0x30) ||
+ (s->dimms[i].spd_data[10] > 0x45)) {
+ // CAS too fast, lower it
+ highcas--;
+ break;
+ } else {
+ cas = highcas;
+ }
+ break;
+ }
+ }
+ }
+ if (cas == 0) {
+ die("Unsupported dimms\n");
+ }
+ }
+
+ s->selected_timings.CAS = cas;
+ s->selected_timings.mem_clock = freq;
+ s->selected_timings.fsb_clock = fsb;
+
+ PRINTK_DEBUG("Drive Memory at %dMHz with CAS = %d clocks\n", ddr_reg_to_mhz(s->selected_timings.mem_clock), s->selected_timings.CAS);
+
+ // Set memory frequency
+ MCHBAR32(0xf14) = MCHBAR32(0xf14) | 0x1;
+ reg32 = (MCHBAR32(0xc00) & (~0x70)) | (1 << 10);
+ if (s->selected_timings.mem_clock == MEM_CLOCK_800MHz) {
+ reg8 = 3;
+ } else {
+ reg8 = 2;
+ }
+ reg32 |= reg8 << 4;
+ MCHBAR32(0xc00) = reg32;
+ s->selected_timings.mem_clock = ((MCHBAR32(0xc00) >> 4) & 0x7) - 2;
+ if (s->selected_timings.mem_clock == MEM_CLOCK_800MHz) {
+ PRINTK_DEBUG("MCH validated at 800MHz\n");
+ s->nodll = 0;
+ s->maxpi = 63;
+ s->pioffset = 0;
+ } else if (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) {
+ PRINTK_DEBUG("MCH validated at 667MHz\n");
+ s->nodll = 1;
+ s->maxpi = 15;
+ s->pioffset = 1;
+ } else {
+ PRINTK_DEBUG("MCH set to unknown (%02x)\n",
+ (uint8_t) s->selected_timings.mem_clock & 0xff);
+ }
+}
+
+#define HPET_BASE 0xfed00000
+#define HPET32(x) *((volatile u32 *)(HPET_BASE + x))
+static void enable_hpet(void)
+{
+ u32 reg32;
+ reg32 = RCBA32(0x3404);
+ reg32 &= ~0x3;
+ reg32 |= (1 << 7);
+ RCBA32(0x3404) = reg32;
+ HPET32(0x10) = HPET32(0x10) | 1;
+}
+
+static void sdram_clk_crossing(struct sysinfo *s)
+{
+ u8 clk_idx, fsb_idx;
+ const u32 clkcross[2][2][4] = {
+ {
+ {0xFFFFFFFF, 0x05030305, 0x0000FFFF, 0x00000000}, //667 667
+ {0x1F1F1F1F, 0x2A1F1FA5, 0x00000000, 0x05000002}, //667 800
+ },
+ {
+ {0x1F1F1F1F, 0x0D07070B, 0x00000000, 0x00000000}, //800 667
+ {0xFFFFFFFF, 0x05030305, 0x0000FFFF, 0x00000000}, //800 800
+ }
+ };
+ clk_idx = s->selected_timings.mem_clock;
+ fsb_idx = s->selected_timings.fsb_clock;
+
+ MCHBAR32(0xc04) = clkcross[fsb_idx][clk_idx][0];
+ MCHBAR32(0xc50) = clkcross[fsb_idx][clk_idx][1];
+ MCHBAR32(0xc54) = clkcross[fsb_idx][clk_idx][2];
+ MCHBAR32(0xc28) = 0;
+ MCHBAR32(0xc2c) = clkcross[fsb_idx][clk_idx][3];
+ MCHBAR32(0xc08) = MCHBAR32(0xc08) | (1 << 7);
+
+ if ((fsb_idx == 0) && (clk_idx == 1)) {
+ MCHBAR8(0x6d4) = 0;
+ MCHBAR32(0x700) = 0;
+ MCHBAR32(0x704) = 0;
+ }
+
+ const u32 clkcross2[2][2][8] = {
+ {
+ { 0, 0x08010204, 0, 0x08010204, 0, 0, 0, 0x04080102}, // 667 667
+ { 0x04080000, 0x10010002, 0x10000000, 0x20010208, 0, 0x00000004, 0x02040000, 0x08100102}, // 667 800
+ },
+ {
+ { 0x10000000, 0x20010208, 0x04080000, 0x10010002, 0, 0, 0x08000000, 0x10200204}, // 800 667
+ { 0x00000000, 0x08010204, 0, 0x08010204, 0, 0, 0, 0x04080102}, // 800 800
+ }
+ };
+
+ MCHBAR32(0x6d8) = clkcross2[fsb_idx][clk_idx][0];
+ MCHBAR32(0x6e0) = clkcross2[fsb_idx][clk_idx][0];
+ MCHBAR32(0x6e8) = clkcross2[fsb_idx][clk_idx][0];
+ MCHBAR32(0x6d8+4) = clkcross2[fsb_idx][clk_idx][1];
+ MCHBAR32(0x6e0+4) = clkcross2[fsb_idx][clk_idx][1];
+ MCHBAR32(0x6e8+4) = clkcross2[fsb_idx][clk_idx][1];
+ MCHBAR32(0x6f0) = clkcross2[fsb_idx][clk_idx][2];
+ MCHBAR32(0x6f4) = clkcross2[fsb_idx][clk_idx][3];
+ MCHBAR32(0x6f8) = clkcross2[fsb_idx][clk_idx][4];
+ MCHBAR32(0x6fc) = clkcross2[fsb_idx][clk_idx][5];
+ MCHBAR32(0x708) = clkcross2[fsb_idx][clk_idx][6];
+ MCHBAR32(0x70c) = clkcross2[fsb_idx][clk_idx][7];
+}
+
+static void sdram_clkmode(struct sysinfo *s)
+{
+ u8 reg8;
+ u16 reg16;
+
+ MCHBAR16(0x1b6) = MCHBAR16(0x1b6) & ~(1 << 8);
+ MCHBAR8(0x1b6) = MCHBAR8(0x1b6) & ~0x3f;
+
+ if (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) {
+ reg8 = 0;
+ reg16 = 1;
+ } else {
+ reg8 = 1;
+ reg16 = (1 << 8) | (1 << 5);
+ }
+ MCHBAR16(0x1c0) = (MCHBAR16(0x1c0) & ~(0x033f)) | reg16;
+
+ MCHBAR32(0x220) = 0x58001117;
+ MCHBAR32(0x248) = (MCHBAR32(0x248) | (1 << 23));
+
+ const u32 cas_to_reg[2][4] = {
+ {0x00000000, 0x00030100, 0x0C240201, 0x00000000}, // 667
+ {0x00000000, 0x00030100, 0x0C240201, 0x10450302} // 800
+ };
+
+ MCHBAR32(0x224) = cas_to_reg[reg8][s->selected_timings.CAS - 3];
+}
+
+static void sdram_timings(struct sysinfo *s)
+{
+ u8 i, j, ch, r, ta1, ta2, ta3, ta4, trp, bank, page, flag;
+ u8 reg8, wl;
+ u16 reg16;
+ u32 reg32, reg2;
+ u8 pagetab[2][2] = {{0xe, 0x12}, {0x10, 0x14}};
+
+ // Only consider DDR2
+ wl = s->selected_timings.CAS - 1;
+ ta1 = ta2 = 6;
+ ta3 = s->selected_timings.CAS;
+ ta4 = 8;
+ s->selected_timings.tRFC = (s->selected_timings.tRFC + 1) & 0xfe;
+ trp = 0;
+ bank = 1;
+ page = 0;
+
+ MCHBAR8(0x240) = ((wl - 3) << 4) | (s->selected_timings.CAS - 3);
+
+ FOR_EACH_POPULATED_RANK(s->dimms, ch, r) {
+ i = ch << 1;
+ if (s->dimms[i].banks == 1) {
+ trp = 1;
+ bank = 0;
+ }
+ if (s->dimms[i].page_size == 2048) {
+ page = 1;
+ }
+ }
+ PRINTK_DEBUG("trp=%d bank=%d page=%d\n",trp, bank, page);
+
+ if (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) {
+ flag = 0;
+ } else {
+ flag = 1;
+ }
+
+ MCHBAR8(0x26f) = MCHBAR8(0x26f) | 0x3;
+ MCHBAR16(0x250) = ((wl + 4 + s->selected_timings.tWR) << 6) |
+ ((2 + MAX(s->selected_timings.tRTP, 2)) << 2) | 1;
+ reg32 = (bank << 21) | (s->selected_timings.tRRD << 17) |
+ (s->selected_timings.tRP << 13) |
+ ((s->selected_timings.tRP + trp) << 9) |
+ s->selected_timings.tRFC;
+ if (bank == 0) {
+ reg32 |= (pagetab[flag][page] << 22);
+ }
+ MCHBAR16(0x252) = (u16) reg32;
+ MCHBAR16(0x254) = (u16) (reg32 >> 16);
+
+ reg16 = (MCHBAR16(0x254) & 0xfc0) >> 6;
+ MCHBAR16(0x62c) = (MCHBAR16(0x62c) & ~0x1f80) | (reg16 << 7);
+
+ reg16 = (s->selected_timings.tRCD << 12) | (4 << 8) | (ta2 << 4) | ta4;
+ MCHBAR16(0x256) = reg16;
+
+ reg32 = (s->selected_timings.tRCD << 17) |
+ ((wl + 4 + s->selected_timings.tWTR) << 12) |
+ (ta3 << 8) | (4 << 4) | ta1;
+ MCHBAR32(0x258) = reg32;
+
+ reg16 = ((s->selected_timings.tRP + trp) << 9) |
+ s->selected_timings.tRFC;
+ MCHBAR8(0x25b) = (u8) reg16;
+ MCHBAR8(0x25c) = (u8) (reg16 >> 8);
+
+ MCHBAR16(0x260) = (MCHBAR16(0x260) & ~0x3fe) | (100 << 1);
+ MCHBAR8(0x25d) = (MCHBAR8(0x25d) & ~0x3f) | s->selected_timings.tRAS;
+ MCHBAR16(0x244) = 0x2310;
+
+ MCHBAR8(0x246) = (MCHBAR8(0x246) & ~0x1f) | 1;
+
+ if (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) {
+ reg32 = 3000;
+ } else {
+ reg32 = 2500;
+ }
+ if (s->selected_timings.fsb_clock == FSB_CLOCK_667MHz) {
+ reg2 = 6000;
+ } else {
+ reg2 = 5000;
+ }
+ reg16 = (u16)((((s->selected_timings.CAS + 7)*(reg32)) / reg2) << 8);
+ MCHBAR16(0x248) = (MCHBAR16(0x248) & ~0x1f00) | reg16;
+
+ flag = 0;
+ if (wl > 2) {
+ flag = 1;
+ }
+ reg16 = (u8) (wl - 1 - flag);
+ reg16 |= reg16 << 4;
+ reg16 |= flag << 8;
+ MCHBAR16(0x24d) = (MCHBAR16(0x24d) & ~0x1ff) | reg16;
+
+ MCHBAR16(0x25e) = 0x1585;
+ MCHBAR8(0x265) = MCHBAR8(0x265) & ~0x1f;
+ MCHBAR16(0x265) = (MCHBAR16(0x265) & ~0x3f00) |
+ ((s->selected_timings.CAS + 9) << 8);
+
+ if (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) {
+ reg16 = 0x514;
+ reg32 = 0xa28;
+ } else {
+ reg16 = 0x618;
+ reg32 = 0xc30;
+ }
+ MCHBAR32(0x268) = (MCHBAR32(0x268) & ~0xfffff00) |
+ (0x3f << 22) | (reg32 << 8);
+ MCHBAR8(0x26c) = 0x00;
+ MCHBAR16(0x2b8) = (MCHBAR16(0x2b8) & 0xc000) | reg16;
+ MCHBAR8(0x274) = MCHBAR8(0x274) | 1;
+
+ MCHBAR32(0x248) = (MCHBAR32(0x248) & ~0x7f000000) | (0xb << 25);
+ i = s->selected_timings.mem_clock;
+ j = s->selected_timings.fsb_clock;
+ if (i > j) {
+ MCHBAR32(0x248) = MCHBAR32(0x248) | (1 << 24);
+ }
+
+ MCHBAR8(0x24c) = MCHBAR8(0x24c) & ~0x3;
+ MCHBAR16(0x24d) = (MCHBAR16(0x24d) & ~0x7c00) | ((wl + 10) << 10);
+ MCHBAR32(0x260) = (MCHBAR32(0x260) & ~0x70e0000) | (3 << 24) | (3 << 17);
+ reg16 = 0x15 << 6;
+ reg16 |= 0x1f;
+ reg16 |= (0x6 << 12);
+ MCHBAR16(0x26d) = (MCHBAR16(0x26d) & ~0x7fff) | reg16;
+
+ reg32 = (0x6 << 27) | (1 << 25);
+ MCHBAR32(0x268) = (MCHBAR32(0x268) & ~0x30000000) | ((u32)(reg32 << 8));
+ MCHBAR8(0x26c) = (MCHBAR8(0x26c) & ~0xfa) | ((u8)(reg32 >> 24));
+ MCHBAR8(0x271) = MCHBAR8(0x271) & ~(1 << 7);
+ MCHBAR8(0x274) = MCHBAR8(0x274) & ~0x6;
+ reg32 = (u32) ((6 << 30) | (4 << 25) | (1 << 20) | (8 << 15) |
+ (6 << 10) | (4 << 5) | 1);
+ MCHBAR32(0x278) = reg32;
+
+ MCHBAR16(0x27c) = (MCHBAR16(0x27c) & ~0x1ff) | (8 << 3) | (6 >> 2);
+ MCHBAR16(0x125) = MCHBAR16(0x125) | 0x1c00 | (0x1f << 5);
+ MCHBAR8(0x127) = (MCHBAR8(0x127) & ~0xff) | 0x40;
+ MCHBAR8(0x128) = (MCHBAR8(0x128) & ~0x7) | 0x5;
+ MCHBAR8(0x129) = MCHBAR8(0x129) | 0x1f;
+ reg8 = 3 << 6;
+ reg8 |= (s->dt0mode << 4);
+ reg8 |= 0x0c;
+ MCHBAR8(0x12f) = (MCHBAR8(0x12f) & ~0xdf) | reg8;
+ MCHBAR8(0x18c) = MCHBAR8(0x18c) & ~0x2;
+ MCHBAR8(0x228) = (MCHBAR8(0x228) & ~0x7) | 0x2;
+ MCHBAR16(0x241) = (MCHBAR16(0x241) & ~0x3fc) | (4 << 2);
+ reg32 = (2 << 29) | (1 << 28) | (1 << 23);
+ MCHBAR32(0x120) = (MCHBAR32(0x120) & ~0xffb00000) | reg32;
+
+ reg8 = (u8) ((MCHBAR16(0x252) & 0xe000) >> 13);
+ reg8 |= (u8) ((MCHBAR16(0x254) & 1) << 3);
+ MCHBAR8(0x12d) = (MCHBAR8(0x12d) & ~0xf0) | (reg8 << 4);
+ reg8 = (u8) ((MCHBAR32(0x258) & 0xf0000) >> 17);
+ MCHBAR8(0x12d) = (MCHBAR8(0x12d) & ~0xf) | reg8;
+ MCHBAR8(0x12e) = MCHBAR8(0x12e) & ~0xfc;
+ MCHBAR8(0x12e) = MCHBAR8(0x12e) & ~0x3;
+ MCHBAR8(0x12f) = MCHBAR8(0x12f) & ~0x3;
+ MCHBAR8(0x241) = MCHBAR8(0x241) | 1;
+ MCHBAR16(0x1b6) = MCHBAR16(0x1b6) | (1 << 9);
+ for (i = 0; i < 8; i++) {
+ MCHBAR32(0x540 + i*4) = (MCHBAR32(0x540 + i*4) & ~0x3f3f3f3f) |
+ 0x0c0c0c0c;
+ }
+ MCHBAR32(0x248) = (MCHBAR32(0x248) & ~0xf0000) |
+ ((s->selected_timings.CAS + 1) << 16);
+ for (i = 0; i < 8; i++) {
+ MCHBAR8(0x560 + i*4) = MCHBAR8(0x560 + i*4) & ~0x3f;
+ MCHBAR16(0x58c) = MCHBAR16(0x58c) & ((u16) (~(3 << (i*2))));
+ MCHBAR16(0x588) = MCHBAR16(0x588) & ((u16) (~(3 << (i*2))));
+ MCHBAR16(0x5fa) = MCHBAR16(0x5fa) & ((u16) (~(3 << (i*2))));
+ }
+ MCHBAR8(0x5f0) = MCHBAR8(0x5f0) & ~0x1;
+ MCHBAR8(0x5f0) = MCHBAR8(0x5f0) | 0x2;
+ MCHBAR8(0x5f0) = MCHBAR8(0x5f0) | 0x4;
+ MCHBAR32(0x2c0) = MCHBAR32(0x2c0) | 0xc0400;
+ MCHBAR32(0x594) = MCHBAR32(0x594) | (1 << 31);
+}
+
+static void sdram_p_clkset0(struct pllparam *pll, u8 f, u8 i)
+{
+ MCHBAR16(0x5a0) = (MCHBAR16(0x5a0) & ~0xc440) |
+ (pll->clkdelay[f][i] << 14) |
+ (pll->dben[f][i] << 10) |
+ (pll->dbsel[f][i] << 6);
+ MCHBAR8(0x581) = (MCHBAR8(0x581) & ~0x3f) | pll->pi[f][i];
+}
+
+static void sdram_p_clkset1(struct pllparam *pll, u8 f, u8 i)
+{
+ MCHBAR16(0x5a0) = (MCHBAR16(0x5a0) & ~0x30880) |
+ (pll->clkdelay[f][i] << 16) |
+ (pll->dben[f][i] << 11) |
+ (pll->dbsel[f][i] << 7);
+ MCHBAR8(0x582) = (MCHBAR8(0x582) & ~0x3f) | pll->pi[f][i];
+}
+
+static void sdram_p_cmd(struct pllparam *pll, u8 f, u8 i)
+{
+ u8 reg8;
+ reg8 = pll->dbsel[f][i] << 5;
+ reg8 |= pll->dben[f][i] << 6;
+ MCHBAR8(0x594) = (MCHBAR8(0x594) & ~0x60) | reg8;
+
+ reg8 = pll->clkdelay[f][i] << 4;
+ MCHBAR8(0x598) = (MCHBAR8(0x598) & ~0x30) | reg8;
+
+ reg8 = pll->pi[f][i];
+ MCHBAR8(0x580) = (MCHBAR8(0x580) & ~0x3f) | reg8;
+ MCHBAR8(0x583) = (MCHBAR8(0x583) & ~0x3f) | reg8;
+}
+
+static void sdram_p_ctrl(struct pllparam *pll, u8 f, u8 i)
+{
+ u8 reg8;
+ u32 reg32;
+ reg32 = ((u32) pll->dbsel[f][i]) << 20;
+ reg32 |= ((u32) pll->dben[f][i]) << 21;
+ reg32 |= ((u32) pll->dbsel[f][i]) << 22;
+ reg32 |= ((u32) pll->dben[f][i]) << 23;
+ reg32 |= ((u32) pll->clkdelay[f][i]) << 24;
+ reg32 |= ((u32) pll->clkdelay[f][i]) << 27;
+ MCHBAR32(0x59c) = (MCHBAR32(0x59c) & ~0x1bf0000) | reg32;
+
+ reg8 = pll->pi[f][i];
+ MCHBAR8(0x584) = (MCHBAR8(0x584) & ~0x3f) | reg8;
+ MCHBAR8(0x585) = (MCHBAR8(0x585) & ~0x3f) | reg8;
+
+ reg32 = ((u32) pll->dbsel[f][i]) << 12;
+ reg32 |= ((u32) pll->dben[f][i]) << 13;
+ reg32 |= ((u32) pll->dbsel[f][i]) << 8;
+ reg32 |= ((u32) pll->dben[f][i]) << 9;
+ reg32 |= ((u32) pll->clkdelay[f][i]) << 14;
+ reg32 |= ((u32) pll->clkdelay[f][i]) << 10;
+ MCHBAR32(0x598) = (MCHBAR32(0x598) & ~0xff00) | reg32;
+
+ reg8 = pll->pi[f][i];
+ MCHBAR8(0x586) = (MCHBAR8(0x586) & ~0x3f) | reg8;
+ MCHBAR8(0x587) = (MCHBAR8(0x587) & ~0x3f) | reg8;
+}
+
+static void sdram_p_dqs(struct pllparam *pll, u8 f, u8 clk)
+{
+ u8 rank, dqs, reg8, j;
+ u32 reg32;
+
+ j = clk - 40;
+ reg8 = 0;
+ reg32 = 0;
+ rank = j % 4;
+ dqs = j / 4;
+
+ reg32 |= ((u32) pll->dben[f][clk]) << (dqs + 9);
+ reg32 |= ((u32) pll->dbsel[f][clk]) << dqs;
+ MCHBAR32(0x5b4+rank*4) = (MCHBAR32(0x5b4+rank*4) &
+ ~( (1 << (dqs+9))|(1 << dqs) )) | reg32;
+
+ reg32 = ((u32) pll->clkdelay[f][clk]) << ((dqs*2) + 16);
+ MCHBAR32(0x5c8+rank*4) = (MCHBAR32(0x5c8+rank*4) &
+ ~( (1 << (dqs*2 + 17))|(1 << (dqs*2 + 16)) )) | reg32;
+
+ reg8 = pll->pi[f][clk];
+ MCHBAR8(0x520+j) = (MCHBAR8(0x520+j) & ~0x3f) | reg8;
+}
+
+
+static void sdram_p_dq(struct pllparam *pll, u8 f, u8 clk)
+{
+ u8 rank, dq, reg8, j;
+ u32 reg32;
+
+ j = clk - 8;
+ reg8 = 0;
+ reg32 = 0;
+ rank = j % 4;
+ dq = j / 4;
+
+ reg32 |= ((u32) pll->dben[f][clk]) << (dq + 9);
+ reg32 |= ((u32) pll->dbsel[f][clk]) << dq;
+ MCHBAR32(0x5a4+rank*4) = (MCHBAR32(0x5a4+rank*4) &
+ ~( (1 << (dq+9))|(1 << dq) )) | reg32;
+
+ reg32 = ((u32) pll->clkdelay[f][clk]) << (dq*2);
+ MCHBAR32(0x5c8+rank*4) = (MCHBAR32(0x5c8+rank*4) &
+ ~( (1 << (dq*2 + 1))|(1 << (dq*2)) )) | reg32;
+
+ reg8 = pll->pi[f][clk];
+ MCHBAR8(0x500+j) = (MCHBAR8(0x500+j) & ~0x3f) | reg8;
+}
+
+static void sdram_calibratepll(struct sysinfo *s, u8 pidelay)
+{
+ struct pllparam pll = {
+ .pi = {
+ { // 667
+ 3, 3, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
+ 7, 7, 7, 7, 4, 4, 4, 4, 4, 4, 4, 4,
+ 4, 4, 4, 4, 4, 4, 4, 4, 5, 5, 5, 5,
+ 7, 7, 7, 7, 3, 3, 3, 3, 3, 3, 3, 3,
+ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+ 0, 0, 0, 0, 1, 1, 1, 1, 3, 3, 3, 3
+ },
+ { // 800
+ 53, 53, 10, 10, 5, 5, 5, 5, 27, 27, 27, 27,
+ 34, 34, 34, 34, 34, 34, 34, 34, 39, 39, 39, 39,
+ 47, 47, 47, 47, 44, 44, 44, 44, 47, 47, 47, 47,
+ 47, 47, 47, 47, 59, 59, 59, 59, 2, 2, 2, 2,
+ 2, 2, 2, 2, 7, 7, 7, 7, 15, 15, 15, 15,
+ 12, 12, 12, 12, 15, 15, 15, 15, 15, 15, 15, 15
+ }},
+
+ .dben = {
+ { // 667
+ 0,0,1,1,1,1,1,1,1,1,1,1,
+ 1,1,1,1,0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0,
+ 1,1,1,1,0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0
+ },
+ { // 800
+ 1,1,1,1,1,1,1,1,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0,
+ 0,0,0,0,1,1,1,1,1,1,1,1,
+ 1,1,1,1,1,1,1,1,0,0,0,0,
+ 1,1,1,1,0,0,0,0,0,0,0,0
+ }},
+
+ .dbsel = {
+ { // 667
+ 0,0,1,1,1,1,1,1,1,1,1,1,
+ 1,1,1,1,0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0,
+ 1,1,1,1,0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0
+ },
+ { // 800
+ 0,0,1,1,1,1,1,1,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,1,1,1,1,
+ 1,1,1,1,1,1,1,1,0,0,0,0,
+ 1,1,1,1,0,0,0,0,0,0,0,0
+ }},
+
+ .clkdelay = {
+ { // 667
+ 0,0,1,1,0,0,0,0,1,1,1,1,
+ 1,1,1,1,1,1,1,1,1,1,1,1,
+ 1,1,1,1,1,1,1,1,1,1,1,1,
+ 1,1,1,1,0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,0,0,0,0
+ },
+ { // 800
+ 0,0,0,0,0,0,0,0,1,1,1,1,
+ 1,1,1,1,1,1,1,1,1,1,1,1,
+ 1,1,1,1,1,1,1,1,1,1,1,1,
+ 1,1,1,1,0,0,0,0,1,1,1,1,
+ 1,1,1,1,1,1,1,1,1,1,1,1,
+ 1,1,1,1,1,1,1,1,1,1,1,1
+ }}
+ };
+
+ u8 i, f;
+ if (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) {
+ f = 0;
+ } else {
+ f = 1;
+ }
+ for (i = 0; i < 72; i++) {
+ pll.pi[f][i] += pidelay;
+ }
+
+ MCHBAR8(0x1a4) = MCHBAR8(0x1a4) & ~(1 << 7);
+ MCHBAR16(0x190) = (MCHBAR16(0x190) & (u16) ~(0x3fff)) | 0x1fff;
+
+ sdram_p_clkset0(&pll, f, 0);
+ sdram_p_clkset1(&pll, f, 1);
+ sdram_p_cmd(&pll, f, 2);
+ sdram_p_ctrl(&pll, f, 4);
+ for (i = 0; i < 32; i++) {
+ sdram_p_dqs(&pll, f, i+40);
+ }
+ for (i = 0; i < 32; i++) {
+ sdram_p_dq(&pll, f, i+8);
+ }
+}
+
+static void sdram_calibratehwpll(struct sysinfo *s)
+{
+ u8 reg8;
+
+ s->async = 0;
+ reg8 = 0;
+ MCHBAR16(0x180) = MCHBAR16(0x180) | (1 << 15);
+ MCHBAR8(0x180) = MCHBAR8(0x180) & ~(1 << 7);
+ MCHBAR8(0x180) = MCHBAR8(0x180) | (1 << 3);
+ MCHBAR8(0x180) = MCHBAR8(0x180) | (1 << 2);
+
+ MCHBAR8(0x180) = MCHBAR8(0x180) | (1 << 7);
+ while ((MCHBAR8(0x180) & (1 << 2)) == 0);
+
+ reg8 = (MCHBAR8(0x180) & (1 << 3)) >> 3;
+ if (reg8 != 0) {
+ s->async = 1;
+ }
+}
+
+static void sdram_dlltiming(struct sysinfo *s)
+{
+ u8 reg8, i, pipost;
+ u16 reg16;
+ u32 reg32;
+
+ if (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) {
+ reg32 = 0x8014227;
+ } else {
+ reg32 = 0x14221;
+ }
+ MCHBAR32(0x19c) = (MCHBAR32(0x19c) & ~0xfffffff) | reg32;
+ MCHBAR32(0x19c) = MCHBAR32(0x19c) | (1 << 23);
+ MCHBAR32(0x19c) = MCHBAR32(0x19c) | (1 << 15);
+ MCHBAR32(0x19c) = MCHBAR32(0x19c) & ~(1 << 15);
+
+ if (s->nodll) {
+ MCHBAR16(0x198) = MCHBAR16(0x198) | (1 << 0);
+ MCHBAR16(0x198) = MCHBAR16(0x198) | (1 << 2);
+ MCHBAR16(0x198) = MCHBAR16(0x198) | (1 << 4);
+ MCHBAR16(0x198) = MCHBAR16(0x198) | (1 << 8);
+ MCHBAR16(0x198) = MCHBAR16(0x198) | (1 << 10);
+ MCHBAR16(0x198) = MCHBAR16(0x198) | (1 << 12);
+ MCHBAR16(0x198) = MCHBAR16(0x198) | (1 << 14);
+ } else {
+ MCHBAR16(0x198) = MCHBAR16(0x198) & ~(1 << 0);
+ MCHBAR16(0x198) = MCHBAR16(0x198) & ~(1 << 2);
+ MCHBAR16(0x198) = MCHBAR16(0x198) & ~(1 << 4);
+ MCHBAR16(0x198) = MCHBAR16(0x198) & ~(1 << 8);
+ MCHBAR16(0x198) = MCHBAR16(0x198) & ~(1 << 10);
+ MCHBAR16(0x198) = MCHBAR16(0x198) & ~(1 << 12);
+ MCHBAR16(0x198) = MCHBAR16(0x198) & ~(1 << 14);
+ }
+
+ if (s->nodll) {
+ MCHBAR8(0x1c8) = (MCHBAR8(0x1c8) & ~0x3f) | 0x7;
+ } else {
+ MCHBAR8(0x1c8) = (MCHBAR8(0x1c8) & ~0x3f);
+ }
+
+ sdram_calibratepll(s, 0); // XXX check
+
+ MCHBAR16(0x5f0) = MCHBAR16(0x5f0) | (1 << 11);
+ MCHBAR16(0x5f0) = MCHBAR16(0x5f0) | (1 << 12);
+
+ for (i = 0; i < 8; i++) {
+ MCHBAR16(0x5f0) = MCHBAR16(0x5f0) | ((1 << 10) >> i);
+ }
+ MCHBAR8(0x2c14) = MCHBAR8(0x2c14) | 1;
+ MCHBAR16(0x182) = 0x5005;
+ MCHBAR16(0x18a) = (MCHBAR16(0x18a) & ~0x1f1f) | 0x51a;
+ MCHBAR16(0x2c00) = (MCHBAR16(0x2c00) & ~0xbf3f) | 0x9010;
+
+ if (s->nodll) {
+ MCHBAR8(0x18e) = (MCHBAR8(0x18e) & ~0x7f) | 0x6b;
+ } else {
+ MCHBAR8(0x18e) = (MCHBAR8(0x18e) & ~0x7f) | 0x55;
+ sdram_calibratehwpll(s);
+ }
+ pipost = 0x34;
+
+ MCHBAR32(0x248) = MCHBAR32(0x248) & ~(1 << 22);
+ MCHBAR8(0x5d9) = MCHBAR8(0x5d9) & ~0x2;
+ MCHBAR8(0x189) = MCHBAR8(0x189) | 0xc0;
+ MCHBAR8(0x189) = MCHBAR8(0x189) & ~(1 << 5);
+ MCHBAR8(0x189) = (MCHBAR8(0x189) & ~0xc0) | (1 << 6);
+ MCHBAR8(0x188) = (MCHBAR8(0x188) & ~0x3f) | 0x1a;
+ MCHBAR8(0x188) = MCHBAR8(0x188) | 1;
+
+ MCHBAR8(0x1a8) = MCHBAR8(0x1a8) | 1;
+ MCHBAR32(0x1a0) = 0x551803;
+ if (ONLY_DIMMA_IS_POPULATED(s->dimms, 0)) {
+ reg8 = 0x3c;
+ } else if (ONLY_DIMMB_IS_POPULATED(s->dimms, 0)) {
+ reg8 = 0x27;
+ } else if (BOTH_DIMMS_ARE_POPULATED(s->dimms, 0)) {
+ reg8 = 0x24;
+ } else {
+ // None
+ reg8 = 0x3f;
+ }
+ reg8 = 0x00; //switch all clocks on anyway
+
+ MCHBAR32(0x5a0) = (MCHBAR32(0x5a0) & ~0x3f000000) | (reg8 << 24);
+ MCHBAR8(0x594) = MCHBAR8(0x594) & ~1;
+ reg16 = 0;
+ if (!rank_is_populated(s->dimms, 0, 0)) {
+ reg16 |= (1 << 8) | (1 << 4) | (1 << 0);
+ }
+ if (!rank_is_populated(s->dimms, 0, 1)) {
+ reg16 |= (1 << 9) | (1 << 5) | (1 << 1);
+ }
+ if (!rank_is_populated(s->dimms, 0, 2)) {
+ reg16 |= (1 << 10) | (1 << 6) | (1 << 2);
+ }
+ if (!rank_is_populated(s->dimms, 0, 3)) {
+ reg16 |= (1 << 11) | (1 << 7) | (1 << 3);
+ }
+ MCHBAR16(0x59c) = MCHBAR16(0x59c) | reg16;
+}
+
+static void sdram_rcomp(struct sysinfo *s)
+{
+ u8 i, j, reg8, f, rcompp, rcompn, srup, srun;
+ u16 reg16;
+ u32 reg32, rcomp1, rcomp2;
+
+ u8 rcompupdate[7] = { 0, 0, 0, 1, 1, 0, 0 };
+ u8 rcompslew = 0xa;
+ u8 rcompstr[7] = { 0x66, 0, 0xaa, 0x55, 0x55, 0x77, 0x77 };
+ u16 rcompscomp[7] = { 0xa22a, 0, 0xe22e, 0xe22e, 0xe22e, 0xa22a, 0xa22a };
+ u8 rcompdelay[7] = { 1, 0, 0, 0, 0, 1, 1 };
+ u16 rcompctl[7] = { 0x31c, 0, 0x374, 0x3a2, 0x3d0, 0x3fe, 0x42c };
+ u16 rcompf[7] = { 0x1114, 0, 0x0505, 0x0909, 0x0909, 0x0a0a, 0x0a0a };
+
+ // NC-NC x16SS x16DS x16SS2 x16DS2 x8DS, x8DS2
+ u8 rcompstr2[7] = { 0x00, 0x55, 0x55, 0xaa, 0xaa , 0x55, 0xaa};
+ u16 rcompscomp2[7] = { 0x0000, 0xe22e, 0xe22e, 0xe22e, 0x8228 , 0xe22e, 0x8228 };
+ u8 rcompdelay2[7] = { 0, 0, 0, 0, 2 , 0, 2};
+
+ u8 rcomplut[64][12] = {
+ { 9, 9,11,11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 9, 9,11, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 10,9,12, 11, 2, 2, 5,5, 6, 6,5, 5},
+ { 10,9,12, 11, 2, 2, 6,5, 7, 6,6, 5},
+ { 10,10,12, 12, 2, 2, 6,5, 7, 6,6, 5},
+ { 10,10,12, 12, 2, 2, 6,6, 7, 7,6, 6},
+ { 10,10,12, 12, 3, 2, 6,6, 7, 7,6, 6},
+ { 10,10,12, 12, 3, 2, 6,6, 7, 7,6, 6},
+ { 10,10,12, 12, 3, 2, 6,6, 7, 7,6, 6},
+ { 10,10,12, 12, 3, 3, 6,6, 7, 7,6, 6},
+ { 10,10,12, 12, 3, 3, 6,6, 7, 7,6, 6},
+ { 10,10,12, 12, 3, 3, 6,6, 7, 7,6, 6},
+ { 10,10,12, 12, 3, 3, 6,6, 7, 7,6, 6},
+ { 10,10,12, 12, 3, 3, 6,6, 7, 7,6, 6},
+ { 11,10,12, 12, 3, 3, 6,6, 7, 7,6, 6},
+ { 11,10,14, 13, 3, 3, 6,6, 7, 7,6, 6},
+ { 12,10,14, 13, 3, 3, 6,6, 7, 7,6, 6},
+ { 12,12,14, 13, 3, 3, 7,6, 7, 7,7, 6},
+ { 13,12,16, 15, 3, 3, 7,6, 8, 7,7, 6},
+ { 13,14,16, 15, 4, 3, 7,7, 8, 8,7, 7},
+ { 14,14,16, 17, 4, 3, 7,7, 8, 8,7, 7},
+ { 14,16,18, 17, 4, 4, 8,7, 8, 8,8, 7},
+ { 15,16,18, 19, 4, 4, 8,7, 9, 8,8, 7},
+ { 15,18,18, 19, 4, 4, 8,8, 9, 9,8, 8},
+ { 16,18,20, 21, 4, 4, 8,8, 9, 9,8, 8},
+ { 16,19,20, 21, 5, 4, 9,8, 10, 9,9, 8},
+ { 16,19,20, 23, 5, 5, 9,9, 10, 10,9, 9},
+ { 17,19,22, 23, 5, 5, 9,9, 10, 10,9, 9},
+ { 17,20,22, 25, 5, 5, 9,9, 10, 10,9, 9},
+ { 17,20,22, 25, 5, 5, 9,9, 10, 10,9, 9},
+ { 18,20,22, 25, 5, 5, 9,9, 10, 10,9, 9},
+ { 18,21,24, 25, 5, 5, 9,9, 11, 10,9, 9},
+ { 19,21,24, 27, 5, 5, 9, 9, 11, 11,9, 9},
+ { 19,22,24, 27, 5, 5, 10,9, 11, 11,10, 9},
+ { 20,22,24, 27, 6, 5, 10,10, 11, 11,10, 10},
+ { 20,23,26, 27, 6, 6, 10,10, 12, 12,10, 10},
+ { 20,23,26, 29, 6, 6, 10,10, 12, 12,10, 10},
+ { 21,24,26, 29, 6, 6, 10,10, 12, 12,10, 10},
+ { 21,24,26, 29, 6, 6, 11,10, 12, 13,11, 10},
+ { 22,25,28, 29, 6, 6, 11,11, 13, 13,11, 11},
+ { 22,25,28, 31, 6, 6, 11,11, 13, 13,11, 11},
+ { 22,26,28, 31, 6, 6, 11,11, 13, 14,11, 11},
+ { 23,26,30, 31, 7, 6, 12,11, 14, 14,12, 11},
+ { 23,27,30, 33, 7, 7, 12,12, 14, 14,12, 12},
+ { 23,27,30, 33, 7, 7, 12,12, 14, 15,12, 12},
+ { 24,28,32, 33, 7, 7, 12,12, 15, 15,12, 12},
+ { 24,28,32, 33, 7, 7, 12,12, 15, 16,12, 12},
+ { 24,29,32, 35, 7, 7, 12,12, 15, 16,12, 12},
+ { 25,29,32, 35, 7, 7, 12,12, 15, 17,12, 12},
+ { 25,30,32, 35, 7, 7, 12,12, 15, 17,12, 12},
+ { 25,30,32, 35, 7, 7, 12,12, 15, 17,12, 12},
+ };
+
+ srup = 0;
+ srun = 0;
+
+ if (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) {
+ f = 0;
+ rcomp1 = 0x00050431;
+ } else {
+ f = 1;
+ rcomp1 = 0x00050542;
+ }
+ if (s->selected_timings.fsb_clock == FSB_CLOCK_667MHz) {
+ rcomp2 = 0x14C42827;
+ } else {
+ rcomp2 = 0x19042827;
+ }
+
+ for (i = 0; i < 7; i++) {
+ if (i == 1)
+ continue;
+ reg8 = rcompupdate[i];
+ MCHBAR8(rcompctl[i]) = (MCHBAR8(rcompctl[i]) & ~0x1) | reg8;
+ MCHBAR8(rcompctl[i]) = MCHBAR8(rcompctl[i]) & ~0x2;
+ reg16 = (u16) rcompslew;
+ MCHBAR16(rcompctl[i]) = (MCHBAR16(rcompctl[i]) & ~0xf000) |
+ (reg16 << 12);
+ MCHBAR8(rcompctl[i]+4) = rcompstr[i];
+ MCHBAR16(rcompctl[i]+0xe) = rcompscomp[i];
+ MCHBAR8(rcompctl[i]+0x14) = (MCHBAR8(rcompctl[i]+0x14) & ~0x3) |
+ rcompdelay[i];
+ if (i == 2) {
+ reg16 = (u16) rcompslew;
+ MCHBAR16(rcompctl[i]) = (MCHBAR16(rcompctl[i]) &
+ ~0xf000) | (reg16 << 12);
+ MCHBAR8(rcompctl[i]+4) = rcompstr2[s->dimm_config[0]];
+ MCHBAR16(rcompctl[i]+0xe) = rcompscomp2[s->dimm_config[0]];
+ MCHBAR8(rcompctl[i]+0x14) = (MCHBAR8(rcompctl[i]+0x14) &
+ ~0x3) | rcompdelay2[s->dimm_config[0]];
+ }
+
+ MCHBAR16(rcompctl[i]+0x16) = MCHBAR16(rcompctl[i]+0x16) & ~0x7f7f;
+ MCHBAR16(rcompctl[i]+0x18) = MCHBAR16(rcompctl[i]+0x18) & ~0x3f3f;
+ MCHBAR16(rcompctl[i]+0x1a) = MCHBAR16(rcompctl[i]+0x1a) & ~0x3f3f;
+ MCHBAR16(rcompctl[i]+0x1c) = MCHBAR16(rcompctl[i]+0x1c) & ~0x3f3f;
+ MCHBAR16(rcompctl[i]+0x1e) = MCHBAR16(rcompctl[i]+0x1e) & ~0x3f3f;
+ }
+
+ MCHBAR8(0x45a) = (MCHBAR8(0x45a) & ~0x3f) | 0x36;
+ MCHBAR8(0x462) = (MCHBAR8(0x462) & ~0x3f) | 0x36;
+
+ for (i = 0; i < 7; i++) {
+ if (i == 1)
+ continue;
+ MCHBAR8(rcompctl[i]) = MCHBAR8(rcompctl[i]) & ~0x60;
+ MCHBAR16(rcompctl[i]+2) = MCHBAR16(rcompctl[i]+2) & ~0x706;
+ MCHBAR16(rcompctl[i]+0xa) = MCHBAR16(rcompctl[i]+0xa) & ~0x7f7f;
+ MCHBAR16(rcompctl[i]+0x12) = MCHBAR16(rcompctl[i]+0x12) & ~0x3f3f;
+ MCHBAR16(rcompctl[i]+0x24) = MCHBAR16(rcompctl[i]+0x24) & ~0x1f1f;
+ MCHBAR8(rcompctl[i]+0x26) = MCHBAR8(rcompctl[i]+0x26) & ~0x1f;
+ }
+
+ MCHBAR16(0x45a) = MCHBAR16(0x45a) & ~0xffc0;
+ MCHBAR16(0x45c) = MCHBAR16(0x45c) & ~0xf;
+ MCHBAR16(0x462) = MCHBAR16(0x462) & ~0xffc0;
+ MCHBAR16(0x464) = MCHBAR16(0x464) & ~0xf;
+
+ for (i = 0; i < 7; i++) {
+ if (i == 1)
+ continue;
+ MCHBAR16(rcompctl[i]+0x10) = rcompf[i];
+ MCHBAR16(rcompctl[i]+0x20) = 0x1219;
+ MCHBAR16(rcompctl[i]+0x22) = 0x000C;
+ }
+
+ MCHBAR32(0x164) = (MCHBAR32(0x164) & ~0x1f1f1f) | 0x0c1219;
+ MCHBAR16(0x4b0) = (MCHBAR16(0x4b0) & ~0x1f00) | 0x1200;
+ MCHBAR8(0x4b0) = (MCHBAR8(0x4b0) & ~0x1f) | 0x12;
+ MCHBAR32(0x138) = 0x007C9007;
+ MCHBAR32(0x16c) = rcomp1;
+ MCHBAR16(0x17a) = 0x1f7f;
+ MCHBAR32(0x134) = rcomp2;
+ MCHBAR16(0x170) = (MCHBAR16(0x170) & ~0xf) | 1;
+ MCHBAR16(0x178) = 0x134;
+ MCHBAR32(0x130) = 0x4C293600;
+ MCHBAR8(0x133) = (MCHBAR8(0x133) & ~0x44) | (1 << 6) | (1 << 2);
+ MCHBAR16(0x4b0) = MCHBAR16(0x4b0) & ~(1 << 13);
+ MCHBAR8(0x4b0) = MCHBAR8(0x4b0) & ~(1 << 5);
+
+ for (i = 0; i < 7; i++) {
+ if (i == 1)
+ continue;
+ MCHBAR8(rcompctl[i]+2) = MCHBAR8(rcompctl[i]) & ~0x71;
+ }
+
+ if ((MCHBAR32(0x130) & (1 << 30)) == 0) {
+ MCHBAR8(0x130) = MCHBAR8(0x130) | 0x1;
+ while ((MCHBAR8(0x130) & 0x1) != 0);
+
+ reg32 = MCHBAR32(0x13c);
+ rcompp = (u8) ((reg32 & ~(1 << 31)) >> 24);
+ rcompn = (u8) ((reg32 & ~(0xff800000)) >> 16);
+
+ for (i = 0; i < 7; i++) {
+ if (i == 1)
+ continue;
+ srup = (MCHBAR8(rcompctl[i]+1) & 0xc0) >> 6;
+ srun = (MCHBAR8(rcompctl[i]+1) & 0x30) >> 4;
+ reg16 = (u16)(rcompp - (1 << (srup + 1))) << 8;
+ MCHBAR16(rcompctl[i]+0x16) = (MCHBAR16(rcompctl[i]+0x16)
+ & ~0x7f00) | reg16;
+ reg16 = (u16)(rcompn - (1 << (srun + 1)));
+ MCHBAR8(rcompctl[i]+0x16) = (MCHBAR8(rcompctl[i]+0x16) &
+ ~0x7f) | (u8)reg16;
+ }
+
+ reg8 = rcompp - (1 << (srup + 1));
+ for (i = 0, j = reg8; i < 4; i++, j += (1 << srup)) {
+ MCHBAR8(rcompctl[0]+0x18+i) =
+ (MCHBAR8(rcompctl[0]+0x18+i) & ~0x3f) |
+ rcomplut[j][0];
+ }
+
+ for (i = 0, j = reg8; i < 4; i++, j += (1 << srup)) {
+ if (s->dimm_config[0] < 3 || s->dimm_config[0] == 5) {
+ MCHBAR8(rcompctl[2]+0x18+i) =
+ (MCHBAR8(rcompctl[2]+0x18+i) & ~0x3f) |
+ rcomplut[j][10];
+ }
+ }
+
+ for (i = 0, j = reg8; i < 4; i++, j += (1 << srup)) {
+ MCHBAR8(rcompctl[3]+0x18+i) =
+ (MCHBAR8(rcompctl[3]+0x18+i) & ~0x3f) |
+ rcomplut[j][6];
+ MCHBAR8(rcompctl[4]+0x18+i) =
+ (MCHBAR8(rcompctl[4]+0x18+i) & ~0x3f) |
+ rcomplut[j][6];
+ }
+
+ for (i = 0, j = reg8; i < 4; i++, j += (1 << srup)) {
+ MCHBAR8(rcompctl[5]+0x18+i) =
+ (MCHBAR8(rcompctl[5]+0x18+i) & ~0x3f) |
+ rcomplut[j][8];
+ MCHBAR8(rcompctl[6]+0x18+i) =
+ (MCHBAR8(rcompctl[6]+0x18+i) & ~0x3f) |
+ rcomplut[j][8];
+ }
+
+ reg8 = rcompn - (1 << (srun + 1));
+ for (i = 0, j = reg8; i < 4; i++, j += (1 << srun)) {
+ MCHBAR8(rcompctl[0]+0x1c+i) =
+ (MCHBAR8(rcompctl[0]+0x1c+i) & ~0x3f) |
+ rcomplut[j][1];
+ }
+
+ for (i = 0, j = reg8; i < 4; i++, j += (1 << srun)) {
+ if (s->dimm_config[0] < 3 || s->dimm_config[0] == 5) {
+ MCHBAR8(rcompctl[2]+0x1c+i) =
+ (MCHBAR8(rcompctl[2]+0x1c+i) & ~0x3f) |
+ rcomplut[j][11];
+ }
+ }
+
+ for (i = 0, j = reg8; i < 4; i++, j += (1 << srun)) {
+ MCHBAR8(rcompctl[3]+0x1c+i) =
+ (MCHBAR8(rcompctl[3]+0x1c+i) & ~0x3f) |
+ rcomplut[j][7];
+ MCHBAR8(rcompctl[4]+0x1c+i) =
+ (MCHBAR8(rcompctl[4]+0x1c+i) & ~0x3f) |
+ rcomplut[j][7];
+ }
+
+ for (i = 0, j = reg8; i < 4; i++, j += (1 << srun)) {
+ MCHBAR8(rcompctl[5]+0x1c+i) =
+ (MCHBAR8(rcompctl[5]+0x1c+i) & ~0x3f) |
+ rcomplut[j][9];
+ MCHBAR8(rcompctl[6]+0x1c+i) =
+ (MCHBAR8(rcompctl[6]+0x1c+i) & ~0x3f) |
+ rcomplut[j][9];
+ }
+ }
+ MCHBAR8(0x130) = MCHBAR8(0x130) | 1;
+}
+
+static void sdram_odt(struct sysinfo *s)
+{
+ u8 rankindex = 0;
+
+ u16 odt294[16] = {
+ 0x0000, 0x0000, 0x0000, 0x0000,
+ 0x0044, 0x1111, 0x0000, 0x1111,
+ 0x0000, 0x0000, 0x0000, 0x0000,
+ 0x0044, 0x1111, 0x0000, 0x1111
+ };
+ u16 odt298[16] = {
+ 0x0000, 0x0011, 0x0000, 0x0011,
+ 0x0000, 0x4444, 0x0000, 0x4444,
+ 0x0000, 0x0000, 0x0000, 0x0000,
+ 0x0000, 0x4444, 0x0000, 0x4444
+ };
+
+ switch (s->dimms[0].ranks) {
+ case 0:
+ if (s->dimms[1].ranks == 0) {
+ rankindex = 0;
+ } else if (s->dimms[1].ranks == 1) {
+ rankindex = 4;
+ } else if (s->dimms[1].ranks == 2) {
+ rankindex = 12;
+ }
+ break;
+ case 1:
+ if (s->dimms[1].ranks == 0) {
+ rankindex = 1;
+ } else if (s->dimms[1].ranks == 1) {
+ rankindex = 5;
+ } else if (s->dimms[1].ranks == 2) {
+ rankindex = 13;
+ }
+ break;
+ case 2:
+ if (s->dimms[1].ranks == 0) {
+ rankindex = 3;
+ } else if (s->dimms[1].ranks == 1) {
+ rankindex = 7;
+ } else if (s->dimms[1].ranks == 2) {
+ rankindex = 15;
+ }
+ break;
+ }
+
+ MCHBAR16(0x298) = odt298[rankindex];
+ MCHBAR16(0x294) = odt294[rankindex];
+}
+
+static void sdram_mmap(struct sysinfo *s)
+{
+ u32 w260[7] = {0, 0x400001, 0xc00001, 0x500000, 0xf00000, 0xc00001, 0xf00000};
+ u32 w208[7] = {0, 0x10000, 0x1010000, 0x10001, 0x1010101, 0x1010000, 0x1010101};
+ u32 w200[7] = {0, 0, 0, 0x20002, 0x40002, 0, 0x40002};
+ u32 w204[7] = {0, 0x20002, 0x40002, 0x40004, 0x80006, 0x40002, 0x80006};
+
+ u16 tolud[7] = {0x800, 0x800, 0x1000, 0x1000, 0x2000, 0x1000, 0x2000};
+ u16 tom[7] = {0x2, 0x2, 0x4, 0x4, 0x8, 0x4, 0x8};
+ u16 touud[7] = {0x80, 0x80, 0x100, 0x100, 0x200, 0x100, 0x200};
+ u32 gbsm[7] = {0x8000000, 0x8000000, 0x10000000, 0x8000000, 0x20000000, 0x10000000, 0x20000000};
+ u32 bgsm[7] = {0x8000000, 0x8000000, 0x10000000, 0x8000000, 0x20000000, 0x10000000, 0x20000000};
+ u32 tsegmb[7] = {0x8000000, 0x8000000, 0x10000000, 0x8000000, 0x20000000, 0x10000000, 0x20000000};
+
+ if ((s->dimm_config[0] < 3) && rank_is_populated(s->dimms, 0, 0)) {
+ if (s->dimms[0].sides > 1) {
+ // 2R/NC
+ MCHBAR32(0x260) = (MCHBAR32(0x260) & ~0x1) | 0x300001;
+ MCHBAR32(0x208) = 0x101;
+ MCHBAR32(0x200) = 0x40002;
+ MCHBAR32(0x204) = w204[s->dimm_config[0]];
+ } else {
+ // 1R/NC
+ MCHBAR32(0x260) = (MCHBAR32(0x260) & ~0x1) | 0x100001;
+ MCHBAR32(0x208) = 0x1;
+ MCHBAR32(0x200) = 0x20002;
+ MCHBAR32(0x204) = w204[s->dimm_config[0]];
+ }
+ } else if ((s->dimm_config[0] == 5) && rank_is_populated(s->dimms, 0, 0)) {
+
+ MCHBAR32(0x260) = (MCHBAR32(0x260) & ~0x1) | 0x300001;
+ MCHBAR32(0x208) = 0x101;
+ MCHBAR32(0x200) = 0x40002;
+ MCHBAR32(0x204) = 0x40004;
+ } else {
+ MCHBAR32(0x260) = (MCHBAR32(0x260) & ~0x1) | w260[s->dimm_config[0]];
+ MCHBAR32(0x208) = w208[s->dimm_config[0]];
+ MCHBAR32(0x200) = w200[s->dimm_config[0]];
+ MCHBAR32(0x204) = w204[s->dimm_config[0]];
+ }
+ pci_write_config16(PCI_DEV(0, 0, 0), 0xb0, tolud[s->dimm_config[0]]);
+ pci_write_config16(PCI_DEV(0, 0, 0), 0xa0, tom[s->dimm_config[0]]);
+ pci_write_config16(PCI_DEV(0, 0, 0), 0xa2, touud[s->dimm_config[0]]);
+ pci_write_config32(PCI_DEV(0, 0, 0), 0xa4, gbsm[s->dimm_config[0]]);
+ pci_write_config32(PCI_DEV(0, 0, 0), 0xa8, bgsm[s->dimm_config[0]]);
+ pci_write_config32(PCI_DEV(0, 0, 0), 0xac, tsegmb[s->dimm_config[0]]);
+}
+
+#if 1
+static void hpet_udelay(u32 del)
+{
+ u32 start, finish, now;
+
+ del *= 15; /* now in usec */
+
+ start = HPET32(0xf0);
+ finish = start + del;
+ while (1) {
+ now = HPET32(0xf0);
+ if (finish > start) {
+ if (now >= finish)
+ break;
+ } else {
+ if ((now < start) && (now >= finish)) {
+ break;
+ }
+ }
+ }
+}
+#endif
+
+static u8 sdram_checkrcompoverride(void)
+{
+ u32 xcomp;
+ u8 aa, bb, a, b, c, d;
+
+ xcomp = MCHBAR32(0x13c);
+ a = (u8)((xcomp & 0x7f000000) >> 24);
+ b = (u8)((xcomp & 0x7f0000) >> 16);
+ c = (u8)((xcomp & 0x3f00) >> 8);
+ d = (u8)(xcomp & 0x3f);
+
+ if (a > b) {
+ aa = a - b;
+ } else {
+ aa = b - a;
+ }
+ if (c > d) {
+ bb = c - d;
+ } else {
+ bb = d - c;
+ }
+ if ((aa > 18) || (bb > 7) ||
+ (a <= 5) || (b <= 5) || (c <= 5) || (d <= 5) ||
+ (a >= 0x7a) || (b >= 0x7a) || (c >= 0x3a) || (d >= 0x3a)) {
+ MCHBAR32(0x140) = 0x9718a729;
+ return 1;
+ }
+ return 0;
+}
+
+static void sdram_rcompupdate(struct sysinfo *s)
+{
+ u8 i, ok;
+ u32 reg32a, reg32b;
+
+ ok = 0;
+ MCHBAR8(0x170) = MCHBAR8(0x170) & ~(1 << 3);
+ MCHBAR8(0x130) = MCHBAR8(0x130) & ~(1 << 7);
+ for (i = 0; i < 3; i++) {
+ MCHBAR8(0x130) = MCHBAR8(0x130) | 1;
+ hpet_udelay(1000);
+ while ((MCHBAR8(0x130) & 0x1) != 0);
+ ok |= sdram_checkrcompoverride();
+ }
+ if (!ok) {
+ reg32a = MCHBAR32(0x13c);
+ reg32b = (reg32a >> 16) & 0x0000ffff;
+ reg32a = ((reg32a << 16) & 0xffff0000) | reg32b;
+ reg32a |= (1 << 31) | (1 << 15);
+ MCHBAR32(0x140) = reg32a;
+ }
+ MCHBAR8(0x130) = MCHBAR8(0x130) | 1;
+ hpet_udelay(1000);
+ while ((MCHBAR8(0x130) & 0x1) != 0);
+}
+
+static void __attribute__((noinline))
+sdram_jedec(struct sysinfo *s, u8 rank, u8 jmode, u16 jval)
+{
+ u32 reg32;
+
+ reg32 = jval << 3;
+ reg32 |= rank * 0x8000000;
+ MCHBAR8(0x271) = (MCHBAR8(0x271) & ~0x3e) | jmode;
+ read32((void *)reg32);
+ barrier();
+ hpet_udelay(1); // 1us
+}
+
+static void sdram_zqcl(struct sysinfo *s)
+{
+ if (s->boot_path == BOOT_PATH_RESUME) {
+ MCHBAR32(0x260) = MCHBAR32(0x260) | (1 << 27);
+ MCHBAR8(0x271) = (MCHBAR8(0x271) & ~0xe) | NORMAL_OP_CMD;
+ MCHBAR8(0x271) = MCHBAR8(0x271) & ~0x30;
+ MCHBAR32(0x268) = (MCHBAR32(0x268) & ~((1 << 30) | (1 << 31))) |
+ (1 << 30) | (1 << 31);
+ }
+}
+
+static void sdram_jedecinit(struct sysinfo *s)
+{
+ u8 r, i, ch;
+ u16 reg16, mrs, rttnom;
+ struct jedeclist {
+ char debug[15];
+ u8 cmd;
+ u16 val;
+ };
+
+ struct jedeclist jedec[12] = {
+ { " NOP ", NOP_CMD, 0 },
+ { " PRE CHARGE ", PRE_CHARGE_CMD, 0 },
+ { " EMRS2 ", EMRS2_CMD, 0 },
+ { " EMRS3 ", EMRS3_CMD, 0 },
+ { " EMRS1 ", EMRS1_CMD, 0 },
+ { " DLL RESET ", MRS_CMD, (1 << 8) },
+ { " PRE CHARGE ", PRE_CHARGE_CMD, 0 },
+ { " AUTOREFRESH", CBR_CMD, 0 },
+ { " AUTOREFRESH", CBR_CMD, 0 },
+ { " INITIALISE ", MRS_CMD, 0 },
+ { " EMRS1 OCD ", EMRS1_CMD, (1 << 9) | (1 << 8) | (1 << 7) },
+ { " EMRS1 EXIT ", EMRS1_CMD, 0 }
+ };
+
+ mrs = (s->selected_timings.CAS << 4) |
+ ((s->selected_timings.tWR - 1) << 9) | (1 << 3) | (1 << 1) | 1;
+ rttnom = (1 << 2);
+ if (rank_is_populated(s->dimms, 0, 0) && rank_is_populated(s->dimms, 0, 2)) {
+ rttnom |= (1 << 6);
+ }
+
+ hpet_udelay(200); // 200us
+ reg16 = 0;
+ FOR_EACH_POPULATED_RANK(s->dimms, ch, r) {
+ for (i = 0; i < 12; i++) {
+ PRINTK_DEBUG("Rank:%d Jedec:%14s...", r, jedec[i].debug);
+ reg16 = jedec[i].val;
+ switch (jedec[i].cmd) {
+ case EMRS1_CMD:
+ reg16 |= rttnom;
+ break;
+ case MRS_CMD:
+ reg16 |= mrs;
+ break;
+ default:
+ break;
+ }
+ sdram_jedec(s, r, jedec[i].cmd, reg16);
+ PRINTK_DEBUG("done\n");
+ }
+ }
+}
+
+static void sdram_misc(struct sysinfo *s)
+{
+ u32 reg32;
+
+ reg32 = 0;
+ reg32 |= (0x4 << 13);
+ reg32 |= (0x6 << 8);
+ MCHBAR32(0x274) = (MCHBAR32(0x274) & ~0x3ff00) | reg32;
+ MCHBAR8(0x274) = MCHBAR8(0x274) & ~(1 << 7);
+ MCHBAR8(0x26c) = MCHBAR8(0x26c) | 1;
+ if (s->boot_path != BOOT_PATH_RESUME) {
+ MCHBAR8(0x271) = (MCHBAR8(0x271) & ~0xe) | NORMAL_OP_CMD;
+ MCHBAR8(0x271) = MCHBAR8(0x271) & ~0x30;
+ } else {
+ sdram_zqcl(s);
+ }
+}
+
+static void sdram_checkreset(void)
+{
+ u8 pmcon2, pmcon3, reset;
+
+ pmcon2 = pci_read_config8(PCI_DEV(0, 0x1f, 0), 0xa2);
+ pmcon3 = pci_read_config8(PCI_DEV(0, 0x1f, 0), 0xa4);
+ pmcon3 &= ~0x2;
+ if (pmcon2 & 0x80) {
+ pmcon2 &= ~0x80;
+ reset = 1;
+ } else {
+ pmcon2 |= 0x80;
+ reset = 0;
+ }
+ if (pmcon2 & 0x4) {
+ pmcon2 |= 0x4;
+ pmcon3 = (pmcon3 & ~0x30) | 0x30;
+ pmcon3 |= (1 << 3);
+ }
+ pci_write_config8(PCI_DEV(0, 0x1f, 0), 0xa2, pmcon2);
+ pci_write_config8(PCI_DEV(0, 0x1f, 0), 0xa4, pmcon3);
+ if (reset) {
+ printk(BIOS_DEBUG, "Power cycle reset...\n");
+ outb(0xe, 0xcf9);
+ }
+}
+
+static void sdram_dradrb(struct sysinfo *s)
+{
+ u8 i, reg8, ch, r;
+ u32 reg32, ind, c0dra, c0drb, dra;
+ u16 addr;
+ i = 0;
+ u8 dratab[2][2][2][4] =
+ {{
+ {
+ {0xff, 0xff, 0xff, 0xff},
+ {0xff, 0x00, 0x02, 0xff}
+ },
+ {
+ {0xff, 0x01, 0xff, 0xff},
+ {0xff, 0x03, 0xff, 0x06}
+ }
+ },
+ {
+ {
+ {0xff, 0xff, 0xff, 0xff},
+ {0xff, 0x04, 0x06, 0x08}
+ },
+ {
+ {0xff, 0xff, 0xff, 0xff},
+ {0x05, 0x07, 0x09, 0xff}
+ }
+ }};
+
+ u8 dradrb[10][6] = {
+ //Row Col Bank Width DRB
+ {0x01, 0x01, 0x00, 0x08, 0, 0x04},
+ {0x01, 0x00, 0x00, 0x10, 0, 0x02},
+ {0x02, 0x01, 0x00, 0x08, 1, 0x08},
+ {0x01, 0x01, 0x00, 0x10, 1, 0x04},
+ {0x01, 0x01, 0x01, 0x08, 1, 0x08},
+ {0x00, 0x01, 0x01, 0x10, 1, 0x04},
+ {0x02, 0x01, 0x01, 0x08, 2, 0x10},
+ {0x01, 0x01, 0x01, 0x10, 2, 0x08},
+ {0x03, 0x01, 0x01, 0x08, 3, 0x20},
+ {0x02, 0x01, 0x01, 0x10, 3, 0x10},
+ };
+
+ reg32 = 0;
+ FOR_EACH_POPULATED_RANK(s->dimms, ch, r) {
+ i = r / 2;
+ PRINTK_DEBUG("RANK %d PRESENT\n", r);
+ dra = dratab[s->dimms[i].banks]
+ [s->dimms[i].width]
+ [s->dimms[i].cols - 9]
+ [s->dimms[i].rows - 12];
+
+ if (s->dimms[i].banks == 1) {
+ dra |= (1 << 7);
+ }
+ reg32 |= (dra << (r*8));
+ }
+ MCHBAR32(0x208) = reg32;
+ c0dra = reg32;
+ PRINTK_DEBUG("C0DRA = 0x%08x\n", c0dra);
+
+ reg32 = 0;
+ FOR_EACH_POPULATED_RANK(s->dimms, ch, r) {
+ reg32 |= (1 << r);
+ }
+ reg8 = (u8)(reg32 << 4) & 0xf0;
+ MCHBAR8(0x262) = (MCHBAR8(0x262) & ~0xf0) | reg8;
+ if (ONLY_DIMMA_IS_POPULATED(s->dimms, 0) ||
+ ONLY_DIMMB_IS_POPULATED(s->dimms, 0)) {
+ MCHBAR8(0x260) = MCHBAR8(0x260) | 1;
+ }
+
+ addr = 0x200;
+ c0drb = 0;
+ FOR_EACH_RANK(ch, r) {
+ if (rank_is_populated(s->dimms, ch, r)) {
+ ind = (c0dra >> (8*r)) & 0x7f;
+ c0drb = (u16)(c0drb + dradrb[ind][5]);
+ s->channel_capacity[0] += dradrb[ind][5] << 6;
+ }
+ MCHBAR16(addr) = c0drb;
+ addr += 2;
+ }
+ printk(BIOS_DEBUG, "Total memory = %dMB\n", s->channel_capacity[0]);
+}
+
+static u8 sampledqs(u32 dqshighaddr, u32 strobeaddr, u8 highlow, u8 count)
+{
+ volatile u32 strobedata;
+ u8 dqsmatches = 1;
+ while (count--) {
+ MCHBAR8(0x5d8) = MCHBAR8(0x5d8) & ~0x2;
+ hpet_udelay(1);
+ MCHBAR8(0x5d8) = MCHBAR8(0x5d8) | 0x2;
+ hpet_udelay(1);
+ barrier();
+ strobedata = read32((void*)strobeaddr);
+ barrier();
+ hpet_udelay(1);
+
+ if (((MCHBAR8(dqshighaddr) & 0x40) >> 6) != highlow) {
+ dqsmatches = 0;
+ }
+ }
+
+ return dqsmatches;
+}
+
+static void rcvenclock(u8 *coarse, u8 *medium, u8 bytelane)
+{
+ if (*medium < 3) {
+ (*medium)++;
+ MCHBAR16(0x58c) = (MCHBAR16(0x58c) & (u16)(~(0x3 << (bytelane*2))))
+ | (*medium << (bytelane*2));
+ } else {
+ *medium = 0;
+ (*coarse)++;
+ MCHBAR32(0x248) = (MCHBAR32(0x248) & ~0xf0000) | (*coarse << 16);
+ MCHBAR16(0x58c) = (MCHBAR16(0x58c) & (u16)(~0x3 << (bytelane*2)))
+ | (*medium << (bytelane*2));
+ }
+}
+
+static void sdram_rcven(struct sysinfo *s)
+{
+ u8 curcoarse, savecoarse;
+ u8 curmedium, savemedium;
+ u8 pi, savepi;
+ u8 bytelane;
+ u8 bytelanecoarse[8] = { 0 };
+ u8 minbytelanecoarse = 0xff;
+ u8 bytelaneoffset;
+ u8 maxbytelane = 8;
+ u32 strobeaddr = (rank_is_populated(s->dimms, 0, 0)) ? 0 : 2*128*1024*1024;
+ u32 dqshighaddr;
+
+ MCHBAR8(0x5d8) = MCHBAR8(0x5d8) & ~0xc;
+ MCHBAR8(0x5dc) = MCHBAR8(0x5dc) & ~0x80;
+
+ PRINTK_DEBUG("rcven 0\n");
+ for (bytelane = 0; bytelane < maxbytelane; bytelane++) {
+ PRINTK_DEBUG("rcven bytelane %d\n", bytelane);
+//trylaneagain:
+ dqshighaddr = 0x561 + (bytelane << 2);
+
+ curcoarse = s->selected_timings.CAS + 1;
+ pi = 0;
+ curmedium = 0;
+
+ MCHBAR32(0x248) = (MCHBAR32(0x248) & ~0xf0000) | (curcoarse << 16);
+ MCHBAR16(0x58c) = (MCHBAR16(0x58c) & (u16)(~(0x3 << (bytelane*2))))
+ | (curmedium << (bytelane*2));
+ MCHBAR8(0x560+bytelane*4) = MCHBAR8(0x560+bytelane*4) & ~0x3f;
+
+ savecoarse = curcoarse;
+ savemedium = curmedium;
+ savepi = pi;
+
+ PRINTK_DEBUG("rcven 0.1\n");
+
+ //MCHBAR16(0x588) = (MCHBAR16(0x588) & (u16)~(0x3 << (bytelane*2))) | (1 << (bytelane*2)); // XXX comment out
+
+ while (sampledqs(dqshighaddr, strobeaddr, 0, 3) == 0) {
+ //printk(BIOS_DEBUG, "coarse=%d medium=%d\n", curcoarse, curmedium);
+ rcvenclock(&curcoarse, &curmedium, bytelane);
+ if (curcoarse > 0xf) {
+ PRINTK_DEBUG("Error: coarse > 0xf\n");
+ //goto trylaneagain;
+ break;
+ }
+ }
+ PRINTK_DEBUG("rcven 0.2\n");
+
+ savecoarse = curcoarse;
+ savemedium = curmedium;
+ rcvenclock(&curcoarse, &curmedium, bytelane);
+
+ while (sampledqs(dqshighaddr, strobeaddr, 1, 3) == 0) {
+ savecoarse = curcoarse;
+ savemedium = curmedium;
+ rcvenclock(&curcoarse, &curmedium, bytelane);
+ if (curcoarse > 0xf) {
+ PRINTK_DEBUG("Error: coarse > 0xf\n");
+ //goto trylaneagain;
+ break;
+ }
+ }
+
+ PRINTK_DEBUG("rcven 0.3\n");
+ curcoarse = savecoarse;
+ curmedium = savemedium;
+ MCHBAR32(0x248) = (MCHBAR32(0x248) & ~0xf0000) | (curcoarse << 16);
+ MCHBAR16(0x58c) = (MCHBAR16(0x58c) & (u16)(~(0x3 << bytelane*2)))
+ | (curmedium << (bytelane*2));
+
+ while (sampledqs(dqshighaddr, strobeaddr, 1, 3) == 0) {
+ savepi = pi;
+ pi++;
+ if (pi > s->maxpi) {
+ //if (s->nodll) {
+ pi = savepi = s->maxpi;
+ break;
+ //}
+ }
+ MCHBAR8(0x560 + bytelane*4) = (MCHBAR8(0x560 + bytelane*4)
+ & ~0x3f) | (pi << s->pioffset);
+ }
+ PRINTK_DEBUG("rcven 0.4\n");
+
+ pi = savepi;
+ MCHBAR8(0x560 + bytelane*4) = (MCHBAR8(0x560 + bytelane*4) & ~0x3f)
+ | (pi << s->pioffset);
+ rcvenclock(&curcoarse, &curmedium, bytelane);
+ if (sampledqs(dqshighaddr, strobeaddr, 1, 1) == 0) {
+ PRINTK_DEBUG("Error: DQS not high\n");
+ //goto trylaneagain;
+ }
+ PRINTK_DEBUG("rcven 0.5\n");
+ while (sampledqs(dqshighaddr, strobeaddr, 0, 3) == 0) {
+ curcoarse--;
+ MCHBAR32(0x248) = (MCHBAR32(0x248) & ~0xf0000)
+ | (curcoarse << 16);
+ if (curcoarse == 0) {
+ PRINTK_DEBUG("Error: DQS didnt hit 0\n");
+ break;
+ }
+ }
+
+ PRINTK_DEBUG("rcven 0.6\n");
+ rcvenclock(&curcoarse, &curmedium, bytelane);
+ s->pi[bytelane] = pi;
+ bytelanecoarse[bytelane] = curcoarse;
+ }
+
+ PRINTK_DEBUG("rcven 1\n");
+
+ bytelane = maxbytelane;
+ do {
+ bytelane--;
+ if (minbytelanecoarse > bytelanecoarse[bytelane]) {
+ minbytelanecoarse = bytelanecoarse[bytelane];
+ }
+ } while (bytelane != 0);
+
+ bytelane = maxbytelane;
+ do {
+ bytelane--;
+ bytelaneoffset = bytelanecoarse[bytelane] - minbytelanecoarse;
+ MCHBAR16(0x5fa) = (MCHBAR16(0x5fa) & (u16)(~(0x3 << (bytelane*2))))
+ | (bytelaneoffset << (bytelane*2));
+ } while (bytelane != 0);
+
+ MCHBAR32(0x248) = (MCHBAR32(0x248) & ~0xf0000) | (minbytelanecoarse << 16);
+
+ s->coarsectrl = minbytelanecoarse;
+ s->coarsedelay = MCHBAR16(0x5fa);
+ s->mediumphase = MCHBAR16(0x58c);
+ s->readptrdelay = MCHBAR16(0x588);
+
+ PRINTK_DEBUG("rcven 2\n");
+ MCHBAR8(0x5d8) = MCHBAR8(0x5d8) & ~0xe;
+ MCHBAR8(0x5d8) = MCHBAR8(0x5d8) | 0x2;
+ MCHBAR8(0x5d8) = MCHBAR8(0x5d8) | 0x4;
+ MCHBAR8(0x5d8) = MCHBAR8(0x5d8) | 0x8;
+
+ MCHBAR8(0x5dc) = MCHBAR8(0x5dc) | 0x80;
+ MCHBAR8(0x5dc) = MCHBAR8(0x5dc) & ~0x80;
+ MCHBAR8(0x5dc) = MCHBAR8(0x5dc) | 0x80;
+ PRINTK_DEBUG("rcven 3\n");
+}
+
+static void sdram_mmap_regs(struct sysinfo *s)
+{
+ bool reclaim;
+ u32 tsegsize;
+ u32 mmiosize;
+ u32 tom, tolud, touud, reclaimbase, reclaimlimit;
+ u32 gfxbase, gfxsize, gttbase, gttsize, tsegbase;
+ u16 ggc;
+ u16 ggc_to_uma[10] = { 0, 1, 4, 8, 16, 32, 48, 64, 128, 256 };
+ u8 ggc_to_gtt[4] = { 0, 1, 0, 0 };
+
+ reclaimbase = 0;
+ reclaimlimit = 0;
+ ggc = pci_read_config16(PCI_DEV(0,0,0), GGC);
+ gfxsize = ggc_to_uma[(ggc & 0xf0) >> 4];
+ gttsize = ggc_to_gtt[(ggc & 0xc00) >> 8];
+ tom = s->channel_capacity[0];
+
+ tsegsize = 0x1; // 1MB
+ mmiosize = 0x400; // 1GB
+
+ reclaim = false;
+ tolud = MIN(0x1000 - mmiosize, tom);
+ if ((tom - tolud) > 0x40) {
+ // reclaim = true;
+ }
+ if (reclaim) {
+ tolud = tolud & ~0x3f;
+ tom = tom & ~0x3f;
+ reclaimbase = MAX(0x1000, tom);
+ reclaimlimit = reclaimbase + (MIN(0x1000, tom) - tolud) - 0x40;
+ }
+ touud = tom;
+ if (reclaim) {
+ touud = reclaimlimit + 0x40;
+ }
+
+ gfxbase = tolud - gfxsize;
+ gttbase = gfxbase - gttsize;
+ tsegbase = gttbase - tsegsize;
+
+ /* Program the regs */
+ pci_write_config16(PCI_DEV(0,0,0), 0xb0, (u16)(tolud << 4));
+ pci_write_config16(PCI_DEV(0,0,0), 0xa0, (u16)(tom >> 6));
+ if (reclaim) {
+ pci_write_config16(PCI_DEV(0,0,0), 0x98, (u16)(reclaimbase >> 6));
+ pci_write_config16(PCI_DEV(0,0,0), 0x9a, (u16)(reclaimlimit >> 6));
+ }
+ pci_write_config16(PCI_DEV(0,0,0), 0xa2, (u16)(touud));
+ pci_write_config32(PCI_DEV(0,0,0), 0xa4, gfxbase << 20);
+ pci_write_config32(PCI_DEV(0,0,0), 0xa8, gttbase << 20);
+ pci_write_config32(PCI_DEV(0,0,0), 0xac, tsegbase << 20);
+}
+
+static void sdram_enhancedmode(struct sysinfo *s)
+{
+ u8 reg8, ch, r, j, i;
+ u32 mask32, reg32;
+ MCHBAR8(0x246) = MCHBAR8(0x246) | 1;
+ MCHBAR8(0x269 + 3) = MCHBAR8(0x269 + 3) | 1;
+ mask32 = (0x1f << 15) | (0x1f << 10) | (0x1f << 5) | 0x1f;
+ reg32 = (0x1e << 15) | (0x10 << 10) | (0x1e << 5) | 0x10;
+ MCHBAR32(0x120) = (MCHBAR32(0x120) & ~mask32) | reg32;
+ MCHBAR8(0x288 + 1) = 0x2;
+ MCHBAR16(0x288 + 2) = 0x0804;
+ MCHBAR16(0x288 + 4) = 0x2010;
+ MCHBAR8(0x288 + 6) = 0x40;
+ MCHBAR16(0x288 + 8) = 0x091c;
+ MCHBAR8(0x288 + 10) = 0xf2;
+ MCHBAR8(0x241) = MCHBAR8(0x241) | 1;
+ MCHBAR8(0x243) = MCHBAR8(0x243) | 1;
+ MCHBAR16(0x272) = MCHBAR16(0x272) | 0x100;
+
+ reg8 = pci_read_config8(PCI_DEV(0,0,0), 0xf0);
+ pci_write_config8(PCI_DEV(0,0,0), 0xf0, reg8 | 1);
+ MCHBAR32(0xfa0) = 0x00000002;
+ MCHBAR32(0xfa4) = 0x20310002;
+ MCHBAR32(0x24) = 0x02020302;
+ MCHBAR32(0x30) = 0x001f1806;
+ MCHBAR32(0x34) = 0x01102800;
+ MCHBAR32(0x38) = 0x07000000;
+ MCHBAR32(0x3c) = 0x01014010;
+ MCHBAR32(0x40) = 0x0f038000;
+ reg8 = pci_read_config8(PCI_DEV(0,0,0), 0xf0);
+ pci_write_config8(PCI_DEV(0,0,0), 0xf0, reg8 & ~1);
+
+ u32 nranks, curranksize, maxranksize, maxdra, dra;
+ u8 rankmismatch, dramismatch;
+ u8 drbtab[10] = { 0x4, 0x2, 0x8, 0x4, 0x8, 0x4, 0x10, 0x8, 0x20, 0x10 };
+
+ nranks = 0;
+ curranksize = 0;
+ maxranksize = 0;
+ maxdra = 0;
+ rankmismatch = 0;
+ dramismatch = 0;
+ FOR_EACH_POPULATED_RANK(s->dimms, ch, r) {
+ nranks++;
+ dra = (u8) ((MCHBAR32(0x208) >> (8*r)) & 0x7f);
+ curranksize = drbtab[dra];
+ if (maxranksize == 0) {
+ maxranksize = curranksize;
+ maxdra = dra;
+ }
+ if (curranksize != maxranksize) {
+ rankmismatch = 1;
+ }
+ if (dra != maxdra) {
+ dramismatch = 1;
+ }
+ }
+
+ reg8 = 0;
+ switch (nranks) {
+ case 4:
+ if (rankmismatch) {
+ reg8 = 0x64;
+ } else {
+ reg8 = 0xa4;
+ }
+ break;
+ case 1:
+ case 3:
+ reg8 = 0x64;
+ break;
+ case 2:
+ if (rankmismatch) {
+ reg8 = 0x64;
+ } else {
+ reg8 = 0x24;
+ }
+ break;
+ default:
+ die("Invalid number of ranks found, halt\n");
+ break;
+ }
+ MCHBAR8(0x111) = (MCHBAR8(0x111) & ~0xfc) | (reg8 & 0xfc);
+ MCHBAR32(0xd0) = MCHBAR32(0xd0) & ~0x80000000;
+
+ MCHBAR32(0x28) = 0xf;
+ MCHBAR8(0x2c4) = MCHBAR8(0x2c4) | 1;
+
+ MCHBAR32(0x3c) = MCHBAR32(0x3c) & ~0xe000000;
+ MCHBAR32(0x40) = (MCHBAR32(0x40) & ~0xc0000) | 0x40000;
+ u32 clkcx[2][2][3] = {
+ {
+ {0, 0x0c080302, 0x08010204}, // 667
+ {0x02040000, 0x08100102, 0}
+ },
+ {
+ {0x18000000, 0x3021060c, 0x20010208},
+ {0, 0x0c090306, 0} // 800
+ }
+ };
+ j = s->selected_timings.fsb_clock;
+ i = s->selected_timings.mem_clock;
+
+ MCHBAR32(0x708) = clkcx[j][i][0];
+ MCHBAR32(0x70c) = clkcx[j][i][1];
+ MCHBAR32(0x6dc) = clkcx[j][i][2];
+ MCHBAR8(0x40) = MCHBAR8(0x40) & ~0x2;
+}
+
+static void sdram_periodic_rcomp(void)
+{
+ MCHBAR8(0x130) = MCHBAR8(0x130) & ~0x2;
+ while ((MCHBAR32(0x130) & 0x80000000) > 0) {
+ ;
+ }
+ MCHBAR16(0x1b4) = (MCHBAR16(0x1b4) & ~0x3000);
+
+ MCHBAR8(0x5dc) = MCHBAR8(0x5dc) | 0x80;
+ MCHBAR16(0x170) = (MCHBAR16(0x170) & ~0xf) | 0x9;
+
+ MCHBAR8(0x130) = MCHBAR8(0x130) | 0x82;
+}
+
+static void sdram_new_trd(struct sysinfo *s)
+{
+ u8 pidelay, i, j, k, cc, trd_perphase[5];
+ u8 bypass, freqgb, trd, reg8, txfifo, cas;
+ u32 reg32, datadelay, tio, rcvendelay, maxrcvendelay;
+ u16 tmclk, thclk, buffertocore, postcalib;
+ u8 txfifo_lut[8] = { 0, 7, 6, 5, 2, 1, 4, 3 };
+ u16 trd_adjust[2][2][5] = {
+ {
+ {3000, 3000, 0,0,0},
+ {1000,2000,3000,1500,2500}
+ },
+ {
+ {2000,1000,3000,0,0},
+ {2500, 2500, 0,0,0}
+ }};
+
+ freqgb = 110;
+ buffertocore = 5000;
+ cas = s->selected_timings.CAS;
+ postcalib = (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) ? 1250 : 500;
+ tmclk = (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) ? 3000 : 2500;
+ tmclk = tmclk * 100 / freqgb;
+ thclk = (s->selected_timings.fsb_clock == FSB_CLOCK_667MHz) ? 6000 : 5000;
+ switch (s->selected_timings.mem_clock) {
+ case MEM_CLOCK_667MHz:
+ if (s->selected_timings.fsb_clock == FSB_CLOCK_667MHz) {
+ cc = 2;
+ } else {
+ cc = 3;
+ }
+ break;
+ default:
+ case MEM_CLOCK_800MHz:
+ if (s->selected_timings.fsb_clock == FSB_CLOCK_667MHz) {
+ cc = 5;
+ } else {
+ cc = 2;
+ }
+ break;
+ }
+ tio = (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) ? 2700 : 3240;
+ maxrcvendelay = 0;
+ pidelay = (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) ? 24 : 20;
+
+ for (i = 0; i < 8; i++) {
+ rcvendelay = ((u32)((s->coarsedelay >> (i << 1)) & 0x3) * (u32)(tmclk));
+ rcvendelay += ((u32)((s->readptrdelay >> (i << 1)) & 0x3) * (u32)(tmclk) / 2);
+ rcvendelay += ((u32)((s->mediumphase >> (i << 1)) & 0x3) * (u32)(tmclk) / 4);
+ rcvendelay += (u32)(pidelay * s->pi[i]);
+ maxrcvendelay = MAX(maxrcvendelay, rcvendelay);
+ }
+
+ if ((MCHBAR8(0xc54+3) == 0xff) && (MCHBAR8(0xc08) & 0x80)) {
+ bypass = 1;
+ } else {
+ bypass = 0;
+ }
+
+ txfifo = 0;
+ reg8 = (MCHBAR8(0x188) & 0xe) >> 1;
+ txfifo = txfifo_lut[reg8] & 0x7;
+
+ datadelay = tmclk * (2*txfifo + 4*s->coarsectrl + 4*(bypass-1) + 13) / 4
+ + tio + maxrcvendelay + pidelay + buffertocore + postcalib;
+ if (s->async) {
+ datadelay += tmclk / 2;
+ }
+
+ j = (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) ? 0 : 1;
+ k = (s->selected_timings.fsb_clock == FSB_CLOCK_667MHz) ? 0 : 1;
+
+ if (j == 0 && k == 0) {
+ datadelay -= 3084;
+ }
+
+ trd = 0;
+ for (i = 0; i < cc; i++) {
+ reg32 = datadelay - (trd_adjust[k][j][i] * 100 / freqgb);
+ trd_perphase[i] = (u8)(reg32 / thclk) - 2;
+ trd_perphase[i] += 1;
+ if (trd_perphase[i] > trd) {
+ trd = trd_perphase[i];
+ }
+ }
+
+ MCHBAR16(0x248) = (MCHBAR16(0x248) & ~0x1f00) | (trd << 8);
+}
+
+static void sdram_powersettings(struct sysinfo *s)
+{
+ u8 j;
+ u32 reg32;
+
+ /* Thermal sensor */
+ MCHBAR8(0x3808) = 0x9b;
+ MCHBAR32(0x380c) = (MCHBAR32(0x380c) & ~0x00ffffff) | 0x1d00;
+ MCHBAR8(0x3814) = 0x08;
+ MCHBAR8(0x3824) = 0x00;
+ MCHBAR8(0x3809) = (MCHBAR8(0x3809) & ~0xf) | 0x4;
+ MCHBAR8(0x3814) = (MCHBAR8(0x3814) & ~1) | 1;
+ MCHBAR8(0x3812) = (MCHBAR8(0x3812) & ~0x80) | 0x80;
+
+ /* Clock gating */
+ MCHBAR32(0xf18) = MCHBAR32(0xf18) & ~0x00040001;
+ MCHBAR8(0xfac+3) = MCHBAR8(0xfac+3) & ~0x80;
+ MCHBAR8(0xff8+3) = MCHBAR8(0xff8+3) & ~0x80;
+ MCHBAR16(0xff0) = MCHBAR16(0xff0) & ~0x1fff;
+ MCHBAR32(0xfb0) = MCHBAR32(0xfb0) & ~0x0001ffff;
+ MCHBAR16(0x48) = (MCHBAR16(0x48) & ~0x03ff) & 0x6;
+ MCHBAR32(0x20) = (MCHBAR32(0x20) & ~0xffffffff) | 0x20;
+ MCHBAR8(0xd14) = MCHBAR8(0xd14) & ~1;
+ MCHBAR8(0x239) = s->selected_timings.CAS - 1 + 0x15;
+ MCHBAR16(0x2d1) = (MCHBAR16(0x2d1) & ~0x07fc) | 0x40;
+ MCHBAR16(0x6d1) = (MCHBAR16(0x6d1) & ~0x0fff) | 0xd00;
+ MCHBAR16(0x210) = MCHBAR16(0x210) & ~0x0d80;
+ MCHBAR16(0xf6c+2) = 0xffff;
+
+ /* Sequencing */
+ MCHBAR32(0x14) = (MCHBAR32(0x14) & ~0x1fffffff) | 0x1f643fff;
+ MCHBAR32(0x18) = (MCHBAR32(0x18) & ~0xffffff7f) | 0x02010000;
+ MCHBAR16(0x1c) = (MCHBAR16(0x1c) & ~0x7000) | (0x3 << 12);
+
+ /* Power */
+ MCHBAR32(0x1104) = (MCHBAR32(0x1104) & ~0xffff0003) | 0x10100000;
+ MCHBAR32(0x1108) = (MCHBAR32(0x1108) & ~0x0001bff7) | 0x00000078;
+ if (s->selected_timings.fsb_clock == FSB_CLOCK_667MHz) {
+ MCHBAR16(0x110c) = (MCHBAR16(0x110c) & ~0x03ff) | 0xc8;
+ } else {
+ MCHBAR16(0x110c) = (MCHBAR16(0x110c) & ~0x03ff) | 0x100;
+ }
+ j = (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) ? 0 : 1;
+
+ MCHBAR32(0x1110) = (MCHBAR32(0x1110) & ~0x1fff37f) | 0x10810700;
+ MCHBAR8(0x1114) = (MCHBAR8(0x1114) & ~0x07) | 1;
+ MCHBAR8(0x1124) = MCHBAR8(0x1124) & ~0x02;
+
+ u16 ddr2lut[2][4][2] = {{
+ {0x0000, 0x0000},
+ {0x019A, 0x0039},
+ {0x0099, 0x1049},
+ {0x0000, 0x0000}
+ },
+ {
+ {0x0000, 0x0000},
+ {0x019A, 0x0039},
+ {0x0099, 0x1049},
+ {0x0099, 0x2159}
+ }};
+
+ MCHBAR16(0x23c) = 0x7a89;
+ MCHBAR8(0x117) = 0xaa;
+ MCHBAR16(0x118) = ddr2lut[j][s->selected_timings.CAS - 3][1];
+ MCHBAR16(0x115) = (MCHBAR16(0x115) & ~0x7fff) | ddr2lut[j]
+ [s->selected_timings.CAS - 3][0];
+ MCHBAR16(0x210) = (MCHBAR16(0x210) & ~0xf000) | 0xf000;
+ MCHBAR8(0x2c02) = (MCHBAR8(0x2c02) & ~0x77) | (4 << 4 | 4);
+ if (s->nodll) {
+ reg32 = 0x30000000;
+ } else {
+ reg32 = 0;
+ }
+ MCHBAR32(0x2c0) = (MCHBAR32(0x2c0) & ~0x0f000000) | 0x20000000 | reg32;
+ MCHBAR32(0x2d1) = (MCHBAR32(0x2d1) & ~0x00f00000) | 0x00f00000;
+ MCHBAR32(0x6d0) = (MCHBAR32(0x6d0) & ~0x001ff000) | (0xbf << 20);
+ MCHBAR16(0x610) = (MCHBAR16(0x610) & ~0x1f7f) | (0xb << 8) | (7 << 4) | 0xb;
+ MCHBAR16(0x612) = 0x3264;
+ MCHBAR16(0x614) = (MCHBAR16(0x614) & ~0x3f3f) | (0x14 << 8) | 0xa;
+
+ MCHBAR32(0x6c0) = MCHBAR32(0x6c0) | 0x80002000;
+}
+
+static void sdram_programddr(void)
+{
+ MCHBAR16(0x6d1) = (MCHBAR16(0x6d1) & ~0x03ff) | 0x100;
+ MCHBAR16(0x210) = (MCHBAR16(0x210) & ~0x003f) | 0x10;
+ MCHBAR16(0x2d1) = (MCHBAR16(0x2d1) & ~0x7000) | 0x2000;
+ MCHBAR8(0x180) = MCHBAR8(0x180) & ~0xe;
+ MCHBAR8(0x18c) = MCHBAR8(0x18c) & ~0xc;
+ MCHBAR8(0x561) = MCHBAR8(0x561) & ~0xe;
+ MCHBAR8(0x565) = MCHBAR8(0x565) & ~0xe;
+ MCHBAR8(0x569) = MCHBAR8(0x569) & ~0xe;
+ MCHBAR8(0x56d) = MCHBAR8(0x56d) & ~0xe;
+ MCHBAR8(0x571) = MCHBAR8(0x571) & ~0xe;
+ MCHBAR8(0x575) = MCHBAR8(0x575) & ~0xe;
+ MCHBAR8(0x579) = MCHBAR8(0x579) & ~0xe;
+ MCHBAR8(0x57d) = MCHBAR8(0x57d) & ~0xe;
+ MCHBAR8(0x18c) = MCHBAR8(0x18c) & ~0x2;
+ MCHBAR16(0x1b4) = MCHBAR16(0x1b4) & ~0x400;
+ MCHBAR16(0x210) = MCHBAR16(0x210) & ~0xdc0;
+ MCHBAR8(0x239) = MCHBAR8(0x239) & ~0x80;
+ MCHBAR32(0x2c0) = MCHBAR32(0x2c0) & ~(1 << 22);
+ MCHBAR16(0x2d1) = MCHBAR16(0x2d1) & ~0x80fc;
+ MCHBAR16(0x6d1) = MCHBAR16(0x6d1) & ~0xc00;
+ MCHBAR8(0x180) = MCHBAR8(0x180) & ~0xd;
+ MCHBAR8(0x561) = MCHBAR8(0x561) & ~1;
+ MCHBAR8(0x565) = MCHBAR8(0x565) & ~1;
+ MCHBAR8(0x569) = MCHBAR8(0x569) & ~1;
+ MCHBAR8(0x56d) = MCHBAR8(0x56d) & ~1;
+ MCHBAR8(0x571) = MCHBAR8(0x571) & ~1;
+ MCHBAR8(0x575) = MCHBAR8(0x575) & ~1;
+ MCHBAR8(0x579) = MCHBAR8(0x579) & ~1;
+ MCHBAR8(0x57d) = MCHBAR8(0x57d) & ~1;
+ MCHBAR32(0x248) = (MCHBAR32(0x248) & ~0x700000) | (0x3 << 20);
+ MCHBAR32(0x2c0) = MCHBAR32(0x2c0) & ~0x100000;
+ MCHBAR8(0x592) = MCHBAR8(0x592) | 0x1e;
+ MCHBAR8(0x2c15) = MCHBAR8(0x2c15) | 0x3;
+ MCHBAR32(0x62c) = (MCHBAR32(0x62c) & ~0xc000000) | 0x4000000;
+ MCHBAR16(0x248) = MCHBAR16(0x248) | 0x6000;
+ MCHBAR32(0x260) = MCHBAR32(0x260) | 0x10000;
+ MCHBAR8(0x2c0) = MCHBAR8(0x2c0) | 0x10;
+ MCHBAR32(0x2d0) = MCHBAR32(0x2d0) | (0xf << 24);
+ MCHBAR8(0x189) = MCHBAR8(0x189) | 0x7;
+ MCHBAR8(0x592) = MCHBAR8(0x592) | 0xc0;
+ MCHBAR8(0x124) = MCHBAR8(0x124) | 0x7;
+ MCHBAR16(0x12a) = (MCHBAR16(0x12a) & ~0xffff) | 0x0080;
+ MCHBAR8(0x12c) = (MCHBAR8(0x12c) & ~0xff) | 0x10;
+ MCHBAR16(0x2c0) = MCHBAR16(0x2c0) | 0x1e0;
+ MCHBAR8(0x189) = MCHBAR8(0x189) | 0x18;
+ MCHBAR8(0x193) = MCHBAR8(0x193) | 0xd;
+ MCHBAR16(0x212) = MCHBAR16(0x212) | 0xa3f;
+ MCHBAR8(0x248) = MCHBAR8(0x248) | 0x3;
+ MCHBAR8(0x268) = (MCHBAR8(0x268) & ~0xff) | 0x4a;
+ MCHBAR8(0x2c4) = MCHBAR8(0x2c4) & ~0x60;
+ MCHBAR16(0x592) = MCHBAR16(0x592) | 0x321;
+}
+
+static void sdram_programdqdqs(struct sysinfo *s)
+{
+ u16 mdclk, tpi, refclk, dqdqs_out, dqdqs_outdelay, dqdqs_delay;
+ u32 coretomcp, txdelay, tmaxunmask, tmaxpi;
+ u8 repeat, halfclk, feature, reg8, push;
+ u16 cwb, pimdclk;
+ u32 reg32;
+ u8 txfifotab[8] = { 0, 7, 6, 5, 2, 1, 4, 3 };
+
+ tpi = 3000;
+ dqdqs_out = 4382;
+ dqdqs_outdelay = 5083;
+ dqdqs_delay = 4692;
+ coretomcp = 0;
+ txdelay = 0;
+ halfclk = 0;
+ tmaxunmask = 0;
+ tmaxpi = 0;
+ repeat = 2;
+ feature = 0;
+ cwb = 0;
+ pimdclk = 0;
+ reg32 = 0;
+ push = 0;
+ reg8 = 0;
+
+ mdclk = (s->selected_timings.mem_clock == MEM_CLOCK_667MHz) ? 3000 : 2500;
+ refclk = 3000 - mdclk;
+
+ coretomcp = ((MCHBAR8(0x246) >> 2) & 0x3) + 1;
+ coretomcp *= mdclk;
+
+ reg8 = (MCHBAR8(0x188) & 0xe) >> 1;
+
+ while (repeat) {
+ txdelay = mdclk * (
+ ((MCHBAR16(0x220) >> 8) & 0x7) +
+ (MCHBAR8(0x24d) & 0xf) +
+ (MCHBAR8(0x24e) & 0x1)
+ ) +
+ txfifotab[reg8]*(mdclk/2) +
+ coretomcp +
+ refclk +
+ cwb;
+ halfclk = (MCHBAR8(0x5d9) >> 1) & 0x1;
+ if (halfclk) {
+ txdelay -= mdclk / 2;
+ reg32 = dqdqs_outdelay + coretomcp - mdclk / 2;
+ } else {
+ reg32 = dqdqs_outdelay + coretomcp;
+ }
+
+ tmaxunmask = txdelay - mdclk - dqdqs_out;
+ tmaxpi = tmaxunmask - tpi;
+
+ if ((tmaxunmask >= reg32) && tmaxpi >= dqdqs_delay) {
+ if (repeat == 2) {
+ MCHBAR32(0x2c0) = MCHBAR32(0x2c0) & ~(1 << 23);
+ }
+ feature = 1;
+ repeat = 0;
+ } else {
+ repeat--;
+ MCHBAR32(0x2c0) = MCHBAR32(0x2c0) | (1 << 23);
+ cwb = 2 * mdclk;
+ }
+ }
+
+ if (!feature) {
+ MCHBAR8(0x2d1) = MCHBAR8(0x2d1) & ~0x3;
+ return;
+ }
+ MCHBAR8(0x2d1) = MCHBAR8(0x2d1) | 0x3;
+ MCHBAR16(0x210) = (MCHBAR16(0x210) & ~0xf000) | (pimdclk << 12);
+ MCHBAR8(0x2c02) = (MCHBAR8(0x2c02) & ~0x77) | (push << 4) | push;
+ MCHBAR32(0x2c0) = (MCHBAR32(0x2c0) & ~0xf000000) | 0x3000000;
+}
+
+/**
+ * @param boot_path: 0 = normal, 1 = reset, 2 = resume from s3
+ */
+void sdram_initialize(int boot_path, const u8 *spd_addresses)
+{
+ struct sysinfo si;
+ u8 reg8;
+
+ PRINTK_DEBUG("Setting up RAM controller.\n");
+
+ memset(&si, 0, sizeof(si));
+
+ si.boot_path = boot_path;
+ si.spd_map[0] = spd_addresses[0];
+ si.spd_map[1] = spd_addresses[1];
+ si.spd_map[2] = spd_addresses[2];
+ si.spd_map[3] = spd_addresses[3];
+
+ sdram_read_spds(&si);
+
+ /* Choose Common Frequency */
+ sdram_detect_ram_speed(&si);
+
+ /* Determine smallest common tRAS, tRP, tRCD, etc */
+ sdram_detect_smallest_params(&si);
+
+ /* Enable HPET */
+ enable_hpet();
+ hpet_udelay(300000);
+
+ MCHBAR16(0xc1c) = MCHBAR16(0xc1c) | (1 << 15);
+
+ hpet_udelay(100000);
+
+ sdram_clk_crossing(&si);
+
+ sdram_checkreset();
+ PRINTK_DEBUG("Done checkreset\n");
+
+ sdram_clkmode(&si);
+ PRINTK_DEBUG("Done clkmode\n");
+
+ sdram_timings(&si);
+ PRINTK_DEBUG("Done timings (dqs dll enabled)\n");
+
+ sdram_dlltiming(&si);
+ PRINTK_DEBUG("Done dlltiming\n");
+
+ hpet_udelay(200000);
+
+ sdram_rcomp(&si);
+ PRINTK_DEBUG("Done RCOMP\n");
+
+ sdram_odt(&si);
+ PRINTK_DEBUG("Done odt\n");
+
+ while ((MCHBAR8(0x130) & 0x1) != 0);
+
+ sdram_mmap(&si);
+ PRINTK_DEBUG("Done mmap\n");
+
+ // Enable DDR IO buffer
+ MCHBAR8(0x5dd) = (MCHBAR8(0x5dd) & ~0x3f) | 0x8;
+ MCHBAR8(0x5d8) = MCHBAR8(0x5d8) | 0x1;
+
+ sdram_rcompupdate(&si);
+ PRINTK_DEBUG("Done RCOMP update\n");
+
+ MCHBAR8(0x40) = MCHBAR8(0x40) | 0x2;
+
+ if (si.boot_path != BOOT_PATH_RESUME) {
+ MCHBAR32(0x260) = MCHBAR32(0x260) | (1 << 27);
+ }
+
+ sdram_jedecinit(&si);
+ PRINTK_DEBUG("Done MRS\n");
+
+ sdram_misc(&si);
+ PRINTK_DEBUG("Done misc\n");
+
+ sdram_zqcl(&si);
+ PRINTK_DEBUG("Done zqcl\n");
+
+ if (si.boot_path != BOOT_PATH_RESUME) {
+ MCHBAR32(0x268) = MCHBAR32(0x268) | 0xc0000000;
+ }
+
+ sdram_dradrb(&si);
+ PRINTK_DEBUG("Done dradrb\n");
+
+ sdram_rcven(&si);
+ PRINTK_DEBUG("Done rcven\n");
+
+ sdram_new_trd(&si);
+ PRINTK_DEBUG("Done tRD\n");
+
+ sdram_mmap_regs(&si);
+ PRINTK_DEBUG("Done mmap regs\n");
+
+ sdram_enhancedmode(&si);
+ PRINTK_DEBUG("Done enhanced mode\n");
+
+ sdram_powersettings(&si);
+ PRINTK_DEBUG("Done power settings\n");
+
+ sdram_programddr();
+ PRINTK_DEBUG("Done programming ddr\n");
+
+ sdram_programdqdqs(&si);
+ PRINTK_DEBUG("Done programming dqdqs\n");
+
+ sdram_periodic_rcomp();
+ PRINTK_DEBUG("Done periodic RCOMP\n");
+
+ /* Set init done */
+ MCHBAR32(0x268) = MCHBAR32(0x268) | 0x40000000;
+
+ /* Tell ICH7 that we're done */
+ reg8 = pci_read_config8(PCI_DEV(0, 0x1f, 0), 0xa2);
+ pci_write_config8(PCI_DEV(0, 0x1f, 0), 0xa2, reg8 & ~0x80);
+
+ /* Tell northbridge we're done */
+ reg8 = pci_read_config8(PCI_DEV(0,0,0), 0xf4);
+ pci_write_config8(PCI_DEV(0,0,0), 0xf4, reg8 | 1);
+
+ printk(BIOS_DEBUG, "RAM initialization finished.\n");
+}
diff --git a/src/northbridge/intel/pineview/raminit.h b/src/northbridge/intel/pineview/raminit.h
new file mode 100644
index 0000000000..dc8de74634
--- /dev/null
+++ b/src/northbridge/intel/pineview/raminit.h
@@ -0,0 +1,22 @@
+/*
+ * This file is part of the coreboot project.
+ *
+ * Copyright (C) 2015 Damien Zammit <damien@zamaudio.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; either version 2 of
+ * the License, or (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ */
+
+#ifndef PINEVIEW_RAMINIT_H
+#define PINEVIEW_RAMINIT_H
+
+void sdram_initialize(int boot_path, const u8 *sdram_addresses);
+
+#endif /* PINEVIEW_RAMINIT_H */