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review.coreboot.org / coreboot / 3f1458ddd42911fa63d9f55c10cd57ed3953016b / . / src / northbridge / intel / i82810 / raminit.c
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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2007-2009 Uwe Hermann <uwe@hermann-uwe.de>
* Copyright (C) 2007 Corey Osgood <corey@slightlyhackish.com>
* Copyright (C) 2008-2009 Elia Yehuda <z4ziggy@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; 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.
*
* 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <spd.h>
#include <sdram_mode.h>
#include <delay.h>
#include "i82810.h"
/*-----------------------------------------------------------------------------
Macros and definitions.
-----------------------------------------------------------------------------*/
/* Uncomment this to enable debugging output. */
// #define DEBUG_RAM_SETUP 1
/* Debugging macros. */
#if defined(DEBUG_RAM_SETUP)
#define PRINT_DEBUG(x) print_debug(x)
#define PRINT_DEBUG_HEX8(x) print_debug_hex8(x)
#define PRINT_DEBUG_HEX16(x) print_debug_hex16(x)
#define PRINT_DEBUG_HEX32(x) print_debug_hex32(x)
#define DUMPNORTH() dump_pci_device(PCI_DEV(0, 0, 0))
#else
#define PRINT_DEBUG(x)
#define PRINT_DEBUG_HEX8(x)
#define PRINT_DEBUG_HEX16(x)
#define PRINT_DEBUG_HEX32(x)
#define DUMPNORTH()
#endif
/* DRAMT[7:5] - SDRAM Mode Select (SMS). */
#define RAM_COMMAND_SELF_REFRESH 0x0 /* Disable refresh */
#define RAM_COMMAND_NORMAL 0x1 /* Refresh: 15.6/11.7us for 100/133MHz */
#define RAM_COMMAND_NORMAL_FR 0x2 /* Refresh: 7.8/5.85us for 100/133MHz */
#define RAM_COMMAND_NOP 0x4 /* NOP command */
#define RAM_COMMAND_PRECHARGE 0x5 /* All bank precharge */
#define RAM_COMMAND_MRS 0x6 /* Mode register set */
#define RAM_COMMAND_CBR 0x7 /* CBR */
/*
* Table which returns the RAM size in MB when fed the DRP[7:4] or [3:0] value.
* Note that 2 is a value which the DRP should never be programmed to.
* Some size values appear twice, due to single-sided vs dual-sided banks.
*/
static const u16 translate_i82810_to_mb[] = {
/* DRP 0 1 (2) 3 4 5 6 7 8 9 A B C D E F */
/* MB */0, 8, 0, 16, 16, 24, 32, 32, 48, 64, 64, 96, 128, 128, 192, 256,
};
/* Size of bank#0 for dual-sided DIMMs */
static const u8 translate_i82810_to_bank[] = {
/* DRP 0 1 (2) 3 4 5 6 7 8 9 A B C D E F */
/* MB */0, 0, 0, 8, 0, 16, 16, 0, 32, 32, 0, 64, 64, 0, 128, 128,
};
struct dimm_info {
u8 ds; /* dual-sided */
u8 ss; /* single-sided */
u8 size;
};
/*-----------------------------------------------------------------------------
SDRAM configuration functions.
-----------------------------------------------------------------------------*/
/**
* Send the specified RAM command to all DIMMs.
*
* @param The RAM command to send to the DIMM(s).
*/
static void do_ram_command(u8 command)
{
u32 addr, addr_offset;
u16 dimm_size, dimm_start, dimm_bank;
u8 reg8, drp;
int i, caslatency;
/* Configure the RAM command. */
reg8 = pci_read_config8(PCI_DEV(0, 0, 0), DRAMT);
reg8 &= 0x1f; /* Clear bits 7-5. */
reg8 |= command << 5;
pci_write_config8(PCI_DEV(0, 0, 0), DRAMT, reg8);
/*
* RAM_COMMAND_NORMAL affects only the memory controller and
* doesn't need to be "sent" to the DIMMs.
*/
if (command == RAM_COMMAND_NORMAL)
return;
dimm_start = 0;
for (i = 0; i < DIMM_SOCKETS; i++) {
/*
* Calculate the address offset where we need to "send" the
* DIMM command to. For most commands the offset is 0, only
* RAM_COMMAND_MRS needs special values, see below.
* The final address offset bits depend on three things:
*
* (1) Some hardcoded values specified in the datasheet.
* (2) Which CAS latency we will use/set. This is the SMAA[4]
* bit, which is 1 for CL3, and 0 for CL2. The bitstring
* so far has the form '00000001X1010', X being SMAA[4].
* (3) The DIMM to which we want to send the command. For
* DIMM0 no special handling is needed, but for DIMM1 we
* must invert the four bits SMAA[7:4] (see datasheet).
*
* Finally, the bitstring has to be shifted 3 bits to the left.
* See i810 datasheet pages 43, 85, and 86 for details.
*/
addr_offset = 0;
caslatency = 3; /* TODO: Dynamically get CAS latency later. */
if (i == 0 && command == RAM_COMMAND_MRS && caslatency == 3)
addr_offset = 0x1d0; /* DIMM0, CL3, 0000111010000 */
if (i == 1 && command == RAM_COMMAND_MRS && caslatency == 3)
addr_offset = 0x650; /* DIMM1, CL3, 0011001010000 */
if (i == 0 && command == RAM_COMMAND_MRS && caslatency == 2)
addr_offset = 0x150; /* DIMM0, CL2, 0000101010000 */
if (i == 1 && command == RAM_COMMAND_MRS && caslatency == 2)
addr_offset = 0x1a0; /* DIMM1, CL2, 0000110100000 */
drp = pci_read_config8(PCI_DEV(0, 0, 0), DRP);
drp = (drp >> (i * 4)) & 0x0f;
dimm_size = translate_i82810_to_mb[drp];
addr = (dimm_start * 1024 * 1024) + addr_offset;
if (dimm_size) {
PRINT_DEBUG(" Sending RAM command 0x");
PRINT_DEBUG_HEX8(reg8);
PRINT_DEBUG(" to 0x");
PRINT_DEBUG_HEX32(addr);
PRINT_DEBUG("\r\n");
read32(addr);
}
dimm_bank = translate_i82810_to_bank[drp];
addr = ((dimm_start + dimm_bank) * 1024 * 1024) + addr_offset;
if (dimm_bank) {
PRINT_DEBUG(" Sending RAM command 0x");
PRINT_DEBUG_HEX8(reg8);
PRINT_DEBUG(" to 0x");
PRINT_DEBUG_HEX32(addr);
PRINT_DEBUG("\r\n");
read32(addr);
}
dimm_start += dimm_size;
}
}
/*-----------------------------------------------------------------------------
DIMM-independant configuration functions.
-----------------------------------------------------------------------------*/
/*
* Set DRP - DRAM Row Population Register (Device 0).
*/
static void spd_set_dram_size(void)
{
/* The variables drp and dimm_size have to be ints since all the
* SMBus-related functions return ints, and its just easier this way.
*/
int i, drp, dimm_size;
drp = 0x00;
for (i = 0; i < DIMM_SOCKETS; i++) {
/* First check if a DIMM is actually present. */
if (smbus_read_byte(DIMM_SPD_BASE + i, 2) == 4) {
print_debug("Found DIMM in slot ");
print_debug_hex8(i);
print_debug("\r\n");
dimm_size = smbus_read_byte(DIMM_SPD_BASE + i, 31);
/* WISHLIST: would be nice to display it as decimal? */
print_debug("DIMM is 0x");
print_debug_hex8(dimm_size * 4);
print_debug("MB\r\n");
/* The i810 can't handle DIMMs larger than 128MB per
* side. This will fail if the DIMM uses a
* non-supported DRAM tech, and can't be used until
* buffers are done dynamically.
* Note: the factory BIOS just dies if it spots this :D
*/
if (dimm_size > 32) {
print_err("DIMM row sizes larger than 128MB not"
"supported on i810\r\n");
print_err
("Attempting to treat as 128MB DIMM\r\n");
dimm_size = 32;
}
/* This array is provided in raminit.h, because it got
* extremely messy. The above way is cleaner, but
* doesn't support any asymetrical/odd configurations.
*/
dimm_size = translate_spd_to_i82810[dimm_size];
print_debug("After translation, dimm_size is 0x");
print_debug_hex8(dimm_size);
print_debug("\r\n");
/* If the DIMM is dual-sided, the DRP value is +2 */
/* TODO: Figure out asymetrical configurations. */
if ((smbus_read_byte(DIMM_SPD_BASE + i, 127) | 0xf) ==
0xff) {
print_debug("DIMM is dual-sided\r\n");
dimm_size += 2;
}
} else {
print_debug("No DIMM found in slot ");
print_debug_hex8(i);
print_debug("\r\n");
/* If there's no DIMM in the slot, set value to 0. */
dimm_size = 0x00;
}
/* Put in dimm_size to reflect the current DIMM. */
drp |= dimm_size << (i * 4);
}
print_debug("DRP calculated to 0x");
print_debug_hex8(drp);
print_debug("\r\n");
pci_write_config8(PCI_DEV(0, 0, 0), DRP, drp);
}
static void set_dram_timing(void)
{
/* TODO, for now using default, hopefully safe values. */
// pci_write_config8(PCI_DEV(0, 0, 0), DRAMT, 0x00);
}
/*
* TODO: BUFF_SC needs to be set according to the DRAM tech (x8, x16,
* or x32), but the datasheet doesn't list all the details. Currently, it
* needs to be pulled from the output of 'lspci -xxx Rx92'.
*
* Common results (tested on actual hardware) are:
*
* (DRP: c = 128MB dual sided, d = 128MB single sided, f = 256MB dual sided)
*
* BUFF_SC TOM DRP DIMM0 DIMM1
* ----------------------------------------------------------------------------
* 0x3356 128MB 0x0c 128MB dual-sided -
* 0xcc56 128MB 0xc0 - 128MB dual-sided
* 0x77da 128MB 0x0d 128MB single-sided -
* 0xddda 128MB 0xd0 - 128MB single-sided
* 0x0001 256MB 0xcc 128MB dual-sided 128MB dual-sided
* 0x55c6 256MB 0xdd 128MB single-sided 128MB single-sided
* 0x4445 256MB 0xcd 128MB single-sided 128MB dual-sided
* 0x1145 256MB 0xdc 128MB dual-sided 128MB single-sided
* 0x3356 256MB 0x0f 256MB dual-sided -
* 0xcc56 256MB 0xf0 - 256MB dual-sided
* 0x0001 384MB 0xcf 256MB dual-sided 128MB dual-sided
* 0x0001 384MB 0xfc 128MB dual-sided 256MB dual-sided
* 0x1145 384MB 0xdf 256MB dual-sided 128MB single-sided
* 0x4445 384MB 0xfd 128MB single-sided 256MB dual-sided
* 0x0001 512MB 0xff 256MB dual-sided 256MB dual-sided
*
* See also:
* http://www.coreboot.org/pipermail/coreboot/2009-May/047966.html
*/
static void set_dram_buffer_strength(void)
{
struct dimm_info d0, d1;
u16 buff_sc;
/* Check first slot. */
d0.size = d0.ds = d0.ss = 0;
if (smbus_read_byte(DIMM_SPD_BASE, SPD_MEMORY_TYPE)
== SPD_MEMORY_TYPE_SDRAM) {
d0.size = smbus_read_byte(DIMM_SPD_BASE, SPD_BANK_DENSITY);
d0.ds = smbus_read_byte(DIMM_SPD_BASE, SPD_NUM_DIMM_BANKS) > 1;
d0.ss = !d0.ds;
}
/* Check second slot. */
d1.size = d1.ds = d1.ss = 0;
if (smbus_read_byte(DIMM_SPD_BASE + 1, SPD_MEMORY_TYPE)
== SPD_MEMORY_TYPE_SDRAM) {
d1.size = smbus_read_byte(DIMM_SPD_BASE + 1, SPD_BANK_DENSITY);
d1.ds = smbus_read_byte(DIMM_SPD_BASE + 1,
SPD_NUM_DIMM_BANKS) > 1;
d1.ss = !d1.ds;
}
buff_sc = 0;
/* Tame the beast... */
if ((d0.ds && d1.ds) || (d0.ds && d1.ss) || (d0.ss && d1.ds))
buff_sc |= 1;
if ((d0.size && !d1.size) || (!d0.size && d1.size) || (d0.ss && d1.ss))
buff_sc |= 1 << 1;
if ((d0.ds && !d1.size) || (!d0.size && d1.ds) || (d0.ss && d1.ss)
|| (d0.ds && d1.ss) || (d0.ss && d1.ds))
buff_sc |= 1 << 2;
if ((d0.ss && !d1.size) || (!d0.size && d1.ss))
buff_sc |= 1 << 3;
if ((d0.size && !d1.size) || (!d0.size && d1.size))
buff_sc |= 1 << 4;
if ((d0.ds && !d1.size) || (!d0.size && d1.ds) || (d0.ds && d1.ss)
|| (d0.ss && d1.ds))
buff_sc |= 1 << 6;
if ((d0.ss && !d1.size) || (!d0.size && d1.ss) || (d0.ss && d1.ss))
buff_sc |= 3 << 6;
if ((!d0.size && d1.ss) || (d0.ds && d1.ss) || (d0.ss && d1.ss))
buff_sc |= 1 << 8;
if (d0.size && !d1.size)
buff_sc |= 3 << 8;
if ((d0.ss && !d1.size) || (d0.ss && d1.ss) || (d0.ss && d1.ds))
buff_sc |= 1 << 10;
if (!d0.size && d1.size)
buff_sc |= 3 << 10;
if ((d0.size && !d1.size) || (d0.ss && !d1.size) || (!d0.size && d1.ss)
|| (d0.ss && d1.ss) || (d0.ds && d1.ss))
buff_sc |= 1 << 12;
if (d0.size && !d1.size)
buff_sc |= 1 << 13;
if ((!d0.size && d1.size) || (d0.ss && !d1.size) || (d0.ss && d1.ss)
|| (d0.ss && d1.ds))
buff_sc |= 1 << 14;
if (!d0.size && d1.size)
buff_sc |= 1 << 15;
print_debug("BUFF_SC calculated to 0x");
print_debug_hex16(buff_sc);
print_debug("\r\n");
pci_write_config16(PCI_DEV(0, 0, 0), BUFF_SC, buff_sc);
}
/*-----------------------------------------------------------------------------
Public interface.
-----------------------------------------------------------------------------*/
static void sdram_set_registers(void)
{
u8 reg8;
u16 reg16, did;
did = pci_read_config16(PCI_DEV(0, 0, 0), PCI_DEVICE_ID);
/* Ideally, this should be R/W for as many ranges as possible. */
pci_write_config8(PCI_DEV(0, 0, 0), PAMR, 0xff);
/* Set size for onboard-VGA framebuffer. */
reg8 = pci_read_config8(PCI_DEV(0, 0, 0), SMRAM);
reg8 &= 0x3f; /* Disable graphics (for now). */
#ifdef CONFIG_VIDEO_MB
if (CONFIG_VIDEO_MB == 512)
reg8 |= (1 << 7); /* Enable graphics (512KB RAM). */
else if (CONFIG_VIDEO_MB == 1)
reg8 |= (1 << 7) | (1 << 6); /* Enable graphics (1MB RAM). */
#endif
pci_write_config8(PCI_DEV(0, 0, 0), SMRAM, reg8);
/* MISSC2: Bits 1, 2, 6, 7 must be set for VGA (see datasheet). */
reg8 = pci_read_config8(PCI_DEV(0, 0, 0), MISSC2);
reg8 |= (1 << 1); /* Instruction Parser Unit-Level Clock Gating */
reg8 |= (1 << 2); /* Palette Load Select */
if (did == 0x7124) {
/* Bits 6 and 7 are only available on 82810E (not 82810). */
reg8 |= (1 << 6); /* Text Immediate Blit */
reg8 |= (1 << 7); /* Must be 1 as per datasheet. */
}
pci_write_config8(PCI_DEV(0, 0, 0), MISSC2, reg8);
}
static void sdram_set_spd_registers(void)
{
spd_set_dram_size();
set_dram_buffer_strength();
set_dram_timing();
}
/**
* Enable SDRAM.
*/
static void sdram_enable(void)
{
int i;
/* 1. Apply NOP. */
PRINT_DEBUG("RAM Enable 1: Apply NOP\r\n");
do_ram_command(RAM_COMMAND_NOP);
udelay(200);
/* 2. Precharge all. Wait tRP. */
PRINT_DEBUG("RAM Enable 2: Precharge all\r\n");
do_ram_command(RAM_COMMAND_PRECHARGE);
udelay(1);
/* 3. Perform 8 refresh cycles. Wait tRC each time. */
PRINT_DEBUG("RAM Enable 3: CBR\r\n");
for (i = 0; i < 8; i++) {
do_ram_command(RAM_COMMAND_CBR);
udelay(1);
}
/* 4. Mode register set. Wait two memory cycles. */
PRINT_DEBUG("RAM Enable 4: Mode register set\r\n");
do_ram_command(RAM_COMMAND_MRS);
udelay(2);
/* 5. Normal operation (enables refresh at 15.6usec). */
PRINT_DEBUG("RAM Enable 5: Normal operation\r\n");
do_ram_command(RAM_COMMAND_NORMAL);
udelay(1);
PRINT_DEBUG("Northbridge following SDRAM init:\r\n");
DUMPNORTH();
}