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cos / mirrors / cros / chromiumos / third_party / coreboot / 9187925dfe2f3c5432449a745a7c24c5635f0b0b / . / src / cpu / amd / geode_lx / cpureginit.c
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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2006 Indrek Kruusa <indrek.kruusa@artecdesign.ee>
* Copyright (C) 2006 Ronald G. Minnich <rminnich@gmail.com>
* Copyright (C) 2007 Advanced Micro Devices, 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; 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
*/
/**************************************************************************
;*
;* SetDelayControl
;*
;*************************************************************************/
#include "cpu/x86/msr.h"
/**
* Delay Control Settings table from AMD (MCP 0x4C00000F).
*/
static const msrinit_t delay_msr_table[] = {
{CPU_BC_MSS_ARRAY_CTL0, {.hi = 0x00000000, .lo = 0x2814D352}},
{CPU_BC_MSS_ARRAY_CTL1, {.hi = 0x00000000, .lo = 0x1068334D}},
{CPU_BC_MSS_ARRAY_CTL2, {.hi = 0x00000106, .lo = 0x83104104}},
};
static const struct delay_controls {
u8 dimms;
u8 devices;
u32 slow_hi;
u32 slow_low;
u32 fast_hi;
u32 fast_low;
} delay_control_table[] = {
/* DIMMs Devs Slow (<=333MHz) Fast (>334MHz) */
{ 1, 4, 0x0837100FF, 0x056960004, 0x0827100FF, 0x056960004 },
{ 1, 8, 0x0837100AA, 0x056960004, 0x0827100AA, 0x056960004 },
{ 1, 16, 0x0837100AA, 0x056960004, 0x082710055, 0x056960004 },
{ 2, 8, 0x0837100A5, 0x056960004, 0x082710000, 0x056960004 },
{ 2, 16, 0x0937100A5, 0x056960004, 0x0C27100A5, 0x056960004 },
{ 2, 20, 0x0B37100A5, 0x056960004, 0x0B27100A5, 0x056960004 },
{ 2, 24, 0x0B37100A5, 0x056960004, 0x0B27100A5, 0x056960004 },
{ 2, 32, 0x0B37100A5, 0x056960004, 0x0B2710000, 0x056960004 },
};
/*
* Bit 55 (disable SDCLK 1,3,5) should be set if there is a single DIMM
* in slot 0, but it should be clear for all 2 DIMM settings and if a
* single DIMM is in slot 1. Bits 54:52 should always be set to '111'.
*
* Settings for single DIMM and no VTT termination (like DB800 platform)
* 0xF2F100FF 0x56960004
* -------------------------------------
* ADDR/CTL have 22 ohm series R
* DQ/DQM/DQS have 33 ohm series R
*/
/**
* This is Black Magic DRAM timing juju[1].
*
* DRAM delay depends on CPU clock, memory bus clock, memory bus loading,
* memory bus termination, your middle initial (ha! caught you!), GeodeLink
* clock rate, and DRAM timing specifications.
*
* From this the code computes a number which is "known to work". No,
* hardware is not an exact science. And, finally, if an FS2 (JTAG debugger)
* is hooked up, then just don't do anything. This code was written by a master
* of the Dark Arts at AMD and should not be modified in any way.
*
* [1] (http://www.thefreedictionary.com/juju)
*
* @param dimm0 The SMBus address of DIMM 0 (mainboard dependent).
* @param dimm1 The SMBus address of DIMM 1 (mainboard dependent).
* @param terminated The bus is terminated. (mainboard dependent).
*/
static void SetDelayControl(u8 dimm0, u8 dimm1, int terminated)
{
u32 glspeed;
u8 spdbyte0, spdbyte1, dimms, i;
msr_t msr;
glspeed = GeodeLinkSpeed();
/* Fix delay controls for DM and IM arrays. */
for (i = 0; i < ARRAY_SIZE(delay_msr_table); i++)
wrmsr(delay_msr_table[i].index, delay_msr_table[i].msr);
msr = rdmsr(GLCP_FIFOCTL);
msr.hi = 0x00000005;
wrmsr(GLCP_FIFOCTL, msr);
/* Enable setting. */
msr.hi = 0;
msr.lo = 0x00000001;
wrmsr(CPU_BC_MSS_ARRAY_CTL_ENA, msr);
/* Debug Delay Control setup check.
* Leave it alone if it has been setup. FS2 or something is here.
*/
msr = rdmsr(GLCP_DELAY_CONTROLS);
if (msr.lo & ~(DELAY_LOWER_STATUS_MASK))
return;
/* Delay Controls based on DIMM loading. UGH!
* Number of devices = module width (SPD 6) / device width (SPD 13)
* * physical banks (SPD 5)
*
* Note: We only support a module width of 64.
*/
dimms = 0;
spdbyte0 = spd_read_byte(dimm0, SPD_PRIMARY_SDRAM_WIDTH);
if (spdbyte0 != 0xFF) {
dimms++;
spdbyte0 = (u8)64 / spdbyte0 *
(u8)(spd_read_byte(dimm0, SPD_NUM_DIMM_BANKS));
} else {
spdbyte0 = 0;
}
spdbyte1 = spd_read_byte(dimm1, SPD_PRIMARY_SDRAM_WIDTH);
if (spdbyte1 != 0xFF) {
dimms++;
spdbyte1 = (u8)64 / spdbyte1 *
(u8)(spd_read_byte(dimm1, SPD_NUM_DIMM_BANKS));
} else {
spdbyte1 = 0;
}
/* Zero GLCP_DELAY_CONTROLS MSR */
msr.hi = msr.lo = 0;
/* Save some power, disable clock to second DIMM if it is empty. */
if (spdbyte1 == 0)
msr.hi |= DELAY_UPPER_DISABLE_CLK135;
spdbyte0 += spdbyte1;
if ((dimms == 1) && (terminated == DRAM_TERMINATED)) {
msr.hi = 0xF2F100FF;
msr.lo = 0x56960004;
} else for (i = 0; i < ARRAY_SIZE(delay_control_table); i++) {
if ((dimms == delay_control_table[i].dimms) &&
(spdbyte0 <= delay_control_table[i].devices)) {
if (glspeed < 334) {
msr.hi |= delay_control_table[i].slow_hi;
msr.lo |= delay_control_table[i].slow_low;
} else {
msr.hi |= delay_control_table[i].fast_hi;
msr.lo |= delay_control_table[i].fast_low;
}
break;
}
}
wrmsr(GLCP_DELAY_CONTROLS, msr);
}
/* ***************************************************************************/
/* * cpuRegInit*/
/* ***************************************************************************/
void cpuRegInit(int debug_clock_disable, u8 dimm0, u8 dimm1, int terminated)
{
int msrnum;
msr_t msr;
/* Castle 2.0 BTM periodic sync period. */
/* [40:37] 1 sync record per 256 bytes */
print_debug("Castle 2.0 BTM periodic sync period.\n");
msrnum = CPU_PF_CONF;
msr = rdmsr(msrnum);
msr.hi |= (0x8 << 5);
wrmsr(msrnum, msr);
/*
* LX performance setting.
* Enable Quack for fewer re-RAS on the MC
*/
print_debug("Enable Quack for fewer re-RAS on the MC\n");
msrnum = GLIU0_ARB;
msr = rdmsr(msrnum);
msr.hi &= ~ARB_UPPER_DACK_EN_SET;
msr.hi |= ARB_UPPER_QUACK_EN_SET;
wrmsr(msrnum, msr);
msrnum = GLIU1_ARB;
msr = rdmsr(msrnum);
msr.hi &= ~ARB_UPPER_DACK_EN_SET;
msr.hi |= ARB_UPPER_QUACK_EN_SET;
wrmsr(msrnum, msr);
/* GLIU port active enable, limit south pole masters
* (AES and PCI) to one outstanding transaction.
*/
print_debug(" GLIU port active enable\n");
msrnum = GLIU1_PORT_ACTIVE;
msr = rdmsr(msrnum);
msr.lo &= ~0x880;
wrmsr(msrnum, msr);
/* Set the Delay Control in GLCP */
print_debug("Set the Delay Control in GLCP\n");
SetDelayControl(dimm0, dimm1, terminated);
/* Enable RSDC */
print_debug("Enable RSDC\n");
msrnum = CPU_AC_SMM_CTL;
msr = rdmsr(msrnum);
msr.lo |= SMM_INST_EN_SET;
wrmsr(msrnum, msr);
/* FPU imprecise exceptions bit */
print_debug("FPU imprecise exceptions bit\n");
msrnum = CPU_FPU_MSR_MODE;
msr = rdmsr(msrnum);
msr.lo |= FPU_IE_SET;
wrmsr(msrnum, msr);
/* Power Savers (Do after BIST) */
/* Enable Suspend on HLT & PAUSE instructions */
print_debug("Enable Suspend on HLT & PAUSE instructions\n");
msrnum = CPU_XC_CONFIG;
msr = rdmsr(msrnum);
msr.lo |= XC_CONFIG_SUSP_ON_HLT | XC_CONFIG_SUSP_ON_PAUSE;
wrmsr(msrnum, msr);
/* Enable SUSP and allow TSC to run in Suspend (keep speed detection happy) */
print_debug("Enable SUSP and allow TSC to run in Suspend\n");
msrnum = CPU_BC_CONF_0;
msr = rdmsr(msrnum);
msr.lo |= TSC_SUSP_SET | SUSP_EN_SET;
msr.lo &= 0x0F0FFFFFF;
msr.lo |= 0x002000000; /* PBZ213: Set PAUSEDLY = 2 */
wrmsr(msrnum, msr);
/* Disable the debug clock to save power. */
/* NOTE: leave it enabled for fs2 debug */
if (debug_clock_disable && 0) {
msrnum = GLCP_DBGCLKCTL;
msr.hi = 0;
msr.lo = 0;
wrmsr(msrnum, msr);
}
/* Setup throttling delays to proper mode if it is ever enabled. */
print_debug("Setup throttling delays to proper mode\n");
msrnum = GLCP_TH_OD;
msr.hi = 0;
msr.lo = 0x00000603C;
wrmsr(msrnum, msr);
print_debug("Done cpuRegInit\n");
}