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|
/*
* This file is part of the coreboot project.
*
* Copyright (C) 2007-2008 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; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "defaults.h"
#include <stdlib.h>
#include <cpu/x86/lapic.h>
#include <cpu/x86/mtrr.h>
#include <northbridge/amd/amdfam10/amdfam10.h>
#include <northbridge/amd/amdht/AsPsDefs.h>
#include <northbridge/amd/amdht/porting.h>
#include <cpu/x86/mtrr/earlymtrr.c>
#include <northbridge/amd/amdfam10/raminit_amdmct.c>
#include <reset.h>
static void prep_fid_change(void);
static void init_fidvid_stage2(u32 apicid, u32 nodeid);
void cpuSetAMDMSR(void);
#if CONFIG_PCI_IO_CFG_EXT == 1
static void set_EnableCf8ExtCfg(void)
{
// set the NB_CFG[46]=1;
msr_t msr;
msr = rdmsr(NB_CFG_MSR);
// EnableCf8ExtCfg: We need that to access CONFIG_PCI_IO_CFG_EXT 4K range
msr.hi |= (1 << (46 - 32));
wrmsr(NB_CFG_MSR, msr);
}
#else
static void set_EnableCf8ExtCfg(void) { }
#endif
typedef void (*process_ap_t) (u32 apicid, void *gp);
//core_range = 0 : all cores
//core range = 1 : core 0 only
//core range = 2 : cores other than core0
static void for_each_ap(u32 bsp_apicid, u32 core_range, process_ap_t process_ap,
void *gp)
{
// here assume the OS don't change our apicid
u32 ap_apicid;
u32 nodes;
u32 siblings;
u32 disable_siblings;
u32 cores_found;
u32 nb_cfg_54;
int i, j;
u32 ApicIdCoreIdSize;
/* get_nodes define in ht_wrapper.c */
nodes = get_nodes();
if (!CONFIG_LOGICAL_CPUS ||
read_option(CMOS_VSTART_multi_core, CMOS_VLEN_multi_core, 0) != 0) { // 0 means multi core
disable_siblings = 1;
} else {
disable_siblings = 0;
}
/* Assume that all node are same stepping, otherwise we can use use
nb_cfg_54 from bsp for all nodes */
nb_cfg_54 = read_nb_cfg_54();
ApicIdCoreIdSize = (cpuid_ecx(0x80000008) >> 12 & 0xf);
if (ApicIdCoreIdSize) {
siblings = ((1 << ApicIdCoreIdSize) - 1);
} else {
siblings = 3; //quad core
}
for (i = 0; i < nodes; i++) {
cores_found = get_core_num_in_bsp(i);
u32 jstart, jend;
if (core_range == 2) {
jstart = 1;
} else {
jstart = 0;
}
if (disable_siblings || (core_range == 1)) {
jend = 0;
} else {
jend = cores_found;
}
for (j = jstart; j <= jend; j++) {
ap_apicid =
i * (nb_cfg_54 ? (siblings + 1) : 1) +
j * (nb_cfg_54 ? 1 : 64);
#if (CONFIG_ENABLE_APIC_EXT_ID == 1) && (CONFIG_APIC_ID_OFFSET > 0)
#if CONFIG_LIFT_BSP_APIC_ID == 0
if ((i != 0) || (j != 0)) /* except bsp */
#endif
ap_apicid += CONFIG_APIC_ID_OFFSET;
#endif
if (ap_apicid == bsp_apicid)
continue;
process_ap(ap_apicid, gp);
}
}
}
static inline int lapic_remote_read(int apicid, int reg, u32 *pvalue)
{
int timeout;
u32 status;
int result;
lapic_wait_icr_idle();
lapic_write(LAPIC_ICR2, SET_LAPIC_DEST_FIELD(apicid));
lapic_write(LAPIC_ICR, LAPIC_DM_REMRD | (reg >> 4));
/* Extra busy check compared to lapic.h */
timeout = 0;
do {
status = lapic_read(LAPIC_ICR) & LAPIC_ICR_BUSY;
} while (status == LAPIC_ICR_BUSY && timeout++ < 1000);
timeout = 0;
do {
status = lapic_read(LAPIC_ICR) & LAPIC_ICR_RR_MASK;
} while (status == LAPIC_ICR_RR_INPROG && timeout++ < 1000);
result = -1;
if (status == LAPIC_ICR_RR_VALID) {
*pvalue = lapic_read(LAPIC_RRR);
result = 0;
}
return result;
}
#if CONFIG_SET_FIDVID
static void init_fidvid_ap(u32 bsp_apicid, u32 apicid, u32 nodeid, u32 coreid);
#endif
static inline __attribute__ ((always_inline))
void print_apicid_nodeid_coreid(u32 apicid, struct node_core_id id,
const char *str)
{
printk(BIOS_DEBUG,
"%s --- { APICID = %02x NODEID = %02x COREID = %02x} ---\n", str,
apicid, id.nodeid, id.coreid);
}
static u32 wait_cpu_state(u32 apicid, u32 state)
{
u32 readback = 0;
u32 timeout = 1;
int loop = 4000000;
while (--loop > 0) {
if (lapic_remote_read(apicid, LAPIC_MSG_REG, &readback) != 0)
continue;
if ((readback & 0x3f) == state || (readback & 0x3f) == F10_APSTATE_RESET) {
timeout = 0;
break; //target cpu is in stage started
}
}
if (timeout) {
if (readback) {
timeout = readback;
}
}
return timeout;
}
static void wait_ap_started(u32 ap_apicid, void *gp)
{
u32 timeout;
timeout = wait_cpu_state(ap_apicid, F10_APSTATE_STARTED);
printk(BIOS_DEBUG, "* AP %02x", ap_apicid);
if (timeout) {
printk(BIOS_DEBUG, " timed out:%08x\n", timeout);
} else {
printk(BIOS_DEBUG, "started\n");
}
}
void wait_all_other_cores_started(u32 bsp_apicid)
{
// all aps other than core0
printk(BIOS_DEBUG, "started ap apicid: ");
for_each_ap(bsp_apicid, 2, wait_ap_started, (void *)0);
printk(BIOS_DEBUG, "\n");
}
void allow_all_aps_stop(u32 bsp_apicid)
{
/* Called by the BSP to indicate AP can stop */
/* FIXME Do APs use this? */
// allow aps to stop use 6 bits for state
lapic_write(LAPIC_MSG_REG, (bsp_apicid << 24) | F10_APSTATE_STOPPED);
}
static void enable_apic_ext_id(u32 node)
{
u32 val;
val = pci_read_config32(NODE_HT(node), 0x68);
val |= (HTTC_APIC_EXT_SPUR | HTTC_APIC_EXT_ID | HTTC_APIC_EXT_BRD_CST);
pci_write_config32(NODE_HT(node), 0x68, val);
}
static void STOP_CAR_AND_CPU(void)
{
msr_t msr;
/* Disable L2 IC to L3 connection (Only for CAR) */
msr = rdmsr(BU_CFG2);
msr.lo &= ~(1 << ClLinesToNbDis);
wrmsr(BU_CFG2, msr);
disable_cache_as_ram(); // inline
/* stop all cores except node0/core0 the bsp .... */
stop_this_cpu();
}
#if CONFIG_RAMINIT_SYSINFO
static u32 init_cpus(u32 cpu_init_detectedx, struct sys_info *sysinfo)
#else
static u32 init_cpus(u32 cpu_init_detectedx)
#endif
{
u32 bsp_apicid = 0;
u32 apicid;
struct node_core_id id;
/*
* already set early mtrr in cache_as_ram.inc
*/
/* that is from initial apicid, we need nodeid and coreid
later */
id = get_node_core_id_x();
/* NB_CFG MSR is shared between cores, so we need make sure
core0 is done at first --- use wait_all_core0_started */
if (id.coreid == 0) {
set_apicid_cpuid_lo(); /* only set it on core0 */
set_EnableCf8ExtCfg(); /* only set it on core0 */
#if (CONFIG_ENABLE_APIC_EXT_ID == 1)
enable_apic_ext_id(id.nodeid);
#endif
}
enable_lapic();
#if (CONFIG_ENABLE_APIC_EXT_ID == 1) && (CONFIG_APIC_ID_OFFSET > 0)
u32 initial_apicid = get_initial_apicid();
#if CONFIG_LIFT_BSP_APIC_ID == 0
if (initial_apicid != 0) // other than bsp
#endif
{
/* use initial apic id to lift it */
u32 dword = lapic_read(LAPIC_ID);
dword &= ~(0xff << 24);
dword |=
(((initial_apicid + CONFIG_APIC_ID_OFFSET) & 0xff) << 24);
lapic_write(LAPIC_ID, dword);
}
#if CONFIG_LIFT_BSP_APIC_ID == 1
bsp_apicid += CONFIG_APIC_ID_OFFSET;
#endif
#endif
/* get the apicid, it may be lifted already */
apicid = lapicid();
// show our apicid, nodeid, and coreid
if (id.coreid == 0) {
if (id.nodeid != 0) //all core0 except bsp
print_apicid_nodeid_coreid(apicid, id, " core0: ");
} else { //all other cores
print_apicid_nodeid_coreid(apicid, id, " corex: ");
}
if (cpu_init_detectedx) {
print_apicid_nodeid_coreid(apicid, id,
"\n\n\nINIT detected from ");
printk(BIOS_DEBUG, "\nIssuing SOFT_RESET...\n");
soft_reset();
}
if (id.coreid == 0) {
if (!(warm_reset_detect(id.nodeid))) //FIXME: INIT is checked above but check for more resets?
distinguish_cpu_resets(id.nodeid); // Also indicates we are started
}
// Mark the core as started.
lapic_write(LAPIC_MSG_REG, (apicid << 24) | F10_APSTATE_STARTED);
if (apicid != bsp_apicid) {
/* Setup each AP's cores MSRs.
* This happens after HTinit.
* The BSP runs this code in it's own path.
*/
#if CONFIG_UPDATE_CPU_MICROCODE
update_microcode(cpuid_eax(1));
#endif
cpuSetAMDMSR();
#if CONFIG_SET_FIDVID
#if (CONFIG_LOGICAL_CPUS == 1) && CONFIG_SET_FIDVID_CORE0_ONLY
// Run on all AP for proper FID/VID setup.
if (id.coreid == 0) // only need set fid for core0
#endif
{
// check warm(bios) reset to call stage2 otherwise do stage1
if (warm_reset_detect(id.nodeid)) {
printk(BIOS_DEBUG,
"init_fidvid_stage2 apicid: %02x\n",
apicid);
init_fidvid_stage2(apicid, id.nodeid);
} else {
printk(BIOS_DEBUG,
"init_fidvid_ap(stage1) apicid: %02x\n",
apicid);
init_fidvid_ap(bsp_apicid, apicid, id.nodeid,
id.coreid);
}
}
#endif
/* AP is ready, configure MTRRs and go to sleep */
set_var_mtrr(0, 0x00000000, CONFIG_RAMTOP, MTRR_TYPE_WRBACK);
STOP_CAR_AND_CPU();
printk(BIOS_DEBUG,
"\nAP %02x should be halted but you are reading this....\n",
apicid);
}
return bsp_apicid;
}
static u32 is_core0_started(u32 nodeid)
{
u32 htic;
device_t device;
device = NODE_PCI(nodeid, 0);
htic = pci_read_config32(device, HT_INIT_CONTROL);
htic &= HTIC_ColdR_Detect;
return htic;
}
void wait_all_core0_started(void)
{
/* When core0 is started, it will distingush_cpu_resets
* So wait for that to finish */
u32 i;
u32 nodes = get_nodes();
printk(BIOS_DEBUG, "core0 started: ");
for (i = 1; i < nodes; i++) { // skip bsp, because it is running on bsp
while (!is_core0_started(i)) {
}
printk(BIOS_DEBUG, " %02x", i);
}
printk(BIOS_DEBUG, "\n");
}
#if CONFIG_MAX_PHYSICAL_CPUS > 1
/**
* void start_node(u32 node)
*
* start the core0 in node, so it can generate HT packet to feature code.
*
* This function starts the AP nodes core0s. wait_all_core0_started() in
* romstage.c waits for all the AP to be finished before continuing
* system init.
*/
static void start_node(u8 node)
{
u32 val;
/* Enable routing table */
printk(BIOS_DEBUG, "Start node %02x", node);
#if CONFIG_NORTHBRIDGE_AMD_AMDFAM10
/* For FAM10 support, we need to set Dram base/limit for the new node */
pci_write_config32(NODE_MP(node), 0x44, 0);
pci_write_config32(NODE_MP(node), 0x40, 3);
#endif
/* Allow APs to make requests (ROM fetch) */
val = pci_read_config32(NODE_HT(node), 0x6c);
val &= ~(1 << 1);
pci_write_config32(NODE_HT(node), 0x6c, val);
printk(BIOS_DEBUG, " done.\n");
}
/**
* static void setup_remote_node(u32 node)
*
* Copy the BSP Adress Map to each AP.
*/
static void setup_remote_node(u8 node)
{
/* There registers can be used with F1x114_x Address Map at the
same time, So must set them even 32 node */
static const u16 pci_reg[] = {
/* DRAM Base/Limits Registers */
0x44, 0x4c, 0x54, 0x5c, 0x64, 0x6c, 0x74, 0x7c,
0x40, 0x48, 0x50, 0x58, 0x60, 0x68, 0x70, 0x78,
0x144, 0x14c, 0x154, 0x15c, 0x164, 0x16c, 0x174, 0x17c,
0x140, 0x148, 0x150, 0x158, 0x160, 0x168, 0x170, 0x178,
/* MMIO Base/Limits Registers */
0x84, 0x8c, 0x94, 0x9c, 0xa4, 0xac, 0xb4, 0xbc,
0x80, 0x88, 0x90, 0x98, 0xa0, 0xa8, 0xb0, 0xb8,
/* IO Base/Limits Registers */
0xc4, 0xcc, 0xd4, 0xdc,
0xc0, 0xc8, 0xd0, 0xd8,
/* Configuration Map Registers */
0xe0, 0xe4, 0xe8, 0xec,
};
u16 i;
printk(BIOS_DEBUG, "setup_remote_node: %02x", node);
/* copy the default resource map from node 0 */
for (i = 0; i < ARRAY_SIZE(pci_reg); i++) {
u32 value;
u16 reg;
reg = pci_reg[i];
value = pci_read_config32(NODE_MP(0), reg);
pci_write_config32(NODE_MP(node), reg, value);
}
printk(BIOS_DEBUG, " done\n");
}
#endif /* CONFIG_MAX_PHYSICAL_CPUS > 1 */
static void AMD_Errata281(u8 node, u32 revision, u32 platform)
{
/* Workaround for Transaction Scheduling Conflict in
* Northbridge Cross Bar. Implement XCS Token adjustment
* for ganged links. Also, perform fix up for the mixed
* revision case.
*/
u32 reg, val;
u8 i;
u8 mixed = 0;
u8 nodes = get_nodes();
if (platform & AMD_PTYPE_SVR) {
/* For each node we need to check for a "broken" node */
if (!(revision & (AMD_DR_B0 | AMD_DR_B1))) {
for (i = 0; i < nodes; i++) {
if (mctGetLogicalCPUID(i) &
(AMD_DR_B0 | AMD_DR_B1)) {
mixed = 1;
break;
}
}
}
if ((revision & (AMD_DR_B0 | AMD_DR_B1)) || mixed) {
/* F0X68[22:21] DsNpReqLmt0 = 01b */
val = pci_read_config32(NODE_PCI(node, 0), 0x68);
val &= ~0x00600000;
val |= 0x00200000;
pci_write_config32(NODE_PCI(node, 0), 0x68, val);
/* F3X6C */
val = pci_read_config32(NODE_PCI(node, 3), 0x6C);
val &= ~0x700780F7;
val |= 0x00010094;
pci_write_config32(NODE_PCI(node, 3), 0x6C, val);
/* F3X7C */
val = pci_read_config32(NODE_PCI(node, 3), 0x7C);
val &= ~0x707FFF1F;
val |= 0x00144514;
pci_write_config32(NODE_PCI(node, 3), 0x7C, val);
/* F3X144[3:0] RspTok = 0001b */
val = pci_read_config32(NODE_PCI(node, 3), 0x144);
val &= ~0x0000000F;
val |= 0x00000001;
pci_write_config32(NODE_PCI(node, 3), 0x144, val);
for (i = 0; i < 3; i++) {
reg = 0x148 + (i * 4);
val = pci_read_config32(NODE_PCI(node, 3), reg);
val &= ~0x000000FF;
val |= 0x000000DB;
pci_write_config32(NODE_PCI(node, 3), reg, val);
}
}
}
}
static void AMD_Errata298(void)
{
/* Workaround for L2 Eviction May Occur during operation to
* set Accessed or dirty bit.
*/
msr_t msr;
u8 i;
u8 affectedRev = 0;
u8 nodes = get_nodes();
/* For each core we need to check for a "broken" node */
for (i = 0; i < nodes; i++) {
if (mctGetLogicalCPUID(i) & (AMD_DR_B0 | AMD_DR_B1 | AMD_DR_B2)) {
affectedRev = 1;
break;
}
}
if (affectedRev) {
msr = rdmsr(HWCR);
msr.lo |= 0x08; /* Set TlbCacheDis bit[3] */
wrmsr(HWCR, msr);
msr = rdmsr(BU_CFG);
msr.lo |= 0x02; /* Set TlbForceMemTypeUc bit[1] */
wrmsr(BU_CFG, msr);
msr = rdmsr(OSVW_ID_Length);
msr.lo |= 0x01; /* OS Visible Workaround - MSR */
wrmsr(OSVW_ID_Length, msr);
msr = rdmsr(OSVW_Status);
msr.lo |= 0x01; /* OS Visible Workaround - MSR */
wrmsr(OSVW_Status, msr);
}
if (!affectedRev && (mctGetLogicalCPUID(0xFF) & AMD_DR_B3)) {
msr = rdmsr(OSVW_ID_Length);
msr.lo |= 0x01; /* OS Visible Workaround - MSR */
wrmsr(OSVW_ID_Length, msr);
}
}
static u32 get_platform_type(void)
{
u32 ret = 0;
switch (SYSTEM_TYPE) {
case 1:
ret |= AMD_PTYPE_DSK;
break;
case 2:
ret |= AMD_PTYPE_MOB;
break;
case 0:
ret |= AMD_PTYPE_SVR;
break;
default:
break;
}
/* FIXME: add UMA support. */
/* All Fam10 are multi core */
ret |= AMD_PTYPE_MC;
return ret;
}
static void AMD_SetupPSIVID_d(u32 platform_type, u8 node)
{
u32 dword;
int i;
msr_t msr;
if (platform_type & (AMD_PTYPE_MOB | AMD_PTYPE_DSK)) {
/* The following code sets the PSIVID to the lowest support P state
* assuming that the VID for the lowest power state is below
* the VDD voltage regulator threshold. (This also assumes that there
* is a Pstate lower than P0)
*/
for (i = 4; i >= 0; i--) {
msr = rdmsr(PS_REG_BASE + i);
/* Pstate valid? */
if (msr.hi & PS_EN_MASK) {
dword = pci_read_config32(NODE_PCI(i, 3), 0xA0);
dword &= ~0x7F;
dword |= (msr.lo >> 9) & 0x7F;
pci_write_config32(NODE_PCI(i, 3), 0xA0, dword);
break;
}
}
}
}
/**
* AMD_CpuFindCapability - Traverse PCI capability list to find host HT links.
* HT Phy operations are not valid on links that aren't present, so this
* prevents invalid accesses.
*
* Returns the offset of the link register.
*/
static BOOL AMD_CpuFindCapability(u8 node, u8 cap_count, u8 * offset)
{
u32 reg;
u32 val;
/* get start of CPU HT Host Capabilities */
val = pci_read_config32(NODE_PCI(node, 0), 0x34);
val &= 0xFF; //reg offset of first link
cap_count++;
/* Traverse through the capabilities. */
do {
reg = pci_read_config32(NODE_PCI(node, 0), val);
/* Is the capability block a HyperTransport capability block? */
if ((reg & 0xFF) == 0x08) {
/* Is the HT capability block an HT Host Capability? */
if ((reg & 0xE0000000) == (1 << 29))
cap_count--;
}
if (cap_count)
val = (reg >> 8) & 0xFF; //update reg offset
} while (cap_count && val);
*offset = (u8) val;
/* If requested capability found val != 0 */
if (!cap_count)
return TRUE;
else
return FALSE;
}
/**
* AMD_checkLinkType - Compare desired link characteristics using a logical
* link type mask.
*
* Returns the link characteristic mask.
*/
static u32 AMD_checkLinkType(u8 node, u8 link, u8 regoff)
{
u32 val;
u32 linktype = 0;
/* Check connect, init and coherency */
val = pci_read_config32(NODE_PCI(node, 0), regoff + 0x18);
val &= 0x1F;
if (val == 3)
linktype |= HTPHY_LINKTYPE_COHERENT;
if (val == 7)
linktype |= HTPHY_LINKTYPE_NONCOHERENT;
if (linktype) {
/* Check gen3 */
val = pci_read_config32(NODE_PCI(node, 0), regoff + 0x08);
if (((val >> 8) & 0x0F) > 6)
linktype |= HTPHY_LINKTYPE_HT3;
else
linktype |= HTPHY_LINKTYPE_HT1;
/* Check ganged */
val = pci_read_config32(NODE_PCI(node, 0), (link << 2) + 0x170);
if (val & 1)
linktype |= HTPHY_LINKTYPE_GANGED;
else
linktype |= HTPHY_LINKTYPE_UNGANGED;
}
return linktype;
}
/**
* AMD_SetHtPhyRegister - Use the HT link's HT Phy portal registers to update
* a phy setting for that link.
*/
static void AMD_SetHtPhyRegister(u8 node, u8 link, u8 entry)
{
u32 phyReg;
u32 phyBase;
u32 val;
/* Determine this link's portal */
if (link > 3)
link -= 4;
phyBase = ((u32) link << 3) | 0x180;
/* Get the portal control register's initial value
* and update it to access the desired phy register
*/
phyReg = pci_read_config32(NODE_PCI(node, 4), phyBase);
if (fam10_htphy_default[entry].htreg > 0x1FF) {
phyReg &= ~HTPHY_DIRECT_OFFSET_MASK;
phyReg |= HTPHY_DIRECT_MAP;
} else {
phyReg &= ~HTPHY_OFFSET_MASK;
}
/* Now get the current phy register data
* LinkPhyDone = 0, LinkPhyWrite = 0 is a read
*/
phyReg |= fam10_htphy_default[entry].htreg;
pci_write_config32(NODE_PCI(node, 4), phyBase, phyReg);
do {
val = pci_read_config32(NODE_PCI(node, 4), phyBase);
} while (!(val & HTPHY_IS_COMPLETE_MASK));
/* Now we have the phy register data, apply the change */
val = pci_read_config32(NODE_PCI(node, 4), phyBase + 4);
val &= ~fam10_htphy_default[entry].mask;
val |= fam10_htphy_default[entry].data;
pci_write_config32(NODE_PCI(node, 4), phyBase + 4, val);
/* write it through the portal to the phy
* LinkPhyDone = 0, LinkPhyWrite = 1 is a write
*/
phyReg |= HTPHY_WRITE_CMD;
pci_write_config32(NODE_PCI(node, 4), phyBase, phyReg);
do {
val = pci_read_config32(NODE_PCI(node, 4), phyBase);
} while (!(val & HTPHY_IS_COMPLETE_MASK));
}
void cpuSetAMDMSR(void)
{
/* This routine loads the CPU with default settings in fam10_msr_default
* table . It must be run after Cache-As-RAM has been enabled, and
* Hypertransport initialization has taken place. Also note
* that it is run on the current processor only, and only for the current
* processor core.
*/
msr_t msr;
u8 i;
u32 revision, platform;
printk(BIOS_DEBUG, "cpuSetAMDMSR ");
revision = mctGetLogicalCPUID(0xFF);
platform = get_platform_type();
for (i = 0; i < ARRAY_SIZE(fam10_msr_default); i++) {
if ((fam10_msr_default[i].revision & revision) &&
(fam10_msr_default[i].platform & platform)) {
msr = rdmsr(fam10_msr_default[i].msr);
msr.hi &= ~fam10_msr_default[i].mask_hi;
msr.hi |= fam10_msr_default[i].data_hi;
msr.lo &= ~fam10_msr_default[i].mask_lo;
msr.lo |= fam10_msr_default[i].data_lo;
wrmsr(fam10_msr_default[i].msr, msr);
}
}
AMD_Errata298();
printk(BIOS_DEBUG, " done\n");
}
static void cpuSetAMDPCI(u8 node)
{
/* This routine loads the CPU with default settings in fam10_pci_default
* table . It must be run after Cache-As-RAM has been enabled, and
* Hypertransport initialization has taken place. Also note
* that it is run for the first core on each node
*/
u8 i, j;
u32 revision, platform;
u32 val;
u8 offset;
printk(BIOS_DEBUG, "cpuSetAMDPCI %02d", node);
revision = mctGetLogicalCPUID(node);
platform = get_platform_type();
AMD_SetupPSIVID_d(platform, node); /* Set PSIVID offset which is not table driven */
for (i = 0; i < ARRAY_SIZE(fam10_pci_default); i++) {
if ((fam10_pci_default[i].revision & revision) &&
(fam10_pci_default[i].platform & platform)) {
val = pci_read_config32(NODE_PCI(node,
fam10_pci_default[i].
function),
fam10_pci_default[i].offset);
val &= ~fam10_pci_default[i].mask;
val |= fam10_pci_default[i].data;
pci_write_config32(NODE_PCI(node,
fam10_pci_default[i].
function),
fam10_pci_default[i].offset, val);
}
}
for (i = 0; i < ARRAY_SIZE(fam10_htphy_default); i++) {
if ((fam10_htphy_default[i].revision & revision) &&
(fam10_htphy_default[i].platform & platform)) {
/* HT Phy settings either apply to both sublinks or have
* separate registers for sublink zero and one, so there
* will be two table entries. So, here we only loop
* through the sublink zeros in function zero.
*/
for (j = 0; j < 4; j++) {
if (AMD_CpuFindCapability(node, j, &offset)) {
if (AMD_checkLinkType(node, j, offset)
& fam10_htphy_default[i].linktype) {
AMD_SetHtPhyRegister(node, j,
i);
}
} else {
/* No more capabilities,
* link not present
*/
break;
}
}
}
}
/* FIXME: add UMA support and programXbarToSriReg(); */
AMD_Errata281(node, revision, platform);
/* FIXME: if the dct phy doesn't init correct it needs to reset.
if (revision & (AMD_DR_B2 | AMD_DR_B3))
dctPhyDiag(); */
printk(BIOS_DEBUG, " done\n");
}
#ifdef UNUSED_CODE
static void cpuInitializeMCA(void)
{
/* Clears Machine Check Architecture (MCA) registers, which power on
* containing unknown data, on currently running processor.
* This routine should only be executed on initial power on (cold boot),
* not across a warm reset because valid data is present at that time.
*/
msr_t msr;
u32 reg;
u8 i;
if (cpuid_edx(1) & 0x4080) { /* MCE and MCA (edx[7] and edx[14]) */
msr = rdmsr(MCG_CAP);
if (msr.lo & MCG_CTL_P) { /* MCG_CTL_P bit is set? */
msr.lo &= 0xFF;
msr.lo--;
msr.lo <<= 2; /* multiply the count by 4 */
reg = MC0_STA + msr.lo;
msr.lo = msr.hi = 0;
for (i = 0; i < 4; i++) {
wrmsr(reg, msr);
reg -= 4; /* Touch status regs for each bank */
}
}
}
}
#endif
/**
* finalize_node_setup()
*
* Do any additional post HT init
*
*/
static void finalize_node_setup(struct sys_info *sysinfo)
{
u8 i;
u8 nodes = get_nodes();
#if CONFIG_RAMINIT_SYSINFO
u32 reg;
/* read Node0 F0_0x64 bit [8:10] to find out SbLink # */
reg = pci_read_config32(NODE_HT(0), 0x64);
sysinfo->sblk = (reg >> 8) & 7;
sysinfo->sbbusn = 0;
sysinfo->nodes = nodes;
sysinfo->sbdn = get_sbdn(sysinfo->sbbusn);
#endif
for (i = 0; i < nodes; i++) {
cpuSetAMDPCI(i);
}
#if CONFIG_SET_FIDVID
// Prep each node for FID/VID setup.
prep_fid_change();
#endif
#if CONFIG_MAX_PHYSICAL_CPUS > 1
/* Skip the BSP, start at node 1 */
for (i = 1; i < nodes; i++) {
setup_remote_node(i);
start_node(i);
}
#endif
}
#include "fidvid.c"
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