3 files changed, 2985 insertions, 2978 deletions

diff --git a/src/cpu/amd/model_10xxx/fidvid.c b/src/cpu/amd/model_10xxx/fidvid.c
index 7007d4cf8f..6104f9c3f6 100644
--- a/src/cpu/amd/model_10xxx/fidvid.c
+++ b/src/cpu/amd/model_10xxx/fidvid.c
@@ -1,838 +1,838 @@
-/*
- * This file is part of the coreboot project.
- *
- * 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; 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
- */
-
-#if SET_FIDVID == 1
-#include <northbridge/amd/amdht/AsPsDefs.h>
-
-#define SET_FIDVID_DEBUG 1
-
-// if we are tight of CAR stack, disable it
-#define SET_FIDVID_STORE_AP_APICID_AT_FIRST 1
-
-static inline void print_debug_fv(const char *str, u32 val)
-{
-#if SET_FIDVID_DEBUG == 1
-	printk(BIOS_DEBUG, "%s%x\n", str, val);
-#endif
-}
-
-static inline void print_debug_fv_8(const char *str, u8 val)
-{
-#if SET_FIDVID_DEBUG == 1
-	printk(BIOS_DEBUG, "%s%02x\n", str, val);
-#endif
-}
-
-static inline void print_debug_fv_64(const char *str, u32 val, u32 val2)
-{
-#if SET_FIDVID_DEBUG == 1
-	printk(BIOS_DEBUG, "%s%x%x\n", str, val, val2);
-#endif
-}
-
-struct fidvid_st {
-	u32 common_fid;
-};
-
-static void enable_fid_change(u8 fid)
-{
-	u32 dword;
-	u32 nodes;
-	device_t dev;
-	int i;
-
-	nodes = get_nodes();
-
-	for (i = 0; i < nodes; i++) {
-		dev = NODE_PCI(i, 3);
-		dword = pci_read_config32(dev, 0xd4);
-		dword &= ~0x1F;
-		dword |= (u32) fid & 0x1F;
-		dword |= 1 << 5;	// enable
-		pci_write_config32(dev, 0xd4, dword);
-		printk(BIOS_DEBUG, "FID Change Node:%02x, F3xD4: %08x \n", i,
-		       dword);
-	}
-}
-
-static void recalculateVsSlamTimeSettingOnCorePre(device_t dev)
-{
-	u8 pviModeFlag;
-	u8 highVoltageVid, lowVoltageVid, bValue;
-	u16 minimumSlamTime;
-	u16 vSlamTimes[7] = { 1000, 2000, 3000, 4000, 6000, 10000, 20000 };	/* Reg settings scaled by 100 */
-	u32 dtemp;
-	msr_t msr;
-
-	/* This function calculates the VsSlamTime using the range of possible
-	 * voltages instead of a hardcoded 200us.
-	 * Note:This function is called from setFidVidRegs and setUserPs after
-	 * programming a custom Pstate.
-	 */
-
-	/* Calculate Slam Time
-	 * Vslam = 0.4us/mV * Vp0 - (lowest out of Vpmin or Valt)
-	 * In our case, we will scale the values by 100 to avoid
-	 * decimals.
-	 */
-
-	/* Determine if this is a PVI or SVI system */
-	dtemp = pci_read_config32(dev, 0xA0);
-
-	if (dtemp & PVI_MODE)
-		pviModeFlag = 1;
-	else
-		pviModeFlag = 0;
-
-	/* Get P0's voltage */
-	msr = rdmsr(0xC0010064);
-	highVoltageVid = (u8) ((msr.lo >> PS_CPU_VID_SHFT) & 0x7F);
-
-	/* If SVI, we only care about CPU VID.
-	 * If PVI, determine the higher voltage b/t NB and CPU
-	 */
-	if (pviModeFlag) {
-		bValue = (u8) ((msr.lo >> PS_NB_VID_SHFT) & 0x7F);
-		if (highVoltageVid > bValue)
-			highVoltageVid = bValue;
-	}
-
-	/* Get Pmin's index */
-	msr = rdmsr(0xC0010061);
-	bValue = (u8) ((msr.lo >> PS_CUR_LIM_SHFT) & BIT_MASK_3);
-
-	/* Get Pmin's VID */
-	msr = rdmsr(0xC0010064 + bValue);
-	lowVoltageVid = (u8) ((msr.lo >> PS_CPU_VID_SHFT) & 0x7F);
-
-	/* If SVI, we only care about CPU VID.
-	 * If PVI, determine the higher voltage b/t NB and CPU
-	 */
-	if (pviModeFlag) {
-		bValue = (u8) ((msr.lo >> PS_NB_VID_SHFT) & 0x7F);
-		if (lowVoltageVid > bValue)
-			lowVoltageVid = bValue;
-	}
-
-	/* Get AltVID */
-	dtemp = pci_read_config32(dev, 0xDC);
-	bValue = (u8) (dtemp & BIT_MASK_7);
-
-	/* Use the VID with the lowest voltage (higher VID) */
-	if (lowVoltageVid < bValue)
-		lowVoltageVid = bValue;
-
-	/* If Vids are 7Dh - 7Fh, force 7Ch to keep calculations linear */
-	if (lowVoltageVid > 0x7C) {
-		lowVoltageVid = 0x7C;
-		if (highVoltageVid > 0x7C)
-			highVoltageVid = 0x7C;
-	}
-
-	bValue = (u8) (lowVoltageVid - highVoltageVid);
-
-	/* Each Vid increment is 12.5 mV.  The minimum slam time is:
-	 * vidCodeDelta * 12.5mV * 0.4us/mV
-	 * Scale by 100 to avoid decimals.
-	 */
-	minimumSlamTime = bValue * (125 * 4);
-
-	/* Now round up to nearest register setting.
-	 * Note that if we don't find a value, we
-	 * will fall through to a value of 7
-	 */
-	for (bValue = 0; bValue < 7; bValue++) {
-		if (minimumSlamTime <= vSlamTimes[bValue])
-			break;
-	}
-
-	/* Apply the value */
-	dtemp = pci_read_config32(dev, 0xD8);
-	dtemp &= VSSLAM_MASK;
-	dtemp |= bValue;
-	pci_write_config32(dev, 0xd8, dtemp);
-}
-
-static void prep_fid_change(void)
-{
-	u32 dword, dtemp;
-	u32 nodes;
-	device_t dev;
-	int i;
-
-	/* This needs to be run before any Pstate changes are requested */
-
-	nodes = get_nodes();
-
-	for (i = 0; i < nodes; i++) {
-		printk(BIOS_DEBUG, "Prep FID/VID Node:%02x \n", i);
-		dev = NODE_PCI(i, 3);
-
-		dword = pci_read_config32(dev, 0xd8);
-		dword &= VSRAMP_MASK;
-		dword |= VSRAMP_VALUE;
-		pci_write_config32(dev, 0xd8, dword);
-
-		/* Figure out the value for VsSlamTime and program it */
-		recalculateVsSlamTimeSettingOnCorePre(dev);
-
-		/* Program fields in Clock Power/Control register0 (F3xD4) */
-		/* set F3xD4 Clock Power/Timing Control 0 Register
-		 * NbClkDidApplyAll=1b
-		 * NbClkDid=100b
-		 * PowerStepUp= "platform dependent"
-		 * PowerStepDown= "platform dependent"
-		 * LinkPllLink=01b
-		 * ClkRampHystSel=HW default
-		 */
-		/* check platform type */
-		if (!(get_platform_type() & AMD_PTYPE_SVR)) {
-			/* For non-server platform
-			 * PowerStepUp=01000b - 50nS
-			 * PowerStepDown=01000b - 50ns
-			 */
-			dword = pci_read_config32(dev, 0xd4);
-			dword &= CPTC0_MASK;
-			dword |= NB_CLKDID_ALL | NB_CLKDID | PW_STP_UP50 | PW_STP_DN50 | LNK_PLL_LOCK;	/* per BKDG */
-			pci_write_config32(dev, 0xd4, dword);
-		} else {
-			dword = pci_read_config32(dev, 0xd4);
-			dword &= CPTC0_MASK;
-			/* get number of cores for PowerStepUp & PowerStepDown in server
-			   1 core - 400nS  - 0000b
-			   2 cores - 200nS - 0010b
-			   3 cores - 133nS -> 100nS - 0011b
-			   4 cores - 100nS - 0011b
-			 */
-			switch (get_core_num_in_bsp(i)) {
-			case 0:
-				dword |= PW_STP_UP400 | PW_STP_DN400;
-				break;
-			case 1:
-			case 2:
-				dword |= PW_STP_UP200 | PW_STP_DN200;
-				break;
-			case 3:
-				dword |= PW_STP_UP100 | PW_STP_DN100;
-				break;
-			default:
-				dword |= PW_STP_UP100 | PW_STP_DN100;
-				break;
-			}
-			dword |= NB_CLKDID_ALL | NB_CLKDID | LNK_PLL_LOCK;
-			pci_write_config32(dev, 0xd4, dword);
-		}
-
-		/* check PVI/SVI */
-		dword = pci_read_config32(dev, 0xA0);
-		if (dword & PVI_MODE) {	/* PVI */
-			/* set slamVidMode to 0 for PVI */
-			dword &= VID_SLAM_OFF | PLLLOCK_OFF;
-			dword |= PLLLOCK_DFT_L;
-			pci_write_config32(dev, 0xA0, dword);
-		} else {	/* SVI */
-			/* set slamVidMode to 1 for SVI */
-			dword &= PLLLOCK_OFF;
-			dword |= PLLLOCK_DFT_L | VID_SLAM_ON;
-			pci_write_config32(dev, 0xA0, dword);
-
-			dtemp = dword;
-
-			/* Program F3xD8[PwrPlanes] according F3xA0[DulaVdd]  */
-			dword = pci_read_config32(dev, 0xD8);
-
-			if (dtemp & DUAL_VDD_BIT)
-				dword |= PWR_PLN_ON;
-			else
-				dword &= PWR_PLN_OFF;
-			pci_write_config32(dev, 0xD8, dword);
-		}
-
-		/* Note the following settings are additional from the ported
-		 * function setFidVidRegs()
-		 */
-		dword = pci_read_config32(dev, 0xDc);
-		dword |= 0x5 << 12;	/* NbsynPtrAdj set to 0x5 per BKDG (needs reset) */
-		pci_write_config32(dev, 0xdc, dword);
-
-		/* Rev B settings - FIXME: support other revs. */
-		dword = 0xA0E641E6;
-		pci_write_config32(dev, 0x84, dword);
-
-		dword = 0xE600A681;
-		pci_write_config32(dev, 0x80, dword);
-
-		dword = pci_read_config32(dev, 0x80);
-		printk(BIOS_DEBUG, "  F3x80: %08x \n", dword);
-		dword = pci_read_config32(dev, 0x84);
-		printk(BIOS_DEBUG, "  F3x84: %08x \n", dword);
-		dword = pci_read_config32(dev, 0xD4);
-		printk(BIOS_DEBUG, "  F3xD4: %08x \n", dword);
-		dword = pci_read_config32(dev, 0xD8);
-		printk(BIOS_DEBUG, "  F3xD8: %08x \n", dword);
-		dword = pci_read_config32(dev, 0xDC);
-		printk(BIOS_DEBUG, "  F3xDC: %08x \n", dword);
-
-
-	}
-}
-
-
-static void UpdateSinglePlaneNbVid(void)
-{
-	u32 nbVid, cpuVid;
-	u8 i;
-	msr_t msr;
-
-	/* copy higher voltage (lower VID) of NBVID & CPUVID to both */
-	for (i = 0; i < 5; i++) {
-		msr = rdmsr(PS_REG_BASE + i);
-		nbVid = (msr.lo & PS_CPU_VID_M_ON) >> PS_CPU_VID_SHFT;
-		cpuVid = (msr.lo & PS_NB_VID_M_ON) >> PS_NB_VID_SHFT;
-
-		if (nbVid != cpuVid) {
-			if (nbVid > cpuVid)
-				nbVid = cpuVid;
-
-			msr.lo = msr.lo & PS_BOTH_VID_OFF;
-			msr.lo = msr.lo | (u32) ((nbVid) << PS_NB_VID_SHFT);
-			msr.lo = msr.lo | (u32) ((nbVid) << PS_CPU_VID_SHFT);
-			wrmsr(PS_REG_BASE + i, msr);
-		}
-	}
-}
-
-static void fixPsNbVidBeforeWR(u32 newNbVid, u32 coreid)
-{
-	msr_t msr;
-	u8 startup_pstate;
-
-	/* This function sets NbVid before the warm reset.
-	 *       Get StartupPstate from MSRC001_0071.
-	 *       Read Pstate register pionted by [StartupPstate].
-	 *       and copy its content to P0 and P1 registers.
-	 *       Copy newNbVid to P0[NbVid].
-	 *       transition to P1 on all cores,
-	 *       then transition to P0 on core 0.
-	 *       Wait for MSRC001_0063[CurPstate] = 000b on core 0.
-	 */
-
-	msr = rdmsr(0xc0010071);
-	startup_pstate = (msr.hi >> (32 - 32)) & 0x07;
-
-	/* Copy startup pstate to P1 and P0 MSRs. Set the maxvid for this node in P0.
-	 * Then transition to P1 for corex and P0 for core0.
-	 * These setting will be cleared by the warm reset
-	 */
-	msr = rdmsr(0xC0010064 + startup_pstate);
-	wrmsr(0xC0010065, msr);
-	wrmsr(0xC0010064, msr);
-
-	msr.lo &= ~0xFE000000;	// clear nbvid
-	msr.lo |= newNbVid << 25;
-	wrmsr(0xC0010064, msr);
-
-	UpdateSinglePlaneNbVid();
-
-	// Transition to P1 for all APs and P0 for core0.
-	msr = rdmsr(0xC0010062);
-	msr.lo = (msr.lo & ~0x07) | 1;
-	wrmsr(0xC0010062, msr);
-
-	// Wait for P1 to set.
-	do {
-		msr = rdmsr(0xC0010063);
-	} while (msr.lo != 1);
-
-	if (coreid == 0) {
-		msr.lo = msr.lo & ~0x07;
-		wrmsr(0xC0010062, msr);
-		// Wait for P0 to set.
-		do {
-			msr = rdmsr(0xC0010063);
-		} while (msr.lo != 0);
-	}
-}
-
-static void coreDelay(void)
-{
-	u32 saved;
-	u32 hi, lo, msr;
-	u32 cycles;
-
-	/* delay ~40us
-	   This seems like a hack to me...
-	   It would be nice to have a central delay function. */
-
-	cycles = 8000 << 3;	/* x8 (number of 1.25ns ticks) */
-
-	msr = 0x10;		/* TSC */
-	_RDMSR(msr, &lo, &hi);
-	saved = lo;
-	do {
-		_RDMSR(msr, &lo, &hi);
-	} while (lo - saved < cycles);
-}
-
-static void transitionVid(u32 targetVid, u8 dev, u8 isNb)
-{
-	u32 currentVid, dtemp;
-	msr_t msr;
-	u8 vsTimecode;
-	u16 timeTable[8] = { 10, 20, 30, 40, 60, 100, 200, 500 };
-	int vsTime;
-
-	/* This function steps or slam the Nb VID to the target VID.
-	 * It uses VSRampTime for [SlamVidMode]=0 ([PviMode]=1)
-	 * or VSSlamTime for [SlamVidMode]=1 ([PviMode]=0)to time period.
-	 */
-
-	/* get the current VID */
-	msr = rdmsr(0xC0010071);
-	if (isNb)
-		currentVid = (msr.lo >> NB_VID_POS) & BIT_MASK_7;
-	else
-		currentVid = (msr.lo >> CPU_VID_POS) & BIT_MASK_7;
-
-	/* Read MSRC001_0070 COFVID Control Register */
-	msr = rdmsr(0xC0010070);
-
-	/* check PVI/SPI */
-	dtemp = pci_read_config32(dev, 0xA0);
-	if (dtemp & PVI_MODE) {	/* PVI, step VID */
-		if (currentVid < targetVid) {
-			while (currentVid < targetVid) {
-				currentVid++;
-				if (isNb)
-					msr.lo = (msr.lo & NB_VID_MASK_OFF) | (currentVid << NB_VID_POS);
-				else
-					msr.lo = (msr.lo & CPU_VID_MASK_OFF) | (currentVid << CPU_VID_POS);
-				wrmsr(0xC0010070, msr);
-
-				/* read F3xD8[VSRampTime]  */
-				dtemp = pci_read_config32(dev, 0xD8);
-				vsTimecode = (u8) ((dtemp >> VS_RAMP_T) & 0x7);
-				vsTime = (int)timeTable[vsTimecode];
-				do {
-					coreDelay();
-					vsTime -= 40;
-				} while (vsTime > 0);
-			}
-		} else if (currentVid > targetVid) {
-			while (currentVid > targetVid) {
-				currentVid--;
-				if (isNb)
-					msr.lo = (msr.lo & NB_VID_MASK_OFF) | (currentVid << NB_VID_POS);
-				else
-					msr.lo = (msr.lo & CPU_VID_MASK_OFF) | (currentVid << CPU_VID_POS);
-				wrmsr(0xC0010070, msr);
-
-				/* read F3xD8[VSRampTime]  */
-				dtemp = pci_read_config32(dev, 0xD8);
-				vsTimecode = (u8) ((dtemp >> VS_RAMP_T) & 0x7);
-				vsTime = (int)timeTable[vsTimecode];
-				do {
-					coreDelay();
-					vsTime -= 40;
-				} while (vsTime > 0);
-			}
-		}
-	} else {		/* SVI, slam VID */
-		if (isNb)
-			msr.lo = (msr.lo & NB_VID_MASK_OFF) | (targetVid << NB_VID_POS);
-		else
-			msr.lo = (msr.lo & CPU_VID_MASK_OFF) | (targetVid << CPU_VID_POS);
-		wrmsr(0xC0010070, msr);
-
-		/* read F3xD8[VSRampTime]  */
-		dtemp = pci_read_config32(dev, 0xD8);
-		vsTimecode = (u8) ((dtemp >> VS_RAMP_T) & 0x7);
-		vsTime = (int)timeTable[vsTimecode];
-		do {
-			coreDelay();
-			vsTime -= 40;
-		} while (vsTime > 0);
-	}
-}
-
-
-static void init_fidvid_ap(u32 bsp_apicid, u32 apicid, u32 nodeid, u32 coreid)
-{
-	device_t dev;
-	u32 vid_max;
-	u32 fid_max;
-	u8 nb_cof_vid_update;
-	u8 pvimode;
-	u32 reg1fc;
-	u32 send;
-	u8 nodes;
-	u8 i;
-
-	printk(BIOS_DEBUG, "FIDVID on AP: %02x\n", apicid);
-
-	/* Steps 1-6 of BIOS NB COF and VID Configuration
-	 * for SVI and Single-Plane PVI Systems.
-	 */
-
-	/* If any node has nb_cof_vid_update set all nodes need an update. */
-	nodes = get_nodes();
-	nb_cof_vid_update = 0;
-	for (i = 0; i < nodes; i++) {
-		if (pci_read_config32(NODE_PCI(i, 3), 0x1FC) & 1) {
-			nb_cof_vid_update = 1;
-			break;
-		}
-	}
-
-	dev = NODE_PCI(nodeid, 3);
-	pvimode = (pci_read_config32(dev, 0xA0) >> 8) & 1;
-	reg1fc = pci_read_config32(dev, 0x1FC);
-
-	if (nb_cof_vid_update) {
-		if (pvimode) {
-			vid_max = (reg1fc >> 7) & 0x7F;
-			fid_max = (reg1fc >> 2) & 0x1F;
-
-			/* write newNbVid to P-state Reg's NbVid always if NbVidUpdatedAll=1 */
-			fixPsNbVidBeforeWR(vid_max, coreid);
-		} else {	/* SVI */
-			vid_max = ((reg1fc >> 7) & 0x7F) - ((reg1fc >> 17) & 0x1F);
-			fid_max = ((reg1fc >> 2) & 0x1F) + ((reg1fc >> 14) & 0x7);
-			transitionVid(vid_max, dev, IS_NB);
-		}
-
-		/* fid setup is handled by the BSP at the end. */
-
-	} else {	/* ! nb_cof_vid_update */
-		/* Use max values */
-		if (pvimode)
-			UpdateSinglePlaneNbVid();
-	}
-
-	send = (nb_cof_vid_update << 16) | (fid_max << 8);
-	send |= (apicid << 24);	// ap apicid
-
-	// Send signal to BSP about this AP max fid
-	// This also indicates this AP is ready for warm reset (if required).
-	lapic_write(LAPIC_MSG_REG, send | 1);
-}
-
-static u32 calc_common_fid(u32 fid_packed, u32 fid_packed_new)
-{
-	u32 fidmax;
-	u32 fidmax_new;
-
-	fidmax = (fid_packed >> 8) & 0xFF;
-
-	fidmax_new = (fid_packed_new >> 8) & 0xFF;
-
-	if (fidmax > fidmax_new) {
-		fidmax = fidmax_new;
-	}
-
-	fid_packed &= 0xFF << 16;
-	fid_packed |= (fidmax << 8);
-	fid_packed |= fid_packed_new & (0xFF << 16);	// set nb_cof_vid_update
-
-	return fid_packed;
-}
-
-static void init_fidvid_bsp_stage1(u32 ap_apicid, void *gp)
-{
-	u32 readback = 0;
-	u32 timeout = 1;
-
-	struct fidvid_st *fvp = gp;
-	int loop;
-
-	print_debug_fv("Wait for AP stage 1: ap_apicid = ", ap_apicid);
-
-	loop = 100000;
-	while (--loop > 0) {
-		if (lapic_remote_read(ap_apicid, LAPIC_MSG_REG, &readback) != 0)
-			continue;
-		if ((readback & 0x3f) == 1) {
-			timeout = 0;
-			break;	/* target ap is in stage 1 */
-		}
-	}
-
-	if (timeout) {
-		printk(BIOS_DEBUG, "%s: timed out reading from ap %02x\n",
-		       __func__, ap_apicid);
-		return;
-	}
-
-	print_debug_fv("\treadback = ", readback);
-
-	fvp->common_fid = calc_common_fid(fvp->common_fid, readback);
-
-	print_debug_fv("\tcommon_fid(packed) = ", fvp->common_fid);
-
-}
-
-static void updateSviPsNbVidAfterWR(u32 newNbVid)
-{
-	msr_t msr;
-	u8 i;
-
-	/* This function copies newNbVid to NbVid bits in P-state Registers[4:0]
-	 * for SVI mode.
-	 */
-
-	for (i = 0; i < 5; i++) {
-		msr = rdmsr(0xC0010064 + i);
-		if ((msr.hi >> 31) & 1) {	/* PstateEn? */
-			msr.lo &= ~(0x7F << 25);
-			msr.lo |= (newNbVid & 0x7F) << 25;
-			wrmsr(0xC0010064 + i, msr);
-		}
-	}
-}
-
-
-static void fixPsNbVidAfterWR(u32 newNbVid, u8 NbVidUpdatedAll)
-{
-	msr_t msr;
-	u8 i;
-	u8 StartupPstate;
-
-	/* This function copies newNbVid to NbVid bits in P-state
-	 * Registers[4:0] if its NbDid bit=0 and PstateEn bit =1 in case of
-	 * NbVidUpdatedAll =0 or copies copies newNbVid to NbVid bits in
-	 * P-state Registers[4:0] if its and PstateEn bit =1 in case of
-	 * NbVidUpdatedAll=1. Then transition to StartPstate.
-	 */
-
-	/* write newNbVid to P-state Reg's NbVid if its NbDid=0 */
-	for (i = 0; i < 5; i++) {
-		msr = rdmsr(0xC0010064 + i);
-		/*  NbDid (bit 22 of P-state Reg) == 0  or NbVidUpdatedAll = 1 */
-		if ((((msr.lo >> 22) & 1) == 0) || NbVidUpdatedAll) {
-			msr.lo &= ~(0x7F << 25);
-			msr.lo |= (newNbVid & 0x7F) << 25;
-			wrmsr(0xC0010064 + i, msr);
-		}
-	}
-
-	UpdateSinglePlaneNbVid();
-
-	/* For each core in the system, transition all cores to StartupPstate */
-	msr = rdmsr(0xC0010071);
-	StartupPstate = msr.hi & 0x07;
-	msr = rdmsr(0xC0010062);
-	msr.lo = StartupPstate;
-	wrmsr(0xC0010062, msr);
-
-	/* Wait for StartupPstate to set. */
-	do {
-		msr = rdmsr(0xC0010063);
-	} while (msr.lo != StartupPstate);
-}
-
-static void set_p0(void)
-{
-	msr_t msr;
-
-	// Transition P0 for calling core.
-	msr = rdmsr(0xC0010062);
-	msr.lo = (msr.lo & ~0x07);
-	wrmsr(0xC0010062, msr);
-
-	/* Wait for P0 to set. */
-	do {
-		msr = rdmsr(0xC0010063);
-	} while (msr.lo != 0);
-}
-
-static void finalPstateChange(void)
-{
-	/* Enble P0 on all cores for best performance.
-	 * Linux can slow them down later if need be.
-	 * It is safe since they will be in C1 halt
-	 * most of the time anyway.
-	 */
-	set_p0();
-}
-
-static void init_fidvid_stage2(u32 apicid, u32 nodeid)
-{
-	msr_t msr;
-	device_t dev;
-	u32 reg1fc;
-	u32 dtemp;
-	u32 nbvid;
-	u8 nb_cof_vid_update;
-	u8 nodes;
-	u8 NbVidUpdateAll;
-	u8 i;
-	u8 pvimode;
-
-	/* After warm reset finish the fid/vid setup for all cores. */
-
-	/* If any node has nb_cof_vid_update set all nodes need an update. */
-	nodes = get_nodes();
-	nb_cof_vid_update = 0;
-	for (i = 0; i < nodes; i++) {
-		if (pci_read_config32(NODE_PCI(i, 3), 0x1FC) & 1) {
-			nb_cof_vid_update = 1;
-			break;
-		}
-	}
-
-	dev = NODE_PCI(nodeid, 3);
-	pvimode = (pci_read_config32(dev, 0xA0) >> 8) & 1;
-	reg1fc = pci_read_config32(dev, 0x1FC);
-	nbvid = (reg1fc >> 7) & 0x7F;
-	NbVidUpdateAll = (reg1fc >> 1) & 1;
-
-	if (nb_cof_vid_update) {
-		if (pvimode) {
-			nbvid = (reg1fc >> 7) & 0x7F;
-			/* write newNbVid to P-state Reg's NbVid if its NbDid=0 */
-			fixPsNbVidAfterWR(nbvid, NbVidUpdateAll);
-		} else {	/* SVI */
-			nbvid = ((reg1fc >> 7) & 0x7F) - ((reg1fc >> 17) & 0x1F);
-			updateSviPsNbVidAfterWR(nbvid);
-		}
-	} else {		/* !nb_cof_vid_update */
-		if (pvimode)
-			UpdateSinglePlaneNbVid();
-	}
-	dtemp = pci_read_config32(dev, 0xA0);
-	dtemp &= PLLLOCK_OFF;
-	dtemp |= PLLLOCK_DFT_L;
-	pci_write_config32(dev, 0xA0, dtemp);
-
-	finalPstateChange();
-
-	/* Set TSC to tick at the P0 ndfid rate */
-	msr = rdmsr(HWCR);
-	msr.lo |= 1 << 24;
-	wrmsr(HWCR, msr);
-}
-
-
-#if SET_FIDVID_STORE_AP_APICID_AT_FIRST == 1
-struct ap_apicid_st {
-	u32 num;
-	// it could use 256 bytes for 64 node quad core system
-	u8 apicid[NODE_NUMS * 4];
-};
-
-static void store_ap_apicid(unsigned ap_apicid, void *gp)
-{
-	struct ap_apicid_st *p = gp;
-
-	p->apicid[p->num++] = ap_apicid;
-
-}
-#endif
-
-
-static int init_fidvid_bsp(u32 bsp_apicid, u32 nodes)
-{
-#if SET_FIDVID_STORE_AP_APICID_AT_FIRST == 1
-	struct ap_apicid_st ap_apicidx;
-	u32 i;
-#endif
-	struct fidvid_st fv;
-	device_t dev;
-	u32 vid_max;
-	u32 fid_max=0;
-	u8 nb_cof_vid_update;
-	u32 reg1fc;
-	u8 pvimode;
-
-	printk(BIOS_DEBUG, "FIDVID on BSP, APIC_id: %02x\n", bsp_apicid);
-	/* FIXME: The first half of this function is nearly the same as
-	 * init_fidvid_bsp() and the code could be combined.
-	 */
-
-	/* Steps 1-6 of BIOS NB COF and VID Configuration
-	 * for SVI and Single-Plane PVI Systems.
-	 */
-
-	/* If any node has nb_cof_vid_update set all nodes need an update. */
-	nb_cof_vid_update = 0;
-	for (i = 0; i < nodes; i++) {
-		if (pci_read_config32(NODE_PCI(i, 3), 0x1FC) & 1) {
-			nb_cof_vid_update = 1;
-			break;
-		}
-	}
-
-	dev = NODE_PCI(0, 3);
-	pvimode = (pci_read_config32(dev, 0xA0) >> 8) & 1;
-	reg1fc = pci_read_config32(dev, 0x1FC);
-
-	if (nb_cof_vid_update) {
-		if (pvimode) {
-			vid_max = (reg1fc >> 7) & 0x7F;
-			fid_max = (reg1fc >> 2) & 0x1F;
-
-			/* write newNbVid to P-state Reg's NbVid always if NbVidUpdatedAll=1 */
-			fixPsNbVidBeforeWR(vid_max, 0);
-		} else {	/* SVI */
-			vid_max = ((reg1fc >> 7) & 0x7F) - ((reg1fc >> 17) & 0x1F);
-			fid_max = ((reg1fc >> 2) & 0x1F) + ((reg1fc >> 14) & 0x7);
-			transitionVid(vid_max, dev, IS_NB);
-		}
-
-		/*  fid setup is handled by the BSP at the end. */
-
-	} else {		/* ! nb_cof_vid_update */
-		/* Use max values */
-		if (pvimode)
-			UpdateSinglePlaneNbVid();
-	}
-
-	fv.common_fid = (nb_cof_vid_update << 16) | (fid_max << 8);
-	print_debug_fv("BSP fid = ", fv.common_fid);
-
-#if SET_FIDVID_STORE_AP_APICID_AT_FIRST == 1 && SET_FIDVID_CORE0_ONLY == 0
-	/* For all APs (We know the APIC ID of all APs even when the APIC ID
-	   is lifted) remote read from AP LAPIC_MSG_REG about max fid.
-	   Then calculate the common max fid that can be used for all
-	   APs and BSP */
-	ap_apicidx.num = 0;
-
-	for_each_ap(bsp_apicid, SET_FIDVID_CORE_RANGE, store_ap_apicid, &ap_apicidx);
-
-	for (i = 0; i < ap_apicidx.num; i++) {
-		init_fidvid_bsp_stage1(ap_apicidx.apicid[i], &fv);
-	}
-#else
-	for_each_ap(bsp_apicid, SET_FIDVID_CORE0_ONLY, init_fidvid_bsp_stage1, &fv);
-#endif
-
-	print_debug_fv("common_fid = ", fv.common_fid);
-
-	if (fv.common_fid & (1 << 16)) {	/* check nb_cof_vid_update */
-
-		// Enable the common fid and other settings.
-		enable_fid_change((fv.common_fid >> 8) & 0x1F);
-
-		// nbfid change need warm reset, so reset at first
-		return 1;
-	}
-
-	return 0;		// No FID/VID changes. Don't reset
-}
-#endif
+/*

+ * This file is part of the coreboot project.

+ *

+ * 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; 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

+ */

+

+#if SET_FIDVID == 1

+#include <northbridge/amd/amdht/AsPsDefs.h>

+

+#define SET_FIDVID_DEBUG 1

+

+// if we are tight of CAR stack, disable it

+#define SET_FIDVID_STORE_AP_APICID_AT_FIRST 1

+

+static inline void print_debug_fv(const char *str, u32 val)

+{

+#if SET_FIDVID_DEBUG == 1

+	printk(BIOS_DEBUG, "%s%x\n", str, val);

+#endif

+}

+

+static inline void print_debug_fv_8(const char *str, u8 val)

+{

+#if SET_FIDVID_DEBUG == 1

+	printk(BIOS_DEBUG, "%s%02x\n", str, val);

+#endif

+}

+

+static inline void print_debug_fv_64(const char *str, u32 val, u32 val2)

+{

+#if SET_FIDVID_DEBUG == 1

+	printk(BIOS_DEBUG, "%s%x%x\n", str, val, val2);

+#endif

+}

+

+struct fidvid_st {

+	u32 common_fid;

+};

+

+static void enable_fid_change(u8 fid)

+{

+	u32 dword;

+	u32 nodes;

+	device_t dev;

+	int i;

+

+	nodes = get_nodes();

+

+	for (i = 0; i < nodes; i++) {

+		dev = NODE_PCI(i, 3);

+		dword = pci_read_config32(dev, 0xd4);

+		dword &= ~0x1F;

+		dword |= (u32) fid & 0x1F;

+		dword |= 1 << 5;	// enable

+		pci_write_config32(dev, 0xd4, dword);

+		printk(BIOS_DEBUG, "FID Change Node:%02x, F3xD4: %08x \n", i,

+		       dword);

+	}

+}

+

+static void recalculateVsSlamTimeSettingOnCorePre(device_t dev)

+{

+	u8 pviModeFlag;

+	u8 highVoltageVid, lowVoltageVid, bValue;

+	u16 minimumSlamTime;

+	u16 vSlamTimes[7] = { 1000, 2000, 3000, 4000, 6000, 10000, 20000 };	/* Reg settings scaled by 100 */

+	u32 dtemp;

+	msr_t msr;

+

+	/* This function calculates the VsSlamTime using the range of possible

+	 * voltages instead of a hardcoded 200us.

+	 * Note:This function is called from setFidVidRegs and setUserPs after

+	 * programming a custom Pstate.

+	 */

+

+	/* Calculate Slam Time

+	 * Vslam = 0.4us/mV * Vp0 - (lowest out of Vpmin or Valt)

+	 * In our case, we will scale the values by 100 to avoid

+	 * decimals.

+	 */

+

+	/* Determine if this is a PVI or SVI system */

+	dtemp = pci_read_config32(dev, 0xA0);

+

+	if (dtemp & PVI_MODE)

+		pviModeFlag = 1;

+	else

+		pviModeFlag = 0;

+

+	/* Get P0's voltage */

+	msr = rdmsr(0xC0010064);

+	highVoltageVid = (u8) ((msr.lo >> PS_CPU_VID_SHFT) & 0x7F);

+

+	/* If SVI, we only care about CPU VID.

+	 * If PVI, determine the higher voltage b/t NB and CPU

+	 */

+	if (pviModeFlag) {

+		bValue = (u8) ((msr.lo >> PS_NB_VID_SHFT) & 0x7F);

+		if (highVoltageVid > bValue)

+			highVoltageVid = bValue;

+	}

+

+	/* Get Pmin's index */

+	msr = rdmsr(0xC0010061);

+	bValue = (u8) ((msr.lo >> PS_CUR_LIM_SHFT) & BIT_MASK_3);

+

+	/* Get Pmin's VID */

+	msr = rdmsr(0xC0010064 + bValue);

+	lowVoltageVid = (u8) ((msr.lo >> PS_CPU_VID_SHFT) & 0x7F);

+

+	/* If SVI, we only care about CPU VID.

+	 * If PVI, determine the higher voltage b/t NB and CPU

+	 */

+	if (pviModeFlag) {

+		bValue = (u8) ((msr.lo >> PS_NB_VID_SHFT) & 0x7F);

+		if (lowVoltageVid > bValue)

+			lowVoltageVid = bValue;

+	}

+

+	/* Get AltVID */

+	dtemp = pci_read_config32(dev, 0xDC);

+	bValue = (u8) (dtemp & BIT_MASK_7);

+

+	/* Use the VID with the lowest voltage (higher VID) */

+	if (lowVoltageVid < bValue)

+		lowVoltageVid = bValue;

+

+	/* If Vids are 7Dh - 7Fh, force 7Ch to keep calculations linear */

+	if (lowVoltageVid > 0x7C) {

+		lowVoltageVid = 0x7C;

+		if (highVoltageVid > 0x7C)

+			highVoltageVid = 0x7C;

+	}

+

+	bValue = (u8) (lowVoltageVid - highVoltageVid);

+

+	/* Each Vid increment is 12.5 mV.  The minimum slam time is:

+	 * vidCodeDelta * 12.5mV * 0.4us/mV

+	 * Scale by 100 to avoid decimals.

+	 */

+	minimumSlamTime = bValue * (125 * 4);

+

+	/* Now round up to nearest register setting.

+	 * Note that if we don't find a value, we

+	 * will fall through to a value of 7

+	 */

+	for (bValue = 0; bValue < 7; bValue++) {

+		if (minimumSlamTime <= vSlamTimes[bValue])

+			break;

+	}

+

+	/* Apply the value */

+	dtemp = pci_read_config32(dev, 0xD8);

+	dtemp &= VSSLAM_MASK;

+	dtemp |= bValue;

+	pci_write_config32(dev, 0xd8, dtemp);

+}

+

+static void prep_fid_change(void)

+{

+	u32 dword, dtemp;

+	u32 nodes;

+	device_t dev;

+	int i;

+

+	/* This needs to be run before any Pstate changes are requested */

+

+	nodes = get_nodes();

+

+	for (i = 0; i < nodes; i++) {

+		printk(BIOS_DEBUG, "Prep FID/VID Node:%02x \n", i);

+		dev = NODE_PCI(i, 3);

+

+		dword = pci_read_config32(dev, 0xd8);

+		dword &= VSRAMP_MASK;

+		dword |= VSRAMP_VALUE;

+		pci_write_config32(dev, 0xd8, dword);

+

+		/* Figure out the value for VsSlamTime and program it */

+		recalculateVsSlamTimeSettingOnCorePre(dev);

+

+		/* Program fields in Clock Power/Control register0 (F3xD4) */

+		/* set F3xD4 Clock Power/Timing Control 0 Register

+		 * NbClkDidApplyAll=1b

+		 * NbClkDid=100b

+		 * PowerStepUp= "platform dependent"

+		 * PowerStepDown= "platform dependent"

+		 * LinkPllLink=01b

+		 * ClkRampHystSel=HW default

+		 */

+		/* check platform type */

+		if (!(get_platform_type() & AMD_PTYPE_SVR)) {

+			/* For non-server platform

+			 * PowerStepUp=01000b - 50nS

+			 * PowerStepDown=01000b - 50ns

+			 */

+			dword = pci_read_config32(dev, 0xd4);

+			dword &= CPTC0_MASK;

+			dword |= NB_CLKDID_ALL | NB_CLKDID | PW_STP_UP50 | PW_STP_DN50 | LNK_PLL_LOCK;	/* per BKDG */

+			pci_write_config32(dev, 0xd4, dword);

+		} else {

+			dword = pci_read_config32(dev, 0xd4);

+			dword &= CPTC0_MASK;

+			/* get number of cores for PowerStepUp & PowerStepDown in server

+			   1 core - 400nS  - 0000b

+			   2 cores - 200nS - 0010b

+			   3 cores - 133nS -> 100nS - 0011b

+			   4 cores - 100nS - 0011b

+			 */

+			switch (get_core_num_in_bsp(i)) {

+			case 0:

+				dword |= PW_STP_UP400 | PW_STP_DN400;

+				break;

+			case 1:

+			case 2:

+				dword |= PW_STP_UP200 | PW_STP_DN200;

+				break;

+			case 3:

+				dword |= PW_STP_UP100 | PW_STP_DN100;

+				break;

+			default:

+				dword |= PW_STP_UP100 | PW_STP_DN100;

+				break;

+			}

+			dword |= NB_CLKDID_ALL | NB_CLKDID | LNK_PLL_LOCK;

+			pci_write_config32(dev, 0xd4, dword);

+		}

+

+		/* check PVI/SVI */

+		dword = pci_read_config32(dev, 0xA0);

+		if (dword & PVI_MODE) {	/* PVI */

+			/* set slamVidMode to 0 for PVI */

+			dword &= VID_SLAM_OFF | PLLLOCK_OFF;

+			dword |= PLLLOCK_DFT_L;

+			pci_write_config32(dev, 0xA0, dword);

+		} else {	/* SVI */

+			/* set slamVidMode to 1 for SVI */

+			dword &= PLLLOCK_OFF;

+			dword |= PLLLOCK_DFT_L | VID_SLAM_ON;

+			pci_write_config32(dev, 0xA0, dword);

+

+			dtemp = dword;

+

+			/* Program F3xD8[PwrPlanes] according F3xA0[DulaVdd]  */

+			dword = pci_read_config32(dev, 0xD8);

+

+			if (dtemp & DUAL_VDD_BIT)

+				dword |= PWR_PLN_ON;

+			else

+				dword &= PWR_PLN_OFF;

+			pci_write_config32(dev, 0xD8, dword);

+		}

+

+		/* Note the following settings are additional from the ported

+		 * function setFidVidRegs()

+		 */

+		dword = pci_read_config32(dev, 0xDc);

+		dword |= 0x5 << 12;	/* NbsynPtrAdj set to 0x5 per BKDG (needs reset) */

+		pci_write_config32(dev, 0xdc, dword);

+

+		/* Rev B settings - FIXME: support other revs. */

+		dword = 0xA0E641E6;

+		pci_write_config32(dev, 0x84, dword);

+

+		dword = 0xE600A681;

+		pci_write_config32(dev, 0x80, dword);

+

+		dword = pci_read_config32(dev, 0x80);

+		printk(BIOS_DEBUG, "  F3x80: %08x \n", dword);

+		dword = pci_read_config32(dev, 0x84);

+		printk(BIOS_DEBUG, "  F3x84: %08x \n", dword);

+		dword = pci_read_config32(dev, 0xD4);

+		printk(BIOS_DEBUG, "  F3xD4: %08x \n", dword);

+		dword = pci_read_config32(dev, 0xD8);

+		printk(BIOS_DEBUG, "  F3xD8: %08x \n", dword);

+		dword = pci_read_config32(dev, 0xDC);

+		printk(BIOS_DEBUG, "  F3xDC: %08x \n", dword);

+

+

+	}

+}

+

+

+static void UpdateSinglePlaneNbVid(void)

+{

+	u32 nbVid, cpuVid;

+	u8 i;

+	msr_t msr;

+

+	/* copy higher voltage (lower VID) of NBVID & CPUVID to both */

+	for (i = 0; i < 5; i++) {

+		msr = rdmsr(PS_REG_BASE + i);

+		nbVid = (msr.lo & PS_CPU_VID_M_ON) >> PS_CPU_VID_SHFT;

+		cpuVid = (msr.lo & PS_NB_VID_M_ON) >> PS_NB_VID_SHFT;

+

+		if (nbVid != cpuVid) {

+			if (nbVid > cpuVid)

+				nbVid = cpuVid;

+

+			msr.lo = msr.lo & PS_BOTH_VID_OFF;

+			msr.lo = msr.lo | (u32) ((nbVid) << PS_NB_VID_SHFT);

+			msr.lo = msr.lo | (u32) ((nbVid) << PS_CPU_VID_SHFT);

+			wrmsr(PS_REG_BASE + i, msr);

+		}

+	}

+}

+

+static void fixPsNbVidBeforeWR(u32 newNbVid, u32 coreid)

+{

+	msr_t msr;

+	u8 startup_pstate;

+

+	/* This function sets NbVid before the warm reset.

+	 *       Get StartupPstate from MSRC001_0071.

+	 *       Read Pstate register pionted by [StartupPstate].

+	 *       and copy its content to P0 and P1 registers.

+	 *       Copy newNbVid to P0[NbVid].

+	 *       transition to P1 on all cores,

+	 *       then transition to P0 on core 0.

+	 *       Wait for MSRC001_0063[CurPstate] = 000b on core 0.

+	 */

+

+	msr = rdmsr(0xc0010071);

+	startup_pstate = (msr.hi >> (32 - 32)) & 0x07;

+

+	/* Copy startup pstate to P1 and P0 MSRs. Set the maxvid for this node in P0.

+	 * Then transition to P1 for corex and P0 for core0.

+	 * These setting will be cleared by the warm reset

+	 */

+	msr = rdmsr(0xC0010064 + startup_pstate);

+	wrmsr(0xC0010065, msr);

+	wrmsr(0xC0010064, msr);

+

+	msr.lo &= ~0xFE000000;	// clear nbvid

+	msr.lo |= newNbVid << 25;

+	wrmsr(0xC0010064, msr);

+

+	UpdateSinglePlaneNbVid();

+

+	// Transition to P1 for all APs and P0 for core0.

+	msr = rdmsr(0xC0010062);

+	msr.lo = (msr.lo & ~0x07) | 1;

+	wrmsr(0xC0010062, msr);

+

+	// Wait for P1 to set.

+	do {

+		msr = rdmsr(0xC0010063);

+	} while (msr.lo != 1);

+

+	if (coreid == 0) {

+		msr.lo = msr.lo & ~0x07;

+		wrmsr(0xC0010062, msr);

+		// Wait for P0 to set.

+		do {

+			msr = rdmsr(0xC0010063);

+		} while (msr.lo != 0);

+	}

+}

+

+static void coreDelay(void)

+{

+	u32 saved;

+	u32 hi, lo, msr;

+	u32 cycles;

+

+	/* delay ~40us

+	   This seems like a hack to me...

+	   It would be nice to have a central delay function. */

+

+	cycles = 8000 << 3;	/* x8 (number of 1.25ns ticks) */

+

+	msr = 0x10;		/* TSC */

+	_RDMSR(msr, &lo, &hi);

+	saved = lo;

+	do {

+		_RDMSR(msr, &lo, &hi);

+	} while (lo - saved < cycles);

+}

+

+static void transitionVid(u32 targetVid, u8 dev, u8 isNb)

+{

+	u32 currentVid, dtemp;

+	msr_t msr;

+	u8 vsTimecode;

+	u16 timeTable[8] = { 10, 20, 30, 40, 60, 100, 200, 500 };

+	int vsTime;

+

+	/* This function steps or slam the Nb VID to the target VID.

+	 * It uses VSRampTime for [SlamVidMode]=0 ([PviMode]=1)

+	 * or VSSlamTime for [SlamVidMode]=1 ([PviMode]=0)to time period.

+	 */

+

+	/* get the current VID */

+	msr = rdmsr(0xC0010071);

+	if (isNb)

+		currentVid = (msr.lo >> NB_VID_POS) & BIT_MASK_7;

+	else

+		currentVid = (msr.lo >> CPU_VID_POS) & BIT_MASK_7;

+

+	/* Read MSRC001_0070 COFVID Control Register */

+	msr = rdmsr(0xC0010070);

+

+	/* check PVI/SPI */

+	dtemp = pci_read_config32(dev, 0xA0);

+	if (dtemp & PVI_MODE) {	/* PVI, step VID */

+		if (currentVid < targetVid) {

+			while (currentVid < targetVid) {

+				currentVid++;

+				if (isNb)

+					msr.lo = (msr.lo & NB_VID_MASK_OFF) | (currentVid << NB_VID_POS);

+				else

+					msr.lo = (msr.lo & CPU_VID_MASK_OFF) | (currentVid << CPU_VID_POS);

+				wrmsr(0xC0010070, msr);

+

+				/* read F3xD8[VSRampTime]  */

+				dtemp = pci_read_config32(dev, 0xD8);

+				vsTimecode = (u8) ((dtemp >> VS_RAMP_T) & 0x7);

+				vsTime = (int)timeTable[vsTimecode];

+				do {

+					coreDelay();

+					vsTime -= 40;

+				} while (vsTime > 0);

+			}

+		} else if (currentVid > targetVid) {

+			while (currentVid > targetVid) {

+				currentVid--;

+				if (isNb)

+					msr.lo = (msr.lo & NB_VID_MASK_OFF) | (currentVid << NB_VID_POS);

+				else

+					msr.lo = (msr.lo & CPU_VID_MASK_OFF) | (currentVid << CPU_VID_POS);

+				wrmsr(0xC0010070, msr);

+

+				/* read F3xD8[VSRampTime]  */

+				dtemp = pci_read_config32(dev, 0xD8);

+				vsTimecode = (u8) ((dtemp >> VS_RAMP_T) & 0x7);

+				vsTime = (int)timeTable[vsTimecode];

+				do {

+					coreDelay();

+					vsTime -= 40;

+				} while (vsTime > 0);

+			}

+		}

+	} else {		/* SVI, slam VID */

+		if (isNb)

+			msr.lo = (msr.lo & NB_VID_MASK_OFF) | (targetVid << NB_VID_POS);

+		else

+			msr.lo = (msr.lo & CPU_VID_MASK_OFF) | (targetVid << CPU_VID_POS);

+		wrmsr(0xC0010070, msr);

+

+		/* read F3xD8[VSRampTime]  */

+		dtemp = pci_read_config32(dev, 0xD8);

+		vsTimecode = (u8) ((dtemp >> VS_RAMP_T) & 0x7);

+		vsTime = (int)timeTable[vsTimecode];

+		do {

+			coreDelay();

+			vsTime -= 40;

+		} while (vsTime > 0);

+	}

+}

+

+

+static void init_fidvid_ap(u32 bsp_apicid, u32 apicid, u32 nodeid, u32 coreid)

+{

+	device_t dev;

+	u32 vid_max;

+	u32 fid_max;

+	u8 nb_cof_vid_update;

+	u8 pvimode;

+	u32 reg1fc;

+	u32 send;

+	u8 nodes;

+	u8 i;

+

+	printk(BIOS_DEBUG, "FIDVID on AP: %02x\n", apicid);

+

+	/* Steps 1-6 of BIOS NB COF and VID Configuration

+	 * for SVI and Single-Plane PVI Systems.

+	 */

+

+	/* If any node has nb_cof_vid_update set all nodes need an update. */

+	nodes = get_nodes();

+	nb_cof_vid_update = 0;

+	for (i = 0; i < nodes; i++) {

+		if (pci_read_config32(NODE_PCI(i, 3), 0x1FC) & 1) {

+			nb_cof_vid_update = 1;

+			break;

+		}

+	}

+

+	dev = NODE_PCI(nodeid, 3);

+	pvimode = (pci_read_config32(dev, 0xA0) >> 8) & 1;

+	reg1fc = pci_read_config32(dev, 0x1FC);

+

+	if (nb_cof_vid_update) {

+		if (pvimode) {

+			vid_max = (reg1fc >> 7) & 0x7F;

+			fid_max = (reg1fc >> 2) & 0x1F;

+

+			/* write newNbVid to P-state Reg's NbVid always if NbVidUpdatedAll=1 */

+			fixPsNbVidBeforeWR(vid_max, coreid);

+		} else {	/* SVI */

+			vid_max = ((reg1fc >> 7) & 0x7F) - ((reg1fc >> 17) & 0x1F);

+			fid_max = ((reg1fc >> 2) & 0x1F) + ((reg1fc >> 14) & 0x7);

+			transitionVid(vid_max, dev, IS_NB);

+		}

+

+		/* fid setup is handled by the BSP at the end. */

+

+	} else {	/* ! nb_cof_vid_update */

+		/* Use max values */

+		if (pvimode)

+			UpdateSinglePlaneNbVid();

+	}

+

+	send = (nb_cof_vid_update << 16) | (fid_max << 8);

+	send |= (apicid << 24);	// ap apicid

+

+	// Send signal to BSP about this AP max fid

+	// This also indicates this AP is ready for warm reset (if required).

+	lapic_write(LAPIC_MSG_REG, send | F10_APSTATE_RESET);

+}

+

+static u32 calc_common_fid(u32 fid_packed, u32 fid_packed_new)

+{

+	u32 fidmax;

+	u32 fidmax_new;

+

+	fidmax = (fid_packed >> 8) & 0xFF;

+

+	fidmax_new = (fid_packed_new >> 8) & 0xFF;

+

+	if (fidmax > fidmax_new) {

+		fidmax = fidmax_new;

+	}

+

+	fid_packed &= 0xFF << 16;

+	fid_packed |= (fidmax << 8);

+	fid_packed |= fid_packed_new & (0xFF << 16);	// set nb_cof_vid_update

+

+	return fid_packed;

+}

+

+static void init_fidvid_bsp_stage1(u32 ap_apicid, void *gp)

+{

+	u32 readback = 0;

+	u32 timeout = 1;

+

+	struct fidvid_st *fvp = gp;

+	int loop;

+

+	print_debug_fv("Wait for AP stage 1: ap_apicid = ", ap_apicid);

+

+	loop = 100000;

+	while (--loop > 0) {

+		if (lapic_remote_read(ap_apicid, LAPIC_MSG_REG, &readback) != 0)

+			continue;

+		if ((readback & 0x3f) == 1) {

+			timeout = 0;

+			break;	/* target ap is in stage 1 */

+		}

+	}

+

+	if (timeout) {

+		printk(BIOS_DEBUG, "%s: timed out reading from ap %02x\n",

+		       __func__, ap_apicid);

+		return;

+	}

+

+	print_debug_fv("\treadback = ", readback);

+

+	fvp->common_fid = calc_common_fid(fvp->common_fid, readback);

+

+	print_debug_fv("\tcommon_fid(packed) = ", fvp->common_fid);

+

+}

+

+static void updateSviPsNbVidAfterWR(u32 newNbVid)

+{

+	msr_t msr;

+	u8 i;

+

+	/* This function copies newNbVid to NbVid bits in P-state Registers[4:0]

+	 * for SVI mode.

+	 */

+

+	for (i = 0; i < 5; i++) {

+		msr = rdmsr(0xC0010064 + i);

+		if ((msr.hi >> 31) & 1) {	/* PstateEn? */

+			msr.lo &= ~(0x7F << 25);

+			msr.lo |= (newNbVid & 0x7F) << 25;

+			wrmsr(0xC0010064 + i, msr);

+		}

+	}

+}

+

+

+static void fixPsNbVidAfterWR(u32 newNbVid, u8 NbVidUpdatedAll)

+{

+	msr_t msr;

+	u8 i;

+	u8 StartupPstate;

+

+	/* This function copies newNbVid to NbVid bits in P-state

+	 * Registers[4:0] if its NbDid bit=0 and PstateEn bit =1 in case of

+	 * NbVidUpdatedAll =0 or copies copies newNbVid to NbVid bits in

+	 * P-state Registers[4:0] if its and PstateEn bit =1 in case of

+	 * NbVidUpdatedAll=1. Then transition to StartPstate.

+	 */

+

+	/* write newNbVid to P-state Reg's NbVid if its NbDid=0 */

+	for (i = 0; i < 5; i++) {

+		msr = rdmsr(0xC0010064 + i);

+		/*  NbDid (bit 22 of P-state Reg) == 0  or NbVidUpdatedAll = 1 */

+		if ((((msr.lo >> 22) & 1) == 0) || NbVidUpdatedAll) {

+			msr.lo &= ~(0x7F << 25);

+			msr.lo |= (newNbVid & 0x7F) << 25;

+			wrmsr(0xC0010064 + i, msr);

+		}

+	}

+

+	UpdateSinglePlaneNbVid();

+

+	/* For each core in the system, transition all cores to StartupPstate */

+	msr = rdmsr(0xC0010071);

+	StartupPstate = msr.hi & 0x07;

+	msr = rdmsr(0xC0010062);

+	msr.lo = StartupPstate;

+	wrmsr(0xC0010062, msr);

+

+	/* Wait for StartupPstate to set. */

+	do {

+		msr = rdmsr(0xC0010063);

+	} while (msr.lo != StartupPstate);

+}

+

+static void set_p0(void)

+{

+	msr_t msr;

+

+	// Transition P0 for calling core.

+	msr = rdmsr(0xC0010062);

+	msr.lo = (msr.lo & ~0x07);

+	wrmsr(0xC0010062, msr);

+

+	/* Wait for P0 to set. */

+	do {

+		msr = rdmsr(0xC0010063);

+	} while (msr.lo != 0);

+}

+

+static void finalPstateChange(void)

+{

+	/* Enble P0 on all cores for best performance.

+	 * Linux can slow them down later if need be.

+	 * It is safe since they will be in C1 halt

+	 * most of the time anyway.

+	 */

+	set_p0();

+}

+

+static void init_fidvid_stage2(u32 apicid, u32 nodeid)

+{

+	msr_t msr;

+	device_t dev;

+	u32 reg1fc;

+	u32 dtemp;

+	u32 nbvid;

+	u8 nb_cof_vid_update;

+	u8 nodes;

+	u8 NbVidUpdateAll;

+	u8 i;

+	u8 pvimode;

+

+	/* After warm reset finish the fid/vid setup for all cores. */

+

+	/* If any node has nb_cof_vid_update set all nodes need an update. */

+	nodes = get_nodes();

+	nb_cof_vid_update = 0;

+	for (i = 0; i < nodes; i++) {

+		if (pci_read_config32(NODE_PCI(i, 3), 0x1FC) & 1) {

+			nb_cof_vid_update = 1;

+			break;

+		}

+	}

+

+	dev = NODE_PCI(nodeid, 3);

+	pvimode = (pci_read_config32(dev, 0xA0) >> 8) & 1;

+	reg1fc = pci_read_config32(dev, 0x1FC);

+	nbvid = (reg1fc >> 7) & 0x7F;

+	NbVidUpdateAll = (reg1fc >> 1) & 1;

+

+	if (nb_cof_vid_update) {

+		if (pvimode) {

+			nbvid = (reg1fc >> 7) & 0x7F;

+			/* write newNbVid to P-state Reg's NbVid if its NbDid=0 */

+			fixPsNbVidAfterWR(nbvid, NbVidUpdateAll);

+		} else {	/* SVI */

+			nbvid = ((reg1fc >> 7) & 0x7F) - ((reg1fc >> 17) & 0x1F);

+			updateSviPsNbVidAfterWR(nbvid);

+		}

+	} else {		/* !nb_cof_vid_update */

+		if (pvimode)

+			UpdateSinglePlaneNbVid();

+	}

+	dtemp = pci_read_config32(dev, 0xA0);

+	dtemp &= PLLLOCK_OFF;

+	dtemp |= PLLLOCK_DFT_L;

+	pci_write_config32(dev, 0xA0, dtemp);

+

+	finalPstateChange();

+

+	/* Set TSC to tick at the P0 ndfid rate */

+	msr = rdmsr(HWCR);

+	msr.lo |= 1 << 24;

+	wrmsr(HWCR, msr);

+}

+

+

+#if SET_FIDVID_STORE_AP_APICID_AT_FIRST == 1

+struct ap_apicid_st {

+	u32 num;

+	// it could use 256 bytes for 64 node quad core system

+	u8 apicid[NODE_NUMS * 4];

+};

+

+static void store_ap_apicid(unsigned ap_apicid, void *gp)

+{

+	struct ap_apicid_st *p = gp;

+

+	p->apicid[p->num++] = ap_apicid;

+

+}

+#endif

+

+

+static int init_fidvid_bsp(u32 bsp_apicid, u32 nodes)

+{

+#if SET_FIDVID_STORE_AP_APICID_AT_FIRST == 1

+	struct ap_apicid_st ap_apicidx;

+	u32 i;

+#endif

+	struct fidvid_st fv;

+	device_t dev;

+	u32 vid_max;

+	u32 fid_max=0;

+	u8 nb_cof_vid_update;

+	u32 reg1fc;

+	u8 pvimode;

+

+	printk(BIOS_DEBUG, "FIDVID on BSP, APIC_id: %02x\n", bsp_apicid);

+	/* FIXME: The first half of this function is nearly the same as

+	 * init_fidvid_bsp() and the code could be combined.

+	 */

+

+	/* Steps 1-6 of BIOS NB COF and VID Configuration

+	 * for SVI and Single-Plane PVI Systems.

+	 */

+

+	/* If any node has nb_cof_vid_update set all nodes need an update. */

+	nb_cof_vid_update = 0;

+	for (i = 0; i < nodes; i++) {

+		if (pci_read_config32(NODE_PCI(i, 3), 0x1FC) & 1) {

+			nb_cof_vid_update = 1;

+			break;

+		}

+	}

+

+	dev = NODE_PCI(0, 3);

+	pvimode = (pci_read_config32(dev, 0xA0) >> 8) & 1;

+	reg1fc = pci_read_config32(dev, 0x1FC);

+

+	if (nb_cof_vid_update) {

+		if (pvimode) {

+			vid_max = (reg1fc >> 7) & 0x7F;

+			fid_max = (reg1fc >> 2) & 0x1F;

+

+			/* write newNbVid to P-state Reg's NbVid always if NbVidUpdatedAll=1 */

+			fixPsNbVidBeforeWR(vid_max, 0);

+		} else {	/* SVI */

+			vid_max = ((reg1fc >> 7) & 0x7F) - ((reg1fc >> 17) & 0x1F);

+			fid_max = ((reg1fc >> 2) & 0x1F) + ((reg1fc >> 14) & 0x7);

+			transitionVid(vid_max, dev, IS_NB);

+		}

+

+		/*  fid setup is handled by the BSP at the end. */

+

+	} else {		/* ! nb_cof_vid_update */

+		/* Use max values */

+		if (pvimode)

+			UpdateSinglePlaneNbVid();

+	}

+

+	fv.common_fid = (nb_cof_vid_update << 16) | (fid_max << 8);

+	print_debug_fv("BSP fid = ", fv.common_fid);

+

+#if SET_FIDVID_STORE_AP_APICID_AT_FIRST == 1 && SET_FIDVID_CORE0_ONLY == 0

+	/* For all APs (We know the APIC ID of all APs even when the APIC ID

+	   is lifted) remote read from AP LAPIC_MSG_REG about max fid.

+	   Then calculate the common max fid that can be used for all

+	   APs and BSP */

+	ap_apicidx.num = 0;

+

+	for_each_ap(bsp_apicid, SET_FIDVID_CORE_RANGE, store_ap_apicid, &ap_apicidx);

+

+	for (i = 0; i < ap_apicidx.num; i++) {

+		init_fidvid_bsp_stage1(ap_apicidx.apicid[i], &fv);

+	}

+#else

+	for_each_ap(bsp_apicid, SET_FIDVID_CORE0_ONLY, init_fidvid_bsp_stage1, &fv);

+#endif

+

+	print_debug_fv("common_fid = ", fv.common_fid);

+

+	if (fv.common_fid & (1 << 16)) {	/* check nb_cof_vid_update */

+

+		// Enable the common fid and other settings.

+		enable_fid_change((fv.common_fid >> 8) & 0x1F);

+

+		// nbfid change need warm reset, so reset at first

+		return 1;

+	}

+

+	return 0;		// No FID/VID changes. Don't reset

+}

+#endif

diff --git a/src/cpu/amd/model_10xxx/init_cpus.c b/src/cpu/amd/model_10xxx/init_cpus.c
index e582ca8af3..9207c2e0ba 100644
--- a/src/cpu/amd/model_10xxx/init_cpus.c
+++ b/src/cpu/amd/model_10xxx/init_cpus.c
@@ -1,948 +1,945 @@
-/*
- * 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>
-
-//it takes the CONFIG_ENABLE_APIC_EXT_ID and CONFIG_APIC_ID_OFFSET and CONFIG_LIFT_BSP_APIC_ID
-#ifndef SET_FIDVID
-	#define SET_FIDVID 1
-#endif
-
-#ifndef SET_FIDVID_CORE0_ONLY
-	/* MSR FIDVID_CTL and FIDVID_STATUS are shared by cores,
-	   Need to do every AP to set common FID/VID */
-	#define SET_FIDVID_CORE0_ONLY 0
-#endif
-
-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;
-}
-
-/* Use the LAPIC timer count register to hold each cores init status */
-#define LAPIC_MSG_REG 0x380
-
-#if SET_FIDVID == 1
-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) {
-			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, 0x13);	// 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) | 0x14);
-}
-
-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) | 0x13);
-
-	if (apicid != bsp_apicid) {
-		/* Setup each AP's cores MSRs.
-		 * This happens after HTinit.
-		 * The BSP runs this code in it's own path.
-		 */
-		update_microcode(cpuid_eax(1));
-		cpuSetAMDMSR();
-
-#if SET_FIDVID == 1
-#if (CONFIG_LOGICAL_CPUS == 1) && (SET_FIDVID_CORE0_ONLY == 1)
-		// 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();
-	u32 reg;
-
-#if CONFIG_RAMINIT_SYSINFO
-	/* 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 SET_FIDVID == 1
-	// 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"
+/*

+ * 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>

+

+//it takes the CONFIG_ENABLE_APIC_EXT_ID and CONFIG_APIC_ID_OFFSET and CONFIG_LIFT_BSP_APIC_ID

+#ifndef SET_FIDVID

+	#define SET_FIDVID 1

+#endif

+

+#ifndef SET_FIDVID_CORE0_ONLY

+	/* MSR FIDVID_CTL and FIDVID_STATUS are shared by cores,

+	   Need to do every AP to set common FID/VID */

+	#define SET_FIDVID_CORE0_ONLY 0

+#endif

+

+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 SET_FIDVID == 1

+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.

+		 */

+		update_microcode(cpuid_eax(1));

+		cpuSetAMDMSR();

+

+#if SET_FIDVID == 1

+#if (CONFIG_LOGICAL_CPUS == 1) && (SET_FIDVID_CORE0_ONLY == 1)

+		// 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();

+	u32 reg;

+

+#if CONFIG_RAMINIT_SYSINFO

+	/* 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 SET_FIDVID == 1

+	// 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"

diff --git a/src/northbridge/amd/amdfam10/amdfam10.h b/src/northbridge/amd/amdfam10/amdfam10.h
index 80b956ac07..400ed9a292 100644
--- a/src/northbridge/amd/amdfam10/amdfam10.h
+++ b/src/northbridge/amd/amdfam10/amdfam10.h
@@ -1,1192 +1,1202 @@
-/*
- * This file is part of the coreboot project.
- *
- * 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; 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
- */
-
-#ifndef AMDFAM10_H
-
-#define AMDFAM10_H
-/* Definitions of various FAM10 registers */
-/* Function 0 */
-#define HT_TRANSACTION_CONTROL 0x68
-#define  HTTC_DIS_RD_B_P		(1 << 0)
-#define  HTTC_DIS_RD_DW_P		(1 << 1)
-#define  HTTC_DIS_WR_B_P		(1 << 2)
-#define  HTTC_DIS_WR_DW_P		(1 << 3)
-#define  HTTC_DIS_MTS			(1 << 4)
-#define  HTTC_CPU1_EN			(1 << 5)
-#define  HTTC_CPU_REQ_PASS_PW		(1 << 6)
-#define  HTTC_CPU_RD_RSP_PASS_PW	(1 << 7)
-#define  HTTC_DIS_P_MEM_C		(1 << 8)
-#define  HTTC_DIS_RMT_MEM_C		(1 << 9)
-#define  HTTC_DIS_FILL_P		(1 << 10)
-#define  HTTC_RSP_PASS_PW		(1 << 11)
-#define  HTTC_BUF_REL_PRI_SHIFT	13
-#define  HTTC_BUF_REL_PRI_MASK		3
-#define   HTTC_BUF_REL_PRI_64		0
-#define   HTTC_BUF_REL_PRI_16		1
-#define   HTTC_BUF_REL_PRI_8		2
-#define   HTTC_BUF_REL_PRI_2		3
-#define  HTTC_LIMIT_CLDT_CFG		(1 << 15)
-#define  HTTC_LINT_EN			(1 << 16)
-#define  HTTC_APIC_EXT_BRD_CST		(1 << 17)
-#define  HTTC_APIC_EXT_ID		(1 << 18)
-#define  HTTC_APIC_EXT_SPUR		(1 << 19)
-#define  HTTC_SEQ_ID_SRC_NODE_EN	(1 << 20)
-#define  HTTC_DS_NP_REQ_LIMIT_SHIFT	21
-#define  HTTC_DS_NP_REQ_LIMIT_MASK	3
-#define   HTTC_DS_NP_REQ_LIMIT_NONE	0
-#define   HTTC_DS_NP_REQ_LIMIT_1	1
-#define   HTTC_DS_NP_REQ_LIMIT_4	2
-#define   HTTC_DS_NP_REQ_LIMIT_8	3
-
-
-/* Function 1 */
-#define PCI_IO_BASE0	0xc0
-#define PCI_IO_BASE1	0xc8
-#define PCI_IO_BASE2	0xd0
-#define PCI_IO_BASE3	0xd8
-#define PCI_IO_BASE_VGA_EN	(1 << 4)
-#define PCI_IO_BASE_NO_ISA	(1 << 5)
-
-/* Function 2 */
-// 0x1xx is for DCT1
-#define DRAM_CSBASE	0x40
-#define DRAM_CSMASK	0x60
-#define DRAM_BANK_ADDR_MAP 0x80
-
-#define DRAM_CTRL	0x78
-#define  DC_RdPtrInit_SHIFT 0
-#define  DC_RdPrtInit_MASK  0xf
-#define  DC_Twrrd3_2_SHIFT 8  /*DDR3 */
-#define  DC_Twrrd3_2_MASK 3
-#define  DC_Twrwr3_2_SHIFT 10 /*DDR3 */
-#define  DC_Twrwr3_2_MASK 3
-#define  DC_Trdrd3_2_SHIFT 12 /*DDR3 */
-#define  DC_Trdrd3_2_MASK 3
-#define  DC_AltVidC3MemClkTriEn (1<<16)
-#define  DC_DqsRcvEnTrain (1<<18)
-#define  DC_MaxRdLatency_SHIFT 22
-#define  DC_MaxRdLatency_MASK 0x3ff
-
-#define DRAM_INIT	0x7c
-#define  DI_MrsAddress_SHIFT 0
-#define  DI_MrsAddress_MASK 0xffff
-#define  DI_MrsBank_SHIFT 16
-#define  DI_MrsBank_MASK 7
-#define  DI_MrsChipSel_SHIFT 20
-#define  DI_MrsChipSel_MASK 7
-#define  DI_SendRchgAll (1<<24)
-#define  DI_SendAutoRefresh (1<<25)
-#define  DI_SendMrsCmd	  (1<<26)
-#define  DI_DeassertMemRstX (1<<27)
-#define  DI_AssertCke	 (1<<28)
-#define  DI_SendZQCmd	(1<<29) /*DDR3 */
-#define  DI_EnMrsCmd	(1<<30)
-#define  DI_EnDramInit	 (1<<31)
-
-#define DRAM_MRS	0x84
-#define  DM_BurstCtrl_SHIFT 0
-#define  DM_BurstCtrl_MASK 3
-#define  DM_DrvImpCtrl_SHIFT 2 /* DDR3 */
-#define  DM_DrvImpCtrl_MASK 3
-#define  DM_Twr_SHIFT 4 /* DDR3 */
-#define  DM_Twr_MASK 7
-#define  DM_Twr_BASE 4
-#define  DM_Twr_MIN  5
-#define  DM_Twr_MAX  12
-#define  DM_DramTerm_SHIFT 7 /*DDR3 */
-#define  DM_DramTerm_MASK 7
-#define  DM_DramTermDyn_SHIFT 10 /* DDR3 */
-#define  DM_DramTermDyn_MASK 3
-#define  DM_Ooff (1<<13)
-#define  DM_ASR (1<<18)
-#define  DM_SRT (1<<19)
-#define  DM_Tcwl_SHIFT 20
-#define  DM_Tcwl_MASK 7
-#define  DM_PchgPDModeSel (1<<23) /* DDR3 */
-#define  DM_MPrLoc_SHIFT 24 /* DDR3 */
-#define  DM_MPrLoc_MASK 3
-#define  DM_MprEn (1<<26) /* DDR3 */
-
-#define DRAM_TIMING_LOW	   0x88
-#define	 DTL_TCL_SHIFT	   0
-#define	 DTL_TCL_MASK	   0xf
-#define	  DTL_TCL_BASE	   1 /* DDR3 =4 */
-#define	  DTL_TCL_MIN	   3 /* DDR3 =4 */
-#define	  DTL_TCL_MAX	   6 /* DDR3 =12 */
-#define	 DTL_TRCD_SHIFT	   4
-#define	 DTL_TRCD_MASK	   3 /* DDR3 =7 */
-#define	  DTL_TRCD_BASE	   3 /* DDR3 =5 */
-#define	  DTL_TRCD_MIN	   3 /* DDR3 =5 */
-#define   DTL_TRCD_MAX	    6 /* DDR3 =12 */
-#define	 DTL_TRP_SHIFT	   8 /* DDR3 =7 */
-#define	 DTL_TRP_MASK	   3 /* DDR3 =7 */
-#define	  DTL_TRP_BASE	   3 /* DDR3 =5 */
-#define	  DTL_TRP_MIN	   3 /* DDR3 =5 */
-#define   DTL_TRP_MAX	    6 /* DDR3 =12 */
-#define	 DTL_TRTP_SHIFT	   11 /*DDR3 =10 */
-#define	 DTL_TRTP_MASK	   1  /*DDR3 =3 */
-#define	  DTL_TRTP_BASE	   2  /* DDR3 =4 */
-#define	  DTL_TRTP_MIN	   2  /* 4 for 64 bytes*/  /* DDR3 =4 for 32bytes or 64bytes */
-#define   DTL_TRTP_MAX	    3  /* 5 for 64 bytes */ /* DDR3 =7 for 32Bytes or 64bytes */
-#define	 DTL_TRAS_SHIFT	   12
-#define	 DTL_TRAS_MASK	   0xf
-#define	  DTL_TRAS_BASE	   3 /* DDR3 =15 */
-#define	  DTL_TRAS_MIN	   5 /* DDR3 =15 */
-#define	  DTL_TRAS_MAX	   18 /*DDR3 =30 */
-#define	 DTL_TRC_SHIFT	   16
-#define	 DTL_TRC_MASK	   0xf /* DDR3 =0x1f */
-#define	  DTL_TRC_BASE	   11
-#define	  DTL_TRC_MIN	   11
-#define	  DTL_TRC_MAX	   26  /* DDR3 =43 */
-#define	 DTL_TWR_SHIFT	   20 /* only for DDR2, DDR3's is on DC */
-#define	 DTL_TWR_MASK	   3
-#define	  DTL_TWR_BASE	   3
-#define	  DTL_TWR_MIN	   3
-#define	  DTL_TWR_MAX	   6
-#define  DTL_TRRD_SHIFT    22
-#define   DTL_TRRD_MASK    3
-#define   DTL_TRRD_BASE    2 /* DDR3 =4 */
-#define   DTL_TRRD_MIN	   2 /* DDR3 =4 */
-#define   DTL_TRRD_MAX	    5 /* DDR3 =7 */
-#define  DTL_MemClkDis_SHIFT 24    /* Channel A */
-#define  DTL_MemClkDis3       (1 << 26)
-#define  DTL_MemClkDis2       (1 << 27)
-#define  DTL_MemClkDis1       (1 << 28)
-#define  DTL_MemClkDis0       (1 << 29)
-/* DTL_MemClkDis for m2 and s1g1 is different */
-
-#define DRAM_TIMING_HIGH   0x8c
-#define  DTH_TRWTWB_SHIFT 0
-#define  DTH_TRWTWB_MASK 3
-#define   DTH_TRWTWB_BASE 3  /* DDR3 =4 */
-#define   DTH_TRWTWB_MIN  3  /* DDR3 =5 */
-#define   DTH_TRWTWB_MAX  10 /* DDR3 =11 */
-#define  DTH_TRWTTO_SHIFT  4
-#define  DTH_TRWTTO_MASK   7
-#define   DTH_TRWTTO_BASE   2 /* DDR3 =3 */
-#define   DTH_TRWTTO_MIN    2 /* DDR3 =3 */
-#define   DTH_TRWTTO_MAX    9 /* DDR3 =10 */
-#define	 DTH_TWTR_SHIFT	   8
-#define	 DTH_TWTR_MASK	   3
-#define	  DTH_TWTR_BASE	   0  /* DDR3 =4 */
-#define	  DTH_TWTR_MIN	   1  /* DDR3 =4 */
-#define	  DTH_TWTR_MAX	   3  /* DDR3 =7 */
-#define	 DTH_TWRRD_SHIFT   10
-#define	 DTH_TWRRD_MASK	   3	/* For DDR3 3_2 is at 0x78 DC */
-#define	  DTH_TWRRD_BASE   0  /* DDR3 =0 */
-#define	  DTH_TWRRD_MIN	   0  /* DDR3 =2 */
-#define	  DTH_TWRRD_MAX	   3  /* DDR3 =12 */
-#define  DTH_TWRWR_SHIFT   12
-#define  DTH_TWRWR_MASK    3	/* For DDR3 3_2 is at 0x78 DC */
-#define   DTH_TWRWR_BASE   1
-#define   DTH_TWRWR_MIN    1	/* DDR3 =3 */
-#define   DTH_TWRWR_MAX    3	/* DDR3 =12 */
-#define  DTH_TRDRD_SHIFT   14
-#define  DTH_TRDRD_MASK    3  /* For DDR3 3_2 is at 0x78 DC */
-#define   DTH_TRDRD_BASE   2
-#define   DTH_TRDRD_MIN    2
-#define   DTH_TRDRD_MAX    5	/* DDR3 =10 */
-#define	 DTH_TREF_SHIFT	   16
-#define	 DTH_TREF_MASK	   3
-#define	  DTH_TREF_7_8_US  2
-#define	  DTH_TREF_3_9_US  3
-#define  DTH_DisAutoRefresh (1<<18)
-#define  DTH_TRFC0_SHIFT   20 /* for Logical DIMM0 */
-#define  DTH_TRFC_MASK	     7
-#define	  DTH_TRFC_75_256M   0
-#define	  DTH_TRFC_105_512M  1
-#define   DTH_TRFC_127_5_1G  2
-#define   DTH_TRFC_195_2G    3
-#define   DTH_TRFC_327_5_4G  4
-#if 0
-//DDR3
-#define   DTH_TRFC_90_512M   1
-#define   DTH_TRFC_110_5_1G  2
-#define   DTH_TRFC_160_2G    3
-#define   DTH_TRFC_300_4G    4
-#define   DTH_TRFC_UNDEFINED_8G   5
-#endif
-#define  DTH_TRFC1_SHIFT   23 /*for Logical DIMM1 */
-#define  DTH_TRFC2_SHIFT   26 /*for Logical DIMM2 */
-#define  DTH_TRFC3_SHIFT   29 /*for Logical DIMM3 */
-
-#define DRAM_CONFIG_LOW	   0x90
-#define	 DCL_InitDram	   (1<<0)
-#define	 DCL_ExitSelfRef   (1<<1)
-#define  DCL_PllLockTime_SHIFT 2
-#define  DCL_PllLockTime_MASK 3
-#define   DCL_PllLockTime_15US 0
-#define   DCL_PllLockTime_6US 1
-#define  DCL_DramTerm_SHIFT 4
-#define  DCL_DramTerm_MASK  3
-#define   DCL_DramTerm_No   0
-#define   DCL_DramTerm_75_OH 1
-#define   DCL_DramTerm_150_OH 2
-#define   DCL_DramTerm_50_OH 3
-#define  DCL_DisDqsBar	    (1<<6) /* only for DDR2 */
-#define  DCL_DramDrvWeak   (1<<7) /* only for DDR2 */
-#define  DCL_ParEn	   (1<<8)
-#define  DCL_SelfRefRateEn (1<<9) /* only for DDR2 */
-#define  DCL_BurstLength32 (1<<10) /* only for DDR3 */
-#define  DCL_Width128	   (1<<11)
-#define  DCL_X4Dimm_SHIFT  12
-#define  DCL_X4Dimm_MASK   0xf
-#define  DCL_UnBuffDimm    (1<<16)
-#define  DCL_EnPhyDqsRcvEnTr (1<<18)
-#define	 DCL_DimmEccEn	   (1<<19)
-#define  DCL_DynPageCloseEn (1<<20)
-#define  DCL_IdleCycInit_SHIFT 21
-#define  DCL_IdleCycInit_MASK	3
-#define   DCL_IdleCycInit_16CLK 0
-#define   DCL_IdleCycInit_32CLK 1
-#define   DCL_IdleCycInit_64CLK 2
-#define   DCL_IdleCycInit_96CLK 3
-#define  DCL_ForceAutoPchg   (1<<23)
-
-#define DRAM_CONFIG_HIGH   0x94
-#define  DCH_MemClkFreq_SHIFT 0
-#define  DCH_MemClkFreq_MASK  7
-#define   DCH_MemClkFreq_200MHz 0  /* DDR2 */
-#define   DCH_MemClkFreq_266MHz 1  /* DDR2 */
-#define   DCH_MemClkFreq_333MHz 2  /* DDR2 */
-#define	  DCH_MemClkFreq_400MHz 3  /* DDR2 and DDR 3*/
-#define	  DCH_MemClkFreq_533MHz 4  /* DDR 3 */
-#define	  DCH_MemClkFreq_667MHz 5  /* DDR 3 */
-#define	  DCH_MemClkFreq_800MHz 6  /* DDR 3 */
-#define  DCH_MemClkFreqVal	(1<<3)
-#define  DCH_Ddr3Mode		(1<<8)
-#define  DCH_LegacyBiosMode	(1<<9)
-#define  DCH_ZqcsInterval_SHIFT 10
-#define  DCH_ZqcsInterval_MASK	3
-#define  DCH_ZqcsInterval_DIS	0
-#define  DCH_ZqcsInterval_64MS	 1
-#define  DCH_ZqcsInterval_128MS  2
-#define  DCH_ZqcsInterval_256MS  3
-#define  DCH_RDqsEn	      (1<<12) /* only for DDR2 */
-#define  DCH_DisSimulRdWr	(1<<13)
-#define  DCH_DisDramInterface (1<<14)
-#define  DCH_PowerDownEn      (1<<15)
-#define  DCH_PowerDownMode_SHIFT 16
-#define  DCH_PowerDownMode_MASK 1
-#define   DCH_PowerDownMode_Channel_CKE 0
-#define   DCH_PowerDownMode_ChipSelect_CKE 1
-#define  DCH_FourRankSODimm	(1<<17)
-#define  DCH_FourRankRDimm	(1<<18)
-#define  DCH_SlowAccessMode	(1<<20)
-#define  DCH_BankSwizzleMode	 (1<<22)
-#define  DCH_DcqBypassMax_SHIFT 24
-#define  DCH_DcqBypassMax_MASK	 0xf
-#define   DCH_DcqBypassMax_BASE 0
-#define   DCH_DcqBypassMax_MIN	 0
-#define   DCH_DcqBypassMax_MAX	 15
-#define  DCH_FourActWindow_SHIFT 28
-#define  DCH_FourActWindow_MASK 0xf
-#define   DCH_FourActWindow_BASE 7 /* DDR3 15 */
-#define   DCH_FourActWindow_MIN 8  /* DDR3 16 */
-#define   DCH_FourActWindow_MAX 20 /* DDR3 30 */
-
-
-// for 0x98 index and 0x9c data for DCT0
-// for 0x198 index and 0x19c data for DCT1
-// even at ganged mode, 0x198/0x19c will be used for channnel B
-
-#define DRAM_CTRL_ADDI_DATA_OFFSET	0x98
-#define  DCAO_DctOffset_SHIFT	0
-#define  DCAO_DctOffset_MASK	0x3fffffff
-#define  DCAO_DctAccessWrite	(1<<30)
-#define  DCAO_DctAccessDone	(1<<31)
-
-#define DRAM_CTRL_ADDI_DATA_PORT	 0x9c
-
-#define DRAM_OUTPUT_DRV_COMP_CTRL	0x00
-#define  DODCC_CkeDrvStren_SHIFT 0
-#define  DODCC_CkeDrvStren_MASK  3
-#define   DODCC_CkeDrvStren_1_0X  0
-#define   DODCC_CkeDrvStren_1_25X 1
-#define   DODCC_CkeDrvStren_1_5X  2
-#define   DODCC_CkeDrvStren_2_0X  3
-#define  DODCC_CsOdtDrvStren_SHIFT 4
-#define  DODCC_CsOdtDrvStren_MASK  3
-#define   DODCC_CsOdtDrvStren_1_0X  0
-#define   DODCC_CsOdtDrvStren_1_25X 1
-#define   DODCC_CsOdtDrvStren_1_5X  2
-#define   DODCC_CsOdtDrvStren_2_0X  3
-#define  DODCC_AddrCmdDrvStren_SHIFT 8
-#define  DODCC_AddrCmdDrvStren_MASK  3
-#define   DODCC_AddrCmdDrvStren_1_0X  0
-#define   DODCC_AddrCmdDrvStren_1_25X 1
-#define   DODCC_AddrCmdDrvStren_1_5X  2
-#define   DODCC_AddrCmdDrvStren_2_0X  3
-#define  DODCC_ClkDrvStren_SHIFT 12
-#define  DODCC_ClkDrvStren_MASK  3
-#define   DODCC_ClkDrvStren_0_75X  0
-#define   DODCC_ClkDrvStren_1_0X 1
-#define   DODCC_ClkDrvStren_1_25X  2
-#define   DODCC_ClkDrvStren_1_5X  3
-#define  DODCC_DataDrvStren_SHIFT 16
-#define  DODCC_DataDrvStren_MASK  3
-#define   DODCC_DataDrvStren_0_75X  0
-#define   DODCC_DataDrvStren_1_0X 1
-#define   DODCC_DataDrvStren_1_25X  2
-#define   DODCC_DataDrvStren_1_5X  3
-#define  DODCC_DqsDrvStren_SHIFT 20
-#define  DODCC_DqsDrvStren_MASK  3
-#define   DODCC_DqsDrvStren_0_75X  0
-#define   DODCC_DqsDrvStren_1_0X 1
-#define   DODCC_DqsDrvStren_1_25X  2
-#define   DODCC_DqsDrvStren_1_5X  3
-#define  DODCC_ProcOdt_SHIFT 28
-#define  DODCC_ProcOdt_MASK  3
-#define   DODCC_ProcOdt_300_OHMS  0
-#define   DODCC_ProcOdt_150_OHMS 1
-#define   DODCC_ProcOdt_75_OHMS  2
-#if 0
-//DDR3
-#define   DODCC_ProcOdt_240_OHMS  0
-#define   DODCC_ProcOdt_120_OHMS 1
-#define   DODCC_ProcOdt_60_OHMS  2
-#endif
-
-/*
-   for DDR2 400, 533, 667, F2x[1,0]9C_x[02:01], [03], [06:05], [07] controll timing of all DIMMs
-   for DDR2 800, DDR3 800, 1067, 1333, 1600, F2x[1,0]9C_x[02:01], [03], [06:05], [07] controll timing of DIMM0
-					     F2x[1,0]9C_x[102:101], [103], [106:105], [107] controll timing of DIMM1
-	So Socket F with Four Logical DIMM will only support DDR2 800  ?
-*/
-/* there are index	   +100	   ===> for DIMM1
-that are corresponding to 0x01, 0x02, 0x03, 0x05, 0x06, 0x07
-*/
-//02/15/2006 18:37
-#define DRAM_WRITE_DATA_TIMING_CTRL_LOW 0x01
-#define  DWDTC_WrDatFineDlyByte0_SHIFT 0
-#define  DWDTC_WrDatFineDlyByte_MASK  0x1f
-#define   DWDTC_WrDatFineDlyByte_BASE 0
-#define   DWDTC_WrDatFineDlyByte_MIN  0
-#define   DWDTC_WrDatFineDlyByte_MAX  31 // 1/64 MEMCLK
-#define  DWDTC_WrDatGrossDlyByte0_SHIFT 5
-#define  DWDTC_WrDatGrossDlyByte_MASK	0x3
-#define   DWDTC_WrDatGrossDlyByte_NO_DELAY 0
-#define   DWDTC_WrDatGrossDlyByte_0_5_	 1
-#define   DWDTC_WrDatGrossDlyByte_1  2
-#define  DWDTC_WrDatFineDlyByte1_SHIFT 8
-#define  DWDTC_WrDatGrossDlyByte1_SHIFT 13
-#define  DWDTC_WrDatFineDlyByte2_SHIFT 16
-#define  DWDTC_WrDatGrossDlyByte2_SHIFT 21
-#define  DWDTC_WrDatFineDlyByte3_SHIFT 24
-#define  DWDTC_WrDatGrossDlyByte3_SHIFT 29
-
-#define DRAM_WRITE_DATA_TIMING_CTRL_HIGH 0x02
-#define  DWDTC_WrDatFineDlyByte4_SHIFT 0
-#define  DWDTC_WrDatGrossDlyByte4_SHIFT 5
-#define  DWDTC_WrDatFineDlyByte5_SHIFT 8
-#define  DWDTC_WrDatGrossDlyByte5_SHIFT 13
-#define  DWDTC_WrDatFineDlyByte6_SHIFT 16
-#define  DWDTC_WrDatGrossDlyByte6_SHIFT 21
-#define  DWDTC_WrDatFineDlyByte7_SHIFT 24
-#define  DWDTC_WrDatGrossDlyByte7_SHIFT 29
-
-#define DRAM_WRITE_ECC_TIMING_CTRL 0x03
-#define  DWETC_WrChkFinDly_SHIFT 0
-#define  DWETC_WrChkGrossDly_SHIFT 5
-
-#define DRAM_ADDR_CMD_TIMING_CTRL 0x04
-#define  DACTC_CkeFineDelay_SHIFT 0
-#define  DACTC_CkeFineDelay_MASK  0x1f
-#define   DACTC_CkeFineDelay_BASE 0
-#define   DACTC_CkeFineDelay_MIN  0
-#define   DACTC_CkeFineDelay_MAX 31
-#define  DACTC_CkeSetup	(1<<5)
-#define  DACTC_CsOdtFineDelay_SHIFT 8
-#define  DACTC_CsOdtFineDelay_MASK  0x1f
-#define   DACTC_CsOdtFineDelay_BASE 0
-#define   DACTC_CsOdtFineDelay_MIN  0
-#define   DACTC_CsOdtFineDelay_MAX 31
-#define  DACTC_CsOdtSetup   (1<<13)
-#define  DACTC_AddrCmdFineDelay_SHIFT 16
-#define  DACTC_AddrCmdFineDelay_MASK  0x1f
-#define   DACTC_AddrCmdFineDelay_BASE 0
-#define   DACTC_AddrCmdFineDelay_MIN  0
-#define   DACTC_AddrCmdFineDelay_MAX 31
-#define  DACTC_AddrCmdSetup   (1<<21)
-
-#define DRAM_READ_DQS_TIMING_CTRL_LOW 0x05
-#define  DRDTC_RdDqsTimeByte0_SHIFT 0
-#define  DRDTC_RdDqsTimeByte_MASK  0x3f
-#define   DRDTC_RdDqsTimeByte_BASE 0
-#define   DRDTC_RdDqsTimeByte_MIN  0
-#define   DRDTC_RdDqsTimeByte_MAX  63 // 1/128 MEMCLK
-#define  DRDTC_RdDqsTimeByte1_SHIFT 8
-#define  DRDTC_RdDqsTimeByte2_SHIFT 16
-#define  DRDTC_RdDqsTimeByte3_SHIFT 24
-
-#define DRAM_READ_DQS_TIMING_CTRL_HIGH 0x06
-#define  DRDTC_RdDqsTimeByte4_SHIFT 0
-#define  DRDTC_RdDqsTimeByte5_SHIFT 8
-#define  DRDTC_RdDqsTimeByte6_SHIFT 16
-#define  DRDTC_RdDqsTimeByte7_SHIFT 24
-
-#define DRAM_READ_DQS_ECC_TIMING_CTRL 0x07
-#define  DRDETC_RdDqsTimeCheck_SHIFT 0
-
-#define DRAM_PHY_CTRL 0x08
-#define  DPC_WrtLvTrEn	(1<<0)
-#define  DPC_WrtLvTrMode (1<<1)
-#define  DPC_TrNibbleSel (1<<2)
-#define  DPC_TrDimmSel_SHIFT 4
-#define   DPC_TrDimmSel_MASK 3 /* 0-->dimm0, 1-->dimm1, 2--->dimm2, 3--->dimm3 */
-#define  DPC_WrLvOdt_SHIFT 8
-#define   DPC_WrLvOdt_MASK 0xf /* bit 0-->odt 0, ...*/
-#define  DPC_WrLvODtEn (1<<12)
-#define  DPC_DqsRcvTrEn (1<<13)
-#define  DPC_DisAutoComp (1<<30)
-#define  DPC_AsyncCompUpdate (1<<31)
-
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_0_0 0x10 //DIMM0 Channel A
-#define  DDRETC_DqsRcvEnFineDelayByte0_SHIFT 0
-#define   DDRETC_DqsRcvEnFineDelayByte0_MASK 0x1f
-#define  DDRETC_DqsRcvEnGrossDelayByte0_SHIFT 5
-#define   DDRETC_DqsRcvEnGrossDelayByte0_MASK 0x3
-#define  DDRETC_DqsRcvEnFineDelayByte1_SHIFT 8
-#define  DDRETC_DqsRcvEnGrossDelayByte1_SHIFT 13
-#define  DDRETC_DqsRcvEnFineDelayByte2_SHIFT 16
-#define  DDRETC_DqsRcvEnGrossDelayByte2_SHIFT 21
-#define  DDRETC_DqsRcvEnFineDelayByte3_SHIFT 24
-#define  DDRETC_DqsRcvEnGrossDelayByte3_SHIFT 29
-
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_0_1 0x11 //DIMM0 Channel A
-#define  DDRETC_DqsRcvEnFineDelayByte4_SHIFT 0
-#define  DDRETC_DqsRcvEnGrossDelayByte4_SHIFT 5
-#define  DDRETC_DqsRcvEnFineDelayByte5_SHIFT 8
-#define  DDRETC_DqsRcvEnGrossDelayByte5_SHIFT 13
-#define  DDRETC_DqsRcvEnFineDelayByte6_SHIFT 16
-#define  DDRETC_DqsRcvEnGrossDelayByte6_SHIFT 21
-#define  DDRETC_DqsRcvEnFineDelayByte7_SHIFT 24
-#define  DDRETC_DqsRcvEnGrossDelayByte7_SHIFT 29
-
-#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_0_0 0x12
-#define  DDRETCE_WrChkFineDlyByte0_SHIFT 0
-#define  DDRETCE_WrChkGrossDlyByte0_SHIFT 5
-
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_0_2 0x20   //DIMM0 channel B
-#define  DDRETC_DqsRcvEnFineDelayByte8_SHIFT 0
-#define  DDRETC_DqsRcvEnGrossDelayByte8_SHIFT 5
-#define  DDRETC_DqsRcvEnFineDelayByte9_SHIFT 8
-#define  DDRETC_DqsRcvEnGrossDelayByte9_SHIFT 13
-#define  DDRETC_DqsRcvEnFineDelayByte10_SHIFT 16
-#define  DDRETC_DqsRcvEnGrossDelayByte10_SHIFT 21
-#define  DDRETC_DqsRcvEnFineDelayByte11_SHIFT 24
-#define  DDRETC_DqsRcvEnGrossDelayByte11_SHIFT 29
-
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_0_3 0x21  // DIMM0 Channel B
-#define  DDRETC_DqsRcvEnFineDelayByte12_SHIFT 0
-#define  DDRETC_DqsRcvEnGrossDelayByte12_SHIFT 5
-#define  DDRETC_DqsRcvEnFineDelayByte13_SHIFT 8
-#define  DDRETC_DqsRcvEnGrossDelayByte13_SHIFT 13
-#define  DDRETC_DqsRcvEnFineDelayByte14_SHIFT 16
-#define  DDRETC_DqsRcvEnGrossDelayByte14_SHIFT 21
-#define  DDRETC_DqsRcvEnFineDelayByte15_SHIFT 24
-#define  DDRETC_DqsRcvEnGrossDelayByte15_SHIFT 29
-
-#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_0_1 0x22
-#define  DDRETCE_WrChkFineDlyByte1_SHIFT 0
-#define  DDRETCE_WrChkGrossDlyByte1_SHIFT 5
-
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_1_0 0x13  //DIMM1
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_1_1 0x14
-#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_1_0 0x15
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_1_2 0x23
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_1_3 0x24
-#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_1_1 0x25
-
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_2_0 0x16   // DIMM2
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_2_1 0x17
-#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_2_0 0x18
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_2_2 0x26
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_2_3 0x27
-#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_2_1 0x28
-
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_3_0 0x19   // DIMM3
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_3_1 0x1a
-#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_3_0 0x1b
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_3_2 0x29
-#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_3_3 0x2a
-#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_3_1 0x2b
-
-/* 04.06.2006 19:12 */
-
-#if 0
-//DDR3
-#define DRAM_DQS_WRITE_TIME_CTRL_0_0 0x30 //DIMM0 Channel A
-#define  DDWTC_WrDqsFineDlyByte0_SHIFT 0
-#define   DDWTC_WrDqsFineDlyByte0_MASK 0x1f
-#define  DDWTC_WrDqsGrossDlyByte0_SHIFT 5
-#define   DDWTC_WrDqsGrossDlyByte0_MASK 0x3
-#define  DDWTC_WrDqsFineDlyByte1_SHIFT 8
-#define  DDWTC_WrDqsGrossDlyByte1_SHIFT 13
-#define  DDWTC_WrDqsFineDlyByte2_SHIFT 16
-#define  DDWTC_WrDqsGrossDlyByte2_SHIFT 21
-#define  DDWTC_WrDqsFineDlyByte3_SHIFT 24
-#define  DDWTC_WrDqsGrossDlyByte3_SHIFT 29
-
-#define DRAM_DQS_WRTIE_TIME_CTRL_0_1 0x31 //DIMM0 Channel A
-#define  DDWTC_WrDqsFineDlyByte4_SHIFT 0
-#define  DDWTC_WrDqsGrossDlyByte4_SHIFT 5
-#define  DDWTC_WrDqsFineDlyByte5_SHIFT 8
-#define  DDWTC_WrDqsGrossDlyByte5_SHIFT 13
-#define  DDWTC_WrDqsFineDlyByte6_SHIFT 16
-#define  DDWTC_WrDqsGrossDlyByte6_SHIFT 21
-#define  DDWTC_WrDqsFineDlyByte7_SHIFT 24
-#define  DDWTC_WrDqsGrossDlyByte7_SHIFT 29
-
-#define DRAM_DQS_WRITE_TIMING_CTRL_ECC_0_0 0x32
-#define  DDWTCE_WrDqsChkFineDlyByte0_SHIFT 0
-#define  DDWTCE_WrDqsChkGrossDlyByte0_SHIFT 5
-
-#define DRAM_DQS_WRITE_TIME_CTRL_0_2 0x40 //DIMM0 Channel B
-#define  DDWTC_WrDqsFineDlyByte8_SHIFT 0
-#define  DDWTC_WrDqsGrossDlyByte8_SHIFT 5
-#define  DDWTC_WrDqsFineDlyByte9_SHIFT 8
-#define  DDWTC_WrDqsGrossDlyByte9_SHIFT 13
-#define  DDWTC_WrDqsFineDlyByte10_SHIFT 16
-#define  DDWTC_WrDqsGrossDlyByte10_SHIFT 21
-#define  DDWTC_WrDqsFineDlyByte11_SHIFT 24
-#define  DDWTC_WrDqsGrossDlyByte11_SHIFT 29
-
-#define DRAM_DQS_WRTIE_TIME_CTRL_0_3 0x41 //DIMM0 Channel B
-#define  DDWTC_WrDqsFineDlyByte12_SHIFT 0
-#define  DDWTC_WrDqsGrossDlyByte12_SHIFT 5
-#define  DDWTC_WrDqsFineDlyByte13_SHIFT 8
-#define  DDWTC_WrDqsGrossDlyByte13_SHIFT 13
-#define  DDWTC_WrDqsFineDlyByte14_SHIFT 16
-#define  DDWTC_WrDqsGrossDlyByte14_SHIFT 21
-#define  DDWTC_WrDqsFineDlyByte15_SHIFT 24
-#define  DDWTC_WrDqsGrossDlyByte15_SHIFT 29
-
-#define DRAM_DQS_WRITE_TIMING_CTRL_ECC_0_1 0x42
-#define  DDWTCE_WrDqsChkFineDlyByte1_SHIFT 0
-#define  DDWTCE_WrDqsChkGrossDlyByte1_SHIFT 5
-
-#define DRAM_DQS_WRITE_TIME_CTRL_1_0 0x33 //DIMM1 Channel A
-#define DRAM_DQS_WRTIE_TIME_CTRL_1_1 0x34 //DIMM1 Channel A
-#define DRAM_DQS_WRITE_TIMING_CTRL_ECC_1_0 0x35
-#define DRAM_DQS_WRITE_TIME_CTRL_1_2 0x43 //DIMM1 Channel B
-#define DRAM_DQS_WRTIE_TIME_CTRL_1_3 0x44 //DIMM1 Channel B
-#define DRAM_DQS_WRITE_TIMING_CTRL_ECC_1_1 0x45
-#endif
-
-#define DRAM_PHASE_RECOVERY_CTRL_0 0x50
-#define  DPRC_PhRecFineDlyByte0_SHIFT 0
-#define   DDWTC_PhRecFineDlyByte0_MASK 0x1f
-#define  DDWTC_PhRecGrossDlyByte0_SHIFT 5
-#define   DDWTC_PhRecGrossDlyByte0_MASK 0x3
-#define  DDWTC_PhRecFineDlyByte1_SHIFT 8
-#define  DDWTC_PhRecGrossDlyByte1_SHIFT 13
-#define  DDWTC_PhRecFineDlyByte2_SHIFT 16
-#define  DDWTC_PhRecGrossDlyByte2_SHIFT 21
-#define  DDWTC_PhRecFineDlyByte3_SHIFT 24
-#define  DDWTC_PhRecGrossDlyByte3_SHIFT 29
-
-#define DRAM_PHASE_RECOVERY_CTRL_1 0x51
-#define  DPRC_PhRecFineDlyByte4_SHIFT 0
-#define  DDWTC_PhRecGrossDlyByte4_SHIFT 5
-#define  DDWTC_PhRecFineDlyByte5_SHIFT 8
-#define  DDWTC_PhRecGrossDlyByte5_SHIFT 13
-#define  DDWTC_PhRecFineDlyByte6_SHIFT 16
-#define  DDWTC_PhRecGrossDlyByte6_SHIFT 21
-#define  DDWTC_PhRecFineDlyByte7_SHIFT 24
-#define  DDWTC_PhRecGrossDlyByte7_SHIFT 29
-
-#define DRAM_ECC_PHASE_RECOVERY_CTRL 0x52
-#define  DEPRC_PhRecEccDlyByte0_SHIFT 0
-#define  DEPRC_PhRecEccGrossDlyByte0_SHIFT 5
-
-#define DRAM_WRITE_LEVEL_ERROR 0x53 /* read only */
-#define  DWLE_WrLvErr_SHIFT 0
-#define   DWLE_WrLvErr_MASK 0xff
-
-#define DRAM_CTRL_MISC 0xa0
-#define  DCM_MemCleared (1<<0) /* RD  == F2x110 [MemCleared] */
-#define  DCM_DramEnabled (1<<9) /* RD == F2x110 [DramEnabled] */
-
-#define NB_TIME_STAMP_COUNT_LOW 0xb0
-#define  TscLow_SHIFT 0
-#define  TscLow_MASK 0xffffffff
-
-#define NB_TIME_STAMP_COUNT_HIGH 0xb4
-#define  TscHigh_SHIFT 0
-#define  TscHigh_Mask 0xff
-
-#define DCT_DEBUG_CTRL 0xf0 /* 0xf0 for DCT0,	0x1f0 is for DCT1*/
-#define  DDC_DllAdjust_SHIFT 0
-#define   DDC_DllAdjust_MASK 0xff
-#define  DDC_DllSlower (1<<8)
-#define  DDC_DllFaster (1<<9)
-#define  DDC_WrtDqsAdjust_SHIFT 16
-#define   DDC_WrtDqsAdjust_MASK 0x7
-#define  DDC_WrtDqsAdjustEn (1<<19)
-
-#define DRAM_CTRL_SEL_LOW 0x110
-#define  DCSL_DctSelHiRngEn (1<<0)
-#define  DCSL_DctSelHi (1<<1)
-#define  DCSL_DctSelIntLvEn (1<<2)
-#define  DCSL_MemClrInit (1<<3) /* WR only */
-#define  DCSL_DctGangEn (1<<4)
-#define  DCSL_DctDataIntLv (1<<5)
-#define  DCSL_DctSelIntLvAddr_SHIFT
-#define   DCSL_DctSelIntLvAddr_MASK 3
-#define  DCSL_DramEnable (1<<8)  /* RD only */
-#define  DCSL_MemClrBusy (1<<9)  /* RD only */
-#define  DCSL_MemCleared (1<<10) /* RD only */
-#define  DCSL_DctSelBaseAddr_47_27_SHIFT 11
-#define   DCSL_DctSelBaseAddr_47_27_MASK 0x1fffff
-
-#define DRAM_CTRL_SEL_HIGH 0x114
-#define  DCSH_DctSelBaseOffset_47_26_SHIFT 10
-#define   DCSH_DctSelBaseOffset_47_26_MASK 0x3fffff
-
-#define MEM_CTRL_CONF_LOW 0x118
-#define  MCCL_MctPriCpuRd (1<<0)
-#define  MCCL_MctPriCpuWr (1<<1)
-#define  MCCL_MctPriIsocRd_SHIFT 4
-#define   MCCL_MctPriIsoc_MASK 0x3
-#define  MCCL_MctPriIsocWr_SHIFT 6
-#define   MCCL_MctPriIsocWe_MASK 0x3
-#define  MCCL_MctPriDefault_SHIFT 8
-#define   MCCL_MctPriDefault_MASK 0x3
-#define  MCCL_MctPriWr_SHIFT 10
-#define   MCCL_MctPriWr_MASK 0x3
-#define  MCCL_MctPriIsoc_SHIFT 12
-#define   MCCL_MctPriIsoc_MASK 0x3
-#define  MCCL_MctPriTrace_SHIFT 14
-#define   MCCL_MctPriTrace_MASK 0x3
-#define  MCCL_MctPriScrub_SHIFT 16
-#define   MCCL_MctPriScrub_MASK 0x3
-#define  MCCL_McqMedPriByPassMax_SHIFT 20
-#define   MCCL_McqMedPriByPassMax_MASK 0x7
-#define  MCCL_McqHiPriByPassMax_SHIFT 24
-#define   MCCL_McqHiPriByPassMax_MASK 0x7
-#define  MCCL_MctVarPriCntLmt_SHIFT 28
-#define   MCCL_MctVarPriCntLmt_MASK 0x7
-
-#define MEM_CTRL_CONF_HIGH 0x11c
-#define  MCCH_DctWrLimit_SHIFT 0
-#define   MCCH_DctWrLimit_MASK 0x3
-#define  MCCH_MctWrLimit_SHIFT 2
-#define   MCCH_MctWrLimit_MASK 0x1f
-#define  MCCH_MctPrefReqLimit_SHIFT 7
-#define   MCCH_MctPrefReqLimit_MASK 0x1f
-#define  MCCH_PrefCpuDis (1<<12)
-#define  MCCH_PrefIoDis (1<<13)
-#define  MCCH_PrefIoFixStrideEn (1<<14)
-#define  MCCH_PrefFixStrideEn (1<<15)
-#define  MCCH_PrefFixDist_SHIFT 16
-#define   MCCH_PrefFixDist_MASK 0x3
-#define  MCCH_PrefConfSat_SHIFT 18
-#define   MCCH_PrefConfSat_MASK 0x3
-#define  MCCH_PrefOneConf_SHIFT 20
-#define   MCCH_PrefOneConf_MASK 0x3
-#define  MCCH_PrefTwoConf_SHIFT 22
-#define   MCCH_PrefTwoConf_MASK 0x7
-#define  MCCH_PrefThreeConf_SHIFT 25
-#define   MCCH_prefThreeConf_MASK 0x7
-#define  MCCH_PrefDramTrainMode (1<<28)
-#define  MCCH_FlushWrOnStpGnt (1<<29)
-#define  MCCH_FlushWr (1<<30)
-#define  MCCH_MctScrubEn (1<<31)
-
-
-/* Function 3 */
-#define MCA_NB_CONTROL		0x40
-#define  MNCT_CorrEccEn (1<<0)
-#define  MNCT_UnCorrEccEn (1<<1)
-#define  MNCT_CrcErr0En	(1<<2) /* Link 0 */
-#define  MNCT_CrcErr1En (1<<3)
-#define  MNCT_CrcErr2En (1<<4)
-#define  MBCT_SyncPkt0En (1<<5) /* Link 0 */
-#define  MBCT_SyncPkt1En (1<<6)
-#define  MBCT_SyncPkt2En (1<<7)
-#define  MBCT_MstrAbrtEn (1<<8)
-#define  MBCT_TgtAbrtEn	 (1<<9)
-#define  MBCT_GartTblEkEn (1<<10)
-#define  MBCT_AtomicRMWEn  (1<<11)
-#define  MBCT_WdogTmrRptEn (1<<12)
-#define  MBCT_DevErrEn	(1<<13)
-#define  MBCT_L3ArrayCorEn (1<<14)
-#define  MBCT_L3ArrayUncEn (1<<15)
-#define  MBCT_HtProtEn	(1<<16)
-#define  MBCT_HtDataEn	(1<<17)
-#define  MBCT_DramParEn	(1<<18)
-#define  MBCT_RtryHt0En (1<<19) /* Link 0 */
-#define  MBCT_RtryHt1En (1<<20)
-#define  MBCT_RtryHt2En (1<<21)
-#define  MBCT_RtryHt3En (1<<22)
-#define  MBCT_CrcErr3En (1<<23) /* Link 3*/
-#define  MBCT_SyncPkt3En (1<<24) /* Link 4 */
-#define  MBCT_McaUsPwDatErrEn (1<<25)
-#define  MBCT_NbArrayParEn (1<<26)
-#define  MBCT_TblWlkDatErrEn (1<<27)
-#define  MBCT_FbDimmCorErrEn (1<<28)
-#define  MBCT_FbDimmUnCorErrEn (1<<29)
-
-
-
-#define MCA_NB_CONFIG	    0x44
-#define   MNC_CpuRdDatErrEn   (1<<1)
-#define   MNC_SyncOnUcEccEn   (1<<2)
-#define   MNC_SynvPktGenDis   (1<<3)
-#define   MNC_SyncPktPropDis  (1<<4)
-#define   MNC_IoMstAbortDis   (1<<5)
-#define   MNC_CpuErrDis	      (1<<6)
-#define   MNC_IoErrDis	      (1<<7)
-#define   MNC_WdogTmrDis      (1<<8)
-#define   MNC_WdogTmrCntSel_2_0_SHIFT 9 /* 3 is ar f3x180 */
-#define    MNC_WdogTmrCntSel_2_0_MASK 0x3
-#define   MNC_WdogTmrBaseSel_SHIFT 12
-#define    MNC_WdogTmrBaseSel_MASK 0x3
-#define   MNC_LdtLinkSel_SHIFT 14
-#define    MNC_LdtLinkSel_MASK 0x3
-#define   MNC_GenCrcErrByte0	(1<<16)
-#define   MNC_GenCrcErrByte1	(1<<17)
-#define   MNC_SubLinkSel_SHIFT 18
-#define    MNC_SubLinkSel_MASK 0x3
-#define   MNC_SyncOnWdogEn  (1<<20)
-#define   MNC_SyncOnAnyErrEn (1<<21)
-#define   MNC_DramEccEn       (1<<22)
-#define   MNC_ChipKillEccEn  (1<<23)
-#define   MNC_IoRdDatErrEn (1<<24)
-#define   MNC_DisPciCfgCpuErrRsp (1<<25)
-#define   MNC_CorrMcaExcEn (1<<26)
-#define   MNC_NbMcaToMstCpuEn (1<<27)
-#define   MNC_DisTgtAbtCpuErrRsp (1<<28)
-#define   MNC_DisMstAbtCpuErrRsp (1<<29)
-#define   MNC_SyncOnDramAdrParErrEn (1<<30)
-#define   MNC_NbMcaLogEn (1<<31)
-
-#define MCA_NB_STATUS_LOW 0x48
-#define  MNSL_ErrorCode_SHIFT 0
-#define   MNSL_ErrorCode_MASK 0xffff
-#define  MNSL_ErrorCodeExt_SHIFT 16
-#define   MNSL_ErrorCodeExt_MASK 0x1f
-#define  MNSL_Syndrome_15_8_SHIFT 24
-#define   MNSL_Syndrome_15_8_MASK 0xff
-
-#define MCA_NB_STATUS_HIGH 0x4c
-#define  MNSH_ErrCPU_SHIFT 0
-#define   MNSH_ErrCPU_MASK 0xf
-#define  MNSH_LDTLink_SHIFT 4
-#define   MNSH_LDTLink_MASK 0xf
-#define  MNSH_ErrScrub (1<<8)
-#define  MNSH_SubLink (1<<9)
-#define  MNSH_McaStatusSubCache_SHIFT 10
-#define   MNSH_McaStatusSubCache_MASK 0x3
-#define  MNSH_Deffered (1<<12)
-#define  MNSH_UnCorrECC (1<<13)
-#define  MNSH_CorrECC (1<<14)
-#define  MNSH_Syndrome_7_0_SHIFT 15
-#define   MNSH_Syndrome_7_0_MASK 0xff
-#define  MNSH_PCC (1<<25)
-#define  MNSH_ErrAddrVal (1<<26)
-#define  MNSH_ErrMiscVal (1<<27)
-#define  MNSH_ErrEn  (1<<28)
-#define  MNSH_ErrUnCorr (1<<29)
-#define  MNSH_ErrOver (1<<30)
-#define  MNSH_ErrValid (1<<31)
-
-#define MCA_NB_ADDR_LOW 0x50
-#define  MNAL_ErrAddr_31_1_SHIFT 1
-#define   MNAL_ErrAddr_31_1_MASK 0x7fffffff
-
-#define MCA_NB_ADDR_HIGH 0x54
-#define  MNAL_ErrAddr_47_32_SHIFT 0
-#define   MNAL_ErrAddr_47_32_MASK 0xffff
-
-#define DRAM_SCRUB_RATE_CTRL	   0x58
-#define	  SCRUB_NONE	    0
-#define	  SCRUB_40ns	    1
-#define	  SCRUB_80ns	    2
-#define	  SCRUB_160ns	    3
-#define	  SCRUB_320ns	    4
-#define	  SCRUB_640ns	    5
-#define	  SCRUB_1_28us	    6
-#define	  SCRUB_2_56us	    7
-#define	  SCRUB_5_12us	    8
-#define	  SCRUB_10_2us	    9
-#define	  SCRUB_20_5us	   0xa
-#define	  SCRUB_41_0us	   0xb
-#define	  SCRUB_81_9us	   0xc
-#define	  SCRUB_163_8us	   0xd
-#define	  SCRUB_327_7us	   0xe
-#define	  SCRUB_655_4us	   0xf
-#define	  SCRUB_1_31ms	   0x10
-#define	  SCRUB_2_62ms	   0x11
-#define	  SCRUB_5_24ms	   0x12
-#define	  SCRUB_10_49ms	   0x13
-#define	  SCRUB_20_97ms	   0x14
-#define	  SCRUB_42ms	   0x15
-#define	  SCRUB_84ms	   0x16
-#define	 DSRC_DramScrub_SHFIT  0
-#define	  DSRC_DramScrub_MASK	0x1f
-#define	 DSRC_L2Scrub_SHIFT	   8
-#define	  DSRC_L2Scrub_MASK	   0x1f
-#define	 DSRC_DcacheScrub_SHIFT	  16
-#define	  DSRC_DcacheScrub_MASK	   0x1f
-#define	 DSRC_L3Scrub_SHIFT	   24
-#define	  DSRC_L3Scrub_MASK	   0x1f
-
-#define DRAM_SCRUB_ADDR_LOW	   0x5C
-#define  DSAL_ScrubReDirEn (1<<0)
-#define  DSAL_ScrubAddrLo_SHIFT 6
-#define   DSAL_ScrubAddrLo_MASK 0x3ffffff
-
-#define DRAM_SCRUB_ADDR_HIGH	   0x60
-#define  DSAH_ScrubAddrHi_SHIFT 0
-#define   DSAH_ScrubAddrHi_MASK 0xffff
-
-#define HW_THERMAL_CTRL 0x64
-
-#define SW_THERMAL_CTRL 0x68
-
-#define DATA_BUF_CNT 0x6c
-
-#define SRI_XBAR_CMD_BUF_CNT 0x70
-
-#define XBAR_SRI_CMD_BUF_CNT 0x74
-
-#define MCT_XBAR_CMD_BUF_CNT 0x78
-
-#define ACPI_PWR_STATE_CTRL 0x80 /* till 0x84 */
-
-#define NB_CONFIG_LOW 0x88
-#define NB_CONFIG_HIGH 0x8c
-
-#define GART_APERTURE_CTRL 0x90
-
-#define GART_APERTURE_BASE 0x94
-
-#define GART_TBL_BASE 0x98
-
-#define GART_CACHE_CTRL 0x9c
-
-#define PWR_CTRL_MISC 0xa0
-
-#define RPT_TEMP_CTRL 0xa4
-
-#define ON_LINE_SPARE_CTRL 0xb0
-
-#define SBI_P_STATE_LIMIT 0xc4
-
-#define CLK_PWR_TIMING_CTRL0 0xd4
-#define CLK_PWR_TIMING_CTRL1 0xd8
-#define CLK_PWR_TIMING_CTRL2 0xdc
-
-#define THERMTRIP_STATUS 0xE4
-
-
-#define NORTHBRIDGE_CAP	   0xE8
-#define	 NBCAP_TwoChanDRAMcap	      (1 << 0)
-#define	 NBCAP_DualNodeMPcap	      (1 << 1)
-#define	 NBCAP_EightNodeMPcap	      (1 << 2)
-#define	 NBCAP_ECCcap	      (1 << 3)
-#define	 NBCAP_ChipkillECCcap	(1 << 4)
-#define	 NBCAP_DdrMaxRate_SHIFT	  5
-#define	 NBCAP_DdrMaxRate_MASK	  7
-#define	  NBCAP_DdrMaxRate_400	7
-#define	  NBCAP_DdrMaxRate_533	6
-#define	  NBCAP_DdrMaxRate_667	5
-#define	  NBCAP_DdrMaxRate_800	4
-#define	  NBCAP_DdrMaxRate_1067 3
-#define	  NBCAP_DdrMaxRate_1333 2
-#define	  NBCAP_DdrMaxRate_1600 1
-#define	  NBCAP_DdrMaxRate_3_2G	 6
-#define	  NBCAP_DdrMaxRate_4_0G	 5
-#define	  NBCAP_DdrMaxRate_4_8G	 4
-#define	  NBCAP_DdrMaxRate_6_4G 3
-#define	  NBCAP_DdrMaxRate_8_0G 2
-#define	  NBCAP_DdrMaxRate_9_6G 1
-#define	 NBCAP_Mem_ctrl_cap	      (1 << 8)
-#define  MBCAP_SVMCap	     (1<<9)
-#define  NBCAP_HtcCap		(1<<10)
-#define  NBCAP_CmpCap_SHIFT	12
-#define  NBCAP_CmpCap_MASK	3
-#define  NBCAP_MpCap_SHIFT 16
-#define  NBCAP_MpCap_MASK 7
-#define   NBCAP_MpCap_1N 7
-#define   NBCAP_MpCap_2N 6
-#define   NBCAP_MpCap_4N 5
-#define   NBCAP_MpCap_8N 4
-#define   NBCAP_MpCap_32N 0
-#define  NBCAP_UnGangEn_SHIFT 20
-#define   NBCAP_UnGangEn_MASK 0xf
-#define  NBCAP_L3Cap (1<<25)
-#define  NBCAP_HtAcCap (1<<26)
-
-/* 04/04/2006 18:00 */
-
-#define EXT_NB_MCA_CTRL	0x180
-
-#define NB_EXT_CONF	0x188
-#define DOWNCORE_CTRL	0x190
-#define  DWNCC_DisCore_SHIFT 0
-#define	 DWNCC_DisCore_MASK 0xf
-
-/* Function 5 for FBDIMM */
-#define FBD_DRAM_TIMING_LOW
-
-#define LinkConnected	   (1 << 0)
-#define InitComplete	   (1 << 1)
-#define NonCoherent	   (1 << 2)
-#define ConnectionPending (1 << 4)
-
-
-#include "amdfam10_nums.h"
-
-#ifdef __PRE_RAM__
-#if NODE_NUMS==64
-	 #define NODE_PCI(x, fn) ((x<32)?(PCI_DEV(CONFIG_CBB,(CONFIG_CDB+x),fn)):(PCI_DEV((CONFIG_CBB-1),(CONFIG_CDB+x-32),fn)))
-#else
-	 #define NODE_PCI(x, fn) PCI_DEV(CONFIG_CBB,(CONFIG_CDB+x),fn)
-#endif
-#endif
-
-#include "raminit.h"
-
-#if CONFIG_AMDMCT == 0
-
-//struct definitions
-
-struct dimm_size {
-	u8 per_rank; // it is rows + col + bank_lines + data lines */
-	u8 rows;
-	u8 col;
-	u8 bank; //1, 2, 3 mean 2, 4, 8
-	u8 rank;
-} __attribute__((packed));
-
-struct mem_info { // pernode
-	u32 dimm_mask;
-	struct dimm_size sz[DIMM_SOCKETS*2]; // for ungang support
-	u32 x4_mask;
-	u32 x16_mask;
-	u32 single_rank_mask;
-	u32 page_1k_mask;
-//	  u32 ecc_mask;
-//	  u32 registered_mask;
-	u8 is_opteron;
-	u8 is_registered; //don't support mixing on the same channel or between channel
-	u8 is_ecc; //don't support mixing on the same channel or between channel
-	u8 is_Width128;
-	u8 memclk_set; // we need to use this to retrieve the mem param, all dimms need to work at same freq for one node
-	u8 is_cs_interleaved[2]; //cs
-	u8 rsv[1];
-} __attribute__((packed));
-#else
- #if (CONFIG_DIMM_SUPPORT & 0x000F)==0x0005 /* AMD_FAM10_DDR3 */
-  #include "../amdmct/mct_ddr3/mct_d.h"
- #else
-  #include "../amdmct/mct/mct_d.h"
- #endif
-#endif
-
-struct link_pair_t {
-	device_t udev;
-	u32 upos;
-	u32 uoffs;
-	device_t dev;
-	u32 pos;
-	u32 offs;
-	u8 host;
-	u8 nodeid;
-	u8 linkn;
-	u8 rsv;
-} __attribute__((packed));
-
-struct nodes_info_t {
-	u32 nodes_in_group; // could be 2, 3, 4, 5, 6, 7, 8
-	u32 groups_in_plane; // could be 1, 2, 3, 4, 5
-	u32 planes; // could be 1, 2
-	u32 up_planes; // down planes will be [up_planes, planes)
-} __attribute__((packed));
-
-/* be careful with the alignment of sysinfo, bacause sysinfo may be shared by coreboot_car and coreboot_ram stage. and coreboot_ram may be running at 64bit later.*/
-#if CONFIG_AMDMCT == 0
-
-//#define MEM_CS_COPY 1
-#define MEM_CS_COPY NODE_NUMS
-
-#if CONFIG_MEM_TRAIN_SEQ == 0
-	#define DQS_DELAY_COPY NODE_NUMS
-#else
-//	#define DQS_DELAY_COPY 1
-	#define DQS_DELAY_COPY NODE_NUMS
-#endif
-#endif
-
-
-struct sys_info {
-	int32_t needs_reset;
-
-	u8 ln[NODE_NUMS*NODE_NUMS];// [0, 3] link n, [4, 7] will be hop num
-	u16 ln_tn[NODE_NUMS*8]; // for 0x0zzz: bit [0,7] target node num, bit[8,11] respone link from target num; 0x80ff mean not inited, 0x4yyy mean non coherent and yyy is link pair index
-	struct nodes_info_t nodes_info;
-	u32 nodes;
-
-	u8 host_link_freq[NODE_NUMS*8]; // record freq for every link from cpu, 0x0f means don't need to touch it
-	u16 host_link_freq_cap[NODE_NUMS*8]; //cap
-
-	u32 segbit;
-	u32 sbdn;
-	u32 sblk;
-	u32 sbbusn;
-
-	u32 ht_c_num;
-	u32 ht_c_conf_bus[HC_NUMS]; // 4-->32
-
-	struct link_pair_t link_pair[HC_NUMS*4];// enough? only in_conherent, 32 chain and every chain have 4 HT device
-	u32 link_pair_num;
-
-	struct mem_controller ctrl[NODE_NUMS];
-
-#if CONFIG_AMDMCT
-//	sMCTStruct MCTData;
-//	sDCTStruct *DCTNodeData[NODE_NUMS];
-//	sDCTStruct DCTNodeData_a[NODE_NUMS];
-	struct MCTStatStruc MCTstat;
-	struct DCTStatStruc DCTstatA[NODE_NUMS];
-#else
-
-	u8 ctrl_present[NODE_NUMS];
-	struct mem_info meminfo[NODE_NUMS];
-	u8 mem_trained[NODE_NUMS]; //0: no dimm, 1: trained, 0x80: not started, 0x81: recv1 fail, 0x82: Pos Fail, 0x83:recv2 fail
-	u32 tom_m;
-	u32 tom2_m;
-
-	//if we are getting tight of global space, may need to squesh following to one copy
-	u32 mem_base[MEM_CS_COPY][2]; // two dct
-	u32 cs_base[MEM_CS_COPY][2][8]; //8 cs_idx
-	u32 hole_startk; // 0 mean hole
-
-	u8 dqs_delay_a[DQS_DELAY_COPY*2*4*2*9]; //8 node, channel 2, dimm 4, direction 2 , bytelane *9
-	u8 dqs_rcvr_dly_a[DQS_DELAY_COPY*2*4*9]; //8 node, channel 2, dimm 4, bytelane *9
-	u8 dqs_rcvr_dly_a_1[9]; //8 node, channel 2, dimm 4, bytelane *9
-#endif
-
-} __attribute__((packed));
-
-#ifndef __PRE_RAM__
-device_t get_node_pci(u32 nodeid, u32 fn);
-#endif
-
-#if CONFIG_AMDMCT == 0
-
-#ifdef __PRE_RAM__
-static void soft_reset(void);
-#endif
-static void wait_all_core0_mem_trained(struct sys_info *sysinfo)
-{
-	int i;
-	u32 mask_lo = 0;
-	u32 mask_hi = 0;
-	unsigned needs_reset = 0;
-
-	if(sysinfo->nodes == 1) return; // in case only one cpu installed
-		for(i=1; i<sysinfo->nodes; i++) {
-			/* Skip everything if I don't have any memory on this controller */
-			if(sysinfo->mem_trained[i]==0x00) continue;
-
-			if(i<32) {
-				mask_lo |= (1<<i);
-			} else {
-				mask_hi |= (1<<(i-32));
-			}
-	}
-
-	i = 1;
-	while(1) {
-		if(i<32) {
-			if(mask_lo & (1<<i)) {
-				if(sysinfo->mem_trained[i] != 0x80) {
-					mask_lo &= ~(1<<i);
-				}
-			}
-		} else {
-			if(mask_hi & (1<<(i-32))) {
-				if(sysinfo->mem_trained[i] != 0x80) {
-					 mask_hi &= ~(1<<(i-32));
-				}
-			}
-		}
-
-			if((!mask_lo) && (!mask_hi)) break;
-
-		i++;
-		i%=sysinfo->nodes;
-	}
-
-	for(i=0; i<sysinfo->nodes; i++) {
-#ifdef __PRE_RAM__
-		print_debug("mem_trained["); print_debug_hex8(i); print_debug("]="); print_debug_hex8(sysinfo->mem_trained[i]); print_debug("\n");
-#else
-		printk(BIOS_DEBUG, "mem_trained[%02x]=%02x\n", i, sysinfo->mem_trained[i]);
-#endif
-		switch(sysinfo->mem_trained[i]) {
-		case 0: //don't need train
-		case 1: //trained
-			break;
-		case 0x81: //recv1: fail
-		case 0x82: //Pos :fail
-		case 0x83: //recv2: fail
-			needs_reset = 1;
-			break;
-		}
-	}
-	if(needs_reset) {
-#ifdef __PRE_RAM__
-		print_debug("mem trained failed\n");
-		soft_reset();
-#else
-		printk(BIOS_DEBUG, "mem trained failed\n");
-		hard_reset();
-#endif
-	}
-
-}
-
-#endif
-
-#ifdef __PRE_RAM__
-void showallroutes(int level, device_t dev);
-
-void setup_resource_map_offset(const u32 *register_values, u32 max, u32
-		offset_pci_dev, u32 offset_io_base);
-
-void setup_resource_map_x_offset(const u32 *register_values, u32 max, u32
-		offset_pci_dev, u32 offset_io_base);
-
-void setup_resource_map_x(const u32 *register_values, u32 max);
-
-/* reset_test.c */
-u32 cpu_init_detected(u8 nodeid);
-u32 bios_reset_detected(void);
-u32 cold_reset_detected(void);
-u32 other_reset_detected(void);
-u32 get_sblk(void);
-u8 get_sbbusn(u8 sblk);
-#endif
-
-#endif /* AMDFAM10_H */
+/*

+ * This file is part of the coreboot project.

+ *

+ * 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; 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

+ */

+

+#ifndef AMDFAM10_H

+

+#define AMDFAM10_H

+/* Definitions of various FAM10 registers */

+/* Function 0 */

+#define HT_TRANSACTION_CONTROL 0x68

+#define  HTTC_DIS_RD_B_P		(1 << 0)

+#define  HTTC_DIS_RD_DW_P		(1 << 1)

+#define  HTTC_DIS_WR_B_P		(1 << 2)

+#define  HTTC_DIS_WR_DW_P		(1 << 3)

+#define  HTTC_DIS_MTS			(1 << 4)

+#define  HTTC_CPU1_EN			(1 << 5)

+#define  HTTC_CPU_REQ_PASS_PW		(1 << 6)

+#define  HTTC_CPU_RD_RSP_PASS_PW	(1 << 7)

+#define  HTTC_DIS_P_MEM_C		(1 << 8)

+#define  HTTC_DIS_RMT_MEM_C		(1 << 9)

+#define  HTTC_DIS_FILL_P		(1 << 10)

+#define  HTTC_RSP_PASS_PW		(1 << 11)

+#define  HTTC_BUF_REL_PRI_SHIFT	13

+#define  HTTC_BUF_REL_PRI_MASK		3

+#define   HTTC_BUF_REL_PRI_64		0

+#define   HTTC_BUF_REL_PRI_16		1

+#define   HTTC_BUF_REL_PRI_8		2

+#define   HTTC_BUF_REL_PRI_2		3

+#define  HTTC_LIMIT_CLDT_CFG		(1 << 15)

+#define  HTTC_LINT_EN			(1 << 16)

+#define  HTTC_APIC_EXT_BRD_CST		(1 << 17)

+#define  HTTC_APIC_EXT_ID		(1 << 18)

+#define  HTTC_APIC_EXT_SPUR		(1 << 19)

+#define  HTTC_SEQ_ID_SRC_NODE_EN	(1 << 20)

+#define  HTTC_DS_NP_REQ_LIMIT_SHIFT	21

+#define  HTTC_DS_NP_REQ_LIMIT_MASK	3

+#define   HTTC_DS_NP_REQ_LIMIT_NONE	0

+#define   HTTC_DS_NP_REQ_LIMIT_1	1

+#define   HTTC_DS_NP_REQ_LIMIT_4	2

+#define   HTTC_DS_NP_REQ_LIMIT_8	3

+

+

+/* Function 1 */

+#define PCI_IO_BASE0	0xc0

+#define PCI_IO_BASE1	0xc8

+#define PCI_IO_BASE2	0xd0

+#define PCI_IO_BASE3	0xd8

+#define PCI_IO_BASE_VGA_EN	(1 << 4)

+#define PCI_IO_BASE_NO_ISA	(1 << 5)

+

+/* Function 2 */

+// 0x1xx is for DCT1

+#define DRAM_CSBASE	0x40

+#define DRAM_CSMASK	0x60

+#define DRAM_BANK_ADDR_MAP 0x80

+

+#define DRAM_CTRL	0x78

+#define  DC_RdPtrInit_SHIFT 0

+#define  DC_RdPrtInit_MASK  0xf

+#define  DC_Twrrd3_2_SHIFT 8  /*DDR3 */

+#define  DC_Twrrd3_2_MASK 3

+#define  DC_Twrwr3_2_SHIFT 10 /*DDR3 */

+#define  DC_Twrwr3_2_MASK 3

+#define  DC_Trdrd3_2_SHIFT 12 /*DDR3 */

+#define  DC_Trdrd3_2_MASK 3

+#define  DC_AltVidC3MemClkTriEn (1<<16)

+#define  DC_DqsRcvEnTrain (1<<18)

+#define  DC_MaxRdLatency_SHIFT 22

+#define  DC_MaxRdLatency_MASK 0x3ff

+

+#define DRAM_INIT	0x7c

+#define  DI_MrsAddress_SHIFT 0

+#define  DI_MrsAddress_MASK 0xffff

+#define  DI_MrsBank_SHIFT 16

+#define  DI_MrsBank_MASK 7

+#define  DI_MrsChipSel_SHIFT 20

+#define  DI_MrsChipSel_MASK 7

+#define  DI_SendRchgAll (1<<24)

+#define  DI_SendAutoRefresh (1<<25)

+#define  DI_SendMrsCmd	  (1<<26)

+#define  DI_DeassertMemRstX (1<<27)

+#define  DI_AssertCke	 (1<<28)

+#define  DI_SendZQCmd	(1<<29) /*DDR3 */

+#define  DI_EnMrsCmd	(1<<30)

+#define  DI_EnDramInit	 (1<<31)

+

+#define DRAM_MRS	0x84

+#define  DM_BurstCtrl_SHIFT 0

+#define  DM_BurstCtrl_MASK 3

+#define  DM_DrvImpCtrl_SHIFT 2 /* DDR3 */

+#define  DM_DrvImpCtrl_MASK 3

+#define  DM_Twr_SHIFT 4 /* DDR3 */

+#define  DM_Twr_MASK 7

+#define  DM_Twr_BASE 4

+#define  DM_Twr_MIN  5

+#define  DM_Twr_MAX  12

+#define  DM_DramTerm_SHIFT 7 /*DDR3 */

+#define  DM_DramTerm_MASK 7

+#define  DM_DramTermDyn_SHIFT 10 /* DDR3 */

+#define  DM_DramTermDyn_MASK 3

+#define  DM_Ooff (1<<13)

+#define  DM_ASR (1<<18)

+#define  DM_SRT (1<<19)

+#define  DM_Tcwl_SHIFT 20

+#define  DM_Tcwl_MASK 7

+#define  DM_PchgPDModeSel (1<<23) /* DDR3 */

+#define  DM_MPrLoc_SHIFT 24 /* DDR3 */

+#define  DM_MPrLoc_MASK 3

+#define  DM_MprEn (1<<26) /* DDR3 */

+

+#define DRAM_TIMING_LOW	   0x88

+#define	 DTL_TCL_SHIFT	   0

+#define	 DTL_TCL_MASK	   0xf

+#define	  DTL_TCL_BASE	   1 /* DDR3 =4 */

+#define	  DTL_TCL_MIN	   3 /* DDR3 =4 */

+#define	  DTL_TCL_MAX	   6 /* DDR3 =12 */

+#define	 DTL_TRCD_SHIFT	   4

+#define	 DTL_TRCD_MASK	   3 /* DDR3 =7 */

+#define	  DTL_TRCD_BASE	   3 /* DDR3 =5 */

+#define	  DTL_TRCD_MIN	   3 /* DDR3 =5 */

+#define   DTL_TRCD_MAX	    6 /* DDR3 =12 */

+#define	 DTL_TRP_SHIFT	   8 /* DDR3 =7 */

+#define	 DTL_TRP_MASK	   3 /* DDR3 =7 */

+#define	  DTL_TRP_BASE	   3 /* DDR3 =5 */

+#define	  DTL_TRP_MIN	   3 /* DDR3 =5 */

+#define   DTL_TRP_MAX	    6 /* DDR3 =12 */

+#define	 DTL_TRTP_SHIFT	   11 /*DDR3 =10 */

+#define	 DTL_TRTP_MASK	   1  /*DDR3 =3 */

+#define	  DTL_TRTP_BASE	   2  /* DDR3 =4 */

+#define	  DTL_TRTP_MIN	   2  /* 4 for 64 bytes*/  /* DDR3 =4 for 32bytes or 64bytes */

+#define   DTL_TRTP_MAX	    3  /* 5 for 64 bytes */ /* DDR3 =7 for 32Bytes or 64bytes */

+#define	 DTL_TRAS_SHIFT	   12

+#define	 DTL_TRAS_MASK	   0xf

+#define	  DTL_TRAS_BASE	   3 /* DDR3 =15 */

+#define	  DTL_TRAS_MIN	   5 /* DDR3 =15 */

+#define	  DTL_TRAS_MAX	   18 /*DDR3 =30 */

+#define	 DTL_TRC_SHIFT	   16

+#define	 DTL_TRC_MASK	   0xf /* DDR3 =0x1f */

+#define	  DTL_TRC_BASE	   11

+#define	  DTL_TRC_MIN	   11

+#define	  DTL_TRC_MAX	   26  /* DDR3 =43 */

+#define	 DTL_TWR_SHIFT	   20 /* only for DDR2, DDR3's is on DC */

+#define	 DTL_TWR_MASK	   3

+#define	  DTL_TWR_BASE	   3

+#define	  DTL_TWR_MIN	   3

+#define	  DTL_TWR_MAX	   6

+#define  DTL_TRRD_SHIFT    22

+#define   DTL_TRRD_MASK    3

+#define   DTL_TRRD_BASE    2 /* DDR3 =4 */

+#define   DTL_TRRD_MIN	   2 /* DDR3 =4 */

+#define   DTL_TRRD_MAX	    5 /* DDR3 =7 */

+#define  DTL_MemClkDis_SHIFT 24    /* Channel A */

+#define  DTL_MemClkDis3       (1 << 26)

+#define  DTL_MemClkDis2       (1 << 27)

+#define  DTL_MemClkDis1       (1 << 28)

+#define  DTL_MemClkDis0       (1 << 29)

+/* DTL_MemClkDis for m2 and s1g1 is different */

+

+#define DRAM_TIMING_HIGH   0x8c

+#define  DTH_TRWTWB_SHIFT 0

+#define  DTH_TRWTWB_MASK 3

+#define   DTH_TRWTWB_BASE 3  /* DDR3 =4 */

+#define   DTH_TRWTWB_MIN  3  /* DDR3 =5 */

+#define   DTH_TRWTWB_MAX  10 /* DDR3 =11 */

+#define  DTH_TRWTTO_SHIFT  4

+#define  DTH_TRWTTO_MASK   7

+#define   DTH_TRWTTO_BASE   2 /* DDR3 =3 */

+#define   DTH_TRWTTO_MIN    2 /* DDR3 =3 */

+#define   DTH_TRWTTO_MAX    9 /* DDR3 =10 */

+#define	 DTH_TWTR_SHIFT	   8

+#define	 DTH_TWTR_MASK	   3

+#define	  DTH_TWTR_BASE	   0  /* DDR3 =4 */

+#define	  DTH_TWTR_MIN	   1  /* DDR3 =4 */

+#define	  DTH_TWTR_MAX	   3  /* DDR3 =7 */

+#define	 DTH_TWRRD_SHIFT   10

+#define	 DTH_TWRRD_MASK	   3	/* For DDR3 3_2 is at 0x78 DC */

+#define	  DTH_TWRRD_BASE   0  /* DDR3 =0 */

+#define	  DTH_TWRRD_MIN	   0  /* DDR3 =2 */

+#define	  DTH_TWRRD_MAX	   3  /* DDR3 =12 */

+#define  DTH_TWRWR_SHIFT   12

+#define  DTH_TWRWR_MASK    3	/* For DDR3 3_2 is at 0x78 DC */

+#define   DTH_TWRWR_BASE   1

+#define   DTH_TWRWR_MIN    1	/* DDR3 =3 */

+#define   DTH_TWRWR_MAX    3	/* DDR3 =12 */

+#define  DTH_TRDRD_SHIFT   14

+#define  DTH_TRDRD_MASK    3  /* For DDR3 3_2 is at 0x78 DC */

+#define   DTH_TRDRD_BASE   2

+#define   DTH_TRDRD_MIN    2

+#define   DTH_TRDRD_MAX    5	/* DDR3 =10 */

+#define	 DTH_TREF_SHIFT	   16

+#define	 DTH_TREF_MASK	   3

+#define	  DTH_TREF_7_8_US  2

+#define	  DTH_TREF_3_9_US  3

+#define  DTH_DisAutoRefresh (1<<18)

+#define  DTH_TRFC0_SHIFT   20 /* for Logical DIMM0 */

+#define  DTH_TRFC_MASK	     7

+#define	  DTH_TRFC_75_256M   0

+#define	  DTH_TRFC_105_512M  1

+#define   DTH_TRFC_127_5_1G  2

+#define   DTH_TRFC_195_2G    3

+#define   DTH_TRFC_327_5_4G  4

+#if 0

+//DDR3

+#define   DTH_TRFC_90_512M   1

+#define   DTH_TRFC_110_5_1G  2

+#define   DTH_TRFC_160_2G    3

+#define   DTH_TRFC_300_4G    4

+#define   DTH_TRFC_UNDEFINED_8G   5

+#endif

+#define  DTH_TRFC1_SHIFT   23 /*for Logical DIMM1 */

+#define  DTH_TRFC2_SHIFT   26 /*for Logical DIMM2 */

+#define  DTH_TRFC3_SHIFT   29 /*for Logical DIMM3 */

+

+#define DRAM_CONFIG_LOW	   0x90

+#define	 DCL_InitDram	   (1<<0)

+#define	 DCL_ExitSelfRef   (1<<1)

+#define  DCL_PllLockTime_SHIFT 2

+#define  DCL_PllLockTime_MASK 3

+#define   DCL_PllLockTime_15US 0

+#define   DCL_PllLockTime_6US 1

+#define  DCL_DramTerm_SHIFT 4

+#define  DCL_DramTerm_MASK  3

+#define   DCL_DramTerm_No   0

+#define   DCL_DramTerm_75_OH 1

+#define   DCL_DramTerm_150_OH 2

+#define   DCL_DramTerm_50_OH 3

+#define  DCL_DisDqsBar	    (1<<6) /* only for DDR2 */

+#define  DCL_DramDrvWeak   (1<<7) /* only for DDR2 */

+#define  DCL_ParEn	   (1<<8)

+#define  DCL_SelfRefRateEn (1<<9) /* only for DDR2 */

+#define  DCL_BurstLength32 (1<<10) /* only for DDR3 */

+#define  DCL_Width128	   (1<<11)

+#define  DCL_X4Dimm_SHIFT  12

+#define  DCL_X4Dimm_MASK   0xf

+#define  DCL_UnBuffDimm    (1<<16)

+#define  DCL_EnPhyDqsRcvEnTr (1<<18)

+#define	 DCL_DimmEccEn	   (1<<19)

+#define  DCL_DynPageCloseEn (1<<20)

+#define  DCL_IdleCycInit_SHIFT 21

+#define  DCL_IdleCycInit_MASK	3

+#define   DCL_IdleCycInit_16CLK 0

+#define   DCL_IdleCycInit_32CLK 1

+#define   DCL_IdleCycInit_64CLK 2

+#define   DCL_IdleCycInit_96CLK 3

+#define  DCL_ForceAutoPchg   (1<<23)

+

+#define DRAM_CONFIG_HIGH   0x94

+#define  DCH_MemClkFreq_SHIFT 0

+#define  DCH_MemClkFreq_MASK  7

+#define   DCH_MemClkFreq_200MHz 0  /* DDR2 */

+#define   DCH_MemClkFreq_266MHz 1  /* DDR2 */

+#define   DCH_MemClkFreq_333MHz 2  /* DDR2 */

+#define	  DCH_MemClkFreq_400MHz 3  /* DDR2 and DDR 3*/

+#define	  DCH_MemClkFreq_533MHz 4  /* DDR 3 */

+#define	  DCH_MemClkFreq_667MHz 5  /* DDR 3 */

+#define	  DCH_MemClkFreq_800MHz 6  /* DDR 3 */

+#define  DCH_MemClkFreqVal	(1<<3)

+#define  DCH_Ddr3Mode		(1<<8)

+#define  DCH_LegacyBiosMode	(1<<9)

+#define  DCH_ZqcsInterval_SHIFT 10

+#define  DCH_ZqcsInterval_MASK	3

+#define  DCH_ZqcsInterval_DIS	0

+#define  DCH_ZqcsInterval_64MS	 1

+#define  DCH_ZqcsInterval_128MS  2

+#define  DCH_ZqcsInterval_256MS  3

+#define  DCH_RDqsEn	      (1<<12) /* only for DDR2 */

+#define  DCH_DisSimulRdWr	(1<<13)

+#define  DCH_DisDramInterface (1<<14)

+#define  DCH_PowerDownEn      (1<<15)

+#define  DCH_PowerDownMode_SHIFT 16

+#define  DCH_PowerDownMode_MASK 1

+#define   DCH_PowerDownMode_Channel_CKE 0

+#define   DCH_PowerDownMode_ChipSelect_CKE 1

+#define  DCH_FourRankSODimm	(1<<17)

+#define  DCH_FourRankRDimm	(1<<18)

+#define  DCH_SlowAccessMode	(1<<20)

+#define  DCH_BankSwizzleMode	 (1<<22)

+#define  DCH_DcqBypassMax_SHIFT 24

+#define  DCH_DcqBypassMax_MASK	 0xf

+#define   DCH_DcqBypassMax_BASE 0

+#define   DCH_DcqBypassMax_MIN	 0

+#define   DCH_DcqBypassMax_MAX	 15

+#define  DCH_FourActWindow_SHIFT 28

+#define  DCH_FourActWindow_MASK 0xf

+#define   DCH_FourActWindow_BASE 7 /* DDR3 15 */

+#define   DCH_FourActWindow_MIN 8  /* DDR3 16 */

+#define   DCH_FourActWindow_MAX 20 /* DDR3 30 */

+

+

+// for 0x98 index and 0x9c data for DCT0

+// for 0x198 index and 0x19c data for DCT1

+// even at ganged mode, 0x198/0x19c will be used for channnel B

+

+#define DRAM_CTRL_ADDI_DATA_OFFSET	0x98

+#define  DCAO_DctOffset_SHIFT	0

+#define  DCAO_DctOffset_MASK	0x3fffffff

+#define  DCAO_DctAccessWrite	(1<<30)

+#define  DCAO_DctAccessDone	(1<<31)

+

+#define DRAM_CTRL_ADDI_DATA_PORT	 0x9c

+

+#define DRAM_OUTPUT_DRV_COMP_CTRL	0x00

+#define  DODCC_CkeDrvStren_SHIFT 0

+#define  DODCC_CkeDrvStren_MASK  3

+#define   DODCC_CkeDrvStren_1_0X  0

+#define   DODCC_CkeDrvStren_1_25X 1

+#define   DODCC_CkeDrvStren_1_5X  2

+#define   DODCC_CkeDrvStren_2_0X  3

+#define  DODCC_CsOdtDrvStren_SHIFT 4

+#define  DODCC_CsOdtDrvStren_MASK  3

+#define   DODCC_CsOdtDrvStren_1_0X  0

+#define   DODCC_CsOdtDrvStren_1_25X 1

+#define   DODCC_CsOdtDrvStren_1_5X  2

+#define   DODCC_CsOdtDrvStren_2_0X  3

+#define  DODCC_AddrCmdDrvStren_SHIFT 8

+#define  DODCC_AddrCmdDrvStren_MASK  3

+#define   DODCC_AddrCmdDrvStren_1_0X  0

+#define   DODCC_AddrCmdDrvStren_1_25X 1

+#define   DODCC_AddrCmdDrvStren_1_5X  2

+#define   DODCC_AddrCmdDrvStren_2_0X  3

+#define  DODCC_ClkDrvStren_SHIFT 12

+#define  DODCC_ClkDrvStren_MASK  3

+#define   DODCC_ClkDrvStren_0_75X  0

+#define   DODCC_ClkDrvStren_1_0X 1

+#define   DODCC_ClkDrvStren_1_25X  2

+#define   DODCC_ClkDrvStren_1_5X  3

+#define  DODCC_DataDrvStren_SHIFT 16

+#define  DODCC_DataDrvStren_MASK  3

+#define   DODCC_DataDrvStren_0_75X  0

+#define   DODCC_DataDrvStren_1_0X 1

+#define   DODCC_DataDrvStren_1_25X  2

+#define   DODCC_DataDrvStren_1_5X  3

+#define  DODCC_DqsDrvStren_SHIFT 20

+#define  DODCC_DqsDrvStren_MASK  3

+#define   DODCC_DqsDrvStren_0_75X  0

+#define   DODCC_DqsDrvStren_1_0X 1

+#define   DODCC_DqsDrvStren_1_25X  2

+#define   DODCC_DqsDrvStren_1_5X  3

+#define  DODCC_ProcOdt_SHIFT 28

+#define  DODCC_ProcOdt_MASK  3

+#define   DODCC_ProcOdt_300_OHMS  0

+#define   DODCC_ProcOdt_150_OHMS 1

+#define   DODCC_ProcOdt_75_OHMS  2

+#if 0

+//DDR3

+#define   DODCC_ProcOdt_240_OHMS  0

+#define   DODCC_ProcOdt_120_OHMS 1

+#define   DODCC_ProcOdt_60_OHMS  2

+#endif

+

+/*

+   for DDR2 400, 533, 667, F2x[1,0]9C_x[02:01], [03], [06:05], [07] controll timing of all DIMMs

+   for DDR2 800, DDR3 800, 1067, 1333, 1600, F2x[1,0]9C_x[02:01], [03], [06:05], [07] controll timing of DIMM0

+					     F2x[1,0]9C_x[102:101], [103], [106:105], [107] controll timing of DIMM1

+	So Socket F with Four Logical DIMM will only support DDR2 800  ?

+*/

+/* there are index	   +100	   ===> for DIMM1

+that are corresponding to 0x01, 0x02, 0x03, 0x05, 0x06, 0x07

+*/

+//02/15/2006 18:37

+#define DRAM_WRITE_DATA_TIMING_CTRL_LOW 0x01

+#define  DWDTC_WrDatFineDlyByte0_SHIFT 0

+#define  DWDTC_WrDatFineDlyByte_MASK  0x1f

+#define   DWDTC_WrDatFineDlyByte_BASE 0

+#define   DWDTC_WrDatFineDlyByte_MIN  0

+#define   DWDTC_WrDatFineDlyByte_MAX  31 // 1/64 MEMCLK

+#define  DWDTC_WrDatGrossDlyByte0_SHIFT 5

+#define  DWDTC_WrDatGrossDlyByte_MASK	0x3

+#define   DWDTC_WrDatGrossDlyByte_NO_DELAY 0

+#define   DWDTC_WrDatGrossDlyByte_0_5_	 1

+#define   DWDTC_WrDatGrossDlyByte_1  2

+#define  DWDTC_WrDatFineDlyByte1_SHIFT 8

+#define  DWDTC_WrDatGrossDlyByte1_SHIFT 13

+#define  DWDTC_WrDatFineDlyByte2_SHIFT 16

+#define  DWDTC_WrDatGrossDlyByte2_SHIFT 21

+#define  DWDTC_WrDatFineDlyByte3_SHIFT 24

+#define  DWDTC_WrDatGrossDlyByte3_SHIFT 29

+

+#define DRAM_WRITE_DATA_TIMING_CTRL_HIGH 0x02

+#define  DWDTC_WrDatFineDlyByte4_SHIFT 0

+#define  DWDTC_WrDatGrossDlyByte4_SHIFT 5

+#define  DWDTC_WrDatFineDlyByte5_SHIFT 8

+#define  DWDTC_WrDatGrossDlyByte5_SHIFT 13

+#define  DWDTC_WrDatFineDlyByte6_SHIFT 16

+#define  DWDTC_WrDatGrossDlyByte6_SHIFT 21

+#define  DWDTC_WrDatFineDlyByte7_SHIFT 24

+#define  DWDTC_WrDatGrossDlyByte7_SHIFT 29

+

+#define DRAM_WRITE_ECC_TIMING_CTRL 0x03

+#define  DWETC_WrChkFinDly_SHIFT 0

+#define  DWETC_WrChkGrossDly_SHIFT 5

+

+#define DRAM_ADDR_CMD_TIMING_CTRL 0x04

+#define  DACTC_CkeFineDelay_SHIFT 0

+#define  DACTC_CkeFineDelay_MASK  0x1f

+#define   DACTC_CkeFineDelay_BASE 0

+#define   DACTC_CkeFineDelay_MIN  0

+#define   DACTC_CkeFineDelay_MAX 31

+#define  DACTC_CkeSetup	(1<<5)

+#define  DACTC_CsOdtFineDelay_SHIFT 8

+#define  DACTC_CsOdtFineDelay_MASK  0x1f

+#define   DACTC_CsOdtFineDelay_BASE 0

+#define   DACTC_CsOdtFineDelay_MIN  0

+#define   DACTC_CsOdtFineDelay_MAX 31

+#define  DACTC_CsOdtSetup   (1<<13)

+#define  DACTC_AddrCmdFineDelay_SHIFT 16

+#define  DACTC_AddrCmdFineDelay_MASK  0x1f

+#define   DACTC_AddrCmdFineDelay_BASE 0

+#define   DACTC_AddrCmdFineDelay_MIN  0

+#define   DACTC_AddrCmdFineDelay_MAX 31

+#define  DACTC_AddrCmdSetup   (1<<21)

+

+#define DRAM_READ_DQS_TIMING_CTRL_LOW 0x05

+#define  DRDTC_RdDqsTimeByte0_SHIFT 0

+#define  DRDTC_RdDqsTimeByte_MASK  0x3f

+#define   DRDTC_RdDqsTimeByte_BASE 0

+#define   DRDTC_RdDqsTimeByte_MIN  0

+#define   DRDTC_RdDqsTimeByte_MAX  63 // 1/128 MEMCLK

+#define  DRDTC_RdDqsTimeByte1_SHIFT 8

+#define  DRDTC_RdDqsTimeByte2_SHIFT 16

+#define  DRDTC_RdDqsTimeByte3_SHIFT 24

+

+#define DRAM_READ_DQS_TIMING_CTRL_HIGH 0x06

+#define  DRDTC_RdDqsTimeByte4_SHIFT 0

+#define  DRDTC_RdDqsTimeByte5_SHIFT 8

+#define  DRDTC_RdDqsTimeByte6_SHIFT 16

+#define  DRDTC_RdDqsTimeByte7_SHIFT 24

+

+#define DRAM_READ_DQS_ECC_TIMING_CTRL 0x07

+#define  DRDETC_RdDqsTimeCheck_SHIFT 0

+

+#define DRAM_PHY_CTRL 0x08

+#define  DPC_WrtLvTrEn	(1<<0)

+#define  DPC_WrtLvTrMode (1<<1)

+#define  DPC_TrNibbleSel (1<<2)

+#define  DPC_TrDimmSel_SHIFT 4

+#define   DPC_TrDimmSel_MASK 3 /* 0-->dimm0, 1-->dimm1, 2--->dimm2, 3--->dimm3 */

+#define  DPC_WrLvOdt_SHIFT 8

+#define   DPC_WrLvOdt_MASK 0xf /* bit 0-->odt 0, ...*/

+#define  DPC_WrLvODtEn (1<<12)

+#define  DPC_DqsRcvTrEn (1<<13)

+#define  DPC_DisAutoComp (1<<30)

+#define  DPC_AsyncCompUpdate (1<<31)

+

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_0_0 0x10 //DIMM0 Channel A

+#define  DDRETC_DqsRcvEnFineDelayByte0_SHIFT 0

+#define   DDRETC_DqsRcvEnFineDelayByte0_MASK 0x1f

+#define  DDRETC_DqsRcvEnGrossDelayByte0_SHIFT 5

+#define   DDRETC_DqsRcvEnGrossDelayByte0_MASK 0x3

+#define  DDRETC_DqsRcvEnFineDelayByte1_SHIFT 8

+#define  DDRETC_DqsRcvEnGrossDelayByte1_SHIFT 13

+#define  DDRETC_DqsRcvEnFineDelayByte2_SHIFT 16

+#define  DDRETC_DqsRcvEnGrossDelayByte2_SHIFT 21

+#define  DDRETC_DqsRcvEnFineDelayByte3_SHIFT 24

+#define  DDRETC_DqsRcvEnGrossDelayByte3_SHIFT 29

+

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_0_1 0x11 //DIMM0 Channel A

+#define  DDRETC_DqsRcvEnFineDelayByte4_SHIFT 0

+#define  DDRETC_DqsRcvEnGrossDelayByte4_SHIFT 5

+#define  DDRETC_DqsRcvEnFineDelayByte5_SHIFT 8

+#define  DDRETC_DqsRcvEnGrossDelayByte5_SHIFT 13

+#define  DDRETC_DqsRcvEnFineDelayByte6_SHIFT 16

+#define  DDRETC_DqsRcvEnGrossDelayByte6_SHIFT 21

+#define  DDRETC_DqsRcvEnFineDelayByte7_SHIFT 24

+#define  DDRETC_DqsRcvEnGrossDelayByte7_SHIFT 29

+

+#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_0_0 0x12

+#define  DDRETCE_WrChkFineDlyByte0_SHIFT 0

+#define  DDRETCE_WrChkGrossDlyByte0_SHIFT 5

+

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_0_2 0x20   //DIMM0 channel B

+#define  DDRETC_DqsRcvEnFineDelayByte8_SHIFT 0

+#define  DDRETC_DqsRcvEnGrossDelayByte8_SHIFT 5

+#define  DDRETC_DqsRcvEnFineDelayByte9_SHIFT 8

+#define  DDRETC_DqsRcvEnGrossDelayByte9_SHIFT 13

+#define  DDRETC_DqsRcvEnFineDelayByte10_SHIFT 16

+#define  DDRETC_DqsRcvEnGrossDelayByte10_SHIFT 21

+#define  DDRETC_DqsRcvEnFineDelayByte11_SHIFT 24

+#define  DDRETC_DqsRcvEnGrossDelayByte11_SHIFT 29

+

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_0_3 0x21  // DIMM0 Channel B

+#define  DDRETC_DqsRcvEnFineDelayByte12_SHIFT 0

+#define  DDRETC_DqsRcvEnGrossDelayByte12_SHIFT 5

+#define  DDRETC_DqsRcvEnFineDelayByte13_SHIFT 8

+#define  DDRETC_DqsRcvEnGrossDelayByte13_SHIFT 13

+#define  DDRETC_DqsRcvEnFineDelayByte14_SHIFT 16

+#define  DDRETC_DqsRcvEnGrossDelayByte14_SHIFT 21

+#define  DDRETC_DqsRcvEnFineDelayByte15_SHIFT 24

+#define  DDRETC_DqsRcvEnGrossDelayByte15_SHIFT 29

+

+#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_0_1 0x22

+#define  DDRETCE_WrChkFineDlyByte1_SHIFT 0

+#define  DDRETCE_WrChkGrossDlyByte1_SHIFT 5

+

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_1_0 0x13  //DIMM1

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_1_1 0x14

+#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_1_0 0x15

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_1_2 0x23

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_1_3 0x24

+#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_1_1 0x25

+

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_2_0 0x16   // DIMM2

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_2_1 0x17

+#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_2_0 0x18

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_2_2 0x26

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_2_3 0x27

+#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_2_1 0x28

+

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_3_0 0x19   // DIMM3

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_3_1 0x1a

+#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_3_0 0x1b

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_3_2 0x29

+#define DRAM_DQS_RECV_ENABLE_TIME_CTRL_3_3 0x2a

+#define DRAM_DQS_RECV_ENABLE_TIMING_CTRL_ECC_3_1 0x2b

+

+/* 04.06.2006 19:12 */

+

+#if 0

+//DDR3

+#define DRAM_DQS_WRITE_TIME_CTRL_0_0 0x30 //DIMM0 Channel A

+#define  DDWTC_WrDqsFineDlyByte0_SHIFT 0

+#define   DDWTC_WrDqsFineDlyByte0_MASK 0x1f

+#define  DDWTC_WrDqsGrossDlyByte0_SHIFT 5

+#define   DDWTC_WrDqsGrossDlyByte0_MASK 0x3

+#define  DDWTC_WrDqsFineDlyByte1_SHIFT 8

+#define  DDWTC_WrDqsGrossDlyByte1_SHIFT 13

+#define  DDWTC_WrDqsFineDlyByte2_SHIFT 16

+#define  DDWTC_WrDqsGrossDlyByte2_SHIFT 21

+#define  DDWTC_WrDqsFineDlyByte3_SHIFT 24

+#define  DDWTC_WrDqsGrossDlyByte3_SHIFT 29

+

+#define DRAM_DQS_WRTIE_TIME_CTRL_0_1 0x31 //DIMM0 Channel A

+#define  DDWTC_WrDqsFineDlyByte4_SHIFT 0

+#define  DDWTC_WrDqsGrossDlyByte4_SHIFT 5

+#define  DDWTC_WrDqsFineDlyByte5_SHIFT 8

+#define  DDWTC_WrDqsGrossDlyByte5_SHIFT 13

+#define  DDWTC_WrDqsFineDlyByte6_SHIFT 16

+#define  DDWTC_WrDqsGrossDlyByte6_SHIFT 21

+#define  DDWTC_WrDqsFineDlyByte7_SHIFT 24

+#define  DDWTC_WrDqsGrossDlyByte7_SHIFT 29

+

+#define DRAM_DQS_WRITE_TIMING_CTRL_ECC_0_0 0x32

+#define  DDWTCE_WrDqsChkFineDlyByte0_SHIFT 0

+#define  DDWTCE_WrDqsChkGrossDlyByte0_SHIFT 5

+

+#define DRAM_DQS_WRITE_TIME_CTRL_0_2 0x40 //DIMM0 Channel B

+#define  DDWTC_WrDqsFineDlyByte8_SHIFT 0

+#define  DDWTC_WrDqsGrossDlyByte8_SHIFT 5

+#define  DDWTC_WrDqsFineDlyByte9_SHIFT 8

+#define  DDWTC_WrDqsGrossDlyByte9_SHIFT 13

+#define  DDWTC_WrDqsFineDlyByte10_SHIFT 16

+#define  DDWTC_WrDqsGrossDlyByte10_SHIFT 21

+#define  DDWTC_WrDqsFineDlyByte11_SHIFT 24

+#define  DDWTC_WrDqsGrossDlyByte11_SHIFT 29

+

+#define DRAM_DQS_WRTIE_TIME_CTRL_0_3 0x41 //DIMM0 Channel B

+#define  DDWTC_WrDqsFineDlyByte12_SHIFT 0

+#define  DDWTC_WrDqsGrossDlyByte12_SHIFT 5

+#define  DDWTC_WrDqsFineDlyByte13_SHIFT 8

+#define  DDWTC_WrDqsGrossDlyByte13_SHIFT 13

+#define  DDWTC_WrDqsFineDlyByte14_SHIFT 16

+#define  DDWTC_WrDqsGrossDlyByte14_SHIFT 21

+#define  DDWTC_WrDqsFineDlyByte15_SHIFT 24

+#define  DDWTC_WrDqsGrossDlyByte15_SHIFT 29

+

+#define DRAM_DQS_WRITE_TIMING_CTRL_ECC_0_1 0x42

+#define  DDWTCE_WrDqsChkFineDlyByte1_SHIFT 0

+#define  DDWTCE_WrDqsChkGrossDlyByte1_SHIFT 5

+

+#define DRAM_DQS_WRITE_TIME_CTRL_1_0 0x33 //DIMM1 Channel A

+#define DRAM_DQS_WRTIE_TIME_CTRL_1_1 0x34 //DIMM1 Channel A

+#define DRAM_DQS_WRITE_TIMING_CTRL_ECC_1_0 0x35

+#define DRAM_DQS_WRITE_TIME_CTRL_1_2 0x43 //DIMM1 Channel B

+#define DRAM_DQS_WRTIE_TIME_CTRL_1_3 0x44 //DIMM1 Channel B

+#define DRAM_DQS_WRITE_TIMING_CTRL_ECC_1_1 0x45

+#endif

+

+#define DRAM_PHASE_RECOVERY_CTRL_0 0x50

+#define  DPRC_PhRecFineDlyByte0_SHIFT 0

+#define   DDWTC_PhRecFineDlyByte0_MASK 0x1f

+#define  DDWTC_PhRecGrossDlyByte0_SHIFT 5

+#define   DDWTC_PhRecGrossDlyByte0_MASK 0x3

+#define  DDWTC_PhRecFineDlyByte1_SHIFT 8

+#define  DDWTC_PhRecGrossDlyByte1_SHIFT 13

+#define  DDWTC_PhRecFineDlyByte2_SHIFT 16

+#define  DDWTC_PhRecGrossDlyByte2_SHIFT 21

+#define  DDWTC_PhRecFineDlyByte3_SHIFT 24

+#define  DDWTC_PhRecGrossDlyByte3_SHIFT 29

+

+#define DRAM_PHASE_RECOVERY_CTRL_1 0x51

+#define  DPRC_PhRecFineDlyByte4_SHIFT 0

+#define  DDWTC_PhRecGrossDlyByte4_SHIFT 5

+#define  DDWTC_PhRecFineDlyByte5_SHIFT 8

+#define  DDWTC_PhRecGrossDlyByte5_SHIFT 13

+#define  DDWTC_PhRecFineDlyByte6_SHIFT 16

+#define  DDWTC_PhRecGrossDlyByte6_SHIFT 21

+#define  DDWTC_PhRecFineDlyByte7_SHIFT 24

+#define  DDWTC_PhRecGrossDlyByte7_SHIFT 29

+

+#define DRAM_ECC_PHASE_RECOVERY_CTRL 0x52

+#define  DEPRC_PhRecEccDlyByte0_SHIFT 0

+#define  DEPRC_PhRecEccGrossDlyByte0_SHIFT 5

+

+#define DRAM_WRITE_LEVEL_ERROR 0x53 /* read only */

+#define  DWLE_WrLvErr_SHIFT 0

+#define   DWLE_WrLvErr_MASK 0xff

+

+#define DRAM_CTRL_MISC 0xa0

+#define  DCM_MemCleared (1<<0) /* RD  == F2x110 [MemCleared] */

+#define  DCM_DramEnabled (1<<9) /* RD == F2x110 [DramEnabled] */

+

+#define NB_TIME_STAMP_COUNT_LOW 0xb0

+#define  TscLow_SHIFT 0

+#define  TscLow_MASK 0xffffffff

+

+#define NB_TIME_STAMP_COUNT_HIGH 0xb4

+#define  TscHigh_SHIFT 0

+#define  TscHigh_Mask 0xff

+

+#define DCT_DEBUG_CTRL 0xf0 /* 0xf0 for DCT0,	0x1f0 is for DCT1*/

+#define  DDC_DllAdjust_SHIFT 0

+#define   DDC_DllAdjust_MASK 0xff

+#define  DDC_DllSlower (1<<8)

+#define  DDC_DllFaster (1<<9)

+#define  DDC_WrtDqsAdjust_SHIFT 16

+#define   DDC_WrtDqsAdjust_MASK 0x7

+#define  DDC_WrtDqsAdjustEn (1<<19)

+

+#define DRAM_CTRL_SEL_LOW 0x110

+#define  DCSL_DctSelHiRngEn (1<<0)

+#define  DCSL_DctSelHi (1<<1)

+#define  DCSL_DctSelIntLvEn (1<<2)

+#define  DCSL_MemClrInit (1<<3) /* WR only */

+#define  DCSL_DctGangEn (1<<4)

+#define  DCSL_DctDataIntLv (1<<5)

+#define  DCSL_DctSelIntLvAddr_SHIFT

+#define   DCSL_DctSelIntLvAddr_MASK 3

+#define  DCSL_DramEnable (1<<8)  /* RD only */

+#define  DCSL_MemClrBusy (1<<9)  /* RD only */

+#define  DCSL_MemCleared (1<<10) /* RD only */

+#define  DCSL_DctSelBaseAddr_47_27_SHIFT 11

+#define   DCSL_DctSelBaseAddr_47_27_MASK 0x1fffff

+

+#define DRAM_CTRL_SEL_HIGH 0x114

+#define  DCSH_DctSelBaseOffset_47_26_SHIFT 10

+#define   DCSH_DctSelBaseOffset_47_26_MASK 0x3fffff

+

+#define MEM_CTRL_CONF_LOW 0x118

+#define  MCCL_MctPriCpuRd (1<<0)

+#define  MCCL_MctPriCpuWr (1<<1)

+#define  MCCL_MctPriIsocRd_SHIFT 4

+#define   MCCL_MctPriIsoc_MASK 0x3

+#define  MCCL_MctPriIsocWr_SHIFT 6

+#define   MCCL_MctPriIsocWe_MASK 0x3

+#define  MCCL_MctPriDefault_SHIFT 8

+#define   MCCL_MctPriDefault_MASK 0x3

+#define  MCCL_MctPriWr_SHIFT 10

+#define   MCCL_MctPriWr_MASK 0x3

+#define  MCCL_MctPriIsoc_SHIFT 12

+#define   MCCL_MctPriIsoc_MASK 0x3

+#define  MCCL_MctPriTrace_SHIFT 14

+#define   MCCL_MctPriTrace_MASK 0x3

+#define  MCCL_MctPriScrub_SHIFT 16

+#define   MCCL_MctPriScrub_MASK 0x3

+#define  MCCL_McqMedPriByPassMax_SHIFT 20

+#define   MCCL_McqMedPriByPassMax_MASK 0x7

+#define  MCCL_McqHiPriByPassMax_SHIFT 24

+#define   MCCL_McqHiPriByPassMax_MASK 0x7

+#define  MCCL_MctVarPriCntLmt_SHIFT 28

+#define   MCCL_MctVarPriCntLmt_MASK 0x7

+

+#define MEM_CTRL_CONF_HIGH 0x11c

+#define  MCCH_DctWrLimit_SHIFT 0

+#define   MCCH_DctWrLimit_MASK 0x3

+#define  MCCH_MctWrLimit_SHIFT 2

+#define   MCCH_MctWrLimit_MASK 0x1f

+#define  MCCH_MctPrefReqLimit_SHIFT 7

+#define   MCCH_MctPrefReqLimit_MASK 0x1f

+#define  MCCH_PrefCpuDis (1<<12)

+#define  MCCH_PrefIoDis (1<<13)

+#define  MCCH_PrefIoFixStrideEn (1<<14)

+#define  MCCH_PrefFixStrideEn (1<<15)

+#define  MCCH_PrefFixDist_SHIFT 16

+#define   MCCH_PrefFixDist_MASK 0x3

+#define  MCCH_PrefConfSat_SHIFT 18

+#define   MCCH_PrefConfSat_MASK 0x3

+#define  MCCH_PrefOneConf_SHIFT 20

+#define   MCCH_PrefOneConf_MASK 0x3

+#define  MCCH_PrefTwoConf_SHIFT 22

+#define   MCCH_PrefTwoConf_MASK 0x7

+#define  MCCH_PrefThreeConf_SHIFT 25

+#define   MCCH_prefThreeConf_MASK 0x7

+#define  MCCH_PrefDramTrainMode (1<<28)

+#define  MCCH_FlushWrOnStpGnt (1<<29)

+#define  MCCH_FlushWr (1<<30)

+#define  MCCH_MctScrubEn (1<<31)

+

+

+/* Function 3 */

+#define MCA_NB_CONTROL		0x40

+#define  MNCT_CorrEccEn (1<<0)

+#define  MNCT_UnCorrEccEn (1<<1)

+#define  MNCT_CrcErr0En	(1<<2) /* Link 0 */

+#define  MNCT_CrcErr1En (1<<3)

+#define  MNCT_CrcErr2En (1<<4)

+#define  MBCT_SyncPkt0En (1<<5) /* Link 0 */

+#define  MBCT_SyncPkt1En (1<<6)

+#define  MBCT_SyncPkt2En (1<<7)

+#define  MBCT_MstrAbrtEn (1<<8)

+#define  MBCT_TgtAbrtEn	 (1<<9)

+#define  MBCT_GartTblEkEn (1<<10)

+#define  MBCT_AtomicRMWEn  (1<<11)

+#define  MBCT_WdogTmrRptEn (1<<12)

+#define  MBCT_DevErrEn	(1<<13)

+#define  MBCT_L3ArrayCorEn (1<<14)

+#define  MBCT_L3ArrayUncEn (1<<15)

+#define  MBCT_HtProtEn	(1<<16)

+#define  MBCT_HtDataEn	(1<<17)

+#define  MBCT_DramParEn	(1<<18)

+#define  MBCT_RtryHt0En (1<<19) /* Link 0 */

+#define  MBCT_RtryHt1En (1<<20)

+#define  MBCT_RtryHt2En (1<<21)

+#define  MBCT_RtryHt3En (1<<22)

+#define  MBCT_CrcErr3En (1<<23) /* Link 3*/

+#define  MBCT_SyncPkt3En (1<<24) /* Link 4 */

+#define  MBCT_McaUsPwDatErrEn (1<<25)

+#define  MBCT_NbArrayParEn (1<<26)

+#define  MBCT_TblWlkDatErrEn (1<<27)

+#define  MBCT_FbDimmCorErrEn (1<<28)

+#define  MBCT_FbDimmUnCorErrEn (1<<29)

+

+

+

+#define MCA_NB_CONFIG	    0x44

+#define   MNC_CpuRdDatErrEn   (1<<1)

+#define   MNC_SyncOnUcEccEn   (1<<2)

+#define   MNC_SynvPktGenDis   (1<<3)

+#define   MNC_SyncPktPropDis  (1<<4)

+#define   MNC_IoMstAbortDis   (1<<5)

+#define   MNC_CpuErrDis	      (1<<6)

+#define   MNC_IoErrDis	      (1<<7)

+#define   MNC_WdogTmrDis      (1<<8)

+#define   MNC_WdogTmrCntSel_2_0_SHIFT 9 /* 3 is ar f3x180 */

+#define    MNC_WdogTmrCntSel_2_0_MASK 0x3

+#define   MNC_WdogTmrBaseSel_SHIFT 12

+#define    MNC_WdogTmrBaseSel_MASK 0x3

+#define   MNC_LdtLinkSel_SHIFT 14

+#define    MNC_LdtLinkSel_MASK 0x3

+#define   MNC_GenCrcErrByte0	(1<<16)

+#define   MNC_GenCrcErrByte1	(1<<17)

+#define   MNC_SubLinkSel_SHIFT 18

+#define    MNC_SubLinkSel_MASK 0x3

+#define   MNC_SyncOnWdogEn  (1<<20)

+#define   MNC_SyncOnAnyErrEn (1<<21)

+#define   MNC_DramEccEn       (1<<22)

+#define   MNC_ChipKillEccEn  (1<<23)

+#define   MNC_IoRdDatErrEn (1<<24)

+#define   MNC_DisPciCfgCpuErrRsp (1<<25)

+#define   MNC_CorrMcaExcEn (1<<26)

+#define   MNC_NbMcaToMstCpuEn (1<<27)

+#define   MNC_DisTgtAbtCpuErrRsp (1<<28)

+#define   MNC_DisMstAbtCpuErrRsp (1<<29)

+#define   MNC_SyncOnDramAdrParErrEn (1<<30)

+#define   MNC_NbMcaLogEn (1<<31)

+

+#define MCA_NB_STATUS_LOW 0x48

+#define  MNSL_ErrorCode_SHIFT 0

+#define   MNSL_ErrorCode_MASK 0xffff

+#define  MNSL_ErrorCodeExt_SHIFT 16

+#define   MNSL_ErrorCodeExt_MASK 0x1f

+#define  MNSL_Syndrome_15_8_SHIFT 24

+#define   MNSL_Syndrome_15_8_MASK 0xff

+

+#define MCA_NB_STATUS_HIGH 0x4c

+#define  MNSH_ErrCPU_SHIFT 0

+#define   MNSH_ErrCPU_MASK 0xf

+#define  MNSH_LDTLink_SHIFT 4

+#define   MNSH_LDTLink_MASK 0xf

+#define  MNSH_ErrScrub (1<<8)

+#define  MNSH_SubLink (1<<9)

+#define  MNSH_McaStatusSubCache_SHIFT 10

+#define   MNSH_McaStatusSubCache_MASK 0x3

+#define  MNSH_Deffered (1<<12)

+#define  MNSH_UnCorrECC (1<<13)

+#define  MNSH_CorrECC (1<<14)

+#define  MNSH_Syndrome_7_0_SHIFT 15

+#define   MNSH_Syndrome_7_0_MASK 0xff

+#define  MNSH_PCC (1<<25)

+#define  MNSH_ErrAddrVal (1<<26)

+#define  MNSH_ErrMiscVal (1<<27)

+#define  MNSH_ErrEn  (1<<28)

+#define  MNSH_ErrUnCorr (1<<29)

+#define  MNSH_ErrOver (1<<30)

+#define  MNSH_ErrValid (1<<31)

+

+#define MCA_NB_ADDR_LOW 0x50

+#define  MNAL_ErrAddr_31_1_SHIFT 1

+#define   MNAL_ErrAddr_31_1_MASK 0x7fffffff

+

+#define MCA_NB_ADDR_HIGH 0x54

+#define  MNAL_ErrAddr_47_32_SHIFT 0

+#define   MNAL_ErrAddr_47_32_MASK 0xffff

+

+#define DRAM_SCRUB_RATE_CTRL	   0x58

+#define	  SCRUB_NONE	    0

+#define	  SCRUB_40ns	    1

+#define	  SCRUB_80ns	    2

+#define	  SCRUB_160ns	    3

+#define	  SCRUB_320ns	    4

+#define	  SCRUB_640ns	    5

+#define	  SCRUB_1_28us	    6

+#define	  SCRUB_2_56us	    7

+#define	  SCRUB_5_12us	    8

+#define	  SCRUB_10_2us	    9

+#define	  SCRUB_20_5us	   0xa

+#define	  SCRUB_41_0us	   0xb

+#define	  SCRUB_81_9us	   0xc

+#define	  SCRUB_163_8us	   0xd

+#define	  SCRUB_327_7us	   0xe

+#define	  SCRUB_655_4us	   0xf

+#define	  SCRUB_1_31ms	   0x10

+#define	  SCRUB_2_62ms	   0x11

+#define	  SCRUB_5_24ms	   0x12

+#define	  SCRUB_10_49ms	   0x13

+#define	  SCRUB_20_97ms	   0x14

+#define	  SCRUB_42ms	   0x15

+#define	  SCRUB_84ms	   0x16

+#define	 DSRC_DramScrub_SHFIT  0

+#define	  DSRC_DramScrub_MASK	0x1f

+#define	 DSRC_L2Scrub_SHIFT	   8

+#define	  DSRC_L2Scrub_MASK	   0x1f

+#define	 DSRC_DcacheScrub_SHIFT	  16

+#define	  DSRC_DcacheScrub_MASK	   0x1f

+#define	 DSRC_L3Scrub_SHIFT	   24

+#define	  DSRC_L3Scrub_MASK	   0x1f

+

+#define DRAM_SCRUB_ADDR_LOW	   0x5C

+#define  DSAL_ScrubReDirEn (1<<0)

+#define  DSAL_ScrubAddrLo_SHIFT 6

+#define   DSAL_ScrubAddrLo_MASK 0x3ffffff

+

+#define DRAM_SCRUB_ADDR_HIGH	   0x60

+#define  DSAH_ScrubAddrHi_SHIFT 0

+#define   DSAH_ScrubAddrHi_MASK 0xffff

+

+#define HW_THERMAL_CTRL 0x64

+

+#define SW_THERMAL_CTRL 0x68

+

+#define DATA_BUF_CNT 0x6c

+

+#define SRI_XBAR_CMD_BUF_CNT 0x70

+

+#define XBAR_SRI_CMD_BUF_CNT 0x74

+

+#define MCT_XBAR_CMD_BUF_CNT 0x78

+

+#define ACPI_PWR_STATE_CTRL 0x80 /* till 0x84 */

+

+#define NB_CONFIG_LOW 0x88

+#define NB_CONFIG_HIGH 0x8c

+

+#define GART_APERTURE_CTRL 0x90

+

+#define GART_APERTURE_BASE 0x94

+

+#define GART_TBL_BASE 0x98

+

+#define GART_CACHE_CTRL 0x9c

+

+#define PWR_CTRL_MISC 0xa0

+

+#define RPT_TEMP_CTRL 0xa4

+

+#define ON_LINE_SPARE_CTRL 0xb0

+

+#define SBI_P_STATE_LIMIT 0xc4

+

+#define CLK_PWR_TIMING_CTRL0 0xd4

+#define CLK_PWR_TIMING_CTRL1 0xd8

+#define CLK_PWR_TIMING_CTRL2 0xdc

+

+#define THERMTRIP_STATUS 0xE4

+

+

+#define NORTHBRIDGE_CAP	   0xE8

+#define	 NBCAP_TwoChanDRAMcap	      (1 << 0)

+#define	 NBCAP_DualNodeMPcap	      (1 << 1)

+#define	 NBCAP_EightNodeMPcap	      (1 << 2)

+#define	 NBCAP_ECCcap	      (1 << 3)

+#define	 NBCAP_ChipkillECCcap	(1 << 4)

+#define	 NBCAP_DdrMaxRate_SHIFT	  5

+#define	 NBCAP_DdrMaxRate_MASK	  7

+#define	  NBCAP_DdrMaxRate_400	7

+#define	  NBCAP_DdrMaxRate_533	6

+#define	  NBCAP_DdrMaxRate_667	5

+#define	  NBCAP_DdrMaxRate_800	4

+#define	  NBCAP_DdrMaxRate_1067 3

+#define	  NBCAP_DdrMaxRate_1333 2

+#define	  NBCAP_DdrMaxRate_1600 1

+#define	  NBCAP_DdrMaxRate_3_2G	 6

+#define	  NBCAP_DdrMaxRate_4_0G	 5

+#define	  NBCAP_DdrMaxRate_4_8G	 4

+#define	  NBCAP_DdrMaxRate_6_4G 3

+#define	  NBCAP_DdrMaxRate_8_0G 2

+#define	  NBCAP_DdrMaxRate_9_6G 1

+#define	 NBCAP_Mem_ctrl_cap	      (1 << 8)

+#define  MBCAP_SVMCap	     (1<<9)

+#define  NBCAP_HtcCap		(1<<10)

+#define  NBCAP_CmpCap_SHIFT	12

+#define  NBCAP_CmpCap_MASK	3

+#define  NBCAP_MpCap_SHIFT 16

+#define  NBCAP_MpCap_MASK 7

+#define   NBCAP_MpCap_1N 7

+#define   NBCAP_MpCap_2N 6

+#define   NBCAP_MpCap_4N 5

+#define   NBCAP_MpCap_8N 4

+#define   NBCAP_MpCap_32N 0

+#define  NBCAP_UnGangEn_SHIFT 20

+#define   NBCAP_UnGangEn_MASK 0xf

+#define  NBCAP_L3Cap (1<<25)

+#define  NBCAP_HtAcCap (1<<26)

+

+/* 04/04/2006 18:00 */

+

+#define EXT_NB_MCA_CTRL	0x180

+

+#define NB_EXT_CONF	0x188

+#define DOWNCORE_CTRL	0x190

+#define  DWNCC_DisCore_SHIFT 0

+#define	 DWNCC_DisCore_MASK 0xf

+

+/* Function 5 for FBDIMM */

+#define FBD_DRAM_TIMING_LOW

+

+#define LinkConnected	   (1 << 0)

+#define InitComplete	   (1 << 1)

+#define NonCoherent	   (1 << 2)

+#define ConnectionPending (1 << 4)

+

+// Use the LAPIC timer count register to hold each core's init status

+//   Format: byte 0 - state

+//           byte 1 - fid_max

+//           byte 2 - nb_cof_vid_update

+//           byte 3 - apic id

+   

+#define LAPIC_MSG_REG 0x380

+#define F10_APSTATE_STARTED 0x13  // start of AP execution

+#define F10_APSTATE_STOPPED 0x14  // allow AP to stop

+#define F10_APSTATE_RESET   0x01  // waiting for warm reset

+

+#include "amdfam10_nums.h"

+

+#ifdef __PRE_RAM__

+#if NODE_NUMS==64

+	 #define NODE_PCI(x, fn) ((x<32)?(PCI_DEV(CONFIG_CBB,(CONFIG_CDB+x),fn)):(PCI_DEV((CONFIG_CBB-1),(CONFIG_CDB+x-32),fn)))

+#else

+	 #define NODE_PCI(x, fn) PCI_DEV(CONFIG_CBB,(CONFIG_CDB+x),fn)

+#endif

+#endif

+

+#include "raminit.h"

+

+#if CONFIG_AMDMCT == 0

+

+//struct definitions

+

+struct dimm_size {

+	u8 per_rank; // it is rows + col + bank_lines + data lines */

+	u8 rows;

+	u8 col;

+	u8 bank; //1, 2, 3 mean 2, 4, 8

+	u8 rank;

+} __attribute__((packed));

+

+struct mem_info { // pernode

+	u32 dimm_mask;

+	struct dimm_size sz[DIMM_SOCKETS*2]; // for ungang support

+	u32 x4_mask;

+	u32 x16_mask;

+	u32 single_rank_mask;

+	u32 page_1k_mask;

+//	  u32 ecc_mask;

+//	  u32 registered_mask;

+	u8 is_opteron;

+	u8 is_registered; //don't support mixing on the same channel or between channel

+	u8 is_ecc; //don't support mixing on the same channel or between channel

+	u8 is_Width128;

+	u8 memclk_set; // we need to use this to retrieve the mem param, all dimms need to work at same freq for one node

+	u8 is_cs_interleaved[2]; //cs

+	u8 rsv[1];

+} __attribute__((packed));

+#else

+ #if (CONFIG_DIMM_SUPPORT & 0x000F)==0x0005 /* AMD_FAM10_DDR3 */

+  #include "../amdmct/mct_ddr3/mct_d.h"

+ #else

+  #include "../amdmct/mct/mct_d.h"

+ #endif

+#endif

+

+struct link_pair_t {

+	device_t udev;

+	u32 upos;

+	u32 uoffs;

+	device_t dev;

+	u32 pos;

+	u32 offs;

+	u8 host;

+	u8 nodeid;

+	u8 linkn;

+	u8 rsv;

+} __attribute__((packed));

+

+struct nodes_info_t {

+	u32 nodes_in_group; // could be 2, 3, 4, 5, 6, 7, 8

+	u32 groups_in_plane; // could be 1, 2, 3, 4, 5

+	u32 planes; // could be 1, 2

+	u32 up_planes; // down planes will be [up_planes, planes)

+} __attribute__((packed));

+

+/* be careful with the alignment of sysinfo, bacause sysinfo may be shared by coreboot_car and coreboot_ram stage. and coreboot_ram may be running at 64bit later.*/

+#if CONFIG_AMDMCT == 0

+

+//#define MEM_CS_COPY 1

+#define MEM_CS_COPY NODE_NUMS

+

+#if CONFIG_MEM_TRAIN_SEQ == 0

+	#define DQS_DELAY_COPY NODE_NUMS

+#else

+//	#define DQS_DELAY_COPY 1

+	#define DQS_DELAY_COPY NODE_NUMS

+#endif

+#endif

+

+

+struct sys_info {

+	int32_t needs_reset;

+

+	u8 ln[NODE_NUMS*NODE_NUMS];// [0, 3] link n, [4, 7] will be hop num

+	u16 ln_tn[NODE_NUMS*8]; // for 0x0zzz: bit [0,7] target node num, bit[8,11] respone link from target num; 0x80ff mean not inited, 0x4yyy mean non coherent and yyy is link pair index

+	struct nodes_info_t nodes_info;

+	u32 nodes;

+

+	u8 host_link_freq[NODE_NUMS*8]; // record freq for every link from cpu, 0x0f means don't need to touch it

+	u16 host_link_freq_cap[NODE_NUMS*8]; //cap

+

+	u32 segbit;

+	u32 sbdn;

+	u32 sblk;

+	u32 sbbusn;

+

+	u32 ht_c_num;

+	u32 ht_c_conf_bus[HC_NUMS]; // 4-->32

+

+	struct link_pair_t link_pair[HC_NUMS*4];// enough? only in_conherent, 32 chain and every chain have 4 HT device

+	u32 link_pair_num;

+

+	struct mem_controller ctrl[NODE_NUMS];

+

+#if CONFIG_AMDMCT

+//	sMCTStruct MCTData;

+//	sDCTStruct *DCTNodeData[NODE_NUMS];

+//	sDCTStruct DCTNodeData_a[NODE_NUMS];

+	struct MCTStatStruc MCTstat;

+	struct DCTStatStruc DCTstatA[NODE_NUMS];

+#else

+

+	u8 ctrl_present[NODE_NUMS];

+	struct mem_info meminfo[NODE_NUMS];

+	u8 mem_trained[NODE_NUMS]; //0: no dimm, 1: trained, 0x80: not started, 0x81: recv1 fail, 0x82: Pos Fail, 0x83:recv2 fail

+	u32 tom_m;

+	u32 tom2_m;

+

+	//if we are getting tight of global space, may need to squesh following to one copy

+	u32 mem_base[MEM_CS_COPY][2]; // two dct

+	u32 cs_base[MEM_CS_COPY][2][8]; //8 cs_idx

+	u32 hole_startk; // 0 mean hole

+

+	u8 dqs_delay_a[DQS_DELAY_COPY*2*4*2*9]; //8 node, channel 2, dimm 4, direction 2 , bytelane *9

+	u8 dqs_rcvr_dly_a[DQS_DELAY_COPY*2*4*9]; //8 node, channel 2, dimm 4, bytelane *9

+	u8 dqs_rcvr_dly_a_1[9]; //8 node, channel 2, dimm 4, bytelane *9

+#endif

+

+} __attribute__((packed));

+

+#ifndef __PRE_RAM__

+device_t get_node_pci(u32 nodeid, u32 fn);

+#endif

+

+#if CONFIG_AMDMCT == 0

+

+#ifdef __PRE_RAM__

+static void soft_reset(void);

+#endif

+static void wait_all_core0_mem_trained(struct sys_info *sysinfo)

+{

+	int i;

+	u32 mask_lo = 0;

+	u32 mask_hi = 0;

+	unsigned needs_reset = 0;

+

+	if(sysinfo->nodes == 1) return; // in case only one cpu installed

+		for(i=1; i<sysinfo->nodes; i++) {

+			/* Skip everything if I don't have any memory on this controller */

+			if(sysinfo->mem_trained[i]==0x00) continue;

+

+			if(i<32) {

+				mask_lo |= (1<<i);

+			} else {

+				mask_hi |= (1<<(i-32));

+			}

+	}

+

+	i = 1;

+	while(1) {

+		if(i<32) {

+			if(mask_lo & (1<<i)) {

+				if(sysinfo->mem_trained[i] != 0x80) {

+					mask_lo &= ~(1<<i);

+				}

+			}

+		} else {

+			if(mask_hi & (1<<(i-32))) {

+				if(sysinfo->mem_trained[i] != 0x80) {

+					 mask_hi &= ~(1<<(i-32));

+				}

+			}

+		}

+

+			if((!mask_lo) && (!mask_hi)) break;

+

+		i++;

+		i%=sysinfo->nodes;

+	}

+

+	for(i=0; i<sysinfo->nodes; i++) {

+#ifdef __PRE_RAM__

+		print_debug("mem_trained["); print_debug_hex8(i); print_debug("]="); print_debug_hex8(sysinfo->mem_trained[i]); print_debug("\n");

+#else

+		printk(BIOS_DEBUG, "mem_trained[%02x]=%02x\n", i, sysinfo->mem_trained[i]);

+#endif

+		switch(sysinfo->mem_trained[i]) {

+		case 0: //don't need train

+		case 1: //trained

+			break;

+		case 0x81: //recv1: fail

+		case 0x82: //Pos :fail

+		case 0x83: //recv2: fail

+			needs_reset = 1;

+			break;

+		}

+	}

+	if(needs_reset) {

+#ifdef __PRE_RAM__

+		print_debug("mem trained failed\n");

+		soft_reset();

+#else

+		printk(BIOS_DEBUG, "mem trained failed\n");

+		hard_reset();

+#endif

+	}

+

+}

+

+#endif

+

+#ifdef __PRE_RAM__

+void showallroutes(int level, device_t dev);

+

+void setup_resource_map_offset(const u32 *register_values, u32 max, u32

+		offset_pci_dev, u32 offset_io_base);

+

+void setup_resource_map_x_offset(const u32 *register_values, u32 max, u32

+		offset_pci_dev, u32 offset_io_base);

+

+void setup_resource_map_x(const u32 *register_values, u32 max);

+

+/* reset_test.c */

+u32 cpu_init_detected(u8 nodeid);

+u32 bios_reset_detected(void);

+u32 cold_reset_detected(void);

+u32 other_reset_detected(void);

+u32 get_sblk(void);

+u8 get_sbbusn(u8 sblk);

+#endif

+

+#endif /* AMDFAM10_H */