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path: root/arch/x86/kernel/cpu/cpufreq/powernow-k8.c
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/*
 *   (c) 2003-2010 Advanced Micro Devices, Inc.
 *  Your use of this code is subject to the terms and conditions of the
 *  GNU general public license version 2. See "COPYING" or
 *  http://www.gnu.org/licenses/gpl.html
 *
 *  Support : mark.langsdorf@amd.com
 *
 *  Based on the powernow-k7.c module written by Dave Jones.
 *  (C) 2003 Dave Jones on behalf of SuSE Labs
 *  (C) 2004 Dominik Brodowski <linux@brodo.de>
 *  (C) 2004 Pavel Machek <pavel@ucw.cz>
 *  Licensed under the terms of the GNU GPL License version 2.
 *  Based upon datasheets & sample CPUs kindly provided by AMD.
 *
 *  Valuable input gratefully received from Dave Jones, Pavel Machek,
 *  Dominik Brodowski, Jacob Shin, and others.
 *  Originally developed by Paul Devriendt.
 *  Processor information obtained from Chapter 9 (Power and Thermal Management)
 *  of the "BIOS and Kernel Developer's Guide for the AMD Athlon 64 and AMD
 *  Opteron Processors" available for download from www.amd.com
 *
 *  Tables for specific CPUs can be inferred from
 *     http://www.amd.com/us-en/assets/content_type/white_papers_and_tech_docs/30430.pdf
 */

#include <linux/kernel.h>
#include <linux/smp.h>
#include <linux/module.h>
#include <linux/init.h>
#include <linux/cpufreq.h>
#include <linux/slab.h>
#include <linux/string.h>
#include <linux/cpumask.h>
#include <linux/sched.h>	/* for current / set_cpus_allowed() */
#include <linux/io.h>
#include <linux/delay.h>

#include <asm/msr.h>

#include <linux/acpi.h>
#include <linux/mutex.h>
#include <acpi/processor.h>

#define PFX "powernow-k8: "
#define VERSION "version 2.20.00"
#include "powernow-k8.h"
#include "mperf.h"

/* serialize freq changes  */
static DEFINE_MUTEX(fidvid_mutex);

static DEFINE_PER_CPU(struct powernow_k8_data *, powernow_data);

static int cpu_family = CPU_OPTERON;

/* core performance boost */
static bool cpb_capable, cpb_enabled;
static struct msr __percpu *msrs;

static struct cpufreq_driver cpufreq_amd64_driver;

#ifndef CONFIG_SMP
static inline const struct cpumask *cpu_core_mask(int cpu)
{
	return cpumask_of(0);
}
#endif

/* Return a frequency in MHz, given an input fid */
static u32 find_freq_from_fid(u32 fid)
{
	return 800 + (fid * 100);
}

/* Return a frequency in KHz, given an input fid */
static u32 find_khz_freq_from_fid(u32 fid)
{
	return 1000 * find_freq_from_fid(fid);
}

static u32 find_khz_freq_from_pstate(struct cpufreq_frequency_table *data,
		u32 pstate)
{
	return data[pstate].frequency;
}

/* Return the vco fid for an input fid
 *
 * Each "low" fid has corresponding "high" fid, and you can get to "low" fids
 * only from corresponding high fids. This returns "high" fid corresponding to
 * "low" one.
 */
static u32 convert_fid_to_vco_fid(u32 fid)
{
	if (fid < HI_FID_TABLE_BOTTOM)
		return 8 + (2 * fid);
	else
		return fid;
}

/*
 * Return 1 if the pending bit is set. Unless we just instructed the processor
 * to transition to a new state, seeing this bit set is really bad news.
 */
static int pending_bit_stuck(void)
{
	u32 lo, hi;

	if (cpu_family == CPU_HW_PSTATE)
		return 0;

	rdmsr(MSR_FIDVID_STATUS, lo, hi);
	return lo & MSR_S_LO_CHANGE_PENDING ? 1 : 0;
}

/*
 * Update the global current fid / vid values from the status msr.
 * Returns 1 on error.
 */
static int query_current_values_with_pending_wait(struct powernow_k8_data *data)
{
	u32 lo, hi;
	u32 i = 0;

	if (cpu_family == CPU_HW_PSTATE) {
		rdmsr(MSR_PSTATE_STATUS, lo, hi);
		i = lo & HW_PSTATE_MASK;
		data->currpstate = i;

		/*
		 * a workaround for family 11h erratum 311 might cause
		 * an "out-of-range Pstate if the core is in Pstate-0
		 */
		if ((boot_cpu_data.x86 == 0x11) && (i >= data->numps))
			data->currpstate = HW_PSTATE_0;

		return 0;
	}
	do {
		if (i++ > 10000) {
			dprintk("detected change pending stuck\n");
			return 1;
		}
		rdmsr(MSR_FIDVID_STATUS, lo, hi);
	} while (lo & MSR_S_LO_CHANGE_PENDING);

	data->currvid = hi & MSR_S_HI_CURRENT_VID;
	data->currfid = lo & MSR_S_LO_CURRENT_FID;

	return 0;
}

/* the isochronous relief time */
static void count_off_irt(struct powernow_k8_data *data)
{
	udelay((1 << data->irt) * 10);
	return;
}

/* the voltage stabilization time */
static void count_off_vst(struct powernow_k8_data *data)
{
	udelay(data->vstable * VST_UNITS_20US);
	return;
}

/* need to init the control msr to a safe value (for each cpu) */
static void fidvid_msr_init(void)
{
	u32 lo, hi;
	u8 fid, vid;

	rdmsr(MSR_FIDVID_STATUS, lo, hi);
	vid = hi & MSR_S_HI_CURRENT_VID;
	fid = lo & MSR_S_LO_CURRENT_FID;
	lo = fid | (vid << MSR_C_LO_VID_SHIFT);
	hi = MSR_C_HI_STP_GNT_BENIGN;
	dprintk("cpu%d, init lo 0x%x, hi 0x%x\n", smp_processor_id(), lo, hi);
	wrmsr(MSR_FIDVID_CTL, lo, hi);
}

/* write the new fid value along with the other control fields to the msr */
static int write_new_fid(struct powernow_k8_data *data, u32 fid)
{
	u32 lo;
	u32 savevid = data->currvid;
	u32 i = 0;

	if ((fid & INVALID_FID_MASK) || (data->currvid & INVALID_VID_MASK)) {
		printk(KERN_ERR PFX "internal error - overflow on fid write\n");
		return 1;
	}

	lo = fid;
	lo |= (data->currvid << MSR_C_LO_VID_SHIFT);
	lo |= MSR_C_LO_INIT_FID_VID;

	dprintk("writing fid 0x%x, lo 0x%x, hi 0x%x\n",
		fid, lo, data->plllock * PLL_LOCK_CONVERSION);

	do {
		wrmsr(MSR_FIDVID_CTL, lo, data->plllock * PLL_LOCK_CONVERSION);
		if (i++ > 100) {
			printk(KERN_ERR PFX
				"Hardware error - pending bit very stuck - "
				"no further pstate changes possible\n");
			return 1;
		}
	} while (query_current_values_with_pending_wait(data));

	count_off_irt(data);

	if (savevid != data->currvid) {
		printk(KERN_ERR PFX
			"vid change on fid trans, old 0x%x, new 0x%x\n",
			savevid, data->currvid);
		return 1;
	}

	if (fid != data->currfid) {
		printk(KERN_ERR PFX
			"fid trans failed, fid 0x%x, curr 0x%x\n", fid,
			data->currfid);
		return 1;
	}

	return 0;
}

/* Write a new vid to the hardware */
static int write_new_vid(struct powernow_k8_data *data, u32 vid)
{
	u32 lo;
	u32 savefid = data->currfid;
	int i = 0;

	if ((data->currfid & INVALID_FID_MASK) || (vid & INVALID_VID_MASK)) {
		printk(KERN_ERR PFX "internal error - overflow on vid write\n");
		return 1;
	}

	lo = data->currfid;
	lo |= (vid << MSR_C_LO_VID_SHIFT);
	lo |= MSR_C_LO_INIT_FID_VID;

	dprintk("writing vid 0x%x, lo 0x%x, hi 0x%x\n",
		vid, lo, STOP_GRANT_5NS);

	do {
		wrmsr(MSR_FIDVID_CTL, lo, STOP_GRANT_5NS);
		if (i++ > 100) {
			printk(KERN_ERR PFX "internal error - pending bit "
					"very stuck - no further pstate "
					"changes possible\n");
			return 1;
		}
	} while (query_current_values_with_pending_wait(data));

	if (savefid != data->currfid) {
		printk(KERN_ERR PFX "fid changed on vid trans, old "
			"0x%x new 0x%x\n",
		       savefid, data->currfid);
		return 1;
	}

	if (vid != data->currvid) {
		printk(KERN_ERR PFX "vid trans failed, vid 0x%x, "
				"curr 0x%x\n",
				vid, data->currvid);
		return 1;
	}

	return 0;
}

/*
 * Reduce the vid by the max of step or reqvid.
 * Decreasing vid codes represent increasing voltages:
 * vid of 0 is 1.550V, vid of 0x1e is 0.800V, vid of VID_OFF is off.
 */
static int decrease_vid_code_by_step(struct powernow_k8_data *data,
		u32 reqvid, u32 step)
{
	if ((data->currvid - reqvid) > step)
		reqvid = data->currvid - step;

	if (write_new_vid(data, reqvid))
		return 1;

	count_off_vst(data);

	return 0;
}

/* Change hardware pstate by single MSR write */
static int transition_pstate(struct powernow_k8_data *data, u32 pstate)
{
	wrmsr(MSR_PSTATE_CTRL, pstate, 0);
	data->currpstate = pstate;
	return 0;
}

/* Change Opteron/Athlon64 fid and vid, by the 3 phases. */
static int transition_fid_vid(struct powernow_k8_data *data,
		u32 reqfid, u32 reqvid)
{
	if (core_voltage_pre_transition(data, reqvid, reqfid))
		return 1;

	if (core_frequency_transition(data, reqfid))
		return 1;

	if (core_voltage_post_transition(data, reqvid))
		return 1;

	if (query_current_values_with_pending_wait(data))
		return 1;

	if ((reqfid != data->currfid) || (reqvid != data->currvid)) {
		printk(KERN_ERR PFX "failed (cpu%d): req 0x%x 0x%x, "
				"curr 0x%x 0x%x\n",
				smp_processor_id(),
				reqfid, reqvid, data->currfid, data->currvid);
		return 1;
	}

	dprintk("transitioned (cpu%d): new fid 0x%x, vid 0x%x\n",
		smp_processor_id(), data->currfid, data->currvid);

	return 0;
}

/* Phase 1 - core voltage transition ... setup voltage */
static int core_voltage_pre_transition(struct powernow_k8_data *data,
		u32 reqvid, u32 reqfid)
{
	u32 rvosteps = data->rvo;
	u32 savefid = data->currfid;
	u32 maxvid, lo, rvomult = 1;

	dprintk("ph1 (cpu%d): start, currfid 0x%x, currvid 0x%x, "
		"reqvid 0x%x, rvo 0x%x\n",
		smp_processor_id(),
		data->currfid, data->currvid, reqvid, data->rvo);

	if ((savefid < LO_FID_TABLE_TOP) && (reqfid < LO_FID_TABLE_TOP))
		rvomult = 2;
	rvosteps *= rvomult;
	rdmsr(MSR_FIDVID_STATUS, lo, maxvid);
	maxvid = 0x1f & (maxvid >> 16);
	dprintk("ph1 maxvid=0x%x\n", maxvid);
	if (reqvid < maxvid) /* lower numbers are higher voltages */
		reqvid = maxvid;

	while (data->currvid > reqvid) {
		dprintk("ph1: curr 0x%x, req vid 0x%x\n",
			data->currvid, reqvid);
		if (decrease_vid_code_by_step(data, reqvid, data->vidmvs))
			return 1;
	}

	while ((rvosteps > 0) &&
			((rvomult * data->rvo + data->currvid) > reqvid)) {
		if (data->currvid == maxvid) {
			rvosteps = 0;
		} else {
			dprintk("ph1: changing vid for rvo, req 0x%x\n",
				data->currvid - 1);
			if (decrease_vid_code_by_step(data, data->currvid-1, 1))
				return 1;
			rvosteps--;
		}
	}

	if (query_current_values_with_pending_wait(data))
		return 1;

	if (savefid != data->currfid) {
		printk(KERN_ERR PFX "ph1 err, currfid changed 0x%x\n",
				data->currfid);
		return 1;
	}

	dprintk("ph1 complete, currfid 0x%x, currvid 0x%x\n",
		data->currfid, data->currvid);

	return 0;
}

/* Phase 2 - core frequency transition */
static int core_frequency_transition(struct powernow_k8_data *data, u32 reqfid)
{
	u32 vcoreqfid, vcocurrfid, vcofiddiff;
	u32 fid_interval, savevid = data->currvid;

	if (data->currfid == reqfid) {
		printk(KERN_ERR PFX "ph2 null fid transition 0x%x\n",
				data->currfid);
		return 0;
	}

	dprintk("ph2 (cpu%d): starting, currfid 0x%x, currvid 0x%x, "
		"reqfid 0x%x\n",
		smp_processor_id(),
		data->currfid, data->currvid, reqfid);

	vcoreqfid = convert_fid_to_vco_fid(reqfid);
	vcocurrfid = convert_fid_to_vco_fid(data->currfid);
	vcofiddiff = vcocurrfid > vcoreqfid ? vcocurrfid - vcoreqfid
	    : vcoreqfid - vcocurrfid;

	if ((reqfid <= LO_FID_TABLE_TOP) && (data->currfid <= LO_FID_TABLE_TOP))
		vcofiddiff = 0;

	while (vcofiddiff > 2) {
		(data->currfid & 1) ? (fid_interval = 1) : (fid_interval = 2);

		if (reqfid > data->currfid) {
			if (data->currfid > LO_FID_TABLE_TOP) {
				if (write_new_fid(data,
						data->currfid + fid_interval))
					return 1;
			} else {
				if (write_new_fid
				    (data,
				     2 + convert_fid_to_vco_fid(data->currfid)))
					return 1;
			}
		} else {
			if (write_new_fid(data, data->currfid - fid_interval))
				return 1;
		}

		vcocurrfid = convert_fid_to_vco_fid(data->currfid);
		vcofiddiff = vcocurrfid > vcoreqfid ? vcocurrfid - vcoreqfid
		    : vcoreqfid - vcocurrfid;
	}

	if (write_new_fid(data, reqfid))
		return 1;

	if (query_current_values_with_pending_wait(data))
		return 1;

	if (data->currfid != reqfid) {
		printk(KERN_ERR PFX
			"ph2: mismatch, failed fid transition, "
			"curr 0x%x, req 0x%x\n",
			data->currfid, reqfid);
		return 1;
	}

	if (savevid != data->currvid) {
		printk(KERN_ERR PFX "ph2: vid changed, save 0x%x, curr 0x%x\n",
			savevid, data->currvid);
		return 1;
	}

	dprintk("ph2 complete, currfid 0x%x, currvid 0x%x\n",
		data->currfid, data->currvid);

	return 0;
}

/* Phase 3 - core voltage transition flow ... jump to the final vid. */
static int core_voltage_post_transition(struct powernow_k8_data *data,
		u32 reqvid)
{
	u32 savefid = data->currfid;
	u32 savereqvid = reqvid;

	dprintk("ph3 (cpu%d): starting, currfid 0x%x, currvid 0x%x\n",
		smp_processor_id(),
		data->currfid, data->currvid);

	if (reqvid != data->currvid) {
		if (write_new_vid(data, reqvid))
			return 1;

		if (savefid != data->currfid) {
			printk(KERN_ERR PFX
			       "ph3: bad fid change, save 0x%x, curr 0x%x\n",
			       savefid, data->currfid);
			return 1;
		}

		if (data->currvid != reqvid) {
			printk(KERN_ERR PFX
			       "ph3: failed vid transition\n, "
			       "req 0x%x, curr 0x%x",
			       reqvid, data->currvid);
			return 1;
		}
	}

	if (query_current_values_with_pending_wait(data))
		return 1;

	if (savereqvid != data->currvid) {
		dprintk("ph3 failed, currvid 0x%x\n", data->currvid);
		return 1;
	}

	if (savefid != data->currfid) {
		dprintk("ph3 failed, currfid changed 0x%x\n",
			data->currfid);
		return 1;
	}

	dprintk("ph3 complete, currfid 0x%x, currvid 0x%x\n",
		data->currfid, data->currvid);

	return 0;
}

static void check_supported_cpu(void *_rc)
{
	u32 eax, ebx, ecx, edx;
	int *rc = _rc;

	*rc = -ENODEV;

	if (current_cpu_data.x86_vendor != X86_VENDOR_AMD)
		return;

	eax = cpuid_eax(CPUID_PROCESSOR_SIGNATURE);
	if (((eax & CPUID_XFAM) != CPUID_XFAM_K8) &&
	    ((eax & CPUID_XFAM) < CPUID_XFAM_10H))
		return;

	if ((eax & CPUID_XFAM) == CPUID_XFAM_K8) {
		if (((eax & CPUID_USE_XFAM_XMOD) != CPUID_USE_XFAM_XMOD) ||
		    ((eax & CPUID_XMOD) > CPUID_XMOD_REV_MASK)) {
			printk(KERN_INFO PFX
				"Processor cpuid %x not supported\n", eax);
			return;
		}

		eax = cpuid_eax(CPUID_GET_MAX_CAPABILITIES);
		if (eax < CPUID_FREQ_VOLT_CAPABILITIES) {
			printk(KERN_INFO PFX
			       "No frequency change capabilities detected\n");
			return;
		}

		cpuid(CPUID_FREQ_VOLT_CAPABILITIES, &eax, &ebx, &ecx, &edx);
		if ((edx & P_STATE_TRANSITION_CAPABLE)
			!= P_STATE_TRANSITION_CAPABLE) {
			printk(KERN_INFO PFX
				"Power state transitions not supported\n");
			return;
		}
	} else { /* must be a HW Pstate capable processor */
		cpuid(CPUID_FREQ_VOLT_CAPABILITIES, &eax, &ebx, &ecx, &edx);
		if ((edx & USE_HW_PSTATE) == USE_HW_PSTATE)
			cpu_family = CPU_HW_PSTATE;
		else
			return;
	}

	*rc = 0;
}

static int check_pst_table(struct powernow_k8_data *data, struct pst_s *pst,
		u8 maxvid)
{
	unsigned int j;
	u8 lastfid = 0xff;

	for (j = 0; j < data->numps; j++) {
		if (pst[j].vid > LEAST_VID) {
			printk(KERN_ERR FW_BUG PFX "vid %d invalid : 0x%x\n",
			       j, pst[j].vid);
			return -EINVAL;
		}
		if (pst[j].vid < data->rvo) {
			/* vid + rvo >= 0 */
			printk(KERN_ERR FW_BUG PFX "0 vid exceeded with pstate"
			       " %d\n", j);
			return -ENODEV;
		}
		if (pst[j].vid < maxvid + data->rvo) {
			/* vid + rvo >= maxvid */
			printk(KERN_ERR FW_BUG PFX "maxvid exceeded with pstate"
			       " %d\n", j);
			return -ENODEV;
		}
		if (pst[j].fid > MAX_FID) {
			printk(KERN_ERR FW_BUG PFX "maxfid exceeded with pstate"
			       " %d\n", j);
			return -ENODEV;
		}
		if (j && (pst[j].fid < HI_FID_TABLE_BOTTOM)) {
			/* Only first fid is allowed to be in "low" range */
			printk(KERN_ERR FW_BUG PFX "two low fids - %d : "
			       "0x%x\n", j, pst[j].fid);
			return -EINVAL;
		}
		if (pst[j].fid < lastfid)
			lastfid = pst[j].fid;
	}
	if (lastfid & 1) {
		printk(KERN_ERR FW_BUG PFX "lastfid invalid\n");
		return -EINVAL;
	}
	if (lastfid > LO_FID_TABLE_TOP)
		printk(KERN_INFO FW_BUG PFX
			"first fid not from lo freq table\n");

	return 0;
}

static void invalidate_entry(struct cpufreq_frequency_table *powernow_table,
		unsigned int entry)
{
	powernow_table[entry].frequency = CPUFREQ_ENTRY_INVALID;
}

static void print_basics(struct powernow_k8_data *data)
{
	int j;
	for (j = 0; j < data->numps; j++) {
		if (data->powernow_table[j].frequency !=
				CPUFREQ_ENTRY_INVALID) {
			if (cpu_family == CPU_HW_PSTATE) {
				printk(KERN_INFO PFX
					"   %d : pstate %d (%d MHz)\n", j,
					data->powernow_table[j].index,
					data->powernow_table[j].frequency/1000);
			} else {
				printk(KERN_INFO PFX
					"   %d : fid 0x%x (%d MHz), vid 0x%x\n",
					j,
					data->powernow_table[j].index & 0xff,
					data->powernow_table[j].frequency/1000,
					data->powernow_table[j].index >> 8);
			}
		}
	}
	if (data->batps)
		printk(KERN_INFO PFX "Only %d pstates on battery\n",
				data->batps);
}

static u32 freq_from_fid_did(u32 fid, u32 did)
{
	u32 mhz = 0;

	if (boot_cpu_data.x86 == 0x10)
		mhz = (100 * (fid + 0x10)) >> did;
	else if (boot_cpu_data.x86 == 0x11)
		mhz = (100 * (fid + 8)) >> did;
	else
		BUG();

	return mhz * 1000;
}

static int fill_powernow_table(struct powernow_k8_data *data,
		struct pst_s *pst, u8 maxvid)
{
	struct cpufreq_frequency_table *powernow_table;
	unsigned int j;

	if (data->batps) {
		/* use ACPI support to get full speed on mains power */
		printk(KERN_WARNING PFX
			"Only %d pstates usable (use ACPI driver for full "
			"range\n", data->batps);
		data->numps = data->batps;
	}

	for (j = 1; j < data->numps; j++) {
		if (pst[j-1].fid >= pst[j].fid) {
			printk(KERN_ERR PFX "PST out of sequence\n");
			return -EINVAL;
		}
	}

	if (data->numps < 2) {
		printk(KERN_ERR PFX "no p states to transition\n");
		return -ENODEV;
	}

	if (check_pst_table(data, pst, maxvid))
		return -EINVAL;

	powernow_table = kmalloc((sizeof(struct cpufreq_frequency_table)
		* (data->numps + 1)), GFP_KERNEL);
	if (!powernow_table) {
		printk(KERN_ERR PFX "powernow_table memory alloc failure\n");
		return -ENOMEM;
	}

	for (j = 0; j < data->numps; j++) {
		int freq;
		powernow_table[j].index = pst[j].fid; /* lower 8 bits */
		powernow_table[j].index |= (pst[j].vid << 8); /* upper 8 bits */
		freq = find_khz_freq_from_fid(pst[j].fid);
		powernow_table[j].frequency = freq;
	}
	powernow_table[data->numps].frequency = CPUFREQ_TABLE_END;
	powernow_table[data->numps].index = 0;

	if (query_current_values_with_pending_wait(data)) {
		kfree(powernow_table);
		return -EIO;
	}

	dprintk("cfid 0x%x, cvid 0x%x\n", data->currfid, data->currvid);
	data->powernow_table = powernow_table;
	if (cpumask_first(cpu_core_mask(data->cpu)) == data->cpu)
		print_basics(data);

	for (j = 0; j < data->numps; j++)
		if ((pst[j].fid == data->currfid) &&
		    (pst[j].vid == data->currvid))
			return 0;

	dprintk("currfid/vid do not match PST, ignoring\n");
	return 0;
}

/* Find and validate the PSB/PST table in BIOS. */
static int find_psb_table(struct powernow_k8_data *data)
{
	struct psb_s *psb;
	unsigned int i;
	u32 mvs;
	u8 maxvid;
	u32 cpst = 0;
	u32 thiscpuid;

	for (i = 0xc0000; i < 0xffff0; i += 0x10) {
		/* Scan BIOS looking for the signature. */
		/* It can not be at ffff0 - it is too big. */

		psb = phys_to_virt(i);
		if (memcmp(psb, PSB_ID_STRING, PSB_ID_STRING_LEN) != 0)
			continue;

		dprintk("found PSB header at 0x%p\n", psb);

		dprintk("table vers: 0x%x\n", psb->tableversion);
		if (psb->tableversion != PSB_VERSION_1_4) {
			printk(KERN_ERR FW_BUG PFX "PSB table is not v1.4\n");
			return -ENODEV;
		}

		dprintk("flags: 0x%x\n", psb->flags1);
		if (psb->flags1) {
			printk(KERN_ERR FW_BUG PFX "unknown flags\n");
			return -ENODEV;
		}

		data->vstable = psb->vstable;
		dprintk("voltage stabilization time: %d(*20us)\n",
				data->vstable);

		dprintk("flags2: 0x%x\n", psb->flags2);
		data->rvo = psb->flags2 & 3;
		data->irt = ((psb->flags2) >> 2) & 3;
		mvs = ((psb->flags2) >> 4) & 3;
		data->vidmvs = 1 << mvs;
		data->batps = ((psb->flags2) >> 6) & 3;

		dprintk("ramp voltage offset: %d\n", data->rvo);
		dprintk("isochronous relief time: %d\n", data->irt);
		dprintk("maximum voltage step: %d - 0x%x\n", mvs, data->vidmvs);

		dprintk("numpst: 0x%x\n", psb->num_tables);
		cpst = psb->num_tables;
		if ((psb->cpuid == 0x00000fc0) ||
		    (psb->cpuid == 0x00000fe0)) {
			thiscpuid = cpuid_eax(CPUID_PROCESSOR_SIGNATURE);
			if ((thiscpuid == 0x00000fc0) ||
			    (thiscpuid == 0x00000fe0))
				cpst = 1;
		}
		if (cpst != 1) {
			printk(KERN_ERR FW_BUG PFX "numpst must be 1\n");
			return -ENODEV;
		}

		data->plllock = psb->plllocktime;
		dprintk("plllocktime: 0x%x (units 1us)\n", psb->plllocktime);
		dprintk("maxfid: 0x%x\n", psb->maxfid);
		dprintk("maxvid: 0x%x\n", psb->maxvid);
		maxvid = psb->maxvid;

		data->numps = psb->numps;
		dprintk("numpstates: 0x%x\n", data->numps);
		return fill_powernow_table(data,
				(struct pst_s *)(psb+1), maxvid);
	}
	/*
	 * If you see this message, complain to BIOS manufacturer. If
	 * he tells you "we do not support Linux" or some similar
	 * nonsense, remember that Windows 2000 uses the same legacy
	 * mechanism that the old Linux PSB driver uses. Tell them it
	 * is broken with Windows 2000.
	 *
	 * The reference to the AMD documentation is chapter 9 in the
	 * BIOS and Kernel Developer's Guide, which is available on
	 * www.amd.com
	 */
	printk(KERN_ERR FW_BUG PFX "No PSB or ACPI _PSS objects\n");
	printk(KERN_ERR PFX "Make sure that your BIOS is up to date"
		" and Cool'N'Quiet support is enabled in BIOS setup\n");
	return -ENODEV;
}

static void powernow_k8_acpi_pst_values(struct powernow_k8_data *data,
		unsigned int index)
{
	u64 control;

	if (!data->acpi_data.state_count || (cpu_family == CPU_HW_PSTATE))
		return;

	control = data->acpi_data.states[index].control;
	data->irt = (control >> IRT_SHIFT) & IRT_MASK;
	data->rvo = (control >> RVO_SHIFT) & RVO_MASK;
	data->exttype = (control >> EXT_TYPE_SHIFT) & EXT_TYPE_MASK;
	data->plllock = (control >> PLL_L_SHIFT) & PLL_L_MASK;
	data->vidmvs = 1 << ((control >> MVS_SHIFT) & MVS_MASK);
	data->vstable = (control >> VST_SHIFT) & VST_MASK;
}

static int powernow_k8_cpu_init_acpi(struct powernow_k8_data *data)
{
	struct cpufreq_frequency_table *powernow_table;
	int ret_val = -ENODEV;
	u64 control, status;

	if (acpi_processor_register_performance(&data->acpi_data, data->cpu)) {
		dprintk("register performance failed: bad ACPI data\n");
		return -EIO;
	}

	/* verify the data contained in the ACPI structures */
	if (data->acpi_data.state_count <= 1) {
		dprintk("No ACPI P-States\n");
		goto err_out;
	}

	control = data->acpi_data.control_register.space_id;
	status = data->acpi_data.status_register.space_id;

	if ((control != ACPI_ADR_SPACE_FIXED_HARDWARE) ||
	    (status != ACPI_ADR_SPACE_FIXED_HARDWARE)) {
		dprintk("Invalid control/status registers (%x - %x)\n",
			control, status);
		goto err_out;
	}

	/* fill in data->powernow_table */
	powernow_table = kmalloc((sizeof(struct cpufreq_frequency_table)
		* (data->acpi_data.state_count + 1)), GFP_KERNEL);
	if (!powernow_table) {
		dprintk("powernow_table memory alloc failure\n");
		goto err_out;
	}

	/* fill in data */
	data->numps = data->acpi_data.state_count;
	powernow_k8_acpi_pst_values(data, 0);

	if (cpu_family == CPU_HW_PSTATE)
		ret_val = fill_powernow_table_pstate(data, powernow_table);
	else
		ret_val = fill_powernow_table_fidvid(data, powernow_table);
	if (ret_val)
		goto err_out_mem;

	powernow_table[data->acpi_data.state_count].frequency =
		CPUFREQ_TABLE_END;
	powernow_table[data->acpi_data.state_count].index = 0;
	data->powernow_table = powernow_table;

	if (cpumask_first(cpu_core_mask(data->cpu)) == data->cpu)
		print_basics(data);

	/* notify BIOS that we exist */
	acpi_processor_notify_smm(THIS_MODULE);

	if (!zalloc_cpumask_var(&data->acpi_data.shared_cpu_map, GFP_KERNEL)) {
		printk(KERN_ERR PFX
				"unable to alloc powernow_k8_data cpumask\n");
		ret_val = -ENOMEM;
		goto err_out_mem;
	}

	return 0;

err_out_mem:
	kfree(powernow_table);

err_out:
	acpi_processor_unregister_performance(&data->acpi_data, data->cpu);

	/* data->acpi_data.state_count informs us at ->exit()
	 * whether ACPI was used */
	data->acpi_data.state_count = 0;

	return ret_val;
}

static int fill_powernow_table_pstate(struct powernow_k8_data *data,
		struct cpufreq_frequency_table *powernow_table)
{
	int i;
	u32 hi = 0, lo = 0;
	rdmsr(MSR_PSTATE_CUR_LIMIT, lo, hi);
	data->max_hw_pstate = (lo & HW_PSTATE_MAX_MASK) >> HW_PSTATE_MAX_SHIFT;

	for (i = 0; i < data->acpi_data.state_count; i++) {
		u32 index;

		index = data->acpi_data.states[i].control & HW_PSTATE_MASK;
		if (index > data->max_hw_pstate) {
			printk(KERN_ERR PFX "invalid pstate %d - "
					"bad value %d.\n", i, index);
			printk(KERN_ERR PFX "Please report to BIOS "
					"manufacturer\n");
			invalidate_entry(powernow_table, i);
			continue;
		}
		rdmsr(MSR_PSTATE_DEF_BASE + index, lo, hi);
		if (!(hi & HW_PSTATE_VALID_MASK)) {
			dprintk("invalid pstate %d, ignoring\n", index);
			invalidate_entry(powernow_table, i);
			continue;
		}

		powernow_table[i].index = index;

		/* Frequency may be rounded for these */
		if ((boot_cpu_data.x86 == 0x10 && boot_cpu_data.x86_model < 10)
				 || boot_cpu_data.x86 == 0x11) {
			powernow_table[i].frequency =
				freq_from_fid_did(lo & 0x3f, (lo >> 6) & 7);
		} else
			powernow_table[i].frequency =
				data->acpi_data.states[i].core_frequency * 1000;
	}
	return 0;
}

static int fill_powernow_table_fidvid(struct powernow_k8_data *data,
		struct cpufreq_frequency_table *powernow_table)
{
	int i;

	for (i = 0; i < data->acpi_data.state_count; i++) {
		u32 fid;
		u32 vid;
		u32 freq, index;
		u64 status, control;

		if (data->exttype) {
			status =  data->acpi_data.states[i].status;
			fid = status & EXT_FID_MASK;
			vid = (status >> VID_SHIFT) & EXT_VID_MASK;
		} else {
			control =  data->acpi_data.states[i].control;
			fid = control & FID_MASK;
			vid = (control >> VID_SHIFT) & VID_MASK;
		}

		dprintk("   %d : fid 0x%x, vid 0x%x\n", i, fid, vid);

		index = fid | (vid<<8);
		powernow_table[i].index = index;

		freq = find_khz_freq_from_fid(fid);
		powernow_table[i].frequency = freq;

		/* verify frequency is OK */
		if ((freq > (MAX_FREQ * 1000)) || (freq < (MIN_FREQ * 1000))) {
			dprintk("invalid freq %u kHz, ignoring\n", freq);
			invalidate_entry(powernow_table, i);
			continue;
		}

		/* verify voltage is OK -
		 * BIOSs are using "off" to indicate invalid */
		if (vid == VID_OFF) {
			dprintk("invalid vid %u, ignoring\n", vid);
			invalidate_entry(powernow_table, i);
			continue;
		}

		if (freq != (data->acpi_data.states[i].core_frequency * 1000)) {
			printk(KERN_INFO PFX "invalid freq entries "
				"%u kHz vs. %u kHz\n", freq,
				(unsigned int)
				(data->acpi_data.states[i].core_frequency
				 * 1000));
			invalidate_entry(powernow_table, i);
			continue;
		}
	}
	return 0;
}

static void powernow_k8_cpu_exit_acpi(struct powernow_k8_data *data)
{
	if (data->acpi_data.state_count)
		acpi_processor_unregister_performance(&data->acpi_data,
				data->cpu);
	free_cpumask_var(data->acpi_data.shared_cpu_map);
}

static int get_transition_latency(struct powernow_k8_data *data)
{
	int max_latency = 0;
	int i;
	for (i = 0; i < data->acpi_data.state_count; i++) {
		int cur_latency = data->acpi_data.states[i].transition_latency
			+ data->acpi_data.states[i].bus_master_latency;
		if (cur_latency > max_latency)
			max_latency = cur_latency;
	}
	if (max_latency == 0) {
		/*
		 * Fam 11h and later may return 0 as transition latency. This
		 * is intended and means "very fast". While cpufreq core and
		 * governors currently can handle that gracefully, better set it
		 * to 1 to avoid problems in the future.
		 */
		if (boot_cpu_data.x86 < 0x11)
			printk(KERN_ERR FW_WARN PFX "Invalid zero transition "
				"latency\n");
		max_latency = 1;
	}
	/* value in usecs, needs to be in nanoseconds */
	return 1000 * max_latency;
}

/* Take a frequency, and issue the fid/vid transition command */
static int transition_frequency_fidvid(struct powernow_k8_data *data,
		unsigned int index)
{
	u32 fid = 0;
	u32 vid = 0;
	int res, i;
	struct cpufreq_freqs freqs;

	dprintk("cpu %d transition to index %u\n", smp_processor_id(), index);

	/* fid/vid correctness check for k8 */
	/* fid are the lower 8 bits of the index we stored into
	 * the cpufreq frequency table in find_psb_table, vid
	 * are the upper 8 bits.
	 */
	fid = data->powernow_table[index].index & 0xFF;
	vid = (data->powernow_table[index].index & 0xFF00) >> 8;

	dprintk("table matched fid 0x%x, giving vid 0x%x\n", fid, vid);

	if (query_current_values_with_pending_wait(data))
		return 1;

	if ((data->currvid == vid) && (data->currfid == fid)) {
		dprintk("target matches current values (fid 0x%x, vid 0x%x)\n",
			fid, vid);
		return 0;
	}

	dprintk("cpu %d, changing to fid 0x%x, vid 0x%x\n",
		smp_processor_id(), fid, vid);
	freqs.old = find_khz_freq_from_fid(data->currfid);
	freqs.new = find_khz_freq_from_fid(fid);

	for_each_cpu(i, data->available_cores) {
		freqs.cpu = i;
		cpufreq_notify_transition(&freqs, CPUFREQ_PRECHANGE);
	}

	res = transition_fid_vid(data, fid, vid);
	freqs.new = find_khz_freq_from_fid(data->currfid);

	for_each_cpu(i, data->available_cores) {
		freqs.cpu = i;
		cpufreq_notify_transition(&freqs, CPUFREQ_POSTCHANGE);
	}
	return res;
}

/* Take a frequency, and issue the hardware pstate transition command */
static int transition_frequency_pstate(struct powernow_k8_data *data,
		unsigned int index)
{
	u32 pstate = 0;
	int res, i;
	struct cpufreq_freqs freqs;

	dprintk("cpu %d transition to index %u\n", smp_processor_id(), index);

	/* get MSR index for hardware pstate transition */
	pstate = index & HW_PSTATE_MASK;
	if (pstate > data->max_hw_pstate)
		return 0;
	freqs.old = find_khz_freq_from_pstate(data->powernow_table,
			data->currpstate);
	freqs.new = find_khz_freq_from_pstate(data->powernow_table, pstate);

	for_each_cpu(i, data->available_cores) {
		freqs.cpu = i;
		cpufreq_notify_transition(&freqs, CPUFREQ_PRECHANGE);
	}

	res = transition_pstate(data, pstate);
	freqs.new = find_khz_freq_from_pstate(data->powernow_table, pstate);

	for_each_cpu(i, data->available_cores) {
		freqs.cpu = i;
		cpufreq_notify_transition(&freqs, CPUFREQ_POSTCHANGE);
	}
	return res;
}

/* Driver entry point to switch to the target frequency */
static int powernowk8_target(struct cpufreq_policy *pol,
		unsigned targfreq, unsigned relation)
{
	cpumask_var_t oldmask;
	struct powernow_k8_data *data = per_cpu(powernow_data, pol->cpu);
	u32 checkfid;
	u32 checkvid;
	unsigned int newstate;
	int ret = -EIO;

	if (!data)
		return -EINVAL;

	checkfid = data->currfid;
	checkvid = data->currvid;

	/* only run on specific CPU from here on. */
	/* This is poor form: use a workqueue or smp_call_function_single */
	if (!alloc_cpumask_var(&oldmask, GFP_KERNEL))
		return -ENOMEM;

	cpumask_copy(oldmask, tsk_cpus_allowed(current));
	set_cpus_allowed_ptr(current, cpumask_of(pol->cpu));

	if (smp_processor_id() != pol->cpu) {
		printk(KERN_ERR PFX "limiting to cpu %u failed\n", pol->cpu);
		goto err_out;
	}

	if (pending_bit_stuck()) {
		printk(KERN_ERR PFX "failing targ, change pending bit set\n");
		goto err_out;
	}

	dprintk("targ: cpu %d, %d kHz, min %d, max %d, relation %d\n",
		pol->cpu, targfreq, pol->min, pol->max, relation);

	if (query_current_values_with_pending_wait(data))
		goto err_out;

	if (cpu_family != CPU_HW_PSTATE) {
		dprintk("targ: curr fid 0x%x, vid 0x%x\n",
		data->currfid, data->currvid);

		if ((checkvid != data->currvid) ||
		    (checkfid != data->currfid)) {
			printk(KERN_INFO PFX
				"error - out of sync, fix 0x%x 0x%x, "
				"vid 0x%x 0x%x\n",
				checkfid, data->currfid,
				checkvid, data->currvid);
		}
	}

	if (cpufreq_frequency_table_target(pol, data->powernow_table,
				targfreq, relation, &newstate))
		goto err_out;

	mutex_lock(&fidvid_mutex);

	powernow_k8_acpi_pst_values(data, newstate);

	if (cpu_family == CPU_HW_PSTATE)
		ret = transition_frequency_pstate(data, newstate);
	else
		ret = transition_frequency_fidvid(data, newstate);
	if (ret) {
		printk(KERN_ERR PFX "transition frequency failed\n");
		ret = 1;
		mutex_unlock(&fidvid_mutex);
		goto err_out;
	}
	mutex_unlock(&fidvid_mutex);

	if (cpu_family == CPU_HW_PSTATE)
		pol->cur = find_khz_freq_from_pstate(data->powernow_table,
				newstate);
	else
		pol->cur = find_khz_freq_from_fid(data->currfid);
	ret = 0;

err_out:
	set_cpus_allowed_ptr(current, oldmask);
	free_cpumask_var(oldmask);
	return ret;
}

/* Driver entry point to verify the policy and range of frequencies */
static int powernowk8_verify(struct cpufreq_policy *pol)
{
	struct powernow_k8_data *data = per_cpu(powernow_data, pol->cpu);

	if (!data)
		return -EINVAL;

	return cpufreq_frequency_table_verify(pol, data->powernow_table);
}

struct init_on_cpu {
	struct powernow_k8_data *data;
	int rc;
};

static void __cpuinit powernowk8_cpu_init_on_cpu(void *_init_on_cpu)
{
	struct init_on_cpu *init_on_cpu = _init_on_cpu;

	if (pending_bit_stuck()) {
		printk(KERN_ERR PFX "failing init, change pending bit set\n");
		init_on_cpu->rc = -ENODEV;
		return;
	}

	if (query_current_values_with_pending_wait(init_on_cpu->data)) {
		init_on_cpu->rc = -ENODEV;
		return;
	}

	if (cpu_family == CPU_OPTERON)
		fidvid_msr_init();

	init_on_cpu->rc = 0;
}

/* per CPU init entry point to the driver */
static int __cpuinit powernowk8_cpu_init(struct cpufreq_policy *pol)
{
	static const char ACPI_PSS_BIOS_BUG_MSG[] =
		KERN_ERR FW_BUG PFX "No compatible ACPI _PSS objects found.\n"
		FW_BUG PFX "Try again with latest BIOS.\n";
	struct powernow_k8_data *data;
	struct init_on_cpu init_on_cpu;
	int rc;
	struct cpuinfo_x86 *c = &cpu_data(pol->cpu);

	if (!cpu_online(pol->cpu))
		return -ENODEV;

	smp_call_function_single(pol->cpu, check_supported_cpu, &rc, 1);
	if (rc)
		return -ENODEV;

	data = kzalloc(sizeof(struct powernow_k8_data), GFP_KERNEL);
	if (!data) {
		printk(KERN_ERR PFX "unable to alloc powernow_k8_data");
		return -ENOMEM;
	}

	data->cpu = pol->cpu;
	data->currpstate = HW_PSTATE_INVALID;

	if (powernow_k8_cpu_init_acpi(data)) {
		/*
		 * Use the PSB BIOS structure. This is only availabe on
		 * an UP version, and is deprecated by AMD.
		 */
		if (num_online_cpus() != 1) {
			printk_once(ACPI_PSS_BIOS_BUG_MSG);
			goto err_out;
		}
		if (pol->cpu != 0) {
			printk(KERN_ERR FW_BUG PFX "No ACPI _PSS objects for "
			       "CPU other than CPU0. Complain to your BIOS "
			       "vendor.\n");
			goto err_out;
		}
		rc = find_psb_table(data);
		if (rc)
			goto err_out;

		/* Take a crude guess here.
		 * That guess was in microseconds, so multiply with 1000 */
		pol->cpuinfo.transition_latency = (
			 ((data->rvo + 8) * data->vstable * VST_UNITS_20US) +
			 ((1 << data->irt) * 30)) * 1000;
	} else /* ACPI _PSS objects available */
		pol->cpuinfo.transition_latency = get_transition_latency(data);

	/* only run on specific CPU from here on */
	init_on_cpu.data = data;
	smp_call_function_single(data->cpu, powernowk8_cpu_init_on_cpu,
				 &init_on_cpu, 1);
	rc = init_on_cpu.rc;
	if (rc != 0)
		goto err_out_exit_acpi;

	if (cpu_family == CPU_HW_PSTATE)
		cpumask_copy(pol->cpus, cpumask_of(pol->cpu));
	else
		cpumask_copy(pol->cpus, cpu_core_mask(pol->cpu));
	data->available_cores = pol->cpus;

	if (cpu_family == CPU_HW_PSTATE)
		pol->cur = find_khz_freq_from_pstate(data->powernow_table,
				data->currpstate);
	else
		pol->cur = find_khz_freq_from_fid(data->currfid);
	dprintk("policy current frequency %d kHz\n", pol->cur);

	/* min/max the cpu is capable of */
	if (cpufreq_frequency_table_cpuinfo(pol, data->powernow_table)) {
		printk(KERN_ERR FW_BUG PFX "invalid powernow_table\n");
		powernow_k8_cpu_exit_acpi(data);
		kfree(data->powernow_table);
		kfree(data);
		return -EINVAL;
	}

	/* Check for APERF/MPERF support in hardware */
	if (cpu_has(c, X86_FEATURE_APERFMPERF))
		cpufreq_amd64_driver.getavg = cpufreq_get_measured_perf;

	cpufreq_frequency_table_get_attr(data->powernow_table, pol->cpu);

	if (cpu_family == CPU_HW_PSTATE)
		dprintk("cpu_init done, current pstate 0x%x\n",
				data->currpstate);
	else
		dprintk("cpu_init done, current fid 0x%x, vid 0x%x\n",
			data->currfid, data->currvid);

	per_cpu(powernow_data, pol->cpu) = data;

	return 0;

err_out_exit_acpi:
	powernow_k8_cpu_exit_acpi(data);

err_out:
	kfree(data);
	return -ENODEV;
}

static int __devexit powernowk8_cpu_exit(struct cpufreq_policy *pol)
{
	struct powernow_k8_data *data = per_cpu(powernow_data, pol->cpu);

	if (!data)
		return -EINVAL;

	powernow_k8_cpu_exit_acpi(data);

	cpufreq_frequency_table_put_attr(pol->cpu);

	kfree(data->powernow_table);
	kfree(data);
	per_cpu(powernow_data, pol->cpu) = NULL;

	return 0;
}

static void query_values_on_cpu(void *_err)
{
	int *err = _err;
	struct powernow_k8_data *data = __get_cpu_var(powernow_data);

	*err = query_current_values_with_pending_wait(data);
}

static unsigned int powernowk8_get(unsigned int cpu)
{
	struct powernow_k8_data *data = per_cpu(powernow_data, cpu);
	unsigned int khz = 0;
	int err;

	if (!data)
		return 0;

	smp_call_function_single(cpu, query_values_on_cpu, &err, true);
	if (err)
		goto out;

	if (cpu_family == CPU_HW_PSTATE)
		khz = find_khz_freq_from_pstate(data->powernow_table,
						data->currpstate);
	else
		khz = find_khz_freq_from_fid(data->currfid);


out:
	return khz;
}

static void _cpb_toggle_msrs(bool t)
{
	int cpu;

	get_online_cpus();

	rdmsr_on_cpus(cpu_online_mask, MSR_K7_HWCR, msrs);

	for_each_cpu(cpu, cpu_online_mask) {
		struct msr *reg = per_cpu_ptr(msrs, cpu);
		if (t)
			reg->l &= ~BIT(25);
		else
			reg->l |= BIT(25);
	}
	wrmsr_on_cpus(cpu_online_mask, MSR_K7_HWCR, msrs);

	put_online_cpus();
}

/*
 * Switch on/off core performance boosting.
 *
 * 0=disable
 * 1=enable.
 */
static void cpb_toggle(bool t)
{
	if (!cpb_capable)
		return;

	if (t && !cpb_enabled) {
		cpb_enabled = true;
		_cpb_toggle_msrs(t);
		printk(KERN_INFO PFX "Core Boosting enabled.\n");
	} else if (!t && cpb_enabled) {
		cpb_enabled = false;
		_cpb_toggle_msrs(t);
		printk(KERN_INFO PFX "Core Boosting disabled.\n");
	}
}

static ssize_t store_cpb(struct cpufreq_policy *policy, const char *buf,
				 size_t count)
{
	int ret = -EINVAL;
	unsigned long val = 0;

	ret = strict_strtoul(buf, 10, &val);
	if (!ret && (val == 0 || val == 1) && cpb_capable)
		cpb_toggle(val);
	else
		return -EINVAL;

	return count;
}

static ssize_t show_cpb(struct cpufreq_policy *policy, char *buf)
{
	return sprintf(buf, "%u\n", cpb_enabled);
}

#define define_one_rw(_name) \
static struct freq_attr _name = \
__ATTR(_name, 0644, show_##_name, store_##_name)

define_one_rw(cpb);

static struct freq_attr *powernow_k8_attr[] = {
	&cpufreq_freq_attr_scaling_available_freqs,
	&cpb,
	NULL,
};

static struct cpufreq_driver cpufreq_amd64_driver = {
	.verify		= powernowk8_verify,
	.target		= powernowk8_target,
	.bios_limit	= acpi_processor_get_bios_limit,
	.init		= powernowk8_cpu_init,
	.exit		= __devexit_p(powernowk8_cpu_exit),
	.get		= powernowk8_get,
	.name		= "powernow-k8",
	.owner		= THIS_MODULE,
	.attr		= powernow_k8_attr,
};

/*
 * Clear the boost-disable flag on the CPU_DOWN path so that this cpu
 * cannot block the remaining ones from boosting. On the CPU_UP path we
 * simply keep the boost-disable flag in sync with the current global
 * state.
 */
static int cpb_notify(struct notifier_block *nb, unsigned long action,
		      void *hcpu)
{
	unsigned cpu = (long)hcpu;
	u32 lo, hi;

	switch (action) {
	case CPU_UP_PREPARE:
	case CPU_UP_PREPARE_FROZEN:

		if (!cpb_enabled) {
			rdmsr_on_cpu(cpu, MSR_K7_HWCR, &lo, &hi);
			lo |= BIT(25);
			wrmsr_on_cpu(cpu, MSR_K7_HWCR, lo, hi);
		}
		break;

	case CPU_DOWN_PREPARE:
	case CPU_DOWN_PREPARE_FROZEN:
		rdmsr_on_cpu(cpu, MSR_K7_HWCR, &lo, &hi);
		lo &= ~BIT(25);
		wrmsr_on_cpu(cpu, MSR_K7_HWCR, lo, hi);
		break;

	default:
		break;
	}

	return NOTIFY_OK;
}

static struct notifier_block cpb_nb = {
	.notifier_call		= cpb_notify,
};

/* driver entry point for init */
static int __cpuinit powernowk8_init(void)
{
	unsigned int i, supported_cpus = 0, cpu;

	for_each_online_cpu(i) {
		int rc;
		smp_call_function_single(i, check_supported_cpu, &rc, 1);
		if (rc == 0)
			supported_cpus++;
	}

	if (supported_cpus != num_online_cpus())
		return -ENODEV;

	printk(KERN_INFO PFX "Found %d %s (%d cpu cores) (" VERSION ")\n",
		num_online_nodes(), boot_cpu_data.x86_model_id, supported_cpus);

	if (boot_cpu_has(X86_FEATURE_CPB)) {

		cpb_capable = true;

		register_cpu_notifier(&cpb_nb);

		msrs = msrs_alloc();
		if (!msrs) {
			printk(KERN_ERR "%s: Error allocating msrs!\n", __func__);
			return -ENOMEM;
		}

		rdmsr_on_cpus(cpu_online_mask, MSR_K7_HWCR, msrs);

		for_each_cpu(cpu, cpu_online_mask) {
			struct msr *reg = per_cpu_ptr(msrs, cpu);
			cpb_enabled |= !(!!(reg->l & BIT(25)));
		}

		printk(KERN_INFO PFX "Core Performance Boosting: %s.\n",
			(cpb_enabled ? "on" : "off"));
	}

	return cpufreq_register_driver(&cpufreq_amd64_driver);
}

/* driver entry point for term */
static void __exit powernowk8_exit(void)
{
	dprintk("exit\n");

	if (boot_cpu_has(X86_FEATURE_CPB)) {
		msrs_free(msrs);
		msrs = NULL;

		unregister_cpu_notifier(&cpb_nb);
	}

	cpufreq_unregister_driver(&cpufreq_amd64_driver);
}

MODULE_AUTHOR("Paul Devriendt <paul.devriendt@amd.com> and "
		"Mark Langsdorf <mark.langsdorf@amd.com>");
MODULE_DESCRIPTION("AMD Athlon 64 and Opteron processor frequency driver.");
MODULE_LICENSE("GPL");

late_initcall(powernowk8_init);
module_exit(powernowk8_exit);