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path: root/src/cpu/intel/haswell/haswell_init.c
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/* SPDX-License-Identifier: GPL-2.0-only */

#include <console/console.h>
#include <device/device.h>
#include <acpi/acpi.h>
#include <cpu/cpu.h>
#include <cpu/x86/mtrr.h>
#include <cpu/x86/msr.h>
#include <cpu/x86/mp.h>
#include <cpu/intel/microcode.h>
#include <cpu/intel/smm_reloc.h>
#include <cpu/intel/speedstep.h>
#include <cpu/intel/turbo.h>
#include <cpu/x86/name.h>
#include <delay.h>
#include <northbridge/intel/haswell/haswell.h>
#include <southbridge/intel/lynxpoint/pch.h>
#include <cpu/intel/common/common.h>
#include <types.h>
#include "haswell.h"
#include "chip.h"

/* Convert time in seconds to POWER_LIMIT_1_TIME MSR value */
static const u8 power_limit_time_sec_to_msr[] = {
	[0]   = 0x00,
	[1]   = 0x0a,
	[2]   = 0x0b,
	[3]   = 0x4b,
	[4]   = 0x0c,
	[5]   = 0x2c,
	[6]   = 0x4c,
	[7]   = 0x6c,
	[8]   = 0x0d,
	[10]  = 0x2d,
	[12]  = 0x4d,
	[14]  = 0x6d,
	[16]  = 0x0e,
	[20]  = 0x2e,
	[24]  = 0x4e,
	[28]  = 0x6e,
	[32]  = 0x0f,
	[40]  = 0x2f,
	[48]  = 0x4f,
	[56]  = 0x6f,
	[64]  = 0x10,
	[80]  = 0x30,
	[96]  = 0x50,
	[112] = 0x70,
	[128] = 0x11,
};

/* Convert POWER_LIMIT_1_TIME MSR value to seconds */
static const u8 power_limit_time_msr_to_sec[] = {
	[0x00] = 0,
	[0x0a] = 1,
	[0x0b] = 2,
	[0x4b] = 3,
	[0x0c] = 4,
	[0x2c] = 5,
	[0x4c] = 6,
	[0x6c] = 7,
	[0x0d] = 8,
	[0x2d] = 10,
	[0x4d] = 12,
	[0x6d] = 14,
	[0x0e] = 16,
	[0x2e] = 20,
	[0x4e] = 24,
	[0x6e] = 28,
	[0x0f] = 32,
	[0x2f] = 40,
	[0x4f] = 48,
	[0x6f] = 56,
	[0x10] = 64,
	[0x30] = 80,
	[0x50] = 96,
	[0x70] = 112,
	[0x11] = 128,
};

/* The core 100MHz BCLK is disabled in deeper c-states. One needs to calibrate
 * the 100MHz BCLK against the 24MHz BCLK to restore the clocks properly
 * when a core is woken up. */
static int pcode_ready(void)
{
	int wait_count;
	const int delay_step = 10;

	wait_count = 0;
	do {
		if (!(mchbar_read32(BIOS_MAILBOX_INTERFACE) & MAILBOX_RUN_BUSY))
			return 0;
		wait_count += delay_step;
		udelay(delay_step);
	} while (wait_count < 1000);

	return -1;
}

static void calibrate_24mhz_bclk(void)
{
	int err_code;

	if (pcode_ready() < 0) {
		printk(BIOS_ERR, "PCODE: mailbox timeout on wait ready.\n");
		return;
	}

	/* A non-zero value initiates the PCODE calibration. */
	mchbar_write32(BIOS_MAILBOX_DATA, ~0);
	mchbar_write32(BIOS_MAILBOX_INTERFACE,
		MAILBOX_RUN_BUSY | MAILBOX_BIOS_CMD_FSM_MEASURE_INTVL);

	if (pcode_ready() < 0) {
		printk(BIOS_ERR, "PCODE: mailbox timeout on completion.\n");
		return;
	}

	err_code = mchbar_read32(BIOS_MAILBOX_INTERFACE) & 0xff;

	printk(BIOS_DEBUG, "PCODE: 24MHz BCLK calibration response: %d\n",
	       err_code);

	/* Read the calibrated value. */
	mchbar_write32(BIOS_MAILBOX_INTERFACE,
		MAILBOX_RUN_BUSY | MAILBOX_BIOS_CMD_READ_CALIBRATION);

	if (pcode_ready() < 0) {
		printk(BIOS_ERR, "PCODE: mailbox timeout on read.\n");
		return;
	}

	printk(BIOS_DEBUG, "PCODE: 24MHz BCLK calibration value: 0x%08x\n",
	       mchbar_read32(BIOS_MAILBOX_DATA));
}

static u32 pcode_mailbox_read(u32 command)
{
	if (pcode_ready() < 0) {
		printk(BIOS_ERR, "PCODE: mailbox timeout on wait ready.\n");
		return 0;
	}

	/* Send command and start transaction */
	mchbar_write32(BIOS_MAILBOX_INTERFACE, command | MAILBOX_RUN_BUSY);

	if (pcode_ready() < 0) {
		printk(BIOS_ERR, "PCODE: mailbox timeout on completion.\n");
		return 0;
	}

	/* Read mailbox */
	return mchbar_read32(BIOS_MAILBOX_DATA);
}

static int pcode_mailbox_write(u32 command, u32 data)
{
	if (pcode_ready() < 0) {
		printk(BIOS_ERR, "PCODE: mailbox timeout on wait ready.\n");
		return -1;
	}

	mchbar_write32(BIOS_MAILBOX_DATA, data);

	/* Send command and start transaction */
	mchbar_write32(BIOS_MAILBOX_INTERFACE, command | MAILBOX_RUN_BUSY);

	if (pcode_ready() < 0) {
		printk(BIOS_ERR, "PCODE: mailbox timeout on completion.\n");
		return -1;
	}

	return 0;
}

static void initialize_vr_config(void)
{
	struct cpu_vr_config vr_config = { 0 };
	msr_t msr;

	const struct device *lapic = dev_find_lapic(SPEEDSTEP_APIC_MAGIC);

	if (lapic && lapic->chip_info) {
		const struct cpu_intel_haswell_config *conf = lapic->chip_info;

		vr_config = conf->vr_config;
	}

	printk(BIOS_DEBUG, "Initializing VR config.\n");

	/*  Configure VR_CURRENT_CONFIG. */
	msr = rdmsr(MSR_VR_CURRENT_CONFIG);
	/* Preserve bits 63 and 62. Bit 62 is PSI4 enable, but it is only valid
	 * on ULT systems. */
	msr.hi &= 0xc0000000;
	msr.hi |= (0x01 << (52 - 32)); /* PSI3 threshold -  1A. */
	msr.hi |= (0x05 << (42 - 32)); /* PSI2 threshold -  5A. */
	msr.hi |= (0x14 << (32 - 32)); /* PSI1 threshold - 20A. */

	if (haswell_is_ult())
		msr.hi |= (1 <<  (62 - 32)); /* Enable PSI4 */
	/* Leave the max instantaneous current limit (12:0) to default. */
	wrmsr(MSR_VR_CURRENT_CONFIG, msr);

	/*  Configure VR_MISC_CONFIG MSR. */
	msr = rdmsr(MSR_VR_MISC_CONFIG);
	/* Set the IOUT_SLOPE scalar applied to dIout in U10.1.9 format. */
	msr.hi &= ~(0x3ff << (40 - 32));
	msr.hi |= (0x200 << (40 - 32)); /* 1.0 */
	/* Set IOUT_OFFSET to 0. */
	msr.hi &= ~0xff;
	/* Set exit ramp rate to fast. */
	msr.hi |= (1 << (50 - 32));
	/* Set entry ramp rate to slow. */
	msr.hi &= ~(1 << (51 - 32));
	/* Enable decay mode on C-state entry. */
	msr.hi |= (1 << (52 - 32));
	/* Set the slow ramp rate */
	if (haswell_is_ult()) {
		msr.hi &= ~(0x3 << (53 - 32));
		/* Configure the C-state exit ramp rate. */
		if (vr_config.slow_ramp_rate_enable) {
			/* Configured slow ramp rate. */
			msr.hi |= ((vr_config.slow_ramp_rate_set & 0x3) << (53 - 32));
			/* Set exit ramp rate to slow. */
			msr.hi &= ~(1 << (50 - 32));
		} else {
			/* Fast ramp rate / 4. */
			msr.hi |= (1 << (53 - 32));
		}
	}
	/* Set MIN_VID (31:24) to allow CPU to have full control. */
	msr.lo &= ~0xff000000;
	msr.lo |= (vr_config.cpu_min_vid & 0xff) << 24;
	wrmsr(MSR_VR_MISC_CONFIG, msr);

	/*  Configure VR_MISC_CONFIG2 MSR. */
	if (!haswell_is_ult())
		return;

	msr = rdmsr(MSR_VR_MISC_CONFIG2);
	msr.lo &= ~0xffff;
	/* Allow CPU to control minimum voltage completely (15:8) and
	   set the fast ramp voltage in 10mV steps. */
	if (cpu_family_model() == BROADWELL_FAMILY_ULT)
		msr.lo |= 0x006a; /* 1.56V */
	else
		msr.lo |= 0x006f; /* 1.60V */
	wrmsr(MSR_VR_MISC_CONFIG2, msr);

	/* Set C9/C10 VCC Min */
	pcode_mailbox_write(MAILBOX_BIOS_CMD_WRITE_C9C10_VOLTAGE, 0x1f1f);
}

static void configure_pch_power_sharing(void)
{
	u32 pch_power, pch_power_ext, pmsync, pmsync2;
	int i;

	/* Read PCH Power levels from PCODE */
	pch_power = pcode_mailbox_read(MAILBOX_BIOS_CMD_READ_PCH_POWER);
	pch_power_ext = pcode_mailbox_read(MAILBOX_BIOS_CMD_READ_PCH_POWER_EXT);

	printk(BIOS_INFO, "PCH Power: PCODE Levels 0x%08x 0x%08x\n",
		pch_power, pch_power_ext);

	pmsync = RCBA32(PMSYNC_CONFIG);
	pmsync2 = RCBA32(PMSYNC_CONFIG2);

	/* Program PMSYNC_TPR_CONFIG PCH power limit values
	 *  pmsync[0:4]   = mailbox[0:5]
	 *  pmsync[8:12]  = mailbox[6:11]
	 *  pmsync[16:20] = mailbox[12:17]
	 */
	for (i = 0; i < 3; i++) {
		u32 level = pch_power & 0x3f;
		pch_power >>= 6;
		pmsync &= ~(0x1f << (i * 8));
		pmsync |= (level & 0x1f) << (i * 8);
	}
	RCBA32(PMSYNC_CONFIG) = pmsync;

	/* Program PMSYNC_TPR_CONFIG2 Extended PCH power limit values
	 *  pmsync2[0:4]   = mailbox[23:18]
	 *  pmsync2[8:12]  = mailbox_ext[6:11]
	 *  pmsync2[16:20] = mailbox_ext[12:17]
	 *  pmsync2[24:28] = mailbox_ext[18:22]
	 */
	pmsync2 &= ~0x1f;
	pmsync2 |= pch_power & 0x1f;

	for (i = 1; i < 4; i++) {
		u32 level = pch_power_ext & 0x3f;
		pch_power_ext >>= 6;
		pmsync2 &= ~(0x1f << (i * 8));
		pmsync2 |= (level & 0x1f) << (i * 8);
	}
	RCBA32(PMSYNC_CONFIG2) = pmsync2;
}

int cpu_config_tdp_levels(void)
{
	msr_t platform_info;

	/* Bits 34:33 indicate how many levels supported */
	platform_info = rdmsr(MSR_PLATFORM_INFO);
	return (platform_info.hi >> 1) & 3;
}

/*
 * Configure processor power limits if possible
 * This must be done AFTER set of BIOS_RESET_CPL
 */
void set_power_limits(u8 power_limit_1_time)
{
	msr_t msr = rdmsr(MSR_PLATFORM_INFO);
	msr_t limit;
	unsigned int power_unit;
	unsigned int tdp, min_power, max_power, max_time;
	u8 power_limit_1_val;

	if (power_limit_1_time >= ARRAY_SIZE(power_limit_time_sec_to_msr))
		power_limit_1_time = ARRAY_SIZE(power_limit_time_sec_to_msr) - 1;

	if (!(msr.lo & PLATFORM_INFO_SET_TDP))
		return;

	/* Get units */
	msr = rdmsr(MSR_PKG_POWER_SKU_UNIT);
	power_unit = 2 << ((msr.lo & 0xf) - 1);

	/* Get power defaults for this SKU */
	msr = rdmsr(MSR_PKG_POWER_SKU);
	tdp = msr.lo & 0x7fff;
	min_power = (msr.lo >> 16) & 0x7fff;
	max_power = msr.hi & 0x7fff;
	max_time = (msr.hi >> 16) & 0x7f;

	printk(BIOS_DEBUG, "CPU TDP: %u Watts\n", tdp / power_unit);

	if (power_limit_time_msr_to_sec[max_time] > power_limit_1_time)
		power_limit_1_time = power_limit_time_msr_to_sec[max_time];

	if (min_power > 0 && tdp < min_power)
		tdp = min_power;

	if (max_power > 0 && tdp > max_power)
		tdp = max_power;

	power_limit_1_val = power_limit_time_sec_to_msr[power_limit_1_time];

	/* Set long term power limit to TDP */
	limit.lo = 0;
	limit.lo |= tdp & PKG_POWER_LIMIT_MASK;
	limit.lo |= PKG_POWER_LIMIT_EN;
	limit.lo |= (power_limit_1_val & PKG_POWER_LIMIT_TIME_MASK) <<
		PKG_POWER_LIMIT_TIME_SHIFT;

	/* Set short term power limit to 1.25 * TDP */
	limit.hi = 0;
	limit.hi |= ((tdp * 125) / 100) & PKG_POWER_LIMIT_MASK;
	limit.hi |= PKG_POWER_LIMIT_EN;
	/* Power limit 2 time is only programmable on server SKU */

	wrmsr(MSR_PKG_POWER_LIMIT, limit);

	/* Set power limit values in MCHBAR as well */
	mchbar_write32(MCH_PKG_POWER_LIMIT_LO, limit.lo);
	mchbar_write32(MCH_PKG_POWER_LIMIT_HI, limit.hi);

	/* Set DDR RAPL power limit by copying from MMIO to MSR */
	msr.lo = mchbar_read32(MCH_DDR_POWER_LIMIT_LO);
	msr.hi = mchbar_read32(MCH_DDR_POWER_LIMIT_HI);
	wrmsr(MSR_DDR_RAPL_LIMIT, msr);

	/* Use nominal TDP values for CPUs with configurable TDP */
	if (cpu_config_tdp_levels()) {
		msr = rdmsr(MSR_CONFIG_TDP_NOMINAL);
		limit.hi = 0;
		limit.lo = msr.lo & 0xff;
		wrmsr(MSR_TURBO_ACTIVATION_RATIO, limit);
	}
}

static void configure_c_states(void)
{
	msr_t msr = rdmsr(MSR_PLATFORM_INFO);

	const bool timed_mwait_capable = !!(msr.hi & TIMED_MWAIT_SUPPORTED);

	msr = rdmsr(MSR_PKG_CST_CONFIG_CONTROL);
	msr.lo |= (1 << 30);	// Package c-state Undemotion Enable
	msr.lo |= (1 << 29);	// Package c-state Demotion Enable
	msr.lo |= (1 << 28);	// C1 Auto Undemotion Enable
	msr.lo |= (1 << 27);	// C3 Auto Undemotion Enable
	msr.lo |= (1 << 26);	// C1 Auto Demotion Enable
	msr.lo |= (1 << 25);	// C3 Auto Demotion Enable
	msr.lo |= (1 << 15);	// Lock bits 15:0
	msr.lo &= ~(1 << 10);	// Disable IO MWAIT redirection

	if (timed_mwait_capable)
		msr.lo |= (1 << 31);	// Timed MWAIT Enable

	/* The deepest package c-state defaults to factory-configured value. */
	wrmsr(MSR_PKG_CST_CONFIG_CONTROL, msr);

	msr = rdmsr(MSR_MISC_PWR_MGMT);
	msr.lo &= ~(1 << 0);	// Enable P-state HW_ALL coordination
	wrmsr(MSR_MISC_PWR_MGMT, msr);

	msr = rdmsr(MSR_POWER_CTL);
	msr.lo |= (1 << 18);	// Enable Energy Perf Bias MSR 0x1b0
	msr.lo |= (1 << 1);	// C1E Enable
	msr.lo |= (1 << 0);	// Bi-directional PROCHOT#
	wrmsr(MSR_POWER_CTL, msr);

	/* C-state Interrupt Response Latency Control 0 - package C3 latency */
	msr.hi = 0;
	msr.lo = IRTL_VALID | IRTL_1024_NS | C_STATE_LATENCY_CONTROL_0_LIMIT;
	wrmsr(MSR_C_STATE_LATENCY_CONTROL_0, msr);

	/* C-state Interrupt Response Latency Control 1 */
	msr.hi = 0;
	msr.lo = IRTL_VALID | IRTL_1024_NS | C_STATE_LATENCY_CONTROL_1_LIMIT;
	wrmsr(MSR_C_STATE_LATENCY_CONTROL_1, msr);

	/* C-state Interrupt Response Latency Control 2 - package C6/C7 short */
	msr.hi = 0;
	msr.lo = IRTL_VALID | IRTL_1024_NS | C_STATE_LATENCY_CONTROL_2_LIMIT;
	wrmsr(MSR_C_STATE_LATENCY_CONTROL_2, msr);

	/* Only Haswell ULT supports the 3-5 latency response registers */
	if (!haswell_is_ult())
		return;

	/* C-state Interrupt Response Latency Control 3 - package C8 */
	msr.hi = 0;
	msr.lo = IRTL_VALID | IRTL_1024_NS | C_STATE_LATENCY_CONTROL_3_LIMIT;
	wrmsr(MSR_C_STATE_LATENCY_CONTROL_3, msr);

	/* C-state Interrupt Response Latency Control 4 - package C9 */
	msr.hi = 0;
	msr.lo = IRTL_VALID | IRTL_1024_NS | C_STATE_LATENCY_CONTROL_4_LIMIT;
	wrmsr(MSR_C_STATE_LATENCY_CONTROL_4, msr);

	/* C-state Interrupt Response Latency Control 5 - package C10 */
	msr.hi = 0;
	msr.lo = IRTL_VALID | IRTL_1024_NS | C_STATE_LATENCY_CONTROL_5_LIMIT;
	wrmsr(MSR_C_STATE_LATENCY_CONTROL_5, msr);
}

static void configure_thermal_target(void)
{
	struct cpu_intel_haswell_config *conf;
	struct device *lapic;
	msr_t msr;

	/* Find pointer to CPU configuration */
	lapic = dev_find_lapic(SPEEDSTEP_APIC_MAGIC);
	if (!lapic || !lapic->chip_info)
		return;
	conf = lapic->chip_info;

	/* Set TCC activation offset if supported */
	msr = rdmsr(MSR_PLATFORM_INFO);
	if ((msr.lo & (1 << 30)) && conf->tcc_offset) {
		msr = rdmsr(MSR_TEMPERATURE_TARGET);
		msr.lo &= ~(0xf << 24); /* Bits 27:24 */
		msr.lo |= (conf->tcc_offset & 0xf) << 24;
		wrmsr(MSR_TEMPERATURE_TARGET, msr);
	}
}

static void configure_misc(void)
{
	msr_t msr;

	msr = rdmsr(IA32_MISC_ENABLE);
	msr.lo |= (1 << 0);	  /* Fast String enable */
	msr.lo |= (1 << 3);	  /* TM1/TM2/EMTTM enable */
	msr.lo |= (1 << 16);	  /* Enhanced SpeedStep Enable */
	wrmsr(IA32_MISC_ENABLE, msr);

	/* Disable Thermal interrupts */
	msr.lo = 0;
	msr.hi = 0;
	wrmsr(IA32_THERM_INTERRUPT, msr);

	/* Enable package critical interrupt only */
	msr.lo = 1 << 4;
	msr.hi = 0;
	wrmsr(IA32_PACKAGE_THERM_INTERRUPT, msr);
}

static void set_max_ratio(void)
{
	msr_t msr, perf_ctl;

	perf_ctl.hi = 0;

	/* Check for configurable TDP option */
	if (get_turbo_state() == TURBO_ENABLED) {
		msr = rdmsr(MSR_TURBO_RATIO_LIMIT);
		perf_ctl.lo = (msr.lo & 0xff) << 8;
	} else if (cpu_config_tdp_levels()) {
		/* Set to nominal TDP ratio */
		msr = rdmsr(MSR_CONFIG_TDP_NOMINAL);
		perf_ctl.lo = (msr.lo & 0xff) << 8;
	} else {
		/* Platform Info bits 15:8 give max ratio */
		msr = rdmsr(MSR_PLATFORM_INFO);
		perf_ctl.lo = msr.lo & 0xff00;
	}
	wrmsr(IA32_PERF_CTL, perf_ctl);

	printk(BIOS_DEBUG, "CPU: frequency set to %d\n",
	       ((perf_ctl.lo >> 8) & 0xff) * CPU_BCLK);
}

static void configure_mca(void)
{
	msr_t msr;
	int i;
	const unsigned int num_banks = mca_get_bank_count();

	/* Enable all error reporting */
	msr.lo = msr.hi = ~0;
	for (i = 0; i < num_banks; i++)
		wrmsr(IA32_MC_CTL(i), msr);

	/* TODO(adurbin): This should only be done on a cold boot. Also, some
	 * of these banks are core vs package scope. For now every CPU clears
	 * every bank. */
	mca_clear_status();
}

/* All CPUs including BSP will run the following function. */
static void cpu_core_init(struct device *cpu)
{
	/* Clear out pending MCEs */
	configure_mca();

	enable_lapic_tpr();

	/* Set virtualization based on Kconfig option */
	set_vmx_and_lock();

	/* Configure C States */
	configure_c_states();

	/* Configure Enhanced SpeedStep and Thermal Sensors */
	configure_misc();

	/* Thermal throttle activation offset */
	configure_thermal_target();

	/* Enable Direct Cache Access */
	configure_dca_cap();

	/* Set energy policy */
	set_energy_perf_bias(ENERGY_POLICY_NORMAL);

	/* Enable Turbo */
	enable_turbo();
}

/* MP initialization support. */
static const void *microcode_patch;

static void pre_mp_init(void)
{
	/* Setup MTRRs based on physical address size. */
	x86_setup_mtrrs_with_detect();
	x86_mtrr_check();

	initialize_vr_config();

	if (!haswell_is_ult())
		return;

	calibrate_24mhz_bclk();
	configure_pch_power_sharing();
}

static int get_cpu_count(void)
{
	msr_t msr;
	unsigned int num_threads;
	unsigned int num_cores;

	msr = rdmsr(MSR_CORE_THREAD_COUNT);
	num_threads = (msr.lo >> 0) & 0xffff;
	num_cores = (msr.lo >> 16) & 0xffff;
	printk(BIOS_DEBUG, "CPU has %u cores, %u threads enabled.\n",
	       num_cores, num_threads);

	return num_threads;
}

static void get_microcode_info(const void **microcode, int *parallel)
{
	microcode_patch = intel_microcode_find();
	*microcode = microcode_patch;
	*parallel = 1;
}

static void per_cpu_smm_trigger(void)
{
	/* Relocate the SMM handler. */
	smm_relocate();

	/* After SMM relocation a 2nd microcode load is required. */
	intel_microcode_load_unlocked(microcode_patch);
}

static void post_mp_init(void)
{
	/* Set Max Ratio */
	set_max_ratio();

	/* Now that all APs have been relocated as well as the BSP let SMIs
	 * start flowing. */
	global_smi_enable();

	/* Lock down the SMRAM space. */
	smm_lock();
}

static const struct mp_ops mp_ops = {
	.pre_mp_init = pre_mp_init,
	.get_cpu_count = get_cpu_count,
	.get_smm_info = smm_info,
	.get_microcode_info = get_microcode_info,
	.pre_mp_smm_init = smm_initialize,
	.per_cpu_smm_trigger = per_cpu_smm_trigger,
	.relocation_handler = smm_relocation_handler,
	.post_mp_init = post_mp_init,
};

void mp_init_cpus(struct bus *cpu_bus)
{
	/* TODO: Handle mp_init_with_smm failure? */
	mp_init_with_smm(cpu_bus, &mp_ops);
}

static struct device_operations cpu_dev_ops = {
	.init = cpu_core_init,
};

static const struct cpu_device_id cpu_table[] = {
	{ X86_VENDOR_INTEL, CPUID_HASWELL_A0 },
	{ X86_VENDOR_INTEL, CPUID_HASWELL_B0 },
	{ X86_VENDOR_INTEL, CPUID_HASWELL_C0 },
	{ X86_VENDOR_INTEL, CPUID_HASWELL_ULT_B0 },
	{ X86_VENDOR_INTEL, CPUID_HASWELL_ULT_C0 },
	{ X86_VENDOR_INTEL, CPUID_CRYSTALWELL_B0 },
	{ X86_VENDOR_INTEL, CPUID_CRYSTALWELL_C0 },
	{ X86_VENDOR_INTEL, CPUID_BROADWELL_C0 },
	{ X86_VENDOR_INTEL, CPUID_BROADWELL_ULT_C0 },
	{ X86_VENDOR_INTEL, CPUID_BROADWELL_ULT_D0 },
	{ X86_VENDOR_INTEL, CPUID_BROADWELL_ULT_E0 },
	{ 0, 0 },
};

static const struct cpu_driver driver __cpu_driver = {
	.ops      = &cpu_dev_ops,
	.id_table = cpu_table,
};