x86/include/cpufunc.h

1.35      maxv /*	$NetBSD: cpufunc.h,v 1.35 2019/09/07 11:09:03 maxv Exp $	*/
 1.1        ad
1.25      maxv /*
1.25      maxv  * Copyright (c) 1998, 2007, 2019 The NetBSD Foundation, Inc.
 1.1        ad  * All rights reserved.
 1.1        ad  *
 1.1        ad  * This code is derived from software contributed to The NetBSD Foundation
 1.2        ad  * by Charles M. Hannum, and by Andrew Doran.
 1.1        ad  *
 1.1        ad  * Redistribution and use in source and binary forms, with or without
 1.1        ad  * modification, are permitted provided that the following conditions
 1.1        ad  * are met:
 1.1        ad  * 1. Redistributions of source code must retain the above copyright
 1.1        ad  *    notice, this list of conditions and the following disclaimer.
 1.1        ad  * 2. Redistributions in binary form must reproduce the above copyright
 1.1        ad  *    notice, this list of conditions and the following disclaimer in the
 1.1        ad  *    documentation and/or other materials provided with the distribution.
 1.1        ad  *
 1.1        ad  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.1        ad  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1        ad  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1        ad  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.1        ad  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1        ad  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1        ad  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1        ad  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1        ad  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1        ad  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1        ad  * POSSIBILITY OF SUCH DAMAGE.
 1.1        ad  */
 1.1        ad
 1.1        ad #ifndef _X86_CPUFUNC_H_
 1.1        ad #define	_X86_CPUFUNC_H_
 1.1        ad
 1.1        ad /*
 1.1        ad  * Functions to provide access to x86-specific instructions.
 1.1        ad  */
 1.1        ad
 1.1        ad #include <sys/cdefs.h>
 1.1        ad #include <sys/types.h>
 1.1        ad
 1.1        ad #include <machine/segments.h>
 1.1        ad #include <machine/specialreg.h>
 1.1        ad
 1.1        ad #ifdef _KERNEL
1.28    bouyer #if defined(_KERNEL_OPT)
1.28    bouyer #include "opt_xen.h"
1.28    bouyer #endif
 1.1        ad
1.26      maxv static inline void
1.26      maxv x86_pause(void)
1.26      maxv {
1.32  christos 	__asm volatile ("pause");
1.26      maxv }
1.26      maxv
 1.1        ad void	x86_lfence(void);
 1.1        ad void	x86_sfence(void);
 1.1        ad void	x86_mfence(void);
 1.1        ad void	x86_flush(void);
1.25      maxv void	x86_hlt(void);
1.25      maxv void	x86_stihlt(void);
1.25      maxv void	tlbflush(void);
1.25      maxv void	tlbflushg(void);
1.25      maxv void	invlpg(vaddr_t);
1.25      maxv void	wbinvd(void);
1.25      maxv void	breakpoint(void);
1.26      maxv
1.31      maxv #define INVPCID_ADDRESS		0
1.31      maxv #define INVPCID_CONTEXT		1
1.31      maxv #define INVPCID_ALL		2
1.31      maxv #define INVPCID_ALL_NONGLOBAL	3
1.31      maxv
1.31      maxv static inline void
1.31      maxv invpcid(register_t op, uint64_t pcid, vaddr_t va)
1.31      maxv {
1.31      maxv 	struct {
1.31      maxv 		uint64_t pcid;
1.31      maxv 		uint64_t addr;
1.31      maxv 	} desc = {
1.31      maxv 		.pcid = pcid,
1.31      maxv 		.addr = va
1.31      maxv 	};
1.31      maxv
1.32  christos 	__asm volatile (
1.31      maxv 		"invpcid %[desc],%[op]"
1.31      maxv 		:
1.31      maxv 		: [desc] "m" (desc), [op] "r" (op)
1.31      maxv 		: "memory"
1.31      maxv 	);
1.31      maxv }
1.31      maxv
1.26      maxv static inline uint64_t
1.26      maxv rdtsc(void)
1.26      maxv {
1.26      maxv 	uint32_t low, high;
1.26      maxv
1.32  christos 	__asm volatile (
1.26      maxv 		"rdtsc"
1.26      maxv 		: "=a" (low), "=d" (high)
1.26      maxv 		:
1.26      maxv 	);
1.26      maxv
1.26      maxv 	return (low | ((uint64_t)high << 32));
1.26      maxv }
1.26      maxv
1.10    cegger #ifndef XEN
1.24      maxv void	x86_hotpatch(uint32_t, const uint8_t *, size_t);
1.24      maxv void	x86_patch_window_open(u_long *, u_long *);
1.24      maxv void	x86_patch_window_close(u_long, u_long);
 1.9        ad void	x86_patch(bool);
1.10    cegger #endif
1.25      maxv
1.25      maxv void	x86_monitor(const void *, uint32_t, uint32_t);
1.25      maxv void	x86_mwait(uint32_t, uint32_t);
1.33      maxv
1.33      maxv static inline void
1.33      maxv x86_cpuid2(uint32_t eax, uint32_t ecx, uint32_t *regs)
1.33      maxv {
1.33      maxv 	uint32_t ebx, edx;
1.33      maxv
1.33      maxv 	__asm volatile (
1.33      maxv 		"cpuid"
1.33      maxv 		: "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
1.33      maxv 		: "a" (eax), "c" (ecx)
1.33      maxv 	);
1.33      maxv
1.33      maxv 	regs[0] = eax;
1.33      maxv 	regs[1] = ebx;
1.33      maxv 	regs[2] = ecx;
1.33      maxv 	regs[3] = edx;
1.33      maxv }
1.33      maxv #define x86_cpuid(a,b)	x86_cpuid2((a), 0, (b))
1.25      maxv
1.25      maxv /* -------------------------------------------------------------------------- */
1.25      maxv
 1.1        ad void	lidt(struct region_descriptor *);
 1.1        ad void	lldt(u_short);
 1.1        ad void	ltr(u_short);
1.25      maxv
1.27      maxv static inline uint16_t
1.27      maxv x86_getss(void)
1.27      maxv {
1.27      maxv 	uint16_t val;
1.27      maxv
1.32  christos 	__asm volatile (
1.27      maxv 		"mov	%%ss,%[val]"
1.27      maxv 		: [val] "=r" (val)
1.27      maxv 		:
1.27      maxv 	);
1.27      maxv 	return val;
1.27      maxv }
1.27      maxv
1.27      maxv static inline void
1.27      maxv setds(uint16_t val)
1.27      maxv {
1.32  christos 	__asm volatile (
1.27      maxv 		"mov	%[val],%%ds"
1.27      maxv 		:
1.27      maxv 		: [val] "r" (val)
1.27      maxv 	);
1.27      maxv }
1.27      maxv
1.27      maxv static inline void
1.27      maxv setes(uint16_t val)
1.27      maxv {
1.32  christos 	__asm volatile (
1.27      maxv 		"mov	%[val],%%es"
1.27      maxv 		:
1.27      maxv 		: [val] "r" (val)
1.27      maxv 	);
1.27      maxv }
1.27      maxv
1.27      maxv static inline void
1.27      maxv setfs(uint16_t val)
1.27      maxv {
1.32  christos 	__asm volatile (
1.27      maxv 		"mov	%[val],%%fs"
1.27      maxv 		:
1.27      maxv 		: [val] "r" (val)
1.27      maxv 	);
1.27      maxv }
1.27      maxv
1.25      maxv void	setusergs(int);
1.25      maxv
1.25      maxv /* -------------------------------------------------------------------------- */
1.17       dsl
1.27      maxv #define FUNC_CR(crnum)					\
1.27      maxv 	static inline void lcr##crnum(register_t val)	\
1.27      maxv 	{						\
1.32  christos 		__asm volatile (				\
1.27      maxv 			"mov	%[val],%%cr" #crnum	\
1.27      maxv 			:				\
1.27      maxv 			: [val] "r" (val)		\
1.33      maxv 			: "memory"			\
1.27      maxv 		);					\
1.27      maxv 	}						\
1.27      maxv 	static inline register_t rcr##crnum(void)	\
1.27      maxv 	{						\
1.27      maxv 		register_t val;				\
1.32  christos 		__asm volatile (				\
1.27      maxv 			"mov	%%cr" #crnum ",%[val]"	\
1.27      maxv 			: [val] "=r" (val)		\
1.27      maxv 			:				\
1.27      maxv 		);					\
1.27      maxv 		return val;				\
1.27      maxv 	}
1.27      maxv
1.27      maxv #define PROTO_CR(crnum)					\
1.27      maxv 	void lcr##crnum(register_t);			\
1.27      maxv 	register_t rcr##crnum(void);
1.27      maxv
1.27      maxv #ifndef XENPV
1.27      maxv FUNC_CR(0)
1.27      maxv FUNC_CR(2)
1.27      maxv FUNC_CR(3)
1.27      maxv #else
1.27      maxv PROTO_CR(0)
1.27      maxv PROTO_CR(2)
1.27      maxv PROTO_CR(3)
1.27      maxv #endif
1.27      maxv
1.27      maxv FUNC_CR(4)
1.27      maxv FUNC_CR(8)
1.27      maxv
1.27      maxv /* -------------------------------------------------------------------------- */
1.27      maxv
1.27      maxv #define FUNC_DR(drnum)					\
1.27      maxv 	static inline void ldr##drnum(register_t val)	\
1.27      maxv 	{						\
1.32  christos 		__asm volatile (				\
1.27      maxv 			"mov	%[val],%%dr" #drnum	\
1.27      maxv 			:				\
1.27      maxv 			: [val] "r" (val)		\
1.27      maxv 		);					\
1.27      maxv 	}						\
1.27      maxv 	static inline register_t rdr##drnum(void)	\
1.27      maxv 	{						\
1.27      maxv 		register_t val;				\
1.32  christos 		__asm volatile (				\
1.27      maxv 			"mov	%%dr" #drnum ",%[val]"	\
1.27      maxv 			: [val] "=r" (val)		\
1.27      maxv 			:				\
1.27      maxv 		);					\
1.27      maxv 		return val;				\
1.27      maxv 	}
1.27      maxv
1.27      maxv #define PROTO_DR(drnum)					\
1.27      maxv 	register_t rdr##drnum(void);			\
1.27      maxv 	void ldr##drnum(register_t);
1.27      maxv
1.27      maxv #ifndef XENPV
1.27      maxv FUNC_DR(0)
1.27      maxv FUNC_DR(1)
1.27      maxv FUNC_DR(2)
1.27      maxv FUNC_DR(3)
1.27      maxv FUNC_DR(6)
1.27      maxv FUNC_DR(7)
1.27      maxv #else
1.27      maxv PROTO_DR(0)
1.27      maxv PROTO_DR(1)
1.27      maxv PROTO_DR(2)
1.27      maxv PROTO_DR(3)
1.27      maxv PROTO_DR(6)
1.27      maxv PROTO_DR(7)
1.27      maxv #endif
1.27      maxv
1.27      maxv /* -------------------------------------------------------------------------- */
1.27      maxv
1.18       dsl union savefpu;
1.27      maxv
1.27      maxv static inline void
1.27      maxv fninit(void)
1.27      maxv {
1.35      maxv 	__asm volatile ("fninit" ::: "memory");
1.27      maxv }
1.27      maxv
1.27      maxv static inline void
1.27      maxv fnclex(void)
1.27      maxv {
1.32  christos 	__asm volatile ("fnclex");
1.27      maxv }
1.27      maxv
1.34      maxv static inline void
1.34      maxv fnstcw(uint16_t *val)
1.34      maxv {
1.34      maxv 	__asm volatile (
1.34      maxv 		"fnstcw	%[val]"
1.34      maxv 		: [val] "=m" (*val)
1.34      maxv 		:
1.34      maxv 	);
1.34      maxv }
1.34      maxv
1.34      maxv static inline void
1.34      maxv fnstsw(uint16_t *val)
1.34      maxv {
1.34      maxv 	__asm volatile (
1.34      maxv 		"fnstsw	%[val]"
1.34      maxv 		: [val] "=m" (*val)
1.34      maxv 		:
1.34      maxv 	);
1.34      maxv }
1.27      maxv
1.27      maxv static inline void
1.27      maxv clts(void)
1.27      maxv {
1.35      maxv 	__asm volatile ("clts" ::: "memory");
1.27      maxv }
1.27      maxv
 1.1        ad void	stts(void);
1.25      maxv
1.34      maxv static inline void
1.34      maxv x86_stmxcsr(uint32_t *val)
1.34      maxv {
1.34      maxv 	__asm volatile (
1.34      maxv 		"stmxcsr %[val]"
1.34      maxv 		: [val] "=m" (*val)
1.34      maxv 		:
1.34      maxv 	);
1.34      maxv }
1.34      maxv
1.34      maxv static inline void
1.34      maxv x86_ldmxcsr(uint32_t *val)
1.34      maxv {
1.34      maxv 	__asm volatile (
1.34      maxv 		"ldmxcsr %[val]"
1.34      maxv 		:
1.34      maxv 		: [val] "m" (*val)
1.34      maxv 	);
1.34      maxv }
1.34      maxv
1.16       dsl void	fldummy(void);
1.18       dsl
1.26      maxv static inline uint64_t
1.26      maxv rdxcr(uint32_t xcr)
1.26      maxv {
1.26      maxv 	uint32_t low, high;
1.26      maxv
1.32  christos 	__asm volatile (
1.26      maxv 		"xgetbv"
1.26      maxv 		: "=a" (low), "=d" (high)
1.26      maxv 		: "c" (xcr)
1.26      maxv 	);
1.26      maxv
1.26      maxv 	return (low | ((uint64_t)high << 32));
1.26      maxv }
1.26      maxv
1.26      maxv static inline void
1.26      maxv wrxcr(uint32_t xcr, uint64_t val)
1.26      maxv {
1.26      maxv 	uint32_t low, high;
1.26      maxv
1.26      maxv 	low = val;
1.26      maxv 	high = val >> 32;
1.32  christos 	__asm volatile (
1.26      maxv 		"xsetbv"
1.26      maxv 		:
1.26      maxv 		: "a" (low), "d" (high), "c" (xcr)
1.26      maxv 	);
1.26      maxv }
1.18       dsl
1.34      maxv void	fnsave(union savefpu *);
1.34      maxv void	frstor(const union savefpu *);
1.34      maxv
1.34      maxv void	fxsave(union savefpu *);
1.34      maxv void	fxrstor(const union savefpu *);
1.34      maxv
1.18       dsl void	xsave(union savefpu *, uint64_t);
1.18       dsl void	xsaveopt(union savefpu *, uint64_t);
1.34      maxv void	xrstor(const union savefpu *, uint64_t);
1.18       dsl
1.25      maxv /* -------------------------------------------------------------------------- */
 1.1        ad
1.28    bouyer #ifdef XENPV
1.28    bouyer void x86_disable_intr(void);
1.28    bouyer void x86_enable_intr(void);
1.28    bouyer #else
1.27      maxv static inline void
1.27      maxv x86_disable_intr(void)
1.27      maxv {
1.33      maxv 	__asm volatile ("cli" ::: "memory");
1.27      maxv }
1.27      maxv
1.27      maxv static inline void
1.27      maxv x86_enable_intr(void)
1.27      maxv {
1.33      maxv 	__asm volatile ("sti" ::: "memory");
1.27      maxv }
1.28    bouyer #endif /* XENPV */
1.27      maxv
 1.1        ad /* Use read_psl, write_psl when saving and restoring interrupt state. */
 1.1        ad u_long	x86_read_psl(void);
 1.1        ad void	x86_write_psl(u_long);
 1.1        ad
 1.1        ad /* Use read_flags, write_flags to adjust other members of %eflags. */
 1.1        ad u_long	x86_read_flags(void);
 1.1        ad void	x86_write_flags(u_long);
 1.1        ad
1.11  christos void	x86_reset(void);
1.11  christos
1.25      maxv /* -------------------------------------------------------------------------- */
1.25      maxv
 1.1        ad /*
 1.1        ad  * Some of the undocumented AMD64 MSRs need a 'passcode' to access.
 1.1        ad  * See LinuxBIOSv2: src/cpu/amd/model_fxx/model_fxx_init.c
 1.1        ad  */
 1.1        ad #define	OPTERON_MSR_PASSCODE	0x9c5a203aU
 1.1        ad
1.26      maxv static inline uint64_t
1.26      maxv rdmsr(u_int msr)
1.26      maxv {
1.26      maxv 	uint32_t low, high;
1.26      maxv
1.32  christos 	__asm volatile (
1.26      maxv 		"rdmsr"
1.26      maxv 		: "=a" (low), "=d" (high)
1.26      maxv 		: "c" (msr)
1.26      maxv 	);
1.26      maxv
1.26      maxv 	return (low | ((uint64_t)high << 32));
1.26      maxv }
1.26      maxv
1.30  christos uint64_t	rdmsr_locked(u_int);
1.30  christos int		rdmsr_safe(u_int, uint64_t *);
1.30  christos
1.26      maxv static inline void
1.26      maxv wrmsr(u_int msr, uint64_t val)
1.26      maxv {
1.26      maxv 	uint32_t low, high;
1.26      maxv
1.26      maxv 	low = val;
1.26      maxv 	high = val >> 32;
1.32  christos 	__asm volatile (
1.26      maxv 		"wrmsr"
1.26      maxv 		:
1.26      maxv 		: "a" (low), "d" (high), "c" (msr)
1.35      maxv 		: "memory"
1.26      maxv 	);
1.26      maxv }
1.26      maxv
1.30  christos void		wrmsr_locked(u_int, uint64_t);
1.30  christos
1.30  christos #endif /* _KERNEL */
1.30  christos
 1.1        ad #endif /* !_X86_CPUFUNC_H_ */