mirror of
https://github.com/AuxXxilium/linux_dsm_epyc7002.git
synced 2024-12-23 00:47:11 +07:00
a585df8eda
Add __rdmsr() and __wrmsr() which *only* read and write an MSR with exception handling. Those are going to be used in early code, like the microcode loader, which cannot stomach tracing code piggybacking on the MSR operation. While at it, get rid of __native_write_msr_notrace(). Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Thomas Gleixner <tglx@linutronix.de> Link: http://lkml.kernel.org/r/20170120202955.4091-3-bp@alien8.de Signed-off-by: Thomas Gleixner <tglx@linutronix.de>
388 lines
11 KiB
C
388 lines
11 KiB
C
#ifndef _ASM_X86_MSR_H
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#define _ASM_X86_MSR_H
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#include "msr-index.h"
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#ifndef __ASSEMBLY__
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#include <asm/asm.h>
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#include <asm/errno.h>
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#include <asm/cpumask.h>
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#include <uapi/asm/msr.h>
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struct msr {
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union {
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struct {
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u32 l;
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u32 h;
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};
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u64 q;
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};
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};
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struct msr_info {
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u32 msr_no;
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struct msr reg;
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struct msr *msrs;
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int err;
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};
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struct msr_regs_info {
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u32 *regs;
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int err;
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};
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struct saved_msr {
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bool valid;
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struct msr_info info;
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};
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struct saved_msrs {
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unsigned int num;
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struct saved_msr *array;
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};
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/*
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* both i386 and x86_64 returns 64-bit value in edx:eax, but gcc's "A"
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* constraint has different meanings. For i386, "A" means exactly
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* edx:eax, while for x86_64 it doesn't mean rdx:rax or edx:eax. Instead,
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* it means rax *or* rdx.
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*/
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#ifdef CONFIG_X86_64
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/* Using 64-bit values saves one instruction clearing the high half of low */
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#define DECLARE_ARGS(val, low, high) unsigned long low, high
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#define EAX_EDX_VAL(val, low, high) ((low) | (high) << 32)
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#define EAX_EDX_RET(val, low, high) "=a" (low), "=d" (high)
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#else
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#define DECLARE_ARGS(val, low, high) unsigned long long val
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#define EAX_EDX_VAL(val, low, high) (val)
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#define EAX_EDX_RET(val, low, high) "=A" (val)
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#endif
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#ifdef CONFIG_TRACEPOINTS
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/*
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* Be very careful with includes. This header is prone to include loops.
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*/
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#include <asm/atomic.h>
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#include <linux/tracepoint-defs.h>
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extern struct tracepoint __tracepoint_read_msr;
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extern struct tracepoint __tracepoint_write_msr;
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extern struct tracepoint __tracepoint_rdpmc;
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#define msr_tracepoint_active(t) static_key_false(&(t).key)
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extern void do_trace_write_msr(unsigned int msr, u64 val, int failed);
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extern void do_trace_read_msr(unsigned int msr, u64 val, int failed);
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extern void do_trace_rdpmc(unsigned int msr, u64 val, int failed);
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#else
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#define msr_tracepoint_active(t) false
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static inline void do_trace_write_msr(unsigned int msr, u64 val, int failed) {}
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static inline void do_trace_read_msr(unsigned int msr, u64 val, int failed) {}
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static inline void do_trace_rdpmc(unsigned int msr, u64 val, int failed) {}
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#endif
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/*
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* __rdmsr() and __wrmsr() are the two primitives which are the bare minimum MSR
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* accessors and should not have any tracing or other functionality piggybacking
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* on them - those are *purely* for accessing MSRs and nothing more. So don't even
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* think of extending them - you will be slapped with a stinking trout or a frozen
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* shark will reach you, wherever you are! You've been warned.
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*/
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static inline unsigned long long notrace __rdmsr(unsigned int msr)
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{
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DECLARE_ARGS(val, low, high);
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asm volatile("1: rdmsr\n"
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"2:\n"
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_ASM_EXTABLE_HANDLE(1b, 2b, ex_handler_rdmsr_unsafe)
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: EAX_EDX_RET(val, low, high) : "c" (msr));
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return EAX_EDX_VAL(val, low, high);
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}
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static inline void notrace __wrmsr(unsigned int msr, u32 low, u32 high)
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{
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asm volatile("1: wrmsr\n"
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"2:\n"
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_ASM_EXTABLE_HANDLE(1b, 2b, ex_handler_wrmsr_unsafe)
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: : "c" (msr), "a"(low), "d" (high) : "memory");
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}
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static inline unsigned long long native_read_msr(unsigned int msr)
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{
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unsigned long long val;
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val = __rdmsr(msr);
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if (msr_tracepoint_active(__tracepoint_read_msr))
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do_trace_read_msr(msr, val, 0);
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return val;
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}
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static inline unsigned long long native_read_msr_safe(unsigned int msr,
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int *err)
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{
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DECLARE_ARGS(val, low, high);
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asm volatile("2: rdmsr ; xor %[err],%[err]\n"
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"1:\n\t"
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".section .fixup,\"ax\"\n\t"
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"3: mov %[fault],%[err]\n\t"
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"xorl %%eax, %%eax\n\t"
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"xorl %%edx, %%edx\n\t"
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"jmp 1b\n\t"
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".previous\n\t"
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_ASM_EXTABLE(2b, 3b)
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: [err] "=r" (*err), EAX_EDX_RET(val, low, high)
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: "c" (msr), [fault] "i" (-EIO));
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if (msr_tracepoint_active(__tracepoint_read_msr))
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do_trace_read_msr(msr, EAX_EDX_VAL(val, low, high), *err);
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return EAX_EDX_VAL(val, low, high);
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}
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/* Can be uninlined because referenced by paravirt */
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static inline void notrace
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native_write_msr(unsigned int msr, u32 low, u32 high)
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{
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__wrmsr(msr, low, high);
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if (msr_tracepoint_active(__tracepoint_write_msr))
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do_trace_write_msr(msr, ((u64)high << 32 | low), 0);
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}
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/* Can be uninlined because referenced by paravirt */
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static inline int notrace
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native_write_msr_safe(unsigned int msr, u32 low, u32 high)
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{
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int err;
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asm volatile("2: wrmsr ; xor %[err],%[err]\n"
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"1:\n\t"
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".section .fixup,\"ax\"\n\t"
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"3: mov %[fault],%[err] ; jmp 1b\n\t"
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".previous\n\t"
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_ASM_EXTABLE(2b, 3b)
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: [err] "=a" (err)
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: "c" (msr), "0" (low), "d" (high),
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[fault] "i" (-EIO)
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: "memory");
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if (msr_tracepoint_active(__tracepoint_write_msr))
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do_trace_write_msr(msr, ((u64)high << 32 | low), err);
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return err;
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}
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extern int rdmsr_safe_regs(u32 regs[8]);
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extern int wrmsr_safe_regs(u32 regs[8]);
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/**
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* rdtsc() - returns the current TSC without ordering constraints
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*
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* rdtsc() returns the result of RDTSC as a 64-bit integer. The
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* only ordering constraint it supplies is the ordering implied by
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* "asm volatile": it will put the RDTSC in the place you expect. The
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* CPU can and will speculatively execute that RDTSC, though, so the
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* results can be non-monotonic if compared on different CPUs.
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*/
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static __always_inline unsigned long long rdtsc(void)
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{
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DECLARE_ARGS(val, low, high);
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asm volatile("rdtsc" : EAX_EDX_RET(val, low, high));
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return EAX_EDX_VAL(val, low, high);
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}
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/**
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* rdtsc_ordered() - read the current TSC in program order
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*
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* rdtsc_ordered() returns the result of RDTSC as a 64-bit integer.
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* It is ordered like a load to a global in-memory counter. It should
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* be impossible to observe non-monotonic rdtsc_unordered() behavior
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* across multiple CPUs as long as the TSC is synced.
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*/
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static __always_inline unsigned long long rdtsc_ordered(void)
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{
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/*
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* The RDTSC instruction is not ordered relative to memory
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* access. The Intel SDM and the AMD APM are both vague on this
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* point, but empirically an RDTSC instruction can be
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* speculatively executed before prior loads. An RDTSC
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* immediately after an appropriate barrier appears to be
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* ordered as a normal load, that is, it provides the same
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* ordering guarantees as reading from a global memory location
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* that some other imaginary CPU is updating continuously with a
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* time stamp.
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*/
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alternative_2("", "mfence", X86_FEATURE_MFENCE_RDTSC,
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"lfence", X86_FEATURE_LFENCE_RDTSC);
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return rdtsc();
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}
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/* Deprecated, keep it for a cycle for easier merging: */
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#define rdtscll(now) do { (now) = rdtsc_ordered(); } while (0)
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static inline unsigned long long native_read_pmc(int counter)
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{
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DECLARE_ARGS(val, low, high);
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asm volatile("rdpmc" : EAX_EDX_RET(val, low, high) : "c" (counter));
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if (msr_tracepoint_active(__tracepoint_rdpmc))
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do_trace_rdpmc(counter, EAX_EDX_VAL(val, low, high), 0);
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return EAX_EDX_VAL(val, low, high);
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}
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#ifdef CONFIG_PARAVIRT
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#include <asm/paravirt.h>
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#else
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#include <linux/errno.h>
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/*
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* Access to machine-specific registers (available on 586 and better only)
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* Note: the rd* operations modify the parameters directly (without using
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* pointer indirection), this allows gcc to optimize better
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*/
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#define rdmsr(msr, low, high) \
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do { \
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u64 __val = native_read_msr((msr)); \
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(void)((low) = (u32)__val); \
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(void)((high) = (u32)(__val >> 32)); \
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} while (0)
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static inline void wrmsr(unsigned int msr, u32 low, u32 high)
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{
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native_write_msr(msr, low, high);
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}
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#define rdmsrl(msr, val) \
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((val) = native_read_msr((msr)))
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static inline void wrmsrl(unsigned int msr, u64 val)
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{
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native_write_msr(msr, (u32)(val & 0xffffffffULL), (u32)(val >> 32));
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}
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/* wrmsr with exception handling */
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static inline int wrmsr_safe(unsigned int msr, u32 low, u32 high)
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{
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return native_write_msr_safe(msr, low, high);
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}
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/* rdmsr with exception handling */
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#define rdmsr_safe(msr, low, high) \
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({ \
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int __err; \
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u64 __val = native_read_msr_safe((msr), &__err); \
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(*low) = (u32)__val; \
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(*high) = (u32)(__val >> 32); \
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__err; \
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})
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static inline int rdmsrl_safe(unsigned int msr, unsigned long long *p)
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{
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int err;
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*p = native_read_msr_safe(msr, &err);
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return err;
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}
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#define rdpmc(counter, low, high) \
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do { \
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u64 _l = native_read_pmc((counter)); \
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(low) = (u32)_l; \
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(high) = (u32)(_l >> 32); \
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} while (0)
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#define rdpmcl(counter, val) ((val) = native_read_pmc(counter))
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#endif /* !CONFIG_PARAVIRT */
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/*
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* 64-bit version of wrmsr_safe():
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*/
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static inline int wrmsrl_safe(u32 msr, u64 val)
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{
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return wrmsr_safe(msr, (u32)val, (u32)(val >> 32));
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}
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#define write_tsc(low, high) wrmsr(MSR_IA32_TSC, (low), (high))
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#define write_rdtscp_aux(val) wrmsr(MSR_TSC_AUX, (val), 0)
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struct msr *msrs_alloc(void);
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void msrs_free(struct msr *msrs);
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int msr_set_bit(u32 msr, u8 bit);
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int msr_clear_bit(u32 msr, u8 bit);
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#ifdef CONFIG_SMP
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int rdmsr_on_cpu(unsigned int cpu, u32 msr_no, u32 *l, u32 *h);
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int wrmsr_on_cpu(unsigned int cpu, u32 msr_no, u32 l, u32 h);
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int rdmsrl_on_cpu(unsigned int cpu, u32 msr_no, u64 *q);
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int wrmsrl_on_cpu(unsigned int cpu, u32 msr_no, u64 q);
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void rdmsr_on_cpus(const struct cpumask *mask, u32 msr_no, struct msr *msrs);
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void wrmsr_on_cpus(const struct cpumask *mask, u32 msr_no, struct msr *msrs);
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int rdmsr_safe_on_cpu(unsigned int cpu, u32 msr_no, u32 *l, u32 *h);
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int wrmsr_safe_on_cpu(unsigned int cpu, u32 msr_no, u32 l, u32 h);
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int rdmsrl_safe_on_cpu(unsigned int cpu, u32 msr_no, u64 *q);
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int wrmsrl_safe_on_cpu(unsigned int cpu, u32 msr_no, u64 q);
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int rdmsr_safe_regs_on_cpu(unsigned int cpu, u32 regs[8]);
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int wrmsr_safe_regs_on_cpu(unsigned int cpu, u32 regs[8]);
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#else /* CONFIG_SMP */
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static inline int rdmsr_on_cpu(unsigned int cpu, u32 msr_no, u32 *l, u32 *h)
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{
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rdmsr(msr_no, *l, *h);
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return 0;
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}
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static inline int wrmsr_on_cpu(unsigned int cpu, u32 msr_no, u32 l, u32 h)
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{
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wrmsr(msr_no, l, h);
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return 0;
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}
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static inline int rdmsrl_on_cpu(unsigned int cpu, u32 msr_no, u64 *q)
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{
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rdmsrl(msr_no, *q);
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return 0;
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}
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static inline int wrmsrl_on_cpu(unsigned int cpu, u32 msr_no, u64 q)
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{
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wrmsrl(msr_no, q);
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return 0;
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}
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static inline void rdmsr_on_cpus(const struct cpumask *m, u32 msr_no,
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struct msr *msrs)
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{
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rdmsr_on_cpu(0, msr_no, &(msrs[0].l), &(msrs[0].h));
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}
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static inline void wrmsr_on_cpus(const struct cpumask *m, u32 msr_no,
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struct msr *msrs)
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{
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wrmsr_on_cpu(0, msr_no, msrs[0].l, msrs[0].h);
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}
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static inline int rdmsr_safe_on_cpu(unsigned int cpu, u32 msr_no,
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u32 *l, u32 *h)
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{
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return rdmsr_safe(msr_no, l, h);
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}
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static inline int wrmsr_safe_on_cpu(unsigned int cpu, u32 msr_no, u32 l, u32 h)
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{
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return wrmsr_safe(msr_no, l, h);
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}
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static inline int rdmsrl_safe_on_cpu(unsigned int cpu, u32 msr_no, u64 *q)
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{
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return rdmsrl_safe(msr_no, q);
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}
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static inline int wrmsrl_safe_on_cpu(unsigned int cpu, u32 msr_no, u64 q)
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{
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return wrmsrl_safe(msr_no, q);
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}
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static inline int rdmsr_safe_regs_on_cpu(unsigned int cpu, u32 regs[8])
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{
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return rdmsr_safe_regs(regs);
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}
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static inline int wrmsr_safe_regs_on_cpu(unsigned int cpu, u32 regs[8])
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{
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return wrmsr_safe_regs(regs);
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}
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#endif /* CONFIG_SMP */
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#endif /* __ASSEMBLY__ */
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#endif /* _ASM_X86_MSR_H */
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