forked from Minki/linux
7069ed6763
We want to expose the pvclock shared memory areas, which the hypervisor periodically updates, to userspace. For a linear mapping from userspace, it is necessary that entire page sized regions are used for array of pvclock structures. There is no such guarantee with per cpu areas, therefore move to memblock_alloc based allocation. Acked-by: Glauber Costa <glommer@parallels.com> Signed-off-by: Marcelo Tosatti <mtosatti@redhat.com>
272 lines
7.0 KiB
C
272 lines
7.0 KiB
C
/* KVM paravirtual clock driver. A clocksource implementation
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Copyright (C) 2008 Glauber de Oliveira Costa, Red Hat Inc.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#include <linux/clocksource.h>
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#include <linux/kvm_para.h>
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#include <asm/pvclock.h>
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#include <asm/msr.h>
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#include <asm/apic.h>
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#include <linux/percpu.h>
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#include <linux/hardirq.h>
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#include <linux/memblock.h>
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#include <asm/x86_init.h>
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#include <asm/reboot.h>
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static int kvmclock = 1;
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static int msr_kvm_system_time = MSR_KVM_SYSTEM_TIME;
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static int msr_kvm_wall_clock = MSR_KVM_WALL_CLOCK;
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static int parse_no_kvmclock(char *arg)
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{
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kvmclock = 0;
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return 0;
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}
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early_param("no-kvmclock", parse_no_kvmclock);
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/* The hypervisor will put information about time periodically here */
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struct pvclock_aligned_vcpu_time_info {
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struct pvclock_vcpu_time_info clock;
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} __attribute__((__aligned__(SMP_CACHE_BYTES)));
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static struct pvclock_aligned_vcpu_time_info *hv_clock;
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static struct pvclock_wall_clock wall_clock;
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/*
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* The wallclock is the time of day when we booted. Since then, some time may
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* have elapsed since the hypervisor wrote the data. So we try to account for
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* that with system time
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*/
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static unsigned long kvm_get_wallclock(void)
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{
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struct pvclock_vcpu_time_info *vcpu_time;
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struct timespec ts;
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int low, high;
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int cpu;
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low = (int)__pa_symbol(&wall_clock);
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high = ((u64)__pa_symbol(&wall_clock) >> 32);
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native_write_msr(msr_kvm_wall_clock, low, high);
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preempt_disable();
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cpu = smp_processor_id();
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vcpu_time = &hv_clock[cpu].clock;
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pvclock_read_wallclock(&wall_clock, vcpu_time, &ts);
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preempt_enable();
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return ts.tv_sec;
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}
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static int kvm_set_wallclock(unsigned long now)
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{
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return -1;
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}
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static cycle_t kvm_clock_read(void)
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{
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struct pvclock_vcpu_time_info *src;
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cycle_t ret;
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int cpu;
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preempt_disable_notrace();
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cpu = smp_processor_id();
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src = &hv_clock[cpu].clock;
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ret = pvclock_clocksource_read(src);
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preempt_enable_notrace();
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return ret;
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}
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static cycle_t kvm_clock_get_cycles(struct clocksource *cs)
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{
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return kvm_clock_read();
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}
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/*
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* If we don't do that, there is the possibility that the guest
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* will calibrate under heavy load - thus, getting a lower lpj -
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* and execute the delays themselves without load. This is wrong,
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* because no delay loop can finish beforehand.
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* Any heuristics is subject to fail, because ultimately, a large
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* poll of guests can be running and trouble each other. So we preset
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* lpj here
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*/
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static unsigned long kvm_get_tsc_khz(void)
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{
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struct pvclock_vcpu_time_info *src;
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int cpu;
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unsigned long tsc_khz;
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preempt_disable();
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cpu = smp_processor_id();
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src = &hv_clock[cpu].clock;
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tsc_khz = pvclock_tsc_khz(src);
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preempt_enable();
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return tsc_khz;
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}
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static void kvm_get_preset_lpj(void)
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{
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unsigned long khz;
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u64 lpj;
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khz = kvm_get_tsc_khz();
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lpj = ((u64)khz * 1000);
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do_div(lpj, HZ);
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preset_lpj = lpj;
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}
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bool kvm_check_and_clear_guest_paused(void)
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{
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bool ret = false;
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struct pvclock_vcpu_time_info *src;
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int cpu = smp_processor_id();
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if (!hv_clock)
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return ret;
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src = &hv_clock[cpu].clock;
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if ((src->flags & PVCLOCK_GUEST_STOPPED) != 0) {
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src->flags &= ~PVCLOCK_GUEST_STOPPED;
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ret = true;
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}
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return ret;
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}
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static struct clocksource kvm_clock = {
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.name = "kvm-clock",
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.read = kvm_clock_get_cycles,
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.rating = 400,
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.mask = CLOCKSOURCE_MASK(64),
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.flags = CLOCK_SOURCE_IS_CONTINUOUS,
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};
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int kvm_register_clock(char *txt)
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{
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int cpu = smp_processor_id();
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int low, high, ret;
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struct pvclock_vcpu_time_info *src = &hv_clock[cpu].clock;
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low = (int)__pa(src) | 1;
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high = ((u64)__pa(src) >> 32);
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ret = native_write_msr_safe(msr_kvm_system_time, low, high);
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printk(KERN_INFO "kvm-clock: cpu %d, msr %x:%x, %s\n",
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cpu, high, low, txt);
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return ret;
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}
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static void kvm_save_sched_clock_state(void)
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{
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}
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static void kvm_restore_sched_clock_state(void)
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{
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kvm_register_clock("primary cpu clock, resume");
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}
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#ifdef CONFIG_X86_LOCAL_APIC
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static void __cpuinit kvm_setup_secondary_clock(void)
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{
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/*
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* Now that the first cpu already had this clocksource initialized,
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* we shouldn't fail.
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*/
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WARN_ON(kvm_register_clock("secondary cpu clock"));
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}
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#endif
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/*
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* After the clock is registered, the host will keep writing to the
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* registered memory location. If the guest happens to shutdown, this memory
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* won't be valid. In cases like kexec, in which you install a new kernel, this
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* means a random memory location will be kept being written. So before any
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* kind of shutdown from our side, we unregister the clock by writting anything
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* that does not have the 'enable' bit set in the msr
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*/
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#ifdef CONFIG_KEXEC
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static void kvm_crash_shutdown(struct pt_regs *regs)
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{
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native_write_msr(msr_kvm_system_time, 0, 0);
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kvm_disable_steal_time();
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native_machine_crash_shutdown(regs);
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}
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#endif
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static void kvm_shutdown(void)
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{
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native_write_msr(msr_kvm_system_time, 0, 0);
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kvm_disable_steal_time();
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native_machine_shutdown();
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}
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void __init kvmclock_init(void)
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{
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unsigned long mem;
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if (!kvm_para_available())
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return;
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if (kvmclock && kvm_para_has_feature(KVM_FEATURE_CLOCKSOURCE2)) {
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msr_kvm_system_time = MSR_KVM_SYSTEM_TIME_NEW;
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msr_kvm_wall_clock = MSR_KVM_WALL_CLOCK_NEW;
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} else if (!(kvmclock && kvm_para_has_feature(KVM_FEATURE_CLOCKSOURCE)))
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return;
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printk(KERN_INFO "kvm-clock: Using msrs %x and %x",
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msr_kvm_system_time, msr_kvm_wall_clock);
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mem = memblock_alloc(sizeof(struct pvclock_aligned_vcpu_time_info) * NR_CPUS,
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PAGE_SIZE);
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if (!mem)
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return;
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hv_clock = __va(mem);
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if (kvm_register_clock("boot clock")) {
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hv_clock = NULL;
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memblock_free(mem,
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sizeof(struct pvclock_aligned_vcpu_time_info)*NR_CPUS);
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return;
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}
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pv_time_ops.sched_clock = kvm_clock_read;
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x86_platform.calibrate_tsc = kvm_get_tsc_khz;
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x86_platform.get_wallclock = kvm_get_wallclock;
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x86_platform.set_wallclock = kvm_set_wallclock;
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#ifdef CONFIG_X86_LOCAL_APIC
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x86_cpuinit.early_percpu_clock_init =
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kvm_setup_secondary_clock;
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#endif
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x86_platform.save_sched_clock_state = kvm_save_sched_clock_state;
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x86_platform.restore_sched_clock_state = kvm_restore_sched_clock_state;
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machine_ops.shutdown = kvm_shutdown;
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#ifdef CONFIG_KEXEC
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machine_ops.crash_shutdown = kvm_crash_shutdown;
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#endif
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kvm_get_preset_lpj();
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clocksource_register_hz(&kvm_clock, NSEC_PER_SEC);
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pv_info.paravirt_enabled = 1;
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pv_info.name = "KVM";
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if (kvm_para_has_feature(KVM_FEATURE_CLOCKSOURCE_STABLE_BIT))
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pvclock_set_flags(PVCLOCK_TSC_STABLE_BIT);
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}
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