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x86/xen/time: setup vcpu 0 time info page
In order to support pvclock vdso on xen we need to setup the time info page for vcpu 0 and register the page with Xen using the VCPUOP_register_vcpu_time_memory_area hypercall. This hypercall will also forcefully update the pvti which will set some of the necessary flags for vdso. Afterwards we check if it supports the PVCLOCK_TSC_STABLE_BIT flag which is mandatory for having vdso/vsyscall support. And if so, it will set the cpu 0 pvti that will be later on used when mapping the vdso image. The xen headers are also updated to include the new hypercall for registering the secondary vcpu_time_info struct. Signed-off-by: Joao Martins <joao.m.martins@oracle.com> Reviewed-by: Juergen Gross <jgross@suse.com> Reviewed-by: Boris Ostrovsky <boris.ostrovsky@oracle.com> Signed-off-by: Boris Ostrovsky <boris.ostrovsky@oracle.com>
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@ -16,6 +16,8 @@
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void xen_arch_pre_suspend(void)
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{
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xen_save_time_memory_area();
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if (xen_pv_domain())
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xen_pv_pre_suspend();
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}
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@ -26,6 +28,8 @@ void xen_arch_post_suspend(int cancelled)
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xen_pv_post_suspend(cancelled);
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else
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xen_hvm_post_suspend(cancelled);
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xen_restore_time_memory_area();
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}
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static void xen_vcpu_notify_restore(void *data)
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@ -370,6 +370,92 @@ static const struct pv_time_ops xen_time_ops __initconst = {
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.steal_clock = xen_steal_clock,
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};
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static struct pvclock_vsyscall_time_info *xen_clock __read_mostly;
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void xen_save_time_memory_area(void)
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{
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struct vcpu_register_time_memory_area t;
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int ret;
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if (!xen_clock)
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return;
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t.addr.v = NULL;
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ret = HYPERVISOR_vcpu_op(VCPUOP_register_vcpu_time_memory_area, 0, &t);
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if (ret != 0)
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pr_notice("Cannot save secondary vcpu_time_info (err %d)",
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ret);
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else
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clear_page(xen_clock);
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}
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void xen_restore_time_memory_area(void)
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{
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struct vcpu_register_time_memory_area t;
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int ret;
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if (!xen_clock)
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return;
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t.addr.v = &xen_clock->pvti;
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ret = HYPERVISOR_vcpu_op(VCPUOP_register_vcpu_time_memory_area, 0, &t);
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/*
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* We don't disable VCLOCK_PVCLOCK entirely if it fails to register the
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* secondary time info with Xen or if we migrated to a host without the
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* necessary flags. On both of these cases what happens is either
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* process seeing a zeroed out pvti or seeing no PVCLOCK_TSC_STABLE_BIT
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* bit set. Userspace checks the latter and if 0, it discards the data
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* in pvti and fallbacks to a system call for a reliable timestamp.
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*/
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if (ret != 0)
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pr_notice("Cannot restore secondary vcpu_time_info (err %d)",
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ret);
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}
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static void xen_setup_vsyscall_time_info(void)
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{
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struct vcpu_register_time_memory_area t;
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struct pvclock_vsyscall_time_info *ti;
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int ret;
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ti = (struct pvclock_vsyscall_time_info *)get_zeroed_page(GFP_KERNEL);
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if (!ti)
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return;
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t.addr.v = &ti->pvti;
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ret = HYPERVISOR_vcpu_op(VCPUOP_register_vcpu_time_memory_area, 0, &t);
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if (ret) {
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pr_notice("xen: VCLOCK_PVCLOCK not supported (err %d)\n", ret);
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free_page((unsigned long)ti);
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return;
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}
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/*
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* If primary time info had this bit set, secondary should too since
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* it's the same data on both just different memory regions. But we
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* still check it in case hypervisor is buggy.
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*/
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if (!(ti->pvti.flags & PVCLOCK_TSC_STABLE_BIT)) {
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t.addr.v = NULL;
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ret = HYPERVISOR_vcpu_op(VCPUOP_register_vcpu_time_memory_area,
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0, &t);
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if (!ret)
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free_page((unsigned long)ti);
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pr_notice("xen: VCLOCK_PVCLOCK not supported (tsc unstable)\n");
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return;
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}
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xen_clock = ti;
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pvclock_set_pvti_cpu0_va(xen_clock);
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xen_clocksource.archdata.vclock_mode = VCLOCK_PVCLOCK;
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}
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static void __init xen_time_init(void)
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{
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struct pvclock_vcpu_time_info *pvti;
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@ -401,8 +487,10 @@ static void __init xen_time_init(void)
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* bit is supported hence speeding up Xen clocksource.
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*/
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pvti = &__this_cpu_read(xen_vcpu)->time;
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if (pvti->flags & PVCLOCK_TSC_STABLE_BIT)
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if (pvti->flags & PVCLOCK_TSC_STABLE_BIT) {
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pvclock_set_flags(PVCLOCK_TSC_STABLE_BIT);
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xen_setup_vsyscall_time_info();
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}
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xen_setup_runstate_info(cpu);
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xen_setup_timer(cpu);
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@ -69,6 +69,8 @@ void xen_setup_runstate_info(int cpu);
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void xen_teardown_timer(int cpu);
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u64 xen_clocksource_read(void);
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void xen_setup_cpu_clockevents(void);
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void xen_save_time_memory_area(void);
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void xen_restore_time_memory_area(void);
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void __init xen_init_time_ops(void);
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void __init xen_hvm_init_time_ops(void);
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@ -178,4 +178,46 @@ DEFINE_GUEST_HANDLE_STRUCT(vcpu_register_vcpu_info);
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/* Send an NMI to the specified VCPU. @extra_arg == NULL. */
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#define VCPUOP_send_nmi 11
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/*
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* Get the physical ID information for a pinned vcpu's underlying physical
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* processor. The physical ID informmation is architecture-specific.
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* On x86: id[31:0]=apic_id, id[63:32]=acpi_id.
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* This command returns -EINVAL if it is not a valid operation for this VCPU.
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*/
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#define VCPUOP_get_physid 12 /* arg == vcpu_get_physid_t */
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struct vcpu_get_physid {
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uint64_t phys_id;
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};
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DEFINE_GUEST_HANDLE_STRUCT(vcpu_get_physid);
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#define xen_vcpu_physid_to_x86_apicid(physid) ((uint32_t)(physid))
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#define xen_vcpu_physid_to_x86_acpiid(physid) ((uint32_t)((physid) >> 32))
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/*
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* Register a memory location to get a secondary copy of the vcpu time
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* parameters. The master copy still exists as part of the vcpu shared
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* memory area, and this secondary copy is updated whenever the master copy
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* is updated (and using the same versioning scheme for synchronisation).
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*
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* The intent is that this copy may be mapped (RO) into userspace so
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* that usermode can compute system time using the time info and the
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* tsc. Usermode will see an array of vcpu_time_info structures, one
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* for each vcpu, and choose the right one by an existing mechanism
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* which allows it to get the current vcpu number (such as via a
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* segment limit). It can then apply the normal algorithm to compute
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* system time from the tsc.
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*
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* @extra_arg == pointer to vcpu_register_time_info_memory_area structure.
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*/
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#define VCPUOP_register_vcpu_time_memory_area 13
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DEFINE_GUEST_HANDLE_STRUCT(vcpu_time_info);
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struct vcpu_register_time_memory_area {
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union {
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GUEST_HANDLE(vcpu_time_info) h;
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struct pvclock_vcpu_time_info *v;
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uint64_t p;
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} addr;
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};
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DEFINE_GUEST_HANDLE_STRUCT(vcpu_register_time_memory_area);
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#endif /* __XEN_PUBLIC_VCPU_H__ */
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