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openSUSE:Leap:15.4:ARM
xen.11173
5c75615a-viridian-fix-HvFlushVirtualAddress.patch
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File 5c75615a-viridian-fix-HvFlushVirtualAddress.patch of Package xen.11173
# Commit ce98ee3050a824994ce4957faa8f53ecb8c7da9d # Date 2019-02-26 16:55:06 +0100 # Author Paul Durrant <paul.durrant@citrix.com> # Committer Jan Beulich <jbeulich@suse.com> viridian: fix the HvFlushVirtualAddress/List hypercall implementation The current code uses hvm_asid_flush_vcpu() but this is insufficient for a guest running in shadow mode, which results in guest crashes early in boot if the 'hcall_remote_tlb_flush' is enabled. This patch, instead of open coding a new flush algorithm, adapts the one already used by the HVMOP_flush_tlbs Xen hypercall. The implementation is modified to allow TLB flushing a subset of a domain's vCPUs. A callback function determines whether or not a vCPU requires flushing. This mechanism was chosen because, while it is the case that the currently implemented viridian hypercalls specify a vCPU mask, there are newer variants which specify a sparse HV_VP_SET and thus use of a callback will avoid needing to expose details of this outside of the viridian subsystem if and when those newer variants are implemented. NOTE: Use of the common flush function requires that the hypercalls are restartable and so, with this patch applied, viridian_hypercall() can now return HVM_HCALL_preempted. This is safe as no modification to struct cpu_user_regs is done before the return. Signed-off-by: Paul Durrant <paul.durrant@citrix.com> Reviewed-by: Jan Beulich <jbeulich@suse.com> --- a/xen/arch/x86/hvm/hvm.c +++ b/xen/arch/x86/hvm/hvm.c @@ -3993,45 +3993,67 @@ static void hvm_s3_resume(struct domain } } -static int hvmop_flush_tlb_all(void) +bool hvm_flush_vcpu_tlb(bool (*flush_vcpu)(void *ctxt, struct vcpu *v), + void *ctxt) { + static DEFINE_PER_CPU(cpumask_t, flush_cpumask); + cpumask_t *mask = &this_cpu(flush_cpumask); struct domain *d = current->domain; struct vcpu *v; - if ( !is_hvm_domain(d) ) - return -EINVAL; - /* Avoid deadlock if more than one vcpu tries this at the same time. */ if ( !spin_trylock(&d->hypercall_deadlock_mutex) ) - return -ERESTART; + return false; /* Pause all other vcpus. */ for_each_vcpu ( d, v ) - if ( v != current ) + if ( v != current && flush_vcpu(ctxt, v) ) vcpu_pause_nosync(v); /* Now that all VCPUs are signalled to deschedule, we wait... */ for_each_vcpu ( d, v ) - if ( v != current ) + if ( v != current && flush_vcpu(ctxt, v) ) while ( !vcpu_runnable(v) && v->is_running ) cpu_relax(); /* All other vcpus are paused, safe to unlock now. */ spin_unlock(&d->hypercall_deadlock_mutex); + cpumask_clear(mask); + /* Flush paging-mode soft state (e.g., va->gfn cache; PAE PDPE cache). */ for_each_vcpu ( d, v ) + { + if ( !flush_vcpu(ctxt, v) ) + continue; + paging_update_cr3(v); - /* Flush all dirty TLBs. */ - flush_tlb_mask(d->domain_dirty_cpumask); + cpumask_or(mask, mask, v->vcpu_dirty_cpumask); + } + + /* Flush TLBs on all CPUs with dirty vcpu state. */ + flush_tlb_mask(mask); /* Done. */ for_each_vcpu ( d, v ) - if ( v != current ) + if ( v != current && flush_vcpu(ctxt, v) ) vcpu_unpause(v); - return 0; + return true; +} + +static bool always_flush(void *ctxt, struct vcpu *v) +{ + return true; +} + +static int hvmop_flush_tlb_all(void) +{ + if ( !is_hvm_domain(current->domain) ) + return -EINVAL; + + return hvm_flush_vcpu_tlb(always_flush, NULL) ? 0 : -ERESTART; } static int hvmop_set_evtchn_upcall_vector( --- a/xen/arch/x86/hvm/viridian.c +++ b/xen/arch/x86/hvm/viridian.c @@ -829,7 +829,16 @@ void viridian_domain_deinit(struct domai teardown_vp_assist(v); } -static DEFINE_PER_CPU(cpumask_t, ipi_cpumask); +/* + * Windows should not issue the hypercalls requiring this callback in the + * case where vcpu_id would exceed the size of the mask. + */ +static bool need_flush(void *ctxt, struct vcpu *v) +{ + uint64_t vcpu_mask = *(uint64_t *)ctxt; + + return vcpu_mask & (1ul << v->vcpu_id); +} int viridian_hypercall(struct cpu_user_regs *regs) { @@ -894,8 +903,6 @@ int viridian_hypercall(struct cpu_user_r case HvFlushVirtualAddressSpace: case HvFlushVirtualAddressList: { - cpumask_t *pcpu_mask; - struct vcpu *v; struct { uint64_t address_space; uint64_t flags; @@ -925,36 +932,12 @@ int viridian_hypercall(struct cpu_user_r if ( input_params.flags & HV_FLUSH_ALL_PROCESSORS ) input_params.vcpu_mask = ~0ul; - pcpu_mask = &this_cpu(ipi_cpumask); - cpumask_clear(pcpu_mask); - - /* - * For each specified virtual CPU flush all ASIDs to invalidate - * TLB entries the next time it is scheduled and then, if it - * is currently running, add its physical CPU to a mask of - * those which need to be interrupted to force a flush. - */ - for_each_vcpu ( currd, v ) - { - if ( v->vcpu_id >= (sizeof(input_params.vcpu_mask) * 8) ) - break; - - if ( !(input_params.vcpu_mask & (1ul << v->vcpu_id)) ) - continue; - - hvm_asid_flush_vcpu(v); - if ( v != curr && v->is_running ) - __cpumask_set_cpu(v->processor, pcpu_mask); - } - /* - * Since ASIDs have now been flushed it just remains to - * force any CPUs currently running target vCPUs out of non- - * root mode. It's possible that re-scheduling has taken place - * so we may unnecessarily IPI some CPUs. + * A false return means that another vcpu is currently trying + * a similar operation, so back off. */ - if ( !cpumask_empty(pcpu_mask) ) - smp_send_event_check_mask(pcpu_mask); + if ( !hvm_flush_vcpu_tlb(need_flush, &input_params.vcpu_mask) ) + return HVM_HCALL_preempted; output.rep_complete = input.rep_count; --- a/xen/include/asm-x86/hvm/hvm.h +++ b/xen/include/asm-x86/hvm/hvm.h @@ -615,6 +615,9 @@ const char *hvm_efer_valid(const struct signed int cr0_pg); unsigned long hvm_cr4_guest_valid_bits(const struct vcpu *v, bool restore); +bool hvm_flush_vcpu_tlb(bool (*flush_vcpu)(void *ctxt, struct vcpu *v), + void *ctxt); + /* * This must be defined as a macro instead of an inline function, * because it uses 'struct vcpu' and 'struct domain' which have
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