xen: make direct versions of irq_enable/disable/save/restore to common code
Now that x86-64 has directly accessible percpu variables, it can also implement the direct versions of these operations, which operate on a vcpu_info structure directly embedded in the percpu area. In fact, the 64-bit versions are more or less identical, and so can be shared. The only two differences are: 1. xen_restore_fl_direct takes its argument in eax on 32-bit, and rdi on 64-bit. Unfortunately it isn't possible to directly refer to the 2nd lsb of rdi directly (as you can with %ah), so the code isn't quite as dense. 2. check_events needs to variants to save different registers. Signed-off-by: Jeremy Fitzhardinge <jeremy.fitzhardinge@citrix.com> Signed-off-by: H. Peter Anvin <hpa@linux.intel.com>
This commit is contained in:
parent
383414322b
commit
5393744b71
@ -6,7 +6,8 @@ CFLAGS_REMOVE_irq.o = -pg
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endif
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obj-y := enlighten.o setup.o multicalls.o mmu.o irq.o \
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time.o xen-asm_$(BITS).o grant-table.o suspend.o
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time.o xen-asm.o xen-asm_$(BITS).o \
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grant-table.o suspend.o
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obj-$(CONFIG_SMP) += smp.o spinlock.o
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obj-$(CONFIG_XEN_DEBUG_FS) += debugfs.o
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140
arch/x86/xen/xen-asm.S
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140
arch/x86/xen/xen-asm.S
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@ -0,0 +1,140 @@
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/*
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Asm versions of Xen pv-ops, suitable for either direct use or inlining.
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The inline versions are the same as the direct-use versions, with the
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pre- and post-amble chopped off.
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This code is encoded for size rather than absolute efficiency,
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with a view to being able to inline as much as possible.
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We only bother with direct forms (ie, vcpu in percpu data) of
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the operations here; the indirect forms are better handled in
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C, since they're generally too large to inline anyway.
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*/
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#include <asm/asm-offsets.h>
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#include <asm/percpu.h>
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#include <asm/processor-flags.h>
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#include "xen-asm.h"
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/*
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Enable events. This clears the event mask and tests the pending
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event status with one and operation. If there are pending
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events, then enter the hypervisor to get them handled.
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*/
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ENTRY(xen_irq_enable_direct)
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/* Unmask events */
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movb $0, PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_mask
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/* Preempt here doesn't matter because that will deal with
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any pending interrupts. The pending check may end up being
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run on the wrong CPU, but that doesn't hurt. */
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/* Test for pending */
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testb $0xff, PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_pending
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jz 1f
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2: call check_events
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1:
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ENDPATCH(xen_irq_enable_direct)
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ret
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ENDPROC(xen_irq_enable_direct)
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RELOC(xen_irq_enable_direct, 2b+1)
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/*
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Disabling events is simply a matter of making the event mask
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non-zero.
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*/
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ENTRY(xen_irq_disable_direct)
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movb $1, PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_mask
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ENDPATCH(xen_irq_disable_direct)
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ret
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ENDPROC(xen_irq_disable_direct)
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RELOC(xen_irq_disable_direct, 0)
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/*
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(xen_)save_fl is used to get the current interrupt enable status.
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Callers expect the status to be in X86_EFLAGS_IF, and other bits
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may be set in the return value. We take advantage of this by
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making sure that X86_EFLAGS_IF has the right value (and other bits
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in that byte are 0), but other bits in the return value are
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undefined. We need to toggle the state of the bit, because
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Xen and x86 use opposite senses (mask vs enable).
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*/
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ENTRY(xen_save_fl_direct)
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testb $0xff, PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_mask
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setz %ah
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addb %ah,%ah
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ENDPATCH(xen_save_fl_direct)
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ret
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ENDPROC(xen_save_fl_direct)
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RELOC(xen_save_fl_direct, 0)
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/*
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In principle the caller should be passing us a value return
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from xen_save_fl_direct, but for robustness sake we test only
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the X86_EFLAGS_IF flag rather than the whole byte. After
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setting the interrupt mask state, it checks for unmasked
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pending events and enters the hypervisor to get them delivered
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if so.
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*/
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ENTRY(xen_restore_fl_direct)
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#ifdef CONFIG_X86_64
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testw $X86_EFLAGS_IF, %di
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#else
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testb $X86_EFLAGS_IF>>8, %ah
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#endif
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setz PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_mask
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/* Preempt here doesn't matter because that will deal with
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any pending interrupts. The pending check may end up being
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run on the wrong CPU, but that doesn't hurt. */
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/* check for unmasked and pending */
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cmpw $0x0001, PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_pending
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jz 1f
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2: call check_events
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1:
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ENDPATCH(xen_restore_fl_direct)
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ret
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ENDPROC(xen_restore_fl_direct)
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RELOC(xen_restore_fl_direct, 2b+1)
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/*
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Force an event check by making a hypercall,
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but preserve regs before making the call.
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*/
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check_events:
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#ifdef CONFIG_X86_32
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push %eax
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push %ecx
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push %edx
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call xen_force_evtchn_callback
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pop %edx
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pop %ecx
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pop %eax
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#else
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push %rax
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push %rcx
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push %rdx
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push %rsi
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push %rdi
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push %r8
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push %r9
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push %r10
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push %r11
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call xen_force_evtchn_callback
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pop %r11
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pop %r10
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pop %r9
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pop %r8
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pop %rdi
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pop %rsi
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pop %rdx
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pop %rcx
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pop %rax
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#endif
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ret
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12
arch/x86/xen/xen-asm.h
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12
arch/x86/xen/xen-asm.h
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@ -0,0 +1,12 @@
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#ifndef _XEN_XEN_ASM_H
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#define _XEN_XEN_ASM_H
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#include <linux/linkage.h>
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#define RELOC(x, v) .globl x##_reloc; x##_reloc=v
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#define ENDPATCH(x) .globl x##_end; x##_end=.
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/* Pseudo-flag used for virtual NMI, which we don't implement yet */
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#define XEN_EFLAGS_NMI 0x80000000
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#endif
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@ -11,101 +11,28 @@
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generally too large to inline anyway.
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*/
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#include <linux/linkage.h>
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#include <asm/asm-offsets.h>
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//#include <asm/asm-offsets.h>
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#include <asm/thread_info.h>
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#include <asm/percpu.h>
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#include <asm/processor-flags.h>
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#include <asm/segment.h>
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#include <xen/interface/xen.h>
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#define RELOC(x, v) .globl x##_reloc; x##_reloc=v
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#define ENDPATCH(x) .globl x##_end; x##_end=.
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/* Pseudo-flag used for virtual NMI, which we don't implement yet */
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#define XEN_EFLAGS_NMI 0x80000000
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#include "xen-asm.h"
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/*
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Enable events. This clears the event mask and tests the pending
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event status with one and operation. If there are pending
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events, then enter the hypervisor to get them handled.
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Force an event check by making a hypercall,
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but preserve regs before making the call.
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*/
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ENTRY(xen_irq_enable_direct)
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/* Unmask events */
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movb $0, PER_CPU_VAR(xen_vcpu_info)+XEN_vcpu_info_mask
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/* Preempt here doesn't matter because that will deal with
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any pending interrupts. The pending check may end up being
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run on the wrong CPU, but that doesn't hurt. */
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/* Test for pending */
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testb $0xff, PER_CPU_VAR(xen_vcpu_info)+XEN_vcpu_info_pending
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jz 1f
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2: call check_events
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1:
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ENDPATCH(xen_irq_enable_direct)
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check_events:
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push %eax
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push %ecx
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push %edx
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call xen_force_evtchn_callback
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pop %edx
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pop %ecx
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pop %eax
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ret
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ENDPROC(xen_irq_enable_direct)
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RELOC(xen_irq_enable_direct, 2b+1)
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/*
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Disabling events is simply a matter of making the event mask
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non-zero.
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*/
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ENTRY(xen_irq_disable_direct)
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movb $1, PER_CPU_VAR(xen_vcpu_info)+XEN_vcpu_info_mask
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ENDPATCH(xen_irq_disable_direct)
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ret
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ENDPROC(xen_irq_disable_direct)
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RELOC(xen_irq_disable_direct, 0)
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/*
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(xen_)save_fl is used to get the current interrupt enable status.
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Callers expect the status to be in X86_EFLAGS_IF, and other bits
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may be set in the return value. We take advantage of this by
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making sure that X86_EFLAGS_IF has the right value (and other bits
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in that byte are 0), but other bits in the return value are
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undefined. We need to toggle the state of the bit, because
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Xen and x86 use opposite senses (mask vs enable).
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*/
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ENTRY(xen_save_fl_direct)
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testb $0xff, PER_CPU_VAR(xen_vcpu_info)+XEN_vcpu_info_mask
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setz %ah
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addb %ah,%ah
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ENDPATCH(xen_save_fl_direct)
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ret
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ENDPROC(xen_save_fl_direct)
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RELOC(xen_save_fl_direct, 0)
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/*
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In principle the caller should be passing us a value return
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from xen_save_fl_direct, but for robustness sake we test only
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the X86_EFLAGS_IF flag rather than the whole byte. After
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setting the interrupt mask state, it checks for unmasked
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pending events and enters the hypervisor to get them delivered
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if so.
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*/
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ENTRY(xen_restore_fl_direct)
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testb $X86_EFLAGS_IF>>8, %ah
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setz PER_CPU_VAR(xen_vcpu_info)+XEN_vcpu_info_mask
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/* Preempt here doesn't matter because that will deal with
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any pending interrupts. The pending check may end up being
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run on the wrong CPU, but that doesn't hurt. */
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/* check for unmasked and pending */
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cmpw $0x0001, PER_CPU_VAR(xen_vcpu_info)+XEN_vcpu_info_pending
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jz 1f
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2: call check_events
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1:
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ENDPATCH(xen_restore_fl_direct)
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ret
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ENDPROC(xen_restore_fl_direct)
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RELOC(xen_restore_fl_direct, 2b+1)
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/*
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We can't use sysexit directly, because we're not running in ring0.
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@ -289,17 +216,3 @@ ENTRY(xen_iret_crit_fixup)
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lea 4(%edi),%esp /* point esp to new frame */
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2: jmp xen_do_upcall
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/*
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Force an event check by making a hypercall,
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but preserve regs before making the call.
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*/
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check_events:
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push %eax
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push %ecx
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push %edx
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call xen_force_evtchn_callback
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pop %edx
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pop %ecx
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pop %eax
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ret
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@ -11,142 +11,14 @@
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generally too large to inline anyway.
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*/
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#include <linux/linkage.h>
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#include <asm/asm-offsets.h>
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#include <asm/processor-flags.h>
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#include <asm/errno.h>
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#include <asm/segment.h>
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#include <asm/percpu.h>
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#include <asm/processor-flags.h>
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#include <asm/segment.h>
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#include <xen/interface/xen.h>
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#define RELOC(x, v) .globl x##_reloc; x##_reloc=v
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#define ENDPATCH(x) .globl x##_end; x##_end=.
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/* Pseudo-flag used for virtual NMI, which we don't implement yet */
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#define XEN_EFLAGS_NMI 0x80000000
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#if 1
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/*
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FIXME: x86_64 now can support direct access to percpu variables
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via a segment override. Update xen accordingly.
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*/
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#define BUG ud2a
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#endif
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/*
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Enable events. This clears the event mask and tests the pending
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event status with one and operation. If there are pending
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events, then enter the hypervisor to get them handled.
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*/
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ENTRY(xen_irq_enable_direct)
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BUG
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/* Unmask events */
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movb $0, PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_mask
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/* Preempt here doesn't matter because that will deal with
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any pending interrupts. The pending check may end up being
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run on the wrong CPU, but that doesn't hurt. */
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/* Test for pending */
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testb $0xff, PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_pending
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jz 1f
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2: call check_events
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1:
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ENDPATCH(xen_irq_enable_direct)
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ret
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ENDPROC(xen_irq_enable_direct)
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RELOC(xen_irq_enable_direct, 2b+1)
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/*
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Disabling events is simply a matter of making the event mask
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non-zero.
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*/
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ENTRY(xen_irq_disable_direct)
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BUG
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movb $1, PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_mask
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ENDPATCH(xen_irq_disable_direct)
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ret
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ENDPROC(xen_irq_disable_direct)
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RELOC(xen_irq_disable_direct, 0)
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/*
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(xen_)save_fl is used to get the current interrupt enable status.
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Callers expect the status to be in X86_EFLAGS_IF, and other bits
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may be set in the return value. We take advantage of this by
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making sure that X86_EFLAGS_IF has the right value (and other bits
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in that byte are 0), but other bits in the return value are
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undefined. We need to toggle the state of the bit, because
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Xen and x86 use opposite senses (mask vs enable).
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*/
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ENTRY(xen_save_fl_direct)
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BUG
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testb $0xff, PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_mask
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setz %ah
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addb %ah,%ah
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ENDPATCH(xen_save_fl_direct)
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ret
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ENDPROC(xen_save_fl_direct)
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RELOC(xen_save_fl_direct, 0)
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/*
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In principle the caller should be passing us a value return
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from xen_save_fl_direct, but for robustness sake we test only
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the X86_EFLAGS_IF flag rather than the whole byte. After
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setting the interrupt mask state, it checks for unmasked
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pending events and enters the hypervisor to get them delivered
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if so.
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*/
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ENTRY(xen_restore_fl_direct)
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BUG
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testb $X86_EFLAGS_IF>>8, %ah
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setz PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_mask
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/* Preempt here doesn't matter because that will deal with
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any pending interrupts. The pending check may end up being
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run on the wrong CPU, but that doesn't hurt. */
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/* check for unmasked and pending */
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cmpw $0x0001, PER_CPU_VAR(xen_vcpu_info) + XEN_vcpu_info_pending
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jz 1f
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2: call check_events
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1:
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ENDPATCH(xen_restore_fl_direct)
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ret
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ENDPROC(xen_restore_fl_direct)
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RELOC(xen_restore_fl_direct, 2b+1)
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/*
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Force an event check by making a hypercall,
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but preserve regs before making the call.
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*/
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check_events:
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push %rax
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push %rcx
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push %rdx
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push %rsi
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push %rdi
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push %r8
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push %r9
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push %r10
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push %r11
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call xen_force_evtchn_callback
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pop %r11
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pop %r10
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pop %r9
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pop %r8
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pop %rdi
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pop %rsi
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pop %rdx
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pop %rcx
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pop %rax
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ret
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#include "xen-asm.h"
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ENTRY(xen_adjust_exception_frame)
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mov 8+0(%rsp),%rcx
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