If the guest vcpu wants to idle then use that opportunity to relinquish the
host cpu to the scheduler until the guest is ready to run again. This implies that the host cpu utilization will now closely mirror the actual load imposed by the guest vcpu. Also, the vcpu mutex now needs to be of type MTX_SPIN since we need to acquire it inside a critical section. Obtained from: NetApp
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@ -159,6 +159,8 @@ static int cap_monitor_trap;
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/* statistics */
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static VMM_STAT_DEFINE(VCPU_MIGRATIONS, "vcpu migration across host cpus");
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static VMM_STAT_DEFINE(VMEXIT_EXTINT, "vm exits due to external interrupt");
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static VMM_STAT_DEFINE(VMEXIT_HLT_IGNORED, "number of times hlt was ignored");
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static VMM_STAT_DEFINE(VMEXIT_HLT, "number of times hlt was intercepted");
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#ifdef KTR
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static const char *
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@ -1203,11 +1205,11 @@ vmx_lapic_fault(struct vm *vm, int cpu,
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static int
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vmx_exit_process(struct vmx *vmx, int vcpu, struct vm_exit *vmexit)
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{
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int handled;
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int error, handled;
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struct vmcs *vmcs;
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struct vmxctx *vmxctx;
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uint32_t eax, ecx, edx;
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uint64_t qual, gpa, cr3;
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uint64_t qual, gpa, cr3, intr_info;
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handled = 0;
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vmcs = &vmx->vmcs[vcpu];
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@ -1240,7 +1242,20 @@ vmx_exit_process(struct vmx *vmx, int vcpu, struct vm_exit *vmexit)
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}
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break;
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case EXIT_REASON_HLT:
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vmexit->exitcode = VM_EXITCODE_HLT;
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vmm_stat_incr(vmx->vm, vcpu, VMEXIT_HLT, 1);
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/*
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* If there is an event waiting to be injected then there is
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* no need to 'hlt'.
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*/
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error = vmread(VMCS_ENTRY_INTR_INFO, &intr_info);
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if (error)
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panic("vmx_exit_process: vmread(intrinfo) %d", error);
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if (intr_info & VMCS_INTERRUPTION_INFO_VALID) {
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handled = 1;
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vmm_stat_incr(vmx->vm, vcpu, VMEXIT_HLT_IGNORED, 1);
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} else
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vmexit->exitcode = VM_EXITCODE_HLT;
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break;
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case EXIT_REASON_MTF:
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vmexit->exitcode = VM_EXITCODE_MTRAP;
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@ -58,6 +58,7 @@ __FBSDID("$FreeBSD$");
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#include "vmm_msr.h"
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#include "vmm_ipi.h"
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#include "vmm_stat.h"
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#include "vmm_lapic.h"
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#include "io/ppt.h"
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#include "io/iommu.h"
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@ -92,9 +93,9 @@ do { \
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vm->vcpu[vcpuid].pincpu = host_cpuid; \
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} while(0)
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#define vcpu_lock_init(v) mtx_init(&((v)->mtx), "vcpu lock", 0, MTX_DEF)
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#define vcpu_lock(v) mtx_lock(&((v)->mtx))
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#define vcpu_unlock(v) mtx_unlock(&((v)->mtx))
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#define vcpu_lock_init(v) mtx_init(&((v)->mtx), "vcpu lock", 0, MTX_SPIN)
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#define vcpu_lock(v) mtx_lock_spin(&((v)->mtx))
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#define vcpu_unlock(v) mtx_unlock_spin(&((v)->mtx))
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#define VM_MAX_MEMORY_SEGMENTS 2
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@ -651,13 +652,16 @@ save_guest_fpustate(struct vcpu *vcpu)
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fpu_start_emulating();
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}
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static VMM_STAT_DEFINE(VCPU_IDLE_TICKS, "number of ticks vcpu was idle");
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int
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vm_run(struct vm *vm, struct vm_run *vmrun)
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{
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int error, vcpuid;
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int error, vcpuid, sleepticks, t;
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struct vcpu *vcpu;
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struct pcb *pcb;
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uint64_t tscval;
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uint64_t tscval, rip;
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struct vm_exit *vme;
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vcpuid = vmrun->cpuid;
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@ -665,7 +669,9 @@ vm_run(struct vm *vm, struct vm_run *vmrun)
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return (EINVAL);
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vcpu = &vm->vcpu[vcpuid];
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vme = &vmrun->vm_exit;
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rip = vmrun->rip;
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restart:
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critical_enter();
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tscval = rdtsc();
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@ -677,7 +683,7 @@ vm_run(struct vm *vm, struct vm_run *vmrun)
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restore_guest_fpustate(vcpu);
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vcpu->hostcpu = curcpu;
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error = VMRUN(vm->cookie, vcpuid, vmrun->rip);
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error = VMRUN(vm->cookie, vcpuid, rip);
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vcpu->hostcpu = NOCPU;
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save_guest_fpustate(vcpu);
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@ -686,10 +692,52 @@ vm_run(struct vm *vm, struct vm_run *vmrun)
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vmm_stat_incr(vm, vcpuid, VCPU_TOTAL_RUNTIME, rdtsc() - tscval);
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/* copy the exit information */
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bcopy(&vcpu->exitinfo, &vmrun->vm_exit, sizeof(struct vm_exit));
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bcopy(&vcpu->exitinfo, vme, sizeof(struct vm_exit));
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critical_exit();
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/*
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* Oblige the guest's desire to 'hlt' by sleeping until the vcpu
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* is ready to run.
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*/
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if (error == 0 && vme->exitcode == VM_EXITCODE_HLT) {
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vcpu_lock(vcpu);
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/*
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* Figure out the number of host ticks until the next apic
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* timer interrupt in the guest.
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*/
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sleepticks = lapic_timer_tick(vm, vcpuid);
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/*
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* If the guest local apic timer is disabled then sleep for
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* a long time but not forever.
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*/
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if (sleepticks < 0)
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sleepticks = hz;
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/*
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* Do a final check for pending NMI or interrupts before
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* really putting this thread to sleep.
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*
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* These interrupts could have happened any time after we
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* returned from VMRUN() and before we grabbed the vcpu lock.
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*/
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if (!vm_nmi_pending(vm, vcpuid) &&
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lapic_pending_intr(vm, vcpuid) < 0) {
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if (sleepticks <= 0)
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panic("invalid sleepticks %d", sleepticks);
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t = ticks;
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msleep_spin(vcpu, &vcpu->mtx, "vmidle", sleepticks);
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vmm_stat_incr(vm, vcpuid, VCPU_IDLE_TICKS, ticks - t);
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}
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vcpu_unlock(vcpu);
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rip = vme->rip + vme->inst_length;
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goto restart;
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}
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return (error);
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}
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@ -709,7 +757,7 @@ vm_inject_event(struct vm *vm, int vcpuid, int type,
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return (VMINJECT(vm->cookie, vcpuid, type, vector, code, code_valid));
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}
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VMM_STAT_DEFINE(VCPU_NMI_COUNT, "number of NMIs delivered to vcpu");
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static VMM_STAT_DEFINE(VCPU_NMI_COUNT, "number of NMIs delivered to vcpu");
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int
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vm_inject_nmi(struct vm *vm, int vcpuid)
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@ -935,16 +983,25 @@ vm_interrupt_hostcpu(struct vm *vm, int vcpuid)
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vcpu = &vm->vcpu[vcpuid];
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/*
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* XXX racy but the worst case is that we'll send an unnecessary IPI
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* to the 'hostcpu'.
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*
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* We cannot use vcpu_is_running() here because it acquires vcpu->mtx
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* which is not allowed inside a critical section.
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*/
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vcpu_lock(vcpu);
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hostcpu = vcpu->hostcpu;
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if (hostcpu == NOCPU || hostcpu == curcpu)
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return;
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ipi_cpu(hostcpu, vmm_ipinum);
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if (hostcpu == NOCPU) {
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/*
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* If the vcpu is 'RUNNING' but without a valid 'hostcpu' then
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* the host thread must be sleeping waiting for an event to
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* kick the vcpu out of 'hlt'.
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*
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* XXX this is racy because the condition exists right before
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* and after calling VMRUN() in vm_run(). The wakeup() is
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* benign in this case.
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*/
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if (vcpu->state == VCPU_RUNNING)
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wakeup_one(vcpu);
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} else {
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if (vcpu->state != VCPU_RUNNING)
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panic("invalid vcpu state %d", vcpu->state);
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if (hostcpu != curcpu)
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ipi_cpu(hostcpu, vmm_ipinum);
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}
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vcpu_unlock(vcpu);
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}
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