314 lines
8.2 KiB
C
314 lines
8.2 KiB
C
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// SPDX-License-Identifier: GPL-2.0-or-later
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/*
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* Test for s390x CPU resets
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*
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* Copyright (C) 2020, IBM
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <sys/ioctl.h>
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#include "test_util.h"
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#include "kvm_util.h"
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#include "kselftest.h"
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#define LOCAL_IRQS 32
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#define ARBITRARY_NON_ZERO_VCPU_ID 3
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struct kvm_s390_irq buf[ARBITRARY_NON_ZERO_VCPU_ID + LOCAL_IRQS];
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static uint8_t regs_null[512];
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static void guest_code_initial(void)
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{
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/* set several CRs to "safe" value */
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unsigned long cr2_59 = 0x10; /* enable guarded storage */
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unsigned long cr8_63 = 0x1; /* monitor mask = 1 */
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unsigned long cr10 = 1; /* PER START */
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unsigned long cr11 = -1; /* PER END */
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/* Dirty registers */
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asm volatile (
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" lghi 2,0x11\n" /* Round toward 0 */
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" sfpc 2\n" /* set fpc to !=0 */
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" lctlg 2,2,%0\n"
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" lctlg 8,8,%1\n"
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" lctlg 10,10,%2\n"
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" lctlg 11,11,%3\n"
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/* now clobber some general purpose regs */
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" llihh 0,0xffff\n"
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" llihl 1,0x5555\n"
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" llilh 2,0xaaaa\n"
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" llill 3,0x0000\n"
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/* now clobber a floating point reg */
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" lghi 4,0x1\n"
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" cdgbr 0,4\n"
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/* now clobber an access reg */
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" sar 9,4\n"
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/* We embed diag 501 here to control register content */
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" diag 0,0,0x501\n"
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:
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: "m" (cr2_59), "m" (cr8_63), "m" (cr10), "m" (cr11)
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/* no clobber list as this should not return */
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);
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}
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static void test_one_reg(struct kvm_vcpu *vcpu, uint64_t id, uint64_t value)
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{
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uint64_t eval_reg;
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vcpu_get_reg(vcpu, id, &eval_reg);
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TEST_ASSERT(eval_reg == value, "value == 0x%lx", value);
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}
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static void assert_noirq(struct kvm_vcpu *vcpu)
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{
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struct kvm_s390_irq_state irq_state;
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int irqs;
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irq_state.len = sizeof(buf);
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irq_state.buf = (unsigned long)buf;
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irqs = __vcpu_ioctl(vcpu, KVM_S390_GET_IRQ_STATE, &irq_state);
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/*
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* irqs contains the number of retrieved interrupts. Any interrupt
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* (notably, the emergency call interrupt we have injected) should
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* be cleared by the resets, so this should be 0.
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*/
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TEST_ASSERT(irqs >= 0, "Could not fetch IRQs: errno %d\n", errno);
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TEST_ASSERT(!irqs, "IRQ pending");
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}
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static void assert_clear(struct kvm_vcpu *vcpu)
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{
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struct kvm_sync_regs *sync_regs = &vcpu->run->s.regs;
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struct kvm_sregs sregs;
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struct kvm_regs regs;
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struct kvm_fpu fpu;
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vcpu_regs_get(vcpu, ®s);
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TEST_ASSERT(!memcmp(®s.gprs, regs_null, sizeof(regs.gprs)), "grs == 0");
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vcpu_sregs_get(vcpu, &sregs);
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TEST_ASSERT(!memcmp(&sregs.acrs, regs_null, sizeof(sregs.acrs)), "acrs == 0");
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vcpu_fpu_get(vcpu, &fpu);
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TEST_ASSERT(!memcmp(&fpu.fprs, regs_null, sizeof(fpu.fprs)), "fprs == 0");
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/* sync regs */
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TEST_ASSERT(!memcmp(sync_regs->gprs, regs_null, sizeof(sync_regs->gprs)),
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"gprs0-15 == 0 (sync_regs)");
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TEST_ASSERT(!memcmp(sync_regs->acrs, regs_null, sizeof(sync_regs->acrs)),
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"acrs0-15 == 0 (sync_regs)");
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TEST_ASSERT(!memcmp(sync_regs->vrs, regs_null, sizeof(sync_regs->vrs)),
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"vrs0-15 == 0 (sync_regs)");
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}
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static void assert_initial_noclear(struct kvm_vcpu *vcpu)
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{
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struct kvm_sync_regs *sync_regs = &vcpu->run->s.regs;
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TEST_ASSERT(sync_regs->gprs[0] == 0xffff000000000000UL,
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"gpr0 == 0xffff000000000000 (sync_regs)");
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TEST_ASSERT(sync_regs->gprs[1] == 0x0000555500000000UL,
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"gpr1 == 0x0000555500000000 (sync_regs)");
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TEST_ASSERT(sync_regs->gprs[2] == 0x00000000aaaa0000UL,
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"gpr2 == 0x00000000aaaa0000 (sync_regs)");
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TEST_ASSERT(sync_regs->gprs[3] == 0x0000000000000000UL,
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"gpr3 == 0x0000000000000000 (sync_regs)");
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TEST_ASSERT(sync_regs->fprs[0] == 0x3ff0000000000000UL,
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"fpr0 == 0f1 (sync_regs)");
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TEST_ASSERT(sync_regs->acrs[9] == 1, "ar9 == 1 (sync_regs)");
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}
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static void assert_initial(struct kvm_vcpu *vcpu)
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{
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struct kvm_sync_regs *sync_regs = &vcpu->run->s.regs;
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struct kvm_sregs sregs;
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struct kvm_fpu fpu;
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/* KVM_GET_SREGS */
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vcpu_sregs_get(vcpu, &sregs);
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TEST_ASSERT(sregs.crs[0] == 0xE0UL, "cr0 == 0xE0 (KVM_GET_SREGS)");
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TEST_ASSERT(sregs.crs[14] == 0xC2000000UL,
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"cr14 == 0xC2000000 (KVM_GET_SREGS)");
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TEST_ASSERT(!memcmp(&sregs.crs[1], regs_null, sizeof(sregs.crs[1]) * 12),
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"cr1-13 == 0 (KVM_GET_SREGS)");
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TEST_ASSERT(sregs.crs[15] == 0, "cr15 == 0 (KVM_GET_SREGS)");
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/* sync regs */
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TEST_ASSERT(sync_regs->crs[0] == 0xE0UL, "cr0 == 0xE0 (sync_regs)");
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TEST_ASSERT(sync_regs->crs[14] == 0xC2000000UL,
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"cr14 == 0xC2000000 (sync_regs)");
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TEST_ASSERT(!memcmp(&sync_regs->crs[1], regs_null, 8 * 12),
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"cr1-13 == 0 (sync_regs)");
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TEST_ASSERT(sync_regs->crs[15] == 0, "cr15 == 0 (sync_regs)");
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TEST_ASSERT(sync_regs->fpc == 0, "fpc == 0 (sync_regs)");
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TEST_ASSERT(sync_regs->todpr == 0, "todpr == 0 (sync_regs)");
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TEST_ASSERT(sync_regs->cputm == 0, "cputm == 0 (sync_regs)");
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TEST_ASSERT(sync_regs->ckc == 0, "ckc == 0 (sync_regs)");
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TEST_ASSERT(sync_regs->pp == 0, "pp == 0 (sync_regs)");
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TEST_ASSERT(sync_regs->gbea == 1, "gbea == 1 (sync_regs)");
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/* kvm_run */
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TEST_ASSERT(vcpu->run->psw_addr == 0, "psw_addr == 0 (kvm_run)");
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TEST_ASSERT(vcpu->run->psw_mask == 0, "psw_mask == 0 (kvm_run)");
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vcpu_fpu_get(vcpu, &fpu);
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TEST_ASSERT(!fpu.fpc, "fpc == 0");
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test_one_reg(vcpu, KVM_REG_S390_GBEA, 1);
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test_one_reg(vcpu, KVM_REG_S390_PP, 0);
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test_one_reg(vcpu, KVM_REG_S390_TODPR, 0);
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test_one_reg(vcpu, KVM_REG_S390_CPU_TIMER, 0);
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test_one_reg(vcpu, KVM_REG_S390_CLOCK_COMP, 0);
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}
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static void assert_normal_noclear(struct kvm_vcpu *vcpu)
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{
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struct kvm_sync_regs *sync_regs = &vcpu->run->s.regs;
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TEST_ASSERT(sync_regs->crs[2] == 0x10, "cr2 == 10 (sync_regs)");
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TEST_ASSERT(sync_regs->crs[8] == 1, "cr10 == 1 (sync_regs)");
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TEST_ASSERT(sync_regs->crs[10] == 1, "cr10 == 1 (sync_regs)");
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TEST_ASSERT(sync_regs->crs[11] == -1, "cr11 == -1 (sync_regs)");
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}
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static void assert_normal(struct kvm_vcpu *vcpu)
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{
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test_one_reg(vcpu, KVM_REG_S390_PFTOKEN, KVM_S390_PFAULT_TOKEN_INVALID);
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TEST_ASSERT(vcpu->run->s.regs.pft == KVM_S390_PFAULT_TOKEN_INVALID,
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"pft == 0xff..... (sync_regs)");
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assert_noirq(vcpu);
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}
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static void inject_irq(struct kvm_vcpu *vcpu)
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{
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struct kvm_s390_irq_state irq_state;
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struct kvm_s390_irq *irq = &buf[0];
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int irqs;
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/* Inject IRQ */
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irq_state.len = sizeof(struct kvm_s390_irq);
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irq_state.buf = (unsigned long)buf;
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irq->type = KVM_S390_INT_EMERGENCY;
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irq->u.emerg.code = vcpu->id;
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irqs = __vcpu_ioctl(vcpu, KVM_S390_SET_IRQ_STATE, &irq_state);
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TEST_ASSERT(irqs >= 0, "Error injecting EMERGENCY IRQ errno %d\n", errno);
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}
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static struct kvm_vm *create_vm(struct kvm_vcpu **vcpu)
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{
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struct kvm_vm *vm;
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vm = vm_create(1);
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*vcpu = vm_vcpu_add(vm, ARBITRARY_NON_ZERO_VCPU_ID, guest_code_initial);
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return vm;
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}
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static void test_normal(void)
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{
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struct kvm_vcpu *vcpu;
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struct kvm_vm *vm;
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ksft_print_msg("Testing normal reset\n");
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vm = create_vm(&vcpu);
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vcpu_run(vcpu);
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inject_irq(vcpu);
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vcpu_ioctl(vcpu, KVM_S390_NORMAL_RESET, NULL);
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/* must clears */
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assert_normal(vcpu);
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/* must not clears */
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assert_normal_noclear(vcpu);
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assert_initial_noclear(vcpu);
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kvm_vm_free(vm);
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}
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static void test_initial(void)
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{
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struct kvm_vcpu *vcpu;
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struct kvm_vm *vm;
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ksft_print_msg("Testing initial reset\n");
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vm = create_vm(&vcpu);
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vcpu_run(vcpu);
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inject_irq(vcpu);
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vcpu_ioctl(vcpu, KVM_S390_INITIAL_RESET, NULL);
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/* must clears */
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assert_normal(vcpu);
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assert_initial(vcpu);
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/* must not clears */
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assert_initial_noclear(vcpu);
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kvm_vm_free(vm);
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}
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static void test_clear(void)
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{
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struct kvm_vcpu *vcpu;
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struct kvm_vm *vm;
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ksft_print_msg("Testing clear reset\n");
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vm = create_vm(&vcpu);
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vcpu_run(vcpu);
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inject_irq(vcpu);
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vcpu_ioctl(vcpu, KVM_S390_CLEAR_RESET, NULL);
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/* must clears */
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assert_normal(vcpu);
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assert_initial(vcpu);
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assert_clear(vcpu);
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kvm_vm_free(vm);
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}
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struct testdef {
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const char *name;
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void (*test)(void);
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bool needs_cap;
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} testlist[] = {
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{ "initial", test_initial, false },
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{ "normal", test_normal, true },
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{ "clear", test_clear, true },
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};
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int main(int argc, char *argv[])
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{
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bool has_s390_vcpu_resets = kvm_check_cap(KVM_CAP_S390_VCPU_RESETS);
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int idx;
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ksft_print_header();
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ksft_set_plan(ARRAY_SIZE(testlist));
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for (idx = 0; idx < ARRAY_SIZE(testlist); idx++) {
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if (!testlist[idx].needs_cap || has_s390_vcpu_resets) {
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testlist[idx].test();
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ksft_test_result_pass("%s\n", testlist[idx].name);
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} else {
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ksft_test_result_skip("%s - no VCPU_RESETS capability\n",
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testlist[idx].name);
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}
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}
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ksft_finished(); /* Print results and exit() accordingly */
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}
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