/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2011 NetApp, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY NETAPP, INC ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL NETAPP, INC OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* * This file and its contents are supplied under the terms of the * Common Development and Distribution License ("CDDL"), version 1.0. * You may only use this file in accordance with the terms of version * 1.0 of the CDDL. * * A full copy of the text of the CDDL should have accompanied this * source. A copy of the CDDL is also available via the Internet at * http://www.illumos.org/license/CDDL. * * Copyright 2015 Pluribus Networks Inc. * Copyright 2019 Joyent, Inc. * Copyright 2023 Oxide Computer Company */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "amd/vmcb.h" #include "intel/vmcs.h" #define MB (1UL << 20) #define GB (1UL << 30) #define REQ_ARG required_argument #define NO_ARG no_argument #define OPT_ARG optional_argument static const char *progname; static int get_rtc_time, set_rtc_time; static int get_rtc_nvram, set_rtc_nvram; static int rtc_nvram_offset; static uint8_t rtc_nvram_value; static time_t rtc_secs; static int get_stats, getcap, setcap, capval, get_gpa_pmap; static int inject_nmi, assert_lapic_lvt; static int force_reset, force_poweroff; static const char *capname; static int create, destroy, get_memmap, get_memseg; static int get_intinfo; static int get_active_cpus, get_debug_cpus; static uint64_t memsize; static int set_cr0, get_cr0, set_cr2, get_cr2, set_cr3, get_cr3; static int set_cr4, get_cr4; static int set_efer, get_efer; static int set_dr0, get_dr0; static int set_dr1, get_dr1; static int set_dr2, get_dr2; static int set_dr3, get_dr3; static int set_dr6, get_dr6; static int set_dr7, get_dr7; static int set_rsp, get_rsp, set_rip, get_rip, set_rflags, get_rflags; static int set_rax, get_rax; static int get_rbx, get_rcx, get_rdx, get_rsi, get_rdi, get_rbp; static int get_r8, get_r9, get_r10, get_r11, get_r12, get_r13, get_r14, get_r15; static int set_desc_ds, get_desc_ds; static int set_desc_es, get_desc_es; static int set_desc_fs, get_desc_fs; static int set_desc_gs, get_desc_gs; static int set_desc_cs, get_desc_cs; static int set_desc_ss, get_desc_ss; static int set_desc_gdtr, get_desc_gdtr; static int set_desc_idtr, get_desc_idtr; static int set_desc_tr, get_desc_tr; static int set_desc_ldtr, get_desc_ldtr; static int set_cs, set_ds, set_es, set_fs, set_gs, set_ss, set_tr, set_ldtr; static int get_cs, get_ds, get_es, get_fs, get_gs, get_ss, get_tr, get_ldtr; static int set_x2apic_state, get_x2apic_state; static enum x2apic_state x2apic_state; static int run; static int do_pause, do_resume; static int get_cpu_topology; static int pmtmr_port; static int wrlock_cycle; static int get_fpu; /* * VMCB specific. */ static int get_vmcb_intercept, get_vmcb_exit_details, get_vmcb_tlb_ctrl; static int get_vmcb_virq, get_avic_table; /* * VMCS-specific fields */ static int get_pinbased_ctls, get_procbased_ctls, get_procbased_ctls2; static int get_eptp, get_io_bitmap, get_tsc_offset; static int get_vmcs_entry_interruption_info, set_vmcs_entry_interruption_info; static int get_vmcs_interruptibility; uint32_t vmcs_entry_interruption_info; static int get_vmcs_gpa, get_vmcs_gla; static int get_exception_bitmap, set_exception_bitmap, exception_bitmap; static int get_cr0_mask, get_cr0_shadow; static int get_cr4_mask, get_cr4_shadow; static int get_cr3_targets; static int get_apic_access_addr, get_virtual_apic_addr, get_tpr_threshold; static int get_msr_bitmap, get_msr_bitmap_address; static int get_guest_msrs; static int get_vpid_asid; static int get_inst_err, get_exit_ctls, get_entry_ctls; static int get_host_cr0, get_host_cr3, get_host_cr4; static int get_host_rip, get_host_rsp; static int get_host_pat; static int get_vmcs_link; static int get_exit_reason, get_vmcs_exit_qualification; static int get_vmcs_exit_interruption_info, get_vmcs_exit_interruption_error; static int get_vmcs_exit_inst_length; static uint64_t desc_base; static uint32_t desc_limit, desc_access; static int get_all; static void dump_vm_run_exitcode(struct vm_exit *vmexit, int vcpu) { printf("vm exit[%d]\n", vcpu); printf("\trip\t\t0x%016lx\n", vmexit->rip); printf("\tinst_length\t%d\n", vmexit->inst_length); switch (vmexit->exitcode) { case VM_EXITCODE_INOUT: printf("\treason\t\tINOUT\n"); printf("\tdirection\t%s\n", (vmexit->u.inout.flags & INOUT_IN) ? "IN" : "OUT"); printf("\tbytes\t\t%d\n", vmexit->u.inout.bytes); printf("\tport\t\t0x%04x\n", vmexit->u.inout.port); printf("\teax\t\t0x%08x\n", vmexit->u.inout.eax); break; case VM_EXITCODE_MMIO: printf("\treason\t\tMMIO\n"); printf("\toperation\t%s\n", vmexit->u.mmio.read ? "READ" : "WRITE"); printf("\tbytes\t\t%d\n", vmexit->u.mmio.bytes); printf("\tgpa\t\t0x%08x\n", vmexit->u.mmio.gpa); printf("\tdata\t\t0x%08x\n", vmexit->u.mmio.data); break; case VM_EXITCODE_VMX: printf("\treason\t\tVMX\n"); printf("\tstatus\t\t%d\n", vmexit->u.vmx.status); printf("\texit_reason\t0x%08x (%u)\n", vmexit->u.vmx.exit_reason, vmexit->u.vmx.exit_reason); printf("\tqualification\t0x%016lx\n", vmexit->u.vmx.exit_qualification); printf("\tinst_type\t\t%d\n", vmexit->u.vmx.inst_type); printf("\tinst_error\t\t%d\n", vmexit->u.vmx.inst_error); break; case VM_EXITCODE_SVM: printf("\treason\t\tSVM\n"); printf("\texit_reason\t\t%#lx\n", vmexit->u.svm.exitcode); printf("\texitinfo1\t\t%#lx\n", vmexit->u.svm.exitinfo1); printf("\texitinfo2\t\t%#lx\n", vmexit->u.svm.exitinfo2); break; default: printf("*** unknown vm run exitcode %d\n", vmexit->exitcode); break; } } /* AMD 6th generation and Intel compatible MSRs */ #define MSR_AMD6TH_START 0xC0000000 #define MSR_AMD6TH_END 0xC0001FFF /* AMD 7th and 8th generation compatible MSRs */ #define MSR_AMD7TH_START 0xC0010000 #define MSR_AMD7TH_END 0xC0011FFF /* Until a safe method is created, arbitrary VMCS reads/writes are forbidden */ static int vm_get_vmcs_field(struct vcpu *vcpu, int field, uint64_t *ret_val) { *ret_val = 0; return (0); } static int vm_set_vmcs_field(struct vcpu *vcpu, int field, uint64_t val) { return (EINVAL); } /* Until a safe method is created, arbitrary VMCB reads/writes are forbidden */ static int vm_get_vmcb_field(struct vcpu *vcpu, int off, int bytes, uint64_t *ret_val) { *ret_val = 0; return (0); } static int vm_set_vmcb_field(struct vcpu *vcpu, int off, int bytes, uint64_t val) { return (EINVAL); } enum { VMNAME = 1000, /* avoid collision with return values from getopt */ VCPU, SET_MEM, SET_EFER, SET_CR0, SET_CR2, SET_CR3, SET_CR4, SET_DR0, SET_DR1, SET_DR2, SET_DR3, SET_DR6, SET_DR7, SET_RSP, SET_RIP, SET_RAX, SET_RFLAGS, DESC_BASE, DESC_LIMIT, DESC_ACCESS, SET_CS, SET_DS, SET_ES, SET_FS, SET_GS, SET_SS, SET_TR, SET_LDTR, SET_X2APIC_STATE, SET_EXCEPTION_BITMAP, SET_VMCS_ENTRY_INTERRUPTION_INFO, SET_CAP, CAPNAME, UNASSIGN_PPTDEV, GET_GPA_PMAP, ASSERT_LAPIC_LVT, SET_RTC_TIME, SET_RTC_NVRAM, RTC_NVRAM_OFFSET, PMTMR_PORT, }; static void print_cpus(const char *banner, const cpuset_t *cpus) { int i; int first; first = 1; printf("%s:\t", banner); if (!CPU_EMPTY(cpus)) { for (i = 0; i < CPU_SETSIZE; i++) { if (CPU_ISSET(i, cpus)) { printf("%s%d", first ? " " : ", ", i); first = 0; } } } else printf(" (none)"); printf("\n"); } static void print_intinfo(const char *banner, uint64_t info) { printf("%s:\t", banner); if (VM_INTINFO_PENDING(info)) { switch (VM_INTINFO_TYPE(info)) { case VM_INTINFO_HWINTR: printf("extint"); break; case VM_INTINFO_NMI: printf("nmi"); break; case VM_INTINFO_SWINTR: printf("swint"); break; default: printf("exception"); break; } printf(" vector %hhd", VM_INTINFO_VECTOR(info)); if (VM_INTINFO_HAS_ERRCODE(info)) { printf(" errcode %#x", VM_INTINFO_ERRCODE(info)); } } else { printf("n/a"); } printf("\n"); } static bool cpu_vendor_intel(void) { u_int regs[4], v[3]; do_cpuid(0, regs); v[0] = regs[1]; v[1] = regs[3]; v[2] = regs[2]; if (memcmp(v, "GenuineIntel", sizeof(v)) == 0) return (true); if (memcmp(v, "AuthenticAMD", sizeof(v)) == 0 || memcmp(v, "HygonGenuine", sizeof(v)) == 0) return (false); fprintf(stderr, "Unknown cpu vendor \"%s\"\n", (const char *)v); exit(1); } static int get_all_registers(struct vcpu *vcpu) { uint64_t cr0, cr2, cr3, cr4, dr0, dr1, dr2, dr3, dr6, dr7; uint64_t rsp, rip, rflags, efer; uint64_t rax, rbx, rcx, rdx, rsi, rdi, rbp; uint64_t r8, r9, r10, r11, r12, r13, r14, r15; int vcpuid = vcpu_id(vcpu); int error = 0; if (!error && (get_efer || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_EFER, &efer); if (error == 0) printf("efer[%d]\t\t0x%016lx\n", vcpuid, efer); } if (!error && (get_cr0 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_CR0, &cr0); if (error == 0) printf("cr0[%d]\t\t0x%016lx\n", vcpuid, cr0); } if (!error && (get_cr2 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_CR2, &cr2); if (error == 0) printf("cr2[%d]\t\t0x%016lx\n", vcpuid, cr2); } if (!error && (get_cr3 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_CR3, &cr3); if (error == 0) printf("cr3[%d]\t\t0x%016lx\n", vcpuid, cr3); } if (!error && (get_cr4 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_CR4, &cr4); if (error == 0) printf("cr4[%d]\t\t0x%016lx\n", vcpuid, cr4); } if (!error && (get_dr0 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_DR0, &dr0); if (error == 0) printf("dr0[%d]\t\t0x%016lx\n", vcpuid, dr0); } if (!error && (get_dr1 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_DR1, &dr1); if (error == 0) printf("dr1[%d]\t\t0x%016lx\n", vcpuid, dr1); } if (!error && (get_dr2 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_DR2, &dr2); if (error == 0) printf("dr2[%d]\t\t0x%016lx\n", vcpuid, dr2); } if (!error && (get_dr3 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_DR3, &dr3); if (error == 0) printf("dr3[%d]\t\t0x%016lx\n", vcpuid, dr3); } if (!error && (get_dr6 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_DR6, &dr6); if (error == 0) printf("dr6[%d]\t\t0x%016lx\n", vcpuid, dr6); } if (!error && (get_dr7 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_DR7, &dr7); if (error == 0) printf("dr7[%d]\t\t0x%016lx\n", vcpuid, dr7); } if (!error && (get_rsp || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_RSP, &rsp); if (error == 0) printf("rsp[%d]\t\t0x%016lx\n", vcpuid, rsp); } if (!error && (get_rip || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_RIP, &rip); if (error == 0) printf("rip[%d]\t\t0x%016lx\n", vcpuid, rip); } if (!error && (get_rax || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_RAX, &rax); if (error == 0) printf("rax[%d]\t\t0x%016lx\n", vcpuid, rax); } if (!error && (get_rbx || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_RBX, &rbx); if (error == 0) printf("rbx[%d]\t\t0x%016lx\n", vcpuid, rbx); } if (!error && (get_rcx || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_RCX, &rcx); if (error == 0) printf("rcx[%d]\t\t0x%016lx\n", vcpuid, rcx); } if (!error && (get_rdx || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_RDX, &rdx); if (error == 0) printf("rdx[%d]\t\t0x%016lx\n", vcpuid, rdx); } if (!error && (get_rsi || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_RSI, &rsi); if (error == 0) printf("rsi[%d]\t\t0x%016lx\n", vcpuid, rsi); } if (!error && (get_rdi || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_RDI, &rdi); if (error == 0) printf("rdi[%d]\t\t0x%016lx\n", vcpuid, rdi); } if (!error && (get_rbp || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_RBP, &rbp); if (error == 0) printf("rbp[%d]\t\t0x%016lx\n", vcpuid, rbp); } if (!error && (get_r8 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_R8, &r8); if (error == 0) printf("r8[%d]\t\t0x%016lx\n", vcpuid, r8); } if (!error && (get_r9 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_R9, &r9); if (error == 0) printf("r9[%d]\t\t0x%016lx\n", vcpuid, r9); } if (!error && (get_r10 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_R10, &r10); if (error == 0) printf("r10[%d]\t\t0x%016lx\n", vcpuid, r10); } if (!error && (get_r11 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_R11, &r11); if (error == 0) printf("r11[%d]\t\t0x%016lx\n", vcpuid, r11); } if (!error && (get_r12 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_R12, &r12); if (error == 0) printf("r12[%d]\t\t0x%016lx\n", vcpuid, r12); } if (!error && (get_r13 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_R13, &r13); if (error == 0) printf("r13[%d]\t\t0x%016lx\n", vcpuid, r13); } if (!error && (get_r14 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_R14, &r14); if (error == 0) printf("r14[%d]\t\t0x%016lx\n", vcpuid, r14); } if (!error && (get_r15 || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_R15, &r15); if (error == 0) printf("r15[%d]\t\t0x%016lx\n", vcpuid, r15); } if (!error && (get_rflags || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_RFLAGS, &rflags); if (error == 0) printf("rflags[%d]\t0x%016lx\n", vcpuid, rflags); } return (error); } static int get_all_segments(struct vcpu *vcpu) { uint64_t cs, ds, es, fs, gs, ss, tr, ldtr; int vcpuid = vcpu_id(vcpu); int error = 0; if (!error && (get_desc_ds || get_all)) { error = vm_get_desc(vcpu, VM_REG_GUEST_DS, &desc_base, &desc_limit, &desc_access); if (error == 0) { printf("ds desc[%d]\t0x%016lx/0x%08x/0x%08x\n", vcpuid, desc_base, desc_limit, desc_access); } } if (!error && (get_desc_es || get_all)) { error = vm_get_desc(vcpu, VM_REG_GUEST_ES, &desc_base, &desc_limit, &desc_access); if (error == 0) { printf("es desc[%d]\t0x%016lx/0x%08x/0x%08x\n", vcpuid, desc_base, desc_limit, desc_access); } } if (!error && (get_desc_fs || get_all)) { error = vm_get_desc(vcpu, VM_REG_GUEST_FS, &desc_base, &desc_limit, &desc_access); if (error == 0) { printf("fs desc[%d]\t0x%016lx/0x%08x/0x%08x\n", vcpuid, desc_base, desc_limit, desc_access); } } if (!error && (get_desc_gs || get_all)) { error = vm_get_desc(vcpu, VM_REG_GUEST_GS, &desc_base, &desc_limit, &desc_access); if (error == 0) { printf("gs desc[%d]\t0x%016lx/0x%08x/0x%08x\n", vcpuid, desc_base, desc_limit, desc_access); } } if (!error && (get_desc_ss || get_all)) { error = vm_get_desc(vcpu, VM_REG_GUEST_SS, &desc_base, &desc_limit, &desc_access); if (error == 0) { printf("ss desc[%d]\t0x%016lx/0x%08x/0x%08x\n", vcpuid, desc_base, desc_limit, desc_access); } } if (!error && (get_desc_cs || get_all)) { error = vm_get_desc(vcpu, VM_REG_GUEST_CS, &desc_base, &desc_limit, &desc_access); if (error == 0) { printf("cs desc[%d]\t0x%016lx/0x%08x/0x%08x\n", vcpuid, desc_base, desc_limit, desc_access); } } if (!error && (get_desc_tr || get_all)) { error = vm_get_desc(vcpu, VM_REG_GUEST_TR, &desc_base, &desc_limit, &desc_access); if (error == 0) { printf("tr desc[%d]\t0x%016lx/0x%08x/0x%08x\n", vcpuid, desc_base, desc_limit, desc_access); } } if (!error && (get_desc_ldtr || get_all)) { error = vm_get_desc(vcpu, VM_REG_GUEST_LDTR, &desc_base, &desc_limit, &desc_access); if (error == 0) { printf("ldtr desc[%d]\t0x%016lx/0x%08x/0x%08x\n", vcpuid, desc_base, desc_limit, desc_access); } } if (!error && (get_desc_gdtr || get_all)) { error = vm_get_desc(vcpu, VM_REG_GUEST_GDTR, &desc_base, &desc_limit, &desc_access); if (error == 0) { printf("gdtr[%d]\t\t0x%016lx/0x%08x\n", vcpuid, desc_base, desc_limit); } } if (!error && (get_desc_idtr || get_all)) { error = vm_get_desc(vcpu, VM_REG_GUEST_IDTR, &desc_base, &desc_limit, &desc_access); if (error == 0) { printf("idtr[%d]\t\t0x%016lx/0x%08x\n", vcpuid, desc_base, desc_limit); } } if (!error && (get_cs || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_CS, &cs); if (error == 0) printf("cs[%d]\t\t0x%04lx\n", vcpuid, cs); } if (!error && (get_ds || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_DS, &ds); if (error == 0) printf("ds[%d]\t\t0x%04lx\n", vcpuid, ds); } if (!error && (get_es || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_ES, &es); if (error == 0) printf("es[%d]\t\t0x%04lx\n", vcpuid, es); } if (!error && (get_fs || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_FS, &fs); if (error == 0) printf("fs[%d]\t\t0x%04lx\n", vcpuid, fs); } if (!error && (get_gs || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_GS, &gs); if (error == 0) printf("gs[%d]\t\t0x%04lx\n", vcpuid, gs); } if (!error && (get_ss || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_SS, &ss); if (error == 0) printf("ss[%d]\t\t0x%04lx\n", vcpuid, ss); } if (!error && (get_tr || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_TR, &tr); if (error == 0) printf("tr[%d]\t\t0x%04lx\n", vcpuid, tr); } if (!error && (get_ldtr || get_all)) { error = vm_get_register(vcpu, VM_REG_GUEST_LDTR, &ldtr); if (error == 0) printf("ldtr[%d]\t\t0x%04lx\n", vcpuid, ldtr); } return (error); } static int get_misc_vmcs(struct vcpu *vcpu) { uint64_t ctl, cr0, cr3, cr4, rsp, rip, pat, addr, u64; int vcpuid = vcpu_id(vcpu); int error = 0; if (!error && (get_cr0_mask || get_all)) { uint64_t cr0mask; error = vm_get_vmcs_field(vcpu, VMCS_CR0_MASK, &cr0mask); if (error == 0) printf("cr0_mask[%d]\t\t0x%016lx\n", vcpuid, cr0mask); } if (!error && (get_cr0_shadow || get_all)) { uint64_t cr0shadow; error = vm_get_vmcs_field(vcpu, VMCS_CR0_SHADOW, &cr0shadow); if (error == 0) { printf("cr0_shadow[%d]\t\t0x%016lx\n", vcpuid, cr0shadow); } } if (!error && (get_cr4_mask || get_all)) { uint64_t cr4mask; error = vm_get_vmcs_field(vcpu, VMCS_CR4_MASK, &cr4mask); if (error == 0) { printf("cr4_mask[%d]\t\t0x%016lx\n", vcpuid, cr4mask); } } if (!error && (get_cr4_shadow || get_all)) { uint64_t cr4shadow; error = vm_get_vmcs_field(vcpu, VMCS_CR4_SHADOW, &cr4shadow); if (error == 0) printf("cr4_shadow[%d]\t\t0x%016lx\n", vcpuid, cr4shadow); } if (!error && (get_cr3_targets || get_all)) { uint64_t target_count, target_addr; error = vm_get_vmcs_field(vcpu, VMCS_CR3_TARGET_COUNT, &target_count); if (error == 0) { printf("cr3_target_count[%d]\t0x%016lx\n", vcpuid, target_count); } error = vm_get_vmcs_field(vcpu, VMCS_CR3_TARGET0, &target_addr); if (error == 0) { printf("cr3_target0[%d]\t\t0x%016lx\n", vcpuid, target_addr); } error = vm_get_vmcs_field(vcpu, VMCS_CR3_TARGET1, &target_addr); if (error == 0) { printf("cr3_target1[%d]\t\t0x%016lx\n", vcpuid, target_addr); } error = vm_get_vmcs_field(vcpu, VMCS_CR3_TARGET2, &target_addr); if (error == 0) { printf("cr3_target2[%d]\t\t0x%016lx\n", vcpuid, target_addr); } error = vm_get_vmcs_field(vcpu, VMCS_CR3_TARGET3, &target_addr); if (error == 0) { printf("cr3_target3[%d]\t\t0x%016lx\n", vcpuid, target_addr); } } if (!error && (get_pinbased_ctls || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_PIN_BASED_CTLS, &ctl); if (error == 0) printf("pinbased_ctls[%d]\t0x%016lx\n", vcpuid, ctl); } if (!error && (get_procbased_ctls || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_PRI_PROC_BASED_CTLS, &ctl); if (error == 0) printf("procbased_ctls[%d]\t0x%016lx\n", vcpuid, ctl); } if (!error && (get_procbased_ctls2 || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_SEC_PROC_BASED_CTLS, &ctl); if (error == 0) printf("procbased_ctls2[%d]\t0x%016lx\n", vcpuid, ctl); } if (!error && (get_vmcs_gla || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_GUEST_LINEAR_ADDRESS, &u64); if (error == 0) printf("gla[%d]\t\t0x%016lx\n", vcpuid, u64); } if (!error && (get_vmcs_gpa || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_GUEST_PHYSICAL_ADDRESS, &u64); if (error == 0) printf("gpa[%d]\t\t0x%016lx\n", vcpuid, u64); } if (!error && (get_vmcs_entry_interruption_info || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_ENTRY_INTR_INFO,&u64); if (error == 0) { printf("entry_interruption_info[%d]\t0x%016lx\n", vcpuid, u64); } } if (!error && (get_tpr_threshold || get_all)) { uint64_t threshold; error = vm_get_vmcs_field(vcpu, VMCS_TPR_THRESHOLD, &threshold); if (error == 0) printf("tpr_threshold[%d]\t0x%016lx\n", vcpuid, threshold); } if (!error && (get_inst_err || get_all)) { uint64_t insterr; error = vm_get_vmcs_field(vcpu, VMCS_INSTRUCTION_ERROR, &insterr); if (error == 0) { printf("instruction_error[%d]\t0x%016lx\n", vcpuid, insterr); } } if (!error && (get_exit_ctls || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_EXIT_CTLS, &ctl); if (error == 0) printf("exit_ctls[%d]\t\t0x%016lx\n", vcpuid, ctl); } if (!error && (get_entry_ctls || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_ENTRY_CTLS, &ctl); if (error == 0) printf("entry_ctls[%d]\t\t0x%016lx\n", vcpuid, ctl); } if (!error && (get_host_pat || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_HOST_IA32_PAT, &pat); if (error == 0) printf("host_pat[%d]\t\t0x%016lx\n", vcpuid, pat); } if (!error && (get_host_cr0 || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_HOST_CR0, &cr0); if (error == 0) printf("host_cr0[%d]\t\t0x%016lx\n", vcpuid, cr0); } if (!error && (get_host_cr3 || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_HOST_CR3, &cr3); if (error == 0) printf("host_cr3[%d]\t\t0x%016lx\n", vcpuid, cr3); } if (!error && (get_host_cr4 || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_HOST_CR4, &cr4); if (error == 0) printf("host_cr4[%d]\t\t0x%016lx\n", vcpuid, cr4); } if (!error && (get_host_rip || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_HOST_RIP, &rip); if (error == 0) printf("host_rip[%d]\t\t0x%016lx\n", vcpuid, rip); } if (!error && (get_host_rsp || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_HOST_RSP, &rsp); if (error == 0) printf("host_rsp[%d]\t\t0x%016lx\n", vcpuid, rsp); } if (!error && (get_vmcs_link || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_LINK_POINTER, &addr); if (error == 0) printf("vmcs_pointer[%d]\t0x%016lx\n", vcpuid, addr); } if (!error && (get_vmcs_exit_interruption_info || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_EXIT_INTR_INFO, &u64); if (error == 0) { printf("vmcs_exit_interruption_info[%d]\t0x%016lx\n", vcpuid, u64); } } if (!error && (get_vmcs_exit_interruption_error || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_EXIT_INTR_ERRCODE, &u64); if (error == 0) { printf("vmcs_exit_interruption_error[%d]\t0x%016lx\n", vcpuid, u64); } } if (!error && (get_vmcs_interruptibility || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_GUEST_INTERRUPTIBILITY, &u64); if (error == 0) { printf("vmcs_guest_interruptibility[%d]\t0x%016lx\n", vcpuid, u64); } } if (!error && (get_vmcs_exit_inst_length || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_EXIT_INSTRUCTION_LENGTH, &u64); if (error == 0) printf("vmcs_exit_inst_length[%d]\t0x%08x\n", vcpuid, (uint32_t)u64); } if (!error && (get_vmcs_exit_qualification || get_all)) { error = vm_get_vmcs_field(vcpu, VMCS_EXIT_QUALIFICATION, &u64); if (error == 0) printf("vmcs_exit_qualification[%d]\t0x%016lx\n", vcpuid, u64); } return (error); } static int get_misc_vmcb(struct vcpu *vcpu) { uint64_t ctl, addr; int vcpuid = vcpu_id(vcpu); int error = 0; if (!error && (get_vmcb_intercept || get_all)) { error = vm_get_vmcb_field(vcpu, VMCB_OFF_CR_INTERCEPT, 4, &ctl); if (error == 0) printf("cr_intercept[%d]\t0x%08x\n", vcpuid, (int)ctl); error = vm_get_vmcb_field(vcpu, VMCB_OFF_DR_INTERCEPT, 4, &ctl); if (error == 0) printf("dr_intercept[%d]\t0x%08x\n", vcpuid, (int)ctl); error = vm_get_vmcb_field(vcpu, VMCB_OFF_EXC_INTERCEPT, 4, &ctl); if (error == 0) printf("exc_intercept[%d]\t0x%08x\n", vcpuid, (int)ctl); error = vm_get_vmcb_field(vcpu, VMCB_OFF_INST1_INTERCEPT, 4, &ctl); if (error == 0) printf("inst1_intercept[%d]\t0x%08x\n", vcpuid, (int)ctl); error = vm_get_vmcb_field(vcpu, VMCB_OFF_INST2_INTERCEPT, 4, &ctl); if (error == 0) printf("inst2_intercept[%d]\t0x%08x\n", vcpuid, (int)ctl); } if (!error && (get_vmcb_tlb_ctrl || get_all)) { error = vm_get_vmcb_field(vcpu, VMCB_OFF_TLB_CTRL, 4, &ctl); if (error == 0) printf("TLB ctrl[%d]\t0x%016lx\n", vcpuid, ctl); } if (!error && (get_vmcb_exit_details || get_all)) { error = vm_get_vmcb_field(vcpu, VMCB_OFF_EXITINFO1, 8, &ctl); if (error == 0) printf("exitinfo1[%d]\t0x%016lx\n", vcpuid, ctl); error = vm_get_vmcb_field(vcpu, VMCB_OFF_EXITINFO2, 8, &ctl); if (error == 0) printf("exitinfo2[%d]\t0x%016lx\n", vcpuid, ctl); error = vm_get_vmcb_field(vcpu, VMCB_OFF_EXITINTINFO, 8, &ctl); if (error == 0) printf("exitintinfo[%d]\t0x%016lx\n", vcpuid, ctl); } if (!error && (get_vmcb_virq || get_all)) { error = vm_get_vmcb_field(vcpu, VMCB_OFF_VIRQ, 8, &ctl); if (error == 0) printf("v_irq/tpr[%d]\t0x%016lx\n", vcpuid, ctl); } if (!error && (get_apic_access_addr || get_all)) { error = vm_get_vmcb_field(vcpu, VMCB_OFF_AVIC_BAR, 8, &addr); if (error == 0) printf("AVIC apic_bar[%d]\t0x%016lx\n", vcpuid, addr); } if (!error && (get_virtual_apic_addr || get_all)) { error = vm_get_vmcb_field(vcpu, VMCB_OFF_AVIC_PAGE, 8, &addr); if (error == 0) printf("AVIC backing page[%d]\t0x%016lx\n", vcpuid, addr); } if (!error && (get_avic_table || get_all)) { error = vm_get_vmcb_field(vcpu, VMCB_OFF_AVIC_LT, 8, &addr); if (error == 0) printf("AVIC logical table[%d]\t0x%016lx\n", vcpuid, addr); error = vm_get_vmcb_field(vcpu, VMCB_OFF_AVIC_PT, 8, &addr); if (error == 0) printf("AVIC physical table[%d]\t0x%016lx\n", vcpuid, addr); } return (error); } static struct option * setup_options(bool cpu_intel) { const struct option common_opts[] = { { "vm", REQ_ARG, 0, VMNAME }, { "cpu", REQ_ARG, 0, VCPU }, { "set-mem", REQ_ARG, 0, SET_MEM }, { "set-efer", REQ_ARG, 0, SET_EFER }, { "set-cr0", REQ_ARG, 0, SET_CR0 }, { "set-cr2", REQ_ARG, 0, SET_CR2 }, { "set-cr3", REQ_ARG, 0, SET_CR3 }, { "set-cr4", REQ_ARG, 0, SET_CR4 }, { "set-dr0", REQ_ARG, 0, SET_DR0 }, { "set-dr1", REQ_ARG, 0, SET_DR1 }, { "set-dr2", REQ_ARG, 0, SET_DR2 }, { "set-dr3", REQ_ARG, 0, SET_DR3 }, { "set-dr6", REQ_ARG, 0, SET_DR6 }, { "set-dr7", REQ_ARG, 0, SET_DR7 }, { "set-rsp", REQ_ARG, 0, SET_RSP }, { "set-rip", REQ_ARG, 0, SET_RIP }, { "set-rax", REQ_ARG, 0, SET_RAX }, { "set-rflags", REQ_ARG, 0, SET_RFLAGS }, { "desc-base", REQ_ARG, 0, DESC_BASE }, { "desc-limit", REQ_ARG, 0, DESC_LIMIT }, { "desc-access",REQ_ARG, 0, DESC_ACCESS }, { "set-cs", REQ_ARG, 0, SET_CS }, { "set-ds", REQ_ARG, 0, SET_DS }, { "set-es", REQ_ARG, 0, SET_ES }, { "set-fs", REQ_ARG, 0, SET_FS }, { "set-gs", REQ_ARG, 0, SET_GS }, { "set-ss", REQ_ARG, 0, SET_SS }, { "set-tr", REQ_ARG, 0, SET_TR }, { "set-ldtr", REQ_ARG, 0, SET_LDTR }, { "set-x2apic-state",REQ_ARG, 0, SET_X2APIC_STATE }, { "set-exception-bitmap", REQ_ARG, 0, SET_EXCEPTION_BITMAP }, { "capname", REQ_ARG, 0, CAPNAME }, { "unassign-pptdev", REQ_ARG, 0, UNASSIGN_PPTDEV }, { "setcap", REQ_ARG, 0, SET_CAP }, { "get-gpa-pmap", REQ_ARG, 0, GET_GPA_PMAP }, { "assert-lapic-lvt", REQ_ARG, 0, ASSERT_LAPIC_LVT }, { "get-rtc-time", NO_ARG, &get_rtc_time, 1 }, { "set-rtc-time", REQ_ARG, 0, SET_RTC_TIME }, { "rtc-nvram-offset", REQ_ARG, 0, RTC_NVRAM_OFFSET }, { "get-rtc-nvram", NO_ARG, &get_rtc_nvram, 1 }, { "set-rtc-nvram", REQ_ARG, 0, SET_RTC_NVRAM }, { "getcap", NO_ARG, &getcap, 1 }, { "get-stats", NO_ARG, &get_stats, 1 }, { "get-desc-ds",NO_ARG, &get_desc_ds, 1 }, { "set-desc-ds",NO_ARG, &set_desc_ds, 1 }, { "get-desc-es",NO_ARG, &get_desc_es, 1 }, { "set-desc-es",NO_ARG, &set_desc_es, 1 }, { "get-desc-ss",NO_ARG, &get_desc_ss, 1 }, { "set-desc-ss",NO_ARG, &set_desc_ss, 1 }, { "get-desc-cs",NO_ARG, &get_desc_cs, 1 }, { "set-desc-cs",NO_ARG, &set_desc_cs, 1 }, { "get-desc-fs",NO_ARG, &get_desc_fs, 1 }, { "set-desc-fs",NO_ARG, &set_desc_fs, 1 }, { "get-desc-gs",NO_ARG, &get_desc_gs, 1 }, { "set-desc-gs",NO_ARG, &set_desc_gs, 1 }, { "get-desc-tr",NO_ARG, &get_desc_tr, 1 }, { "set-desc-tr",NO_ARG, &set_desc_tr, 1 }, { "set-desc-ldtr", NO_ARG, &set_desc_ldtr, 1 }, { "get-desc-ldtr", NO_ARG, &get_desc_ldtr, 1 }, { "set-desc-gdtr", NO_ARG, &set_desc_gdtr, 1 }, { "get-desc-gdtr", NO_ARG, &get_desc_gdtr, 1 }, { "set-desc-idtr", NO_ARG, &set_desc_idtr, 1 }, { "get-desc-idtr", NO_ARG, &get_desc_idtr, 1 }, { "get-memmap", NO_ARG, &get_memmap, 1 }, { "get-memseg", NO_ARG, &get_memseg, 1 }, { "get-efer", NO_ARG, &get_efer, 1 }, { "get-cr0", NO_ARG, &get_cr0, 1 }, { "get-cr2", NO_ARG, &get_cr2, 1 }, { "get-cr3", NO_ARG, &get_cr3, 1 }, { "get-cr4", NO_ARG, &get_cr4, 1 }, { "get-dr0", NO_ARG, &get_dr0, 1 }, { "get-dr1", NO_ARG, &get_dr1, 1 }, { "get-dr2", NO_ARG, &get_dr2, 1 }, { "get-dr3", NO_ARG, &get_dr3, 1 }, { "get-dr6", NO_ARG, &get_dr6, 1 }, { "get-dr7", NO_ARG, &get_dr7, 1 }, { "get-rsp", NO_ARG, &get_rsp, 1 }, { "get-rip", NO_ARG, &get_rip, 1 }, { "get-rax", NO_ARG, &get_rax, 1 }, { "get-rbx", NO_ARG, &get_rbx, 1 }, { "get-rcx", NO_ARG, &get_rcx, 1 }, { "get-rdx", NO_ARG, &get_rdx, 1 }, { "get-rsi", NO_ARG, &get_rsi, 1 }, { "get-rdi", NO_ARG, &get_rdi, 1 }, { "get-rbp", NO_ARG, &get_rbp, 1 }, { "get-r8", NO_ARG, &get_r8, 1 }, { "get-r9", NO_ARG, &get_r9, 1 }, { "get-r10", NO_ARG, &get_r10, 1 }, { "get-r11", NO_ARG, &get_r11, 1 }, { "get-r12", NO_ARG, &get_r12, 1 }, { "get-r13", NO_ARG, &get_r13, 1 }, { "get-r14", NO_ARG, &get_r14, 1 }, { "get-r15", NO_ARG, &get_r15, 1 }, { "get-rflags", NO_ARG, &get_rflags, 1 }, { "get-cs", NO_ARG, &get_cs, 1 }, { "get-ds", NO_ARG, &get_ds, 1 }, { "get-es", NO_ARG, &get_es, 1 }, { "get-fs", NO_ARG, &get_fs, 1 }, { "get-gs", NO_ARG, &get_gs, 1 }, { "get-ss", NO_ARG, &get_ss, 1 }, { "get-tr", NO_ARG, &get_tr, 1 }, { "get-ldtr", NO_ARG, &get_ldtr, 1 }, { "get-eptp", NO_ARG, &get_eptp, 1 }, { "get-exception-bitmap", NO_ARG, &get_exception_bitmap, 1 }, { "get-io-bitmap-address", NO_ARG, &get_io_bitmap, 1 }, { "get-tsc-offset", NO_ARG, &get_tsc_offset, 1 }, { "get-msr-bitmap", NO_ARG, &get_msr_bitmap, 1 }, { "get-msr-bitmap-address", NO_ARG, &get_msr_bitmap_address, 1 }, { "get-guest-msrs", NO_ARG, &get_guest_msrs, 1 }, { "get-exit-reason", NO_ARG, &get_exit_reason, 1 }, { "get-x2apic-state", NO_ARG, &get_x2apic_state, 1 }, { "get-all", NO_ARG, &get_all, 1 }, { "run", NO_ARG, &run, 1 }, { "pause", NO_ARG, &do_pause, 1 }, { "resume", NO_ARG, &do_resume, 1 }, { "create", NO_ARG, &create, 1 }, { "destroy", NO_ARG, &destroy, 1 }, { "inject-nmi", NO_ARG, &inject_nmi, 1 }, { "force-reset", NO_ARG, &force_reset, 1 }, { "force-poweroff", NO_ARG, &force_poweroff, 1 }, { "get-active-cpus", NO_ARG, &get_active_cpus, 1 }, { "get-debug-cpus", NO_ARG, &get_debug_cpus, 1 }, { "get-intinfo", NO_ARG, &get_intinfo, 1 }, { "get-cpu-topology", NO_ARG, &get_cpu_topology, 1 }, { "pmtmr-port", REQ_ARG, 0, PMTMR_PORT }, { "wrlock-cycle", NO_ARG, &wrlock_cycle, 1 }, { "get-fpu", NO_ARG, &get_fpu, 1 }, }; const struct option intel_opts[] = { { "get-vmcs-pinbased-ctls", NO_ARG, &get_pinbased_ctls, 1 }, { "get-vmcs-procbased-ctls", NO_ARG, &get_procbased_ctls, 1 }, { "get-vmcs-procbased-ctls2", NO_ARG, &get_procbased_ctls2, 1 }, { "get-vmcs-guest-linear-address", NO_ARG, &get_vmcs_gla, 1 }, { "get-vmcs-guest-physical-address", NO_ARG, &get_vmcs_gpa, 1 }, { "get-vmcs-entry-interruption-info", NO_ARG, &get_vmcs_entry_interruption_info, 1}, { "get-vmcs-cr0-mask", NO_ARG, &get_cr0_mask, 1 }, { "get-vmcs-cr0-shadow", NO_ARG,&get_cr0_shadow, 1 }, { "get-vmcs-cr4-mask", NO_ARG, &get_cr4_mask, 1 }, { "get-vmcs-cr4-shadow", NO_ARG, &get_cr4_shadow, 1 }, { "get-vmcs-cr3-targets", NO_ARG, &get_cr3_targets, 1 }, { "get-vmcs-tpr-threshold", NO_ARG, &get_tpr_threshold, 1 }, { "get-vmcs-vpid", NO_ARG, &get_vpid_asid, 1 }, { "get-vmcs-exit-ctls", NO_ARG, &get_exit_ctls, 1 }, { "get-vmcs-entry-ctls", NO_ARG, &get_entry_ctls, 1 }, { "get-vmcs-instruction-error", NO_ARG, &get_inst_err, 1 }, { "get-vmcs-host-pat", NO_ARG, &get_host_pat, 1 }, { "get-vmcs-host-cr0", NO_ARG, &get_host_cr0, 1 }, { "set-vmcs-entry-interruption-info", REQ_ARG, 0, SET_VMCS_ENTRY_INTERRUPTION_INFO }, { "get-vmcs-exit-qualification", NO_ARG, &get_vmcs_exit_qualification, 1 }, { "get-vmcs-exit-inst-length", NO_ARG, &get_vmcs_exit_inst_length, 1 }, { "get-vmcs-interruptibility", NO_ARG, &get_vmcs_interruptibility, 1 }, { "get-vmcs-exit-interruption-error", NO_ARG, &get_vmcs_exit_interruption_error, 1 }, { "get-vmcs-exit-interruption-info", NO_ARG, &get_vmcs_exit_interruption_info, 1 }, { "get-vmcs-link", NO_ARG, &get_vmcs_link, 1 }, { "get-vmcs-host-cr3", NO_ARG, &get_host_cr3, 1 }, { "get-vmcs-host-cr4", NO_ARG, &get_host_cr4, 1 }, { "get-vmcs-host-rip", NO_ARG, &get_host_rip, 1 }, { "get-vmcs-host-rsp", NO_ARG, &get_host_rsp, 1 }, { "get-apic-access-address", NO_ARG, &get_apic_access_addr, 1}, { "get-virtual-apic-address", NO_ARG, &get_virtual_apic_addr, 1} }; const struct option amd_opts[] = { { "get-vmcb-intercepts", NO_ARG, &get_vmcb_intercept, 1 }, { "get-vmcb-asid", NO_ARG, &get_vpid_asid, 1 }, { "get-vmcb-exit-details", NO_ARG, &get_vmcb_exit_details, 1 }, { "get-vmcb-tlb-ctrl", NO_ARG, &get_vmcb_tlb_ctrl, 1 }, { "get-vmcb-virq", NO_ARG, &get_vmcb_virq, 1 }, { "get-avic-apic-bar", NO_ARG, &get_apic_access_addr, 1 }, { "get-avic-backing-page", NO_ARG, &get_virtual_apic_addr, 1 }, { "get-avic-table", NO_ARG, &get_avic_table, 1 } }; const struct option null_opt = { NULL, 0, NULL, 0 }; struct option *all_opts; char *cp; int optlen; optlen = sizeof(common_opts); if (cpu_intel) optlen += sizeof(intel_opts); else optlen += sizeof(amd_opts); optlen += sizeof(null_opt); all_opts = malloc(optlen); cp = (char *)all_opts; memcpy(cp, common_opts, sizeof(common_opts)); cp += sizeof(common_opts); if (cpu_intel) { memcpy(cp, intel_opts, sizeof(intel_opts)); cp += sizeof(intel_opts); } else { memcpy(cp, amd_opts, sizeof(amd_opts)); cp += sizeof(amd_opts); } memcpy(cp, &null_opt, sizeof(null_opt)); cp += sizeof(null_opt); return (all_opts); } static void usage(const struct option *opts) { static const char *set_desc[] = { [VCPU] = "vcpu_number", [SET_MEM] = "memory in units of MB", [SET_EFER] = "EFER", [SET_CR0] = "CR0", [SET_CR2] = "CR2", [SET_CR3] = "CR3", [SET_CR4] = "CR4", [SET_DR0] = "DR0", [SET_DR1] = "DR1", [SET_DR2] = "DR2", [SET_DR3] = "DR3", [SET_DR6] = "DR6", [SET_DR7] = "DR7", [SET_RSP] = "RSP", [SET_RIP] = "RIP", [SET_RAX] = "RAX", [SET_RFLAGS] = "RFLAGS", [DESC_BASE] = "BASE", [DESC_LIMIT] = "LIMIT", [DESC_ACCESS] = "ACCESS", [SET_CS] = "CS", [SET_DS] = "DS", [SET_ES] = "ES", [SET_FS] = "FS", [SET_GS] = "GS", [SET_SS] = "SS", [SET_TR] = "TR", [SET_LDTR] = "LDTR", [SET_X2APIC_STATE] = "state", [SET_CAP] = "0|1", [CAPNAME] = "capname", [UNASSIGN_PPTDEV] = "bus/slot.func", [GET_GPA_PMAP] = "gpa", [ASSERT_LAPIC_LVT] = "pin", [SET_RTC_TIME] = "secs", [SET_RTC_NVRAM] = "val", [RTC_NVRAM_OFFSET] = "offset", }; (void)fprintf(stderr, "Usage: %s --vm=\n", progname); for (const struct option *o = opts; o->name; o++) { if (strcmp(o->name, "vm") == 0) continue; if (o->has_arg == REQ_ARG) (void)fprintf(stderr, " [--%s=<%s>]\n", o->name, set_desc[o->val]); else (void)fprintf(stderr, " [--%s]\n", o->name); } exit(1); } static const char * wday_str(int idx) { static const char *weekdays[] = { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" }; if (idx >= 0 && idx < 7) return (weekdays[idx]); else return ("UNK"); } static const char * mon_str(int idx) { static const char *months[] = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" }; if (idx >= 0 && idx < 12) return (months[idx]); else return ("UNK"); } static int show_memmap(struct vmctx *ctx) { char name[SPECNAMELEN + 1], numbuf[8]; vm_ooffset_t segoff; vm_paddr_t gpa; size_t maplen, seglen; int error, flags, prot, segid, delim; printf("Address Length Segment Offset "); printf("Prot Flags\n"); gpa = 0; while (1) { error = vm_mmap_getnext(ctx, &gpa, &segid, &segoff, &maplen, &prot, &flags); if (error) return (errno == ENOENT ? 0 : error); error = vm_get_memseg(ctx, segid, &seglen, name, sizeof(name)); if (error) return (error); printf("%-12lX", gpa); humanize_number(numbuf, sizeof(numbuf), maplen, "B", HN_AUTOSCALE, HN_NOSPACE); printf("%-12s", numbuf); printf("%-12s", name[0] ? name : "sysmem"); printf("%-12lX", segoff); printf("%c%c%c ", prot & PROT_READ ? 'R' : '-', prot & PROT_WRITE ? 'W' : '-', prot & PROT_EXEC ? 'X' : '-'); delim = '\0'; if (flags & VM_MEMMAP_F_WIRED) { printf("%cwired", delim); delim = '/'; } if (flags & VM_MEMMAP_F_IOMMU) { printf("%ciommu", delim); delim = '/'; } printf("\n"); gpa += maplen; } } static int show_memseg(struct vmctx *ctx) { char name[SPECNAMELEN + 1], numbuf[8]; size_t seglen; int error, segid; printf("ID Length Name\n"); segid = 0; while (1) { error = vm_get_memseg(ctx, segid, &seglen, name, sizeof(name)); if (error) return (errno == EINVAL ? 0 : error); if (seglen) { printf("%-4d", segid); humanize_number(numbuf, sizeof(numbuf), seglen, "B", HN_AUTOSCALE, HN_NOSPACE); printf("%-12s", numbuf); printf("%s", name[0] ? name : "sysmem"); printf("\n"); } segid++; } } static int show_fpu(struct vcpu *vcpu) { int res, fd; int vcpuid = vcpu_id(vcpu); struct vmctx *ctx = vcpu_ctx(vcpu); struct vm_fpu_desc_entry entries[64]; struct vm_fpu_desc desc = { .vfd_entry_data = entries, .vfd_num_entries = 64, }; fd = vm_get_device_fd(ctx); res = ioctl(fd, VM_DESC_FPU_AREA, &desc); if (res != 0) { return (errno); } for (uint_t i = 0; i < desc.vfd_num_entries; i++) { const struct vm_fpu_desc_entry *entry = &entries[i]; /* confirm that AVX fields are where we expect */ if (entry->vfde_feature == XFEATURE_AVX) { if (entry->vfde_size != 0x100 || entry->vfde_off != 0x240) { (void) fprintf(stderr, "show_fpu: unexpected AVX size/placement " "- size:%x off:%x\n", entry->vfde_size, entry->vfde_off); return (EINVAL); } } } void *buf = malloc(desc.vfd_req_size); if (buf == NULL) { return (ENOMEM); } struct vm_fpu_state req = { .vcpuid = vcpu_id(vcpu), .buf = buf, .len = desc.vfd_req_size, }; res = ioctl(fd, VM_GET_FPU, &req); if (res != 0) { res = errno; free(buf); return (res); } const struct xsave_state *state = buf; const struct fxsave_state *fx = &state->xs_fxsave; (void) printf("fpu_fcw[%d]\t\t0x%04x\n", vcpuid, fx->fx_fcw); (void) printf("fpu_fsw[%d]\t\t0x%04x\n", vcpuid, fx->fx_fsw); (void) printf("fpu_ftw[%d]\t\t0x%04x\n", vcpuid, fx->fx_fctw); (void) printf("fpu_fop[%d]\t\t0x%04x\n", vcpuid, fx->fx_fop); (void) printf("fpu_rip[%d]\t\t0x%016lx\n", vcpuid, fx->fx_rip); (void) printf("fpu_rdp[%d]\t\t0x%016lx\n", vcpuid, fx->fx_rdp); (void) printf("fpu_mxcsr[%d]\t\t0x%08x\n", vcpuid, fx->fx_mxcsr); (void) printf("fpu_mxcsr_mask[%d]\t0x%08x\n", vcpuid, fx->fx_mxcsr_mask); /* ST/MMX regs */ for (uint_t i = 0; i < 8; i++) { (void) printf("fpu_st%u[%d]\t\t0x%08x%08x%08x%08x\n", vcpuid, i, fx->fx_st[i].__fpr_pad[0], fx->fx_st[i].__fpr_pad[1], fx->fx_st[i].__fpr_pad[2], fx->fx_st[i].__fpr_pad[3]); } /* SSE regs */ for (uint_t i = 0; i < 16; i++) { (void) printf("fpu_xmm%u[%d]\t\t0x%08x%08x%08x%08x\n", i, vcpu, fx->fx_xmm[i]._l[0], fx->fx_xmm[i]._l[1], fx->fx_xmm[i]._l[2], fx->fx_xmm[i]._l[3]); } if (state->xs_header.xsh_xstate_bv & XFEATURE_AVX) { /* AVX regs */ for (uint_t i = 0; i < 16; i++) { (void) printf("fpu_ymm%u[%d]\t\t0x%08x%08x%08x%08x\n", i, vcpu, state->xs_ymm[i]._l[0], state->xs_ymm[i]._l[1], state->xs_ymm[i]._l[2], state->xs_ymm[i]._l[3]); } } free(buf); return (0); } static const char * msr_name(uint32_t msr) { #define MSR_IDENT_MAP(x) case x: return (#x); switch (msr) { MSR_IDENT_MAP(MSR_PAT) MSR_IDENT_MAP(MSR_SYSENTER_CS_MSR) MSR_IDENT_MAP(MSR_SYSENTER_ESP_MSR) MSR_IDENT_MAP(MSR_SYSENTER_EIP_MSR) MSR_IDENT_MAP(MSR_STAR) MSR_IDENT_MAP(MSR_LSTAR) MSR_IDENT_MAP(MSR_CSTAR) MSR_IDENT_MAP(MSR_SF_MASK) MSR_IDENT_MAP(MSR_FSBASE) MSR_IDENT_MAP(MSR_GSBASE) MSR_IDENT_MAP(MSR_KGSBASE) MSR_IDENT_MAP(MSR_EFER) MSR_IDENT_MAP(MSR_MTRRcap) MSR_IDENT_MAP(MSR_MTRRdefType) case MSR_TSC: return ("MSR_TSC (offset from system boot)"); default: return (NULL); } } static int show_msrs(struct vcpu *vcpu) { struct vdi_field_entry_v1 *msrs; struct vm_data_xfer xfer = { .vdx_vcpuid = vcpu_id(vcpu), .vdx_class = VDC_MSR, .vdx_version = 1, .vdx_len = 0, .vdx_data = &msrs, }; struct vmctx *ctx = vcpu_ctx(vcpu); int fd = vm_get_device_fd(ctx); int res; /* Figure out how many entries we need to alloc for */ res = ioctl(fd, VM_DATA_READ, &xfer); if (res == 0) { return (EINVAL); } else if (errno != ENOSPC) { return (errno); } const uint32_t len = xfer.vdx_result_len; msrs = malloc(len); if (msrs == NULL) { return (ENOMEM); } bzero(msrs, len); xfer.vdx_data = msrs; xfer.vdx_len = len; /* Query the actual data, now that we should have an adequate buffer */ res = ioctl(fd, VM_DATA_READ, &xfer); if (res != 0) { free(msrs); return (errno); } const uint_t count = xfer.vdx_result_len / sizeof (struct vdi_field_entry_v1); for (uint_t i = 0; i < count; i++) { const uint32_t ident = msrs[i].vfe_ident; const uint64_t value = msrs[i].vfe_value; const char *name = msr_name(ident); if (name != NULL) { printf("msr[%s]\t = %x\n", name, value); } else { printf("msr[%08x]\t = %x\n", ident, value); } } free(msrs); return (0); } int main(int argc, char *argv[]) { char *vmname; int error, ch, vcpuid, ptenum; vm_paddr_t gpa_pmap; struct vm_exit vmexit; uint64_t rax, cr0, cr2, cr3, cr4, dr0, dr1, dr2, dr3, dr6, dr7; uint64_t rsp, rip, rflags, efer; uint64_t eptp, bm, addr, u64, pteval[4], *pte, info[2]; struct vmctx *ctx; struct vcpu *vcpu; cpuset_t cpus; bool cpu_intel; uint64_t cs, ds, es, fs, gs, ss, tr, ldtr; struct tm tm; struct option *opts; cpu_intel = cpu_vendor_intel(); opts = setup_options(cpu_intel); vcpuid = 0; vmname = NULL; assert_lapic_lvt = -1; progname = basename(argv[0]); while ((ch = getopt_long(argc, argv, "", opts, NULL)) != -1) { switch (ch) { case 0: break; case VMNAME: vmname = optarg; break; case VCPU: vcpuid = atoi(optarg); break; case SET_MEM: memsize = atoi(optarg) * MB; memsize = roundup(memsize, 2 * MB); break; case SET_EFER: efer = strtoul(optarg, NULL, 0); set_efer = 1; break; case SET_CR0: cr0 = strtoul(optarg, NULL, 0); set_cr0 = 1; break; case SET_CR2: cr2 = strtoul(optarg, NULL, 0); set_cr2 = 1; break; case SET_CR3: cr3 = strtoul(optarg, NULL, 0); set_cr3 = 1; break; case SET_CR4: cr4 = strtoul(optarg, NULL, 0); set_cr4 = 1; break; case SET_DR0: dr0 = strtoul(optarg, NULL, 0); set_dr0 = 1; break; case SET_DR1: dr1 = strtoul(optarg, NULL, 0); set_dr1 = 1; break; case SET_DR2: dr2 = strtoul(optarg, NULL, 0); set_dr2 = 1; break; case SET_DR3: dr3 = strtoul(optarg, NULL, 0); set_dr3 = 1; break; case SET_DR6: dr6 = strtoul(optarg, NULL, 0); set_dr6 = 1; break; case SET_DR7: dr7 = strtoul(optarg, NULL, 0); set_dr7 = 1; break; case SET_RSP: rsp = strtoul(optarg, NULL, 0); set_rsp = 1; break; case SET_RIP: rip = strtoul(optarg, NULL, 0); set_rip = 1; break; case SET_RAX: rax = strtoul(optarg, NULL, 0); set_rax = 1; break; case SET_RFLAGS: rflags = strtoul(optarg, NULL, 0); set_rflags = 1; break; case DESC_BASE: desc_base = strtoul(optarg, NULL, 0); break; case DESC_LIMIT: desc_limit = strtoul(optarg, NULL, 0); break; case DESC_ACCESS: desc_access = strtoul(optarg, NULL, 0); break; case SET_CS: cs = strtoul(optarg, NULL, 0); set_cs = 1; break; case SET_DS: ds = strtoul(optarg, NULL, 0); set_ds = 1; break; case SET_ES: es = strtoul(optarg, NULL, 0); set_es = 1; break; case SET_FS: fs = strtoul(optarg, NULL, 0); set_fs = 1; break; case SET_GS: gs = strtoul(optarg, NULL, 0); set_gs = 1; break; case SET_SS: ss = strtoul(optarg, NULL, 0); set_ss = 1; break; case SET_TR: tr = strtoul(optarg, NULL, 0); set_tr = 1; break; case SET_LDTR: ldtr = strtoul(optarg, NULL, 0); set_ldtr = 1; break; case SET_X2APIC_STATE: x2apic_state = strtol(optarg, NULL, 0); set_x2apic_state = 1; break; case SET_EXCEPTION_BITMAP: exception_bitmap = strtoul(optarg, NULL, 0); set_exception_bitmap = 1; break; case SET_VMCS_ENTRY_INTERRUPTION_INFO: vmcs_entry_interruption_info = strtoul(optarg, NULL, 0); set_vmcs_entry_interruption_info = 1; break; case SET_CAP: capval = strtoul(optarg, NULL, 0); setcap = 1; break; case SET_RTC_TIME: rtc_secs = strtoul(optarg, NULL, 0); set_rtc_time = 1; break; case SET_RTC_NVRAM: rtc_nvram_value = (uint8_t)strtoul(optarg, NULL, 0); set_rtc_nvram = 1; break; case RTC_NVRAM_OFFSET: rtc_nvram_offset = strtoul(optarg, NULL, 0); break; case GET_GPA_PMAP: gpa_pmap = strtoul(optarg, NULL, 0); get_gpa_pmap = 1; break; case CAPNAME: capname = optarg; break; case ASSERT_LAPIC_LVT: assert_lapic_lvt = atoi(optarg); break; case PMTMR_PORT: pmtmr_port = strtoul(optarg, NULL, 16); break; default: usage(opts); } } argc -= optind; argv += optind; if (vmname == NULL) usage(opts); error = 0; if (!error && create) error = vm_create(vmname, 0); if (!error) { ctx = vm_open(vmname); if (ctx == NULL) { fprintf(stderr, "vm_open: %s could not be opened: %s\n", vmname, strerror(errno)); exit (1); } vcpu = vm_vcpu_open(ctx, vcpuid); } if (!error && pmtmr_port) { error = vm_pmtmr_set_location(ctx, pmtmr_port); exit(error); } if (!error && wrlock_cycle) { error = vm_wrlock_cycle(ctx); exit(error); } if (!error && memsize) error = vm_setup_memory(ctx, memsize, VM_MMAP_ALL); if (!error && set_efer) error = vm_set_register(vcpu, VM_REG_GUEST_EFER, efer); if (!error && set_cr0) error = vm_set_register(vcpu, VM_REG_GUEST_CR0, cr0); if (!error && set_cr2) error = vm_set_register(vcpu, VM_REG_GUEST_CR2, cr2); if (!error && set_cr3) error = vm_set_register(vcpu, VM_REG_GUEST_CR3, cr3); if (!error && set_cr4) error = vm_set_register(vcpu, VM_REG_GUEST_CR4, cr4); if (!error && set_dr0) error = vm_set_register(vcpu, VM_REG_GUEST_DR0, dr0); if (!error && set_dr1) error = vm_set_register(vcpu, VM_REG_GUEST_DR1, dr1); if (!error && set_dr2) error = vm_set_register(vcpu, VM_REG_GUEST_DR2, dr2); if (!error && set_dr3) error = vm_set_register(vcpu, VM_REG_GUEST_DR3, dr3); if (!error && set_dr6) error = vm_set_register(vcpu, VM_REG_GUEST_DR6, dr6); if (!error && set_dr7) error = vm_set_register(vcpu, VM_REG_GUEST_DR7, dr7); if (!error && set_rsp) error = vm_set_register(vcpu, VM_REG_GUEST_RSP, rsp); if (!error && set_rip) error = vm_set_register(vcpu, VM_REG_GUEST_RIP, rip); if (!error && set_rax) error = vm_set_register(vcpu, VM_REG_GUEST_RAX, rax); if (!error && set_rflags) { error = vm_set_register(vcpu, VM_REG_GUEST_RFLAGS, rflags); } if (!error && set_desc_ds) { error = vm_set_desc(vcpu, VM_REG_GUEST_DS, desc_base, desc_limit, desc_access); } if (!error && set_desc_es) { error = vm_set_desc(vcpu, VM_REG_GUEST_ES, desc_base, desc_limit, desc_access); } if (!error && set_desc_ss) { error = vm_set_desc(vcpu, VM_REG_GUEST_SS, desc_base, desc_limit, desc_access); } if (!error && set_desc_cs) { error = vm_set_desc(vcpu, VM_REG_GUEST_CS, desc_base, desc_limit, desc_access); } if (!error && set_desc_fs) { error = vm_set_desc(vcpu, VM_REG_GUEST_FS, desc_base, desc_limit, desc_access); } if (!error && set_desc_gs) { error = vm_set_desc(vcpu, VM_REG_GUEST_GS, desc_base, desc_limit, desc_access); } if (!error && set_desc_tr) { error = vm_set_desc(vcpu, VM_REG_GUEST_TR, desc_base, desc_limit, desc_access); } if (!error && set_desc_ldtr) { error = vm_set_desc(vcpu, VM_REG_GUEST_LDTR, desc_base, desc_limit, desc_access); } if (!error && set_desc_gdtr) { error = vm_set_desc(vcpu, VM_REG_GUEST_GDTR, desc_base, desc_limit, 0); } if (!error && set_desc_idtr) { error = vm_set_desc(vcpu, VM_REG_GUEST_IDTR, desc_base, desc_limit, 0); } if (!error && set_cs) error = vm_set_register(vcpu, VM_REG_GUEST_CS, cs); if (!error && set_ds) error = vm_set_register(vcpu, VM_REG_GUEST_DS, ds); if (!error && set_es) error = vm_set_register(vcpu, VM_REG_GUEST_ES, es); if (!error && set_fs) error = vm_set_register(vcpu, VM_REG_GUEST_FS, fs); if (!error && set_gs) error = vm_set_register(vcpu, VM_REG_GUEST_GS, gs); if (!error && set_ss) error = vm_set_register(vcpu, VM_REG_GUEST_SS, ss); if (!error && set_tr) error = vm_set_register(vcpu, VM_REG_GUEST_TR, tr); if (!error && set_ldtr) error = vm_set_register(vcpu, VM_REG_GUEST_LDTR, ldtr); if (!error && set_x2apic_state) error = vm_set_x2apic_state(vcpu, x2apic_state); if (!error && set_exception_bitmap) { if (cpu_intel) error = vm_set_vmcs_field(vcpu, VMCS_EXCEPTION_BITMAP, exception_bitmap); else error = vm_set_vmcb_field(vcpu, VMCB_OFF_EXC_INTERCEPT, 4, exception_bitmap); } if (!error && cpu_intel && set_vmcs_entry_interruption_info) { error = vm_set_vmcs_field(vcpu, VMCS_ENTRY_INTR_INFO, vmcs_entry_interruption_info); } if (!error && inject_nmi) { error = vm_inject_nmi(vcpu); } if (!error && assert_lapic_lvt != -1) { error = vm_lapic_local_irq(vcpu, assert_lapic_lvt); } if (!error && (get_memseg || get_all)) error = show_memseg(ctx); if (!error && (get_memmap || get_all)) error = show_memmap(ctx); if (!error) error = get_all_registers(vcpu); if (!error) error = get_all_segments(vcpu); if (!error && (get_fpu || get_all)) { error = show_fpu(vcpu); } if (!error) { if (cpu_intel) error = get_misc_vmcs(vcpu); else error = get_misc_vmcb(vcpu); } if (!error && (get_x2apic_state || get_all)) { error = vm_get_x2apic_state(vcpu, &x2apic_state); if (error == 0) printf("x2apic_state[%d]\t%d\n", vcpuid, x2apic_state); } if (!error && (get_eptp || get_all)) { if (cpu_intel) error = vm_get_vmcs_field(vcpu, VMCS_EPTP, &eptp); else error = vm_get_vmcb_field(vcpu, VMCB_OFF_NPT_BASE, 8, &eptp); if (error == 0) printf("%s[%d]\t\t0x%016lx\n", cpu_intel ? "eptp" : "rvi/npt", vcpu, eptp); } if (!error && (get_exception_bitmap || get_all)) { if(cpu_intel) error = vm_get_vmcs_field(vcpu, VMCS_EXCEPTION_BITMAP, &bm); else error = vm_get_vmcb_field(vcpu, VMCB_OFF_EXC_INTERCEPT, 4, &bm); if (error == 0) printf("exception_bitmap[%d]\t%#lx\n", vcpuid, bm); } if (!error && (get_io_bitmap || get_all)) { if (cpu_intel) { error = vm_get_vmcs_field(vcpu, VMCS_IO_BITMAP_A, &bm); if (error == 0) printf("io_bitmap_a[%d]\t%#lx\n", vcpuid, bm); error = vm_get_vmcs_field(vcpu, VMCS_IO_BITMAP_B, &bm); if (error == 0) printf("io_bitmap_b[%d]\t%#lx\n", vcpuid, bm); } else { error = vm_get_vmcb_field(vcpu, VMCB_OFF_IO_PERM, 8, &bm); if (error == 0) printf("io_bitmap[%d]\t%#lx\n", vcpuid, bm); } } if (!error && (get_tsc_offset || get_all)) { uint64_t tscoff; if (cpu_intel) error = vm_get_vmcs_field(vcpu, VMCS_TSC_OFFSET, &tscoff); else error = vm_get_vmcb_field(vcpu, VMCB_OFF_TSC_OFFSET, 8, &tscoff); if (error == 0) printf("tsc_offset[%d]\t0x%016lx\n", vcpuid, tscoff); } if (!error && (get_msr_bitmap_address || get_all)) { if (cpu_intel) error = vm_get_vmcs_field(vcpu, VMCS_MSR_BITMAP, &addr); else error = vm_get_vmcb_field(vcpu, VMCB_OFF_MSR_PERM, 8, &addr); if (error == 0) printf("msr_bitmap[%d]\t\t%#lx\n", vcpuid, addr); } if (!error && (get_vpid_asid || get_all)) { uint64_t vpid; if (cpu_intel) error = vm_get_vmcs_field(vcpu, VMCS_VPID, &vpid); else error = vm_get_vmcb_field(vcpu, VMCB_OFF_ASID, 4, &vpid); if (error == 0) printf("%s[%d]\t\t0x%04lx\n", cpu_intel ? "vpid" : "asid", vcpu, vpid); } if (!error && (get_guest_msrs || get_all)) { error = show_msrs(vcpu); } if (!error && (get_exit_reason || get_all)) { if (cpu_intel) error = vm_get_vmcs_field(vcpu, VMCS_EXIT_REASON, &u64); else error = vm_get_vmcb_field(vcpu, VMCB_OFF_EXIT_REASON, 8, &u64); if (error == 0) printf("exit_reason[%d]\t%#lx\n", vcpuid, u64); } if (!error && setcap) { int captype; captype = vm_capability_name2type(capname); error = vm_set_capability(vcpu, captype, capval); if (error != 0 && errno == ENOENT) printf("Capability \"%s\" is not available\n", capname); } if (!error && get_gpa_pmap) { error = vm_get_gpa_pmap(ctx, gpa_pmap, pteval, &ptenum); if (error == 0) { printf("gpa %#lx:", gpa_pmap); pte = &pteval[0]; while (ptenum-- > 0) printf(" %#lx", *pte++); printf("\n"); } } if (!error && set_rtc_nvram) error = vm_rtc_write(ctx, rtc_nvram_offset, rtc_nvram_value); if (!error && (get_rtc_nvram || get_all)) { error = vm_rtc_read(ctx, rtc_nvram_offset, &rtc_nvram_value); if (error == 0) { printf("rtc nvram[%03d]: 0x%02x\n", rtc_nvram_offset, rtc_nvram_value); } } if (!error && set_rtc_time) { timespec_t ts = { .tv_sec = rtc_secs, .tv_nsec = 0, }; error = vm_rtc_settime(ctx, &ts); } if (!error && (get_rtc_time || get_all)) { timespec_t ts; error = vm_rtc_gettime(ctx, &ts); if (error == 0) { gmtime_r(&ts.tv_sec, &tm); printf("rtc time %#lx: %s %s %02d %02d:%02d:%02d %d\n", ts.tv_sec, wday_str(tm.tm_wday), mon_str(tm.tm_mon), tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec, 1900 + tm.tm_year); } } if (!error && (getcap || get_all)) { int captype, val, getcaptype; if (getcap && capname) getcaptype = vm_capability_name2type(capname); else getcaptype = -1; for (captype = 0; captype < VM_CAP_MAX; captype++) { if (getcaptype >= 0 && captype != getcaptype) continue; error = vm_get_capability(vcpu, captype, &val); if (error == 0) { printf("Capability \"%s\" is %s on vcpu %d\n", vm_capability_type2name(captype), val ? "set" : "not set", vcpu); } else if (errno == ENOENT) { error = 0; printf("Capability \"%s\" is not available\n", vm_capability_type2name(captype)); } else { break; } } } if (!error && (get_active_cpus || get_all)) { error = vm_active_cpus(ctx, &cpus); if (!error) print_cpus("active cpus", &cpus); } if (!error && (get_debug_cpus || get_all)) { error = vm_debug_cpus(ctx, &cpus); if (!error) print_cpus("debug cpus", &cpus); } if (!error && (get_intinfo || get_all)) { error = vm_get_intinfo(vcpu, &info[0], &info[1]); if (!error) { print_intinfo("pending", info[0]); print_intinfo("current", info[1]); } } if (!error && (get_stats || get_all)) { int i, num_stats; uint64_t *stats; struct timeval tv; const char *desc; stats = vm_get_stats(vcpu, &tv, &num_stats); if (stats != NULL) { printf("vcpu%d stats:\n", vcpuid); for (i = 0; i < num_stats; i++) { desc = vm_get_stat_desc(ctx, i); printf("%-40s\t%ld\n", desc, stats[i]); } } } if (!error && (get_cpu_topology || get_all)) { uint16_t sockets, cores, threads, maxcpus; vm_get_topology(ctx, &sockets, &cores, &threads, &maxcpus); printf("cpu_topology:\tsockets=%hu, cores=%hu, threads=%hu, " "maxcpus=%hu\n", sockets, cores, threads, maxcpus); } if (!error && run) { struct vm_entry entry; bzero(&entry, sizeof (entry)); error = vm_run(vcpu, &entry, &vmexit); if (error == 0) dump_vm_run_exitcode(&vmexit, vcpuid); else printf("vm_run error %d\n", error); } if (!error && do_pause) { error = ioctl(vm_get_device_fd(ctx), VM_PAUSE, vcpu); if (error != 0) { printf("vm_pause error %d\n", errno); } } if (!error && do_resume) { error = ioctl(vm_get_device_fd(ctx), VM_RESUME, vcpu); if (error != 0) { printf("vm_resume error %d\n", errno); } } if (!error && force_reset) error = vm_suspend(ctx, VM_SUSPEND_RESET); if (!error && force_poweroff) error = vm_suspend(ctx, VM_SUSPEND_POWEROFF); if (error) printf("errno = %d\n", errno); if (!error && destroy) vm_destroy(ctx); free (opts); exit(error); }