From: dv Date: Thu, 30 Jun 2022 13:17:58 +0000 (+0000) Subject: vmm(4): reference count vm's and vcpu's X-Git-Url: http://artulab.com/gitweb/?a=commitdiff_plain;h=3274ac03c1228abeb7adb241643861b71e1b476c;p=openbsd vmm(4): reference count vm's and vcpu's Unlocking most of vmm last year at k2k21 exposed bugs related to lifetime management of vm and vcpu objects. Add reference counts to make sure we don't attempt to teardown vcpu or vm related objects while a thread is holding a reference. This also reduces abuse of rwlocks originally intended to protect the linked lists cleaning things up quite a bit. While here, also document assumptions on how struct members are protected for the next brave soul wander in. ok mlarkin@ --- diff --git a/sys/arch/amd64/amd64/vmm.c b/sys/arch/amd64/amd64/vmm.c index b230bffa410..f790f5a73f2 100644 --- a/sys/arch/amd64/amd64/vmm.c +++ b/sys/arch/amd64/amd64/vmm.c @@ -1,4 +1,4 @@ -/* $OpenBSD: vmm.c,v 1.315 2022/06/27 15:12:14 dv Exp $ */ +/* $OpenBSD: vmm.c,v 1.316 2022/06/30 13:17:58 dv Exp $ */ /* * Copyright (c) 2014 Mike Larkin * @@ -71,56 +71,79 @@ void *l1tf_flush_region; #define VMX_EXIT_INFO_COMPLETE \ (VMX_EXIT_INFO_HAVE_RIP | VMX_EXIT_INFO_HAVE_REASON) +/* + * Virtual Machine + * + * Methods used to protect vm struct members: + * a atomic operations + * I immutable after create + * K kernel lock + * r reference count + * v vcpu list rwlock (vm_vcpu_list) + * V vmm_softc's vm_lock + */ struct vm { - struct vmspace *vm_vmspace; - vm_map_t vm_map; - uint32_t vm_id; - pid_t vm_creator_pid; - size_t vm_nmemranges; - size_t vm_memory_size; + struct vmspace *vm_vmspace; /* [K] */ + vm_map_t vm_map; /* [K] */ + uint32_t vm_id; /* [I] */ + pid_t vm_creator_pid; /* [I] */ + size_t vm_nmemranges; /* [I] */ + size_t vm_memory_size; /* [I] */ char vm_name[VMM_MAX_NAME_LEN]; struct vm_mem_range vm_memranges[VMM_MAX_MEM_RANGES]; + struct refcnt vm_refcnt; /* [a] */ - struct vcpu_head vm_vcpu_list; - uint32_t vm_vcpu_ct; - u_int vm_vcpus_running; + struct vcpu_head vm_vcpu_list; /* [v] */ + uint32_t vm_vcpu_ct; /* [v] */ + u_int vm_vcpus_running; /* [a] */ struct rwlock vm_vcpu_lock; - SLIST_ENTRY(vm) vm_link; + SLIST_ENTRY(vm) vm_link; /* [V] */ }; SLIST_HEAD(vmlist_head, vm); +/* + * Virtual Machine Monitor + * + * Methods used to protect struct members in the global vmm device: + * a atomic opererations + * I immutable operations + * K kernel lock + * p virtual process id (vpid/asid) rwlock + * r reference count + * v vm list rwlock (vm_lock) + */ struct vmm_softc { - struct device sc_dev; + struct device sc_dev; /* [r] */ /* Suspend/Resume Synchronization */ struct refcnt sc_refcnt; - volatile unsigned int sc_status; + volatile unsigned int sc_status; /* [a] */ #define VMM_SUSPENDED (unsigned int) 0 #define VMM_ACTIVE (unsigned int) 1 /* Capabilities */ - uint32_t nr_vmx_cpus; - uint32_t nr_svm_cpus; - uint32_t nr_rvi_cpus; - uint32_t nr_ept_cpus; + uint32_t nr_vmx_cpus; /* [I] */ + uint32_t nr_svm_cpus; /* [I] */ + uint32_t nr_rvi_cpus; /* [I] */ + uint32_t nr_ept_cpus; /* [I] */ /* Managed VMs */ - struct vmlist_head vm_list; + struct vmlist_head vm_list; /* [v] */ - int mode; + int mode; /* [I] */ - size_t vcpu_ct; - size_t vcpu_max; + size_t vcpu_ct; /* [v] */ + size_t vcpu_max; /* [I] */ struct rwlock vm_lock; - size_t vm_ct; /* number of in-memory VMs */ - size_t vm_idx; /* next unique VM index */ + size_t vm_ct; /* [v] no. of in-memory VMs */ + size_t vm_idx; /* [a] next unique VM index */ struct rwlock vpid_lock; - uint16_t max_vpid; - uint8_t vpids[512]; /* bitmap of used VPID/ASIDs */ + uint16_t max_vpid; /* [I] */ + uint8_t vpids[512]; /* [p] bitmap of VPID/ASIDs */ }; void vmx_dump_vmcs_field(uint16_t, const char *); @@ -168,7 +191,7 @@ int vm_impl_init_svm(struct vm *, struct proc *); void vm_impl_deinit(struct vm *); void vm_impl_deinit_vmx(struct vm *); void vm_impl_deinit_svm(struct vm *); -void vm_teardown(struct vm *); +void vm_teardown(struct vm **); int vcpu_vmx_check_cap(struct vcpu *, uint32_t, uint32_t, int); int vcpu_vmx_compute_ctrl(uint64_t, uint16_t, uint32_t, uint32_t, uint32_t *); int vmx_get_exit_info(uint64_t *, uint64_t *); @@ -391,6 +414,7 @@ vmm_attach(struct device *parent, struct device *self, void *aux) sc->nr_rvi_cpus = 0; sc->nr_ept_cpus = 0; sc->vcpu_ct = 0; + sc->vcpu_max = VMM_MAX_VCPUS; sc->vm_ct = 0; sc->vm_idx = 0; @@ -761,12 +785,16 @@ vm_find_vcpu(struct vm *vm, uint32_t id) if (vm == NULL) return NULL; + rw_enter_read(&vm->vm_vcpu_lock); SLIST_FOREACH(vcpu, &vm->vm_vcpu_list, vc_vcpu_link) { + refcnt_take(&vcpu->vc_refcnt); if (vcpu->vc_id == id) break; + refcnt_rele_wake(&vcpu->vc_refcnt); } rw_exit_read(&vm->vm_vcpu_lock); + return vcpu; } @@ -790,12 +818,10 @@ vm_resetcpu(struct vm_resetcpu_params *vrp) { struct vm *vm; struct vcpu *vcpu; - int error; + int error, ret = 0; /* Find the desired VM */ - rw_enter_read(&vmm_softc->vm_lock); error = vm_find(vrp->vrp_vm_id, &vm); - rw_exit_read(&vmm_softc->vm_lock); /* Not found? exit. */ if (error != 0) { @@ -809,35 +835,31 @@ vm_resetcpu(struct vm_resetcpu_params *vrp) if (vcpu == NULL) { DPRINTF("%s: vcpu id %u of vm %u not found\n", __func__, vrp->vrp_vcpu_id, vrp->vrp_vm_id); - return (ENOENT); + ret = ENOENT; + goto out; } rw_enter_write(&vcpu->vc_lock); - if (vcpu->vc_state != VCPU_STATE_STOPPED) { - DPRINTF("%s: reset of vcpu %u on vm %u attempted " - "while vcpu was in state %u (%s)\n", __func__, - vrp->vrp_vcpu_id, vrp->vrp_vm_id, vcpu->vc_state, - vcpu_state_decode(vcpu->vc_state)); - - rw_exit_write(&vcpu->vc_lock); - return (EBUSY); - } - - DPRINTF("%s: resetting vm %d vcpu %d to power on defaults\n", __func__, - vm->vm_id, vcpu->vc_id); - - if (vcpu_reset_regs(vcpu, &vrp->vrp_init_state)) { - printf("%s: failed\n", __func__); + if (vcpu->vc_state != VCPU_STATE_STOPPED || + refcnt_shared(&vcpu->vc_refcnt)) { + ret = EBUSY; + } else { + if (vcpu_reset_regs(vcpu, &vrp->vrp_init_state)) { + printf("%s: failed\n", __func__); #ifdef VMM_DEBUG - dump_vcpu(vcpu); + dump_vcpu(vcpu); #endif /* VMM_DEBUG */ - rw_exit_write(&vcpu->vc_lock); - return (EIO); + ret = EIO; + } } - rw_exit_write(&vcpu->vc_lock); - return (0); +out: + if (vcpu != NULL) + refcnt_rele_wake(&vcpu->vc_refcnt); + refcnt_rele_wake(&vm->vm_refcnt); + + return (ret); } /* @@ -858,29 +880,30 @@ vm_intr_pending(struct vm_intr_params *vip) { struct vm *vm; struct vcpu *vcpu; - int error; + int error, ret = 0; /* Find the desired VM */ - rw_enter_read(&vmm_softc->vm_lock); error = vm_find(vip->vip_vm_id, &vm); /* Not found? exit. */ - if (error != 0) { - rw_exit_read(&vmm_softc->vm_lock); + if (error != 0) return (error); - } vcpu = vm_find_vcpu(vm, vip->vip_vcpu_id); - rw_exit_read(&vmm_softc->vm_lock); - if (vcpu == NULL) - return (ENOENT); + if (vcpu == NULL) { + ret = ENOENT; + goto out; + } rw_enter_write(&vcpu->vc_lock); vcpu->vc_intr = vip->vip_intr; rw_exit_write(&vcpu->vc_lock); - return (0); + refcnt_rele_wake(&vcpu->vc_refcnt); +out: + refcnt_rele_wake(&vm->vm_refcnt); + return (ret); } /* @@ -902,23 +925,21 @@ int vm_rwvmparams(struct vm_rwvmparams_params *vpp, int dir) { struct vm *vm; struct vcpu *vcpu; - int error; + int error, ret = 0; /* Find the desired VM */ - rw_enter_read(&vmm_softc->vm_lock); error = vm_find(vpp->vpp_vm_id, &vm); /* Not found? exit. */ - if (error != 0) { - rw_exit_read(&vmm_softc->vm_lock); + if (error != 0) return (error); - } vcpu = vm_find_vcpu(vm, vpp->vpp_vcpu_id); - rw_exit_read(&vmm_softc->vm_lock); - if (vcpu == NULL) - return (ENOENT); + if (vcpu == NULL) { + ret = ENOENT; + goto out; + } if (dir == 0) { if (vpp->vpp_mask & VM_RWVMPARAMS_PVCLOCK_VERSION) @@ -926,16 +947,17 @@ vm_rwvmparams(struct vm_rwvmparams_params *vpp, int dir) { if (vpp->vpp_mask & VM_RWVMPARAMS_PVCLOCK_SYSTEM_GPA) vpp->vpp_pvclock_system_gpa = \ vcpu->vc_pvclock_system_gpa; - return (0); - } - - if (vpp->vpp_mask & VM_RWVMPARAMS_PVCLOCK_VERSION) - vcpu->vc_pvclock_version = vpp->vpp_pvclock_version; - if (vpp->vpp_mask & VM_RWVMPARAMS_PVCLOCK_SYSTEM_GPA) { - vmm_init_pvclock(vcpu, vpp->vpp_pvclock_system_gpa); + } else { + if (vpp->vpp_mask & VM_RWVMPARAMS_PVCLOCK_VERSION) + vcpu->vc_pvclock_version = vpp->vpp_pvclock_version; + if (vpp->vpp_mask & VM_RWVMPARAMS_PVCLOCK_SYSTEM_GPA) { + vmm_init_pvclock(vcpu, vpp->vpp_pvclock_system_gpa); + } } - return (0); - + refcnt_rele_wake(&vcpu->vc_refcnt); +out: + refcnt_rele_wake(&vm->vm_refcnt); + return (ret); } /* @@ -961,23 +983,21 @@ vm_rwregs(struct vm_rwregs_params *vrwp, int dir) struct vm *vm; struct vcpu *vcpu; struct vcpu_reg_state *vrs = &vrwp->vrwp_regs; - int error, ret; + int error, ret = 0; /* Find the desired VM */ - rw_enter_read(&vmm_softc->vm_lock); error = vm_find(vrwp->vrwp_vm_id, &vm); /* Not found? exit. */ - if (error != 0) { - rw_exit_read(&vmm_softc->vm_lock); + if (error != 0) return (error); - } vcpu = vm_find_vcpu(vm, vrwp->vrwp_vcpu_id); - rw_exit_read(&vmm_softc->vm_lock); - if (vcpu == NULL) - return (ENOENT); + if (vcpu == NULL) { + ret = ENOENT; + goto out; + } rw_enter_write(&vcpu->vc_lock); if (vmm_softc->mode == VMM_MODE_VMX || @@ -995,7 +1015,9 @@ vm_rwregs(struct vm_rwregs_params *vrwp, int dir) ret = EINVAL; } rw_exit_write(&vcpu->vc_lock); - + refcnt_rele_wake(&vcpu->vc_refcnt); +out: + refcnt_rele_wake(&vm->vm_refcnt); return (ret); } @@ -1025,7 +1047,7 @@ vm_mprotect_ept(struct vm_mprotect_ept_params *vmep) size_t size; vm_prot_t prot; uint64_t msr; - int ret, memtype; + int ret = 0, memtype; /* If not EPT or RVI, nothing to do here */ if (!(vmm_softc->mode == VMM_MODE_EPT @@ -1033,9 +1055,7 @@ vm_mprotect_ept(struct vm_mprotect_ept_params *vmep) return (0); /* Find the desired VM */ - rw_enter_read(&vmm_softc->vm_lock); ret = vm_find(vmep->vmep_vm_id, &vm); - rw_exit_read(&vmm_softc->vm_lock); /* Not found? exit. */ if (ret != 0) { @@ -1049,16 +1069,19 @@ vm_mprotect_ept(struct vm_mprotect_ept_params *vmep) if (vcpu == NULL) { DPRINTF("%s: vcpu id %u of vm %u not found\n", __func__, vmep->vmep_vcpu_id, vmep->vmep_vm_id); - return (ENOENT); + ret = ENOENT; + goto out_nolock; } + rw_enter_write(&vcpu->vc_lock); + if (vcpu->vc_state != VCPU_STATE_STOPPED) { DPRINTF("%s: mprotect_ept %u on vm %u attempted " "while vcpu was in state %u (%s)\n", __func__, vmep->vmep_vcpu_id, vmep->vmep_vm_id, vcpu->vc_state, vcpu_state_decode(vcpu->vc_state)); - - return (EBUSY); + ret = EBUSY; + goto out; } /* Only proceed if the pmap is in the correct mode */ @@ -1075,19 +1098,22 @@ vm_mprotect_ept(struct vm_mprotect_ept_params *vmep) if ((prot & PROT_MASK) != prot && (prot & (PROT_WRITE | PROT_EXEC)) == (PROT_WRITE | PROT_EXEC)) { DPRINTF("%s: W+X permission requested\n", __func__); - return (EINVAL); + ret = EINVAL; + goto out; } /* No Write only permissions */ if ((prot & (PROT_READ | PROT_WRITE | PROT_EXEC)) == PROT_WRITE) { DPRINTF("%s: No Write only permissions\n", __func__); - return (EINVAL); + ret = EINVAL; + goto out; } /* No empty permissions */ if (prot == 0) { DPRINTF("%s: No empty permissions\n", __func__); - return (EINVAL); + ret = EINVAL; + goto out; } /* No execute only on EPT CPUs that don't have that capability */ @@ -1103,36 +1129,48 @@ vm_mprotect_ept(struct vm_mprotect_ept_params *vmep) } /* Must be page aligned */ - if ((sgpa & PAGE_MASK) || (size & PAGE_MASK) || size == 0) - return (EINVAL); + if ((sgpa & PAGE_MASK) || (size & PAGE_MASK) || size == 0) { + ret = EINVAL; + goto out; + } /* size must be less then 512GB */ - if (size >= NBPD_L4) - return (EINVAL); + if (size >= NBPD_L4) { + ret = EINVAL; + goto out; + } /* no wraparound */ - if (sgpa + size < sgpa) - return (EINVAL); + if (sgpa + size < sgpa) { + ret = EINVAL; + goto out; + } /* * Specifying addresses within the PCI MMIO space is forbidden. * Disallow addresses that start inside the MMIO space: * [VMM_PCI_MMIO_BAR_BASE .. VMM_PCI_MMIO_BAR_END] */ - if (sgpa >= VMM_PCI_MMIO_BAR_BASE && sgpa <= VMM_PCI_MMIO_BAR_END) - return (EINVAL); + if (sgpa >= VMM_PCI_MMIO_BAR_BASE && sgpa <= VMM_PCI_MMIO_BAR_END) { + ret = EINVAL; + goto out; + } /* * ... and disallow addresses that end inside the MMIO space: * (VMM_PCI_MMIO_BAR_BASE .. VMM_PCI_MMIO_BAR_END] */ if (sgpa + size > VMM_PCI_MMIO_BAR_BASE && - sgpa + size <= VMM_PCI_MMIO_BAR_END) - return (EINVAL); + sgpa + size <= VMM_PCI_MMIO_BAR_END) { + ret = EINVAL; + goto out; + } memtype = vmm_get_guest_memtype(vm, sgpa); - if (memtype == VMM_MEM_TYPE_UNKNOWN) - return (EINVAL); + if (memtype == VMM_MEM_TYPE_UNKNOWN) { + ret = EINVAL; + goto out; + } if (vmm_softc->mode == VMM_MODE_EPT) ret = vmx_mprotect_ept(vm->vm_map, sgpa, sgpa + size, prot); @@ -1141,8 +1179,14 @@ vm_mprotect_ept(struct vm_mprotect_ept_params *vmep) /* XXX requires a invlpga */ ret = 0; } else - return (EINVAL); - + ret = EINVAL; +out: + if (vcpu != NULL) { + rw_exit_write(&vcpu->vc_lock); + refcnt_rele_wake(&vcpu->vc_refcnt); + } +out_nolock: + refcnt_rele_wake(&vm->vm_refcnt); return (ret); } @@ -1302,9 +1346,13 @@ vm_find(uint32_t id, struct vm **res) { struct proc *p = curproc; struct vm *vm; + int ret = ENOENT; *res = NULL; + + rw_enter_read(&vmm_softc->vm_lock); SLIST_FOREACH(vm, &vmm_softc->vm_list, vm_link) { + refcnt_take(&vm->vm_refcnt); if (vm->vm_id == id) { /* * In the pledged VM process, only allow to find @@ -1315,13 +1363,20 @@ vm_find(uint32_t id, struct vm **res) if (((p->p_p->ps_pledge & (PLEDGE_VMM | PLEDGE_PROC)) == PLEDGE_VMM) && (vm->vm_creator_pid != p->p_p->ps_pid)) - return (pledge_fail(p, EPERM, PLEDGE_VMM)); - *res = vm; - return (0); + ret = EPERM; + else { + *res = vm; + ret = 0; + } + break; } + refcnt_rele_wake(&vm->vm_refcnt); } + rw_exit_read(&vmm_softc->vm_lock); - return (ENOENT); + if (ret == EPERM) + return (pledge_fail(p, EPERM, PLEDGE_VMM)); + return (ret); } /* @@ -1692,16 +1747,20 @@ vm_create(struct vm_create_params *vcp, struct proc *p) if (vcp->vcp_ncpus != 1) return (EINVAL); - rw_enter_write(&vmm_softc->vm_lock); - if (vmm_softc->vcpu_ct + vcp->vcp_ncpus > VMM_MAX_VCPUS) { + /* Bail early if we're already at vcpu capacity. */ + rw_enter_read(&vmm_softc->vm_lock); + if (vmm_softc->vcpu_ct + vcp->vcp_ncpus > vmm_softc->vcpu_max) { DPRINTF("%s: maximum vcpus (%lu) reached\n", __func__, vmm_softc->vcpu_max); - rw_exit_write(&vmm_softc->vm_lock); + rw_exit_read(&vmm_softc->vm_lock); return (ENOMEM); } - vmm_softc->vcpu_ct += vcp->vcp_ncpus; + rw_exit_read(&vmm_softc->vm_lock); + /* Instantiate and configure the new vm. */ vm = pool_get(&vm_pool, PR_WAITOK | PR_ZERO); + refcnt_init(&vm->vm_refcnt); /* Do not release yet. */ + SLIST_INIT(&vm->vm_vcpu_list); rw_init(&vm->vm_vcpu_lock, "vcpu_list"); @@ -1714,43 +1773,57 @@ vm_create(struct vm_create_params *vcp, struct proc *p) if (vm_impl_init(vm, p)) { printf("failed to init arch-specific features for vm %p\n", vm); - vm_teardown(vm); - rw_exit_write(&vmm_softc->vm_lock); + vm_teardown(&vm); return (ENOMEM); } - vmm_softc->vm_ct++; - vmm_softc->vm_idx++; - - vm->vm_id = vmm_softc->vm_idx; vm->vm_vcpu_ct = 0; vm->vm_vcpus_running = 0; /* Initialize each VCPU defined in 'vcp' */ for (i = 0; i < vcp->vcp_ncpus; i++) { vcpu = pool_get(&vcpu_pool, PR_WAITOK | PR_ZERO); + refcnt_init(&vcpu->vc_refcnt); + refcnt_rele(&vcpu->vc_refcnt); + vcpu->vc_parent = vm; if ((ret = vcpu_init(vcpu)) != 0) { printf("failed to init vcpu %d for vm %p\n", i, vm); - vm_teardown(vm); - vmm_softc->vm_idx--; - rw_exit_write(&vmm_softc->vm_lock); + vm_teardown(&vm); return (ret); } - rw_enter_write(&vm->vm_vcpu_lock); vcpu->vc_id = vm->vm_vcpu_ct; vm->vm_vcpu_ct++; SLIST_INSERT_HEAD(&vm->vm_vcpu_list, vcpu, vc_vcpu_link); - rw_exit_write(&vm->vm_vcpu_lock); } /* XXX init various other hardware parts (vlapic, vioapic, etc) */ - SLIST_INSERT_HEAD(&vmm_softc->vm_list, vm, vm_link); - rw_exit_write(&vmm_softc->vm_lock); + /* Attempt to register the vm now that it's configured. */ + rw_enter_write(&vmm_softc->vm_lock); + + if (vmm_softc->vcpu_ct + vm->vm_vcpu_ct > vmm_softc->vcpu_max) { + /* Someone already took our capacity. */ + printf("%s: maximum vcpus (%lu) reached\n", __func__, + vmm_softc->vcpu_max); + rw_exit_write(&vmm_softc->vm_lock); + vm_teardown(&vm); + return (ENOMEM); + } + /* Update the global index and identify the vm. */ + vmm_softc->vm_idx++; + vm->vm_id = vmm_softc->vm_idx; vcp->vcp_id = vm->vm_id; + /* Publish the vm into the list and update list count. */ + SLIST_INSERT_HEAD(&vmm_softc->vm_list, vm, vm_link); + vmm_softc->vm_ct++; + vmm_softc->vcpu_ct += vm->vm_vcpu_ct; + + refcnt_rele(&vm->vm_refcnt); /* No need for wake. */ + rw_exit_write(&vmm_softc->vm_lock); + return (0); } @@ -3967,43 +4040,51 @@ vcpu_deinit(struct vcpu *vcpu) * * Tears down (destroys) the vm indicated by 'vm'. * + * Assumes the vm is already removed from the global vm list (or was never + * added). + * * Parameters: * vm: vm to be torn down */ void -vm_teardown(struct vm *vm) +vm_teardown(struct vm **target) { + size_t nvcpu = 0; struct vcpu *vcpu, *tmp; + struct vm *vm = *target; + struct vmspace *vm_vmspace; - rw_assert_wrlock(&vmm_softc->vm_lock); - KERNEL_LOCK(); + KERNEL_ASSERT_UNLOCKED(); + + refcnt_finalize(&vm->vm_refcnt, "vmteardown"); /* Free VCPUs */ rw_enter_write(&vm->vm_vcpu_lock); SLIST_FOREACH_SAFE(vcpu, &vm->vm_vcpu_list, vc_vcpu_link, tmp) { + refcnt_take(&vcpu->vc_refcnt); + refcnt_finalize(&vcpu->vc_refcnt, "vcputeardown"); + SLIST_REMOVE(&vm->vm_vcpu_list, vcpu, vcpu, vc_vcpu_link); vcpu_deinit(vcpu); + pool_put(&vcpu_pool, vcpu); - vmm_softc->vcpu_ct--; + nvcpu++; } + rw_exit_write(&vm->vm_vcpu_lock); vm_impl_deinit(vm); /* teardown guest vmspace */ - if (vm->vm_vmspace != NULL) { - uvmspace_free(vm->vm_vmspace); + KERNEL_LOCK(); + vm_vmspace = vm->vm_vmspace; + if (vm_vmspace != NULL) { vm->vm_vmspace = NULL; + uvmspace_free(vm_vmspace); } + KERNEL_UNLOCK(); - if (vm->vm_id > 0) { - vmm_softc->vm_ct--; - if (vmm_softc->vm_ct < 1) - vmm_stop(); - } pool_put(&vm_pool, vm); - - KERNEL_UNLOCK(); - rw_exit_write(&vm->vm_vcpu_lock); + *target = NULL; } /* @@ -4280,28 +4361,32 @@ vm_get_info(struct vm_info_params *vip) struct vm_info_result *out; struct vm *vm; struct vcpu *vcpu; - int i, j; - size_t need; + int i = 0, j; + size_t need, vm_ct; rw_enter_read(&vmm_softc->vm_lock); - need = vmm_softc->vm_ct * sizeof(struct vm_info_result); + vm_ct = vmm_softc->vm_ct; + rw_exit_read(&vmm_softc->vm_lock); + + need = vm_ct * sizeof(struct vm_info_result); if (vip->vip_size < need) { vip->vip_info_ct = 0; vip->vip_size = need; - rw_exit_read(&vmm_softc->vm_lock); return (0); } out = malloc(need, M_DEVBUF, M_NOWAIT|M_ZERO); if (out == NULL) { vip->vip_info_ct = 0; - rw_exit_read(&vmm_softc->vm_lock); return (ENOMEM); } - i = 0; - vip->vip_info_ct = vmm_softc->vm_ct; + vip->vip_info_ct = vm_ct; + + rw_enter_read(&vmm_softc->vm_lock); SLIST_FOREACH(vm, &vmm_softc->vm_list, vm_link) { + refcnt_take(&vm->vm_refcnt); + out[i].vir_memory_size = vm->vm_memory_size; out[i].vir_used_size = pmap_resident_count(vm->vm_map->pmap) * PAGE_SIZE; @@ -4309,20 +4394,28 @@ vm_get_info(struct vm_info_params *vip) out[i].vir_id = vm->vm_id; out[i].vir_creator_pid = vm->vm_creator_pid; strlcpy(out[i].vir_name, vm->vm_name, VMM_MAX_NAME_LEN); + rw_enter_read(&vm->vm_vcpu_lock); for (j = 0; j < vm->vm_vcpu_ct; j++) { out[i].vir_vcpu_state[j] = VCPU_STATE_UNKNOWN; SLIST_FOREACH(vcpu, &vm->vm_vcpu_list, vc_vcpu_link) { + refcnt_take(&vcpu->vc_refcnt); if (vcpu->vc_id == j) out[i].vir_vcpu_state[j] = vcpu->vc_state; + refcnt_rele_wake(&vcpu->vc_refcnt); } } rw_exit_read(&vm->vm_vcpu_lock); + + refcnt_rele_wake(&vm->vm_refcnt); i++; + if (i == vm_ct) + break; /* Truncate to keep within bounds of 'out'. */ } rw_exit_read(&vmm_softc->vm_lock); + if (copyout(out, vip->vip_info, need) == EFAULT) { free(out, M_DEVBUF, need); return (EFAULT); @@ -4350,40 +4443,51 @@ vm_terminate(struct vm_terminate_params *vtp) struct vm *vm; struct vcpu *vcpu; u_int old, next; - int error; + int error, nvcpu, vm_id; /* * Find desired VM */ - rw_enter_write(&vmm_softc->vm_lock); error = vm_find(vtp->vtp_vm_id, &vm); - - if (error == 0) { - rw_enter_read(&vm->vm_vcpu_lock); - SLIST_FOREACH(vcpu, &vm->vm_vcpu_list, vc_vcpu_link) { - do { - old = vcpu->vc_state; - if (old == VCPU_STATE_RUNNING) - next = VCPU_STATE_REQTERM; - else if (old == VCPU_STATE_STOPPED) - next = VCPU_STATE_TERMINATED; - else /* must be REQTERM or TERMINATED */ - break; - } while (old != atomic_cas_uint(&vcpu->vc_state, - old, next)); - } - rw_exit_read(&vm->vm_vcpu_lock); - } else { - rw_exit_write(&vmm_softc->vm_lock); + if (error) return (error); + + /* Stop all vcpu's for the vm. */ + rw_enter_read(&vm->vm_vcpu_lock); + SLIST_FOREACH(vcpu, &vm->vm_vcpu_list, vc_vcpu_link) { + refcnt_take(&vcpu->vc_refcnt); + do { + old = vcpu->vc_state; + if (old == VCPU_STATE_RUNNING) + next = VCPU_STATE_REQTERM; + else if (old == VCPU_STATE_STOPPED) + next = VCPU_STATE_TERMINATED; + else /* must be REQTERM or TERMINATED */ + break; + } while (old != atomic_cas_uint(&vcpu->vc_state, old, next)); + refcnt_rele_wake(&vcpu->vc_refcnt); } + rw_exit_read(&vm->vm_vcpu_lock); + /* Pop the vm out of the global vm list. */ + rw_enter_write(&vmm_softc->vm_lock); SLIST_REMOVE(&vmm_softc->vm_list, vm, vm, vm_link); - if (vm->vm_vcpus_running == 0) - vm_teardown(vm); - rw_exit_write(&vmm_softc->vm_lock); + vm_id = vm->vm_id; + nvcpu = vm->vm_vcpu_ct; + + vm_teardown(&vm); + + if (vm_id > 0) { + rw_enter_write(&vmm_softc->vm_lock); + vmm_softc->vm_ct--; + vmm_softc->vcpu_ct -= nvcpu; + if (vmm_softc->vm_ct < 1) + vmm_stop(); + rw_exit_write(&vmm_softc->vm_lock); + } + return (0); } @@ -4409,50 +4513,34 @@ vm_run(struct vm_run_params *vrp) { struct vm *vm; struct vcpu *vcpu; - int ret = 0, error; + int ret = 0; u_int old, next; /* * Find desired VM */ - rw_enter_read(&vmm_softc->vm_lock); - error = vm_find(vrp->vrp_vm_id, &vm); + ret = vm_find(vrp->vrp_vm_id, &vm); + if (ret) + return (ret); + + vcpu = vm_find_vcpu(vm, vrp->vrp_vcpu_id); + if (vcpu == NULL) { + ret = ENOENT; + goto out; + } /* - * Attempt to locate the requested VCPU. If found, attempt to - * to transition from VCPU_STATE_STOPPED -> VCPU_STATE_RUNNING. + * Attempt to transition from VCPU_STATE_STOPPED -> VCPU_STATE_RUNNING. * Failure to make the transition indicates the VCPU is busy. */ - if (error == 0) { - rw_enter_read(&vm->vm_vcpu_lock); - SLIST_FOREACH(vcpu, &vm->vm_vcpu_list, vc_vcpu_link) { - if (vcpu->vc_id == vrp->vrp_vcpu_id) - break; - } - - if (vcpu != NULL) { - old = VCPU_STATE_STOPPED; - next = VCPU_STATE_RUNNING; - - if (atomic_cas_uint(&vcpu->vc_state, old, next) != old) - ret = EBUSY; - else { - atomic_inc_int(&vm->vm_vcpus_running); - rw_enter_write(&vcpu->vc_lock); - } - } else - ret = ENOENT; - - rw_exit_read(&vm->vm_vcpu_lock); + rw_enter_write(&vcpu->vc_lock); + old = VCPU_STATE_STOPPED; + next = VCPU_STATE_RUNNING; + if (atomic_cas_uint(&vcpu->vc_state, old, next) != old) { + ret = EBUSY; + goto out_unlock; } - rw_exit_read(&vmm_softc->vm_lock); - - if (error != 0) - ret = error; - - /* Bail if errors detected in the previous steps */ - if (ret) - return (ret); + atomic_inc_int(&vm->vm_vcpus_running); /* * We may be returning from userland helping us from the last exit. @@ -4463,8 +4551,8 @@ vm_run(struct vm_run_params *vrp) if (vrp->vrp_continue) { if (copyin(vrp->vrp_exit, &vcpu->vc_exit, sizeof(struct vm_exit)) == EFAULT) { - rw_exit_write(&vcpu->vc_lock); - return (EFAULT); + ret = EFAULT; + goto out_unlock; } } @@ -4494,9 +4582,12 @@ vm_run(struct vm_run_params *vrp) vrp->vrp_exit_reason = VM_EXIT_TERMINATED; vcpu->vc_state = VCPU_STATE_TERMINATED; } - +out_unlock: rw_exit_write(&vcpu->vc_lock); - +out: + if (vcpu != NULL) + refcnt_rele_wake(&vcpu->vc_refcnt); + refcnt_rele_wake(&vm->vm_refcnt); return (ret); } @@ -4538,6 +4629,8 @@ vmm_fpurestore(struct vcpu *vcpu) { struct cpu_info *ci = curcpu(); + rw_assert_wrlock(&vcpu->vc_lock); + /* save vmm's FPU state if we haven't already */ if (ci->ci_flags & CPUF_USERXSTATE) { ci->ci_flags &= ~CPUF_USERXSTATE; @@ -4573,6 +4666,8 @@ vmm_fpurestore(struct vcpu *vcpu) void vmm_fpusave(struct vcpu *vcpu) { + rw_assert_wrlock(&vcpu->vc_lock); + if (xsave_mask) { /* Save guest %xcr0 */ vcpu->vc_gueststate.vg_xcr0 = xgetbv(0); diff --git a/sys/arch/amd64/include/vmmvar.h b/sys/arch/amd64/include/vmmvar.h index 933348a5b32..6fbb5e1bdc2 100644 --- a/sys/arch/amd64/include/vmmvar.h +++ b/sys/arch/amd64/include/vmmvar.h @@ -1,4 +1,4 @@ -/* $OpenBSD: vmmvar.h,v 1.78 2022/06/26 06:49:09 dv Exp $ */ +/* $OpenBSD: vmmvar.h,v 1.79 2022/06/30 13:17:58 dv Exp $ */ /* * Copyright (c) 2014 Mike Larkin * @@ -894,57 +894,67 @@ struct vm; /* * Virtual CPU + * + * Methods used to vcpu struct members: + * a atomic operations + * I immutable operations + * K kernel lock + * r reference count + * v vcpu rwlock + * V vm struct's vcpu list lock (vm_vcpu_lock) */ struct vcpu { /* * Guest FPU state - this must remain as the first member of the struct * to ensure 64-byte alignment (set up during vcpu_pool init) */ - struct savefpu vc_g_fpu; + struct savefpu vc_g_fpu; /* [v] */ /* VMCS / VMCB pointer */ - vaddr_t vc_control_va; - paddr_t vc_control_pa; + vaddr_t vc_control_va; /* [I] */ + paddr_t vc_control_pa; /* [I] */ /* VLAPIC pointer */ - vaddr_t vc_vlapic_va; - uint64_t vc_vlapic_pa; + vaddr_t vc_vlapic_va; /* [I] */ + uint64_t vc_vlapic_pa; /* [I] */ /* MSR bitmap address */ - vaddr_t vc_msr_bitmap_va; - uint64_t vc_msr_bitmap_pa; + vaddr_t vc_msr_bitmap_va; /* [I] */ + uint64_t vc_msr_bitmap_pa; /* [I] */ - struct vm *vc_parent; - uint32_t vc_id; - uint16_t vc_vpid; - u_int vc_state; - SLIST_ENTRY(vcpu) vc_vcpu_link; + struct vm *vc_parent; /* [I] */ + uint32_t vc_id; /* [I] */ + uint16_t vc_vpid; /* [I] */ + u_int vc_state; /* [a] */ + SLIST_ENTRY(vcpu) vc_vcpu_link; /* [V] */ - uint8_t vc_virt_mode; + uint8_t vc_virt_mode; /* [I] */ struct rwlock vc_lock; - struct cpu_info *vc_last_pcpu; - struct vm_exit vc_exit; + struct refcnt vc_refcnt; /* [a] */ + + struct cpu_info *vc_last_pcpu; /* [v] */ + struct vm_exit vc_exit; /* [v] */ - uint16_t vc_intr; - uint8_t vc_irqready; + uint16_t vc_intr; /* [v] */ + uint8_t vc_irqready; /* [v] */ - uint8_t vc_fpuinited; + uint8_t vc_fpuinited; /* [v] */ - uint64_t vc_h_xcr0; + uint64_t vc_h_xcr0; /* [v] */ - struct vcpu_gueststate vc_gueststate; + struct vcpu_gueststate vc_gueststate; /* [v] */ uint8_t vc_event; - uint32_t vc_pvclock_version; - paddr_t vc_pvclock_system_gpa; - uint32_t vc_pvclock_system_tsc_mul; + uint32_t vc_pvclock_version; /* [v] */ + paddr_t vc_pvclock_system_gpa; /* [v] */ + uint32_t vc_pvclock_system_tsc_mul; /* [v] */ /* Shadowed MSRs */ - uint64_t vc_shadow_pat; + uint64_t vc_shadow_pat; /* [v] */ - /* VMX only */ + /* VMX only (all requiring [v]) */ uint64_t vc_vmx_basic; uint64_t vc_vmx_entry_ctls; uint64_t vc_vmx_true_entry_ctls; @@ -964,11 +974,11 @@ struct vcpu { uint8_t vc_vmx_vpid_enabled; uint64_t vc_vmx_cr0_fixed1; uint64_t vc_vmx_cr0_fixed0; - uint32_t vc_vmx_vmcs_state; + uint32_t vc_vmx_vmcs_state; /* [a] */ #define VMCS_CLEARED 0 #define VMCS_LAUNCHED 1 - /* SVM only */ + /* SVM only (all requiring [v]) */ vaddr_t vc_svm_hsa_va; paddr_t vc_svm_hsa_pa; vaddr_t vc_svm_ioio_va;